2:1:1     For the Bright Future-Bulk Heterojunction Polymer Solar Cells with Power Conversion Efficiency of 7.4%
DOI:10.1002/adma.200903528 JN:ADVANCED MATERIALS PY:2010 TC:2066 AU: Liang, Yongye;Xu, Zheng;Xia, Jiangbin;Tsai, Szu-Ting;Wu, Yue;Li, Gang;Ray, Claire;Yu, Luping;
2:1:2 Polymer-Fullerene Bulk-Heterojunction Solar Cells
DOI:10.1002/adma.200903697 JN:ADVANCED MATERIALS PY:2010 TC:950 AU: Brabec, Christoph J.;Gowrisanker, Srinivas;Halls, Jonathan J. M.;Laird, Darin;Jia, Shijun;Williams, Shawn P.;
2:1:3 Bulk Heterojunction Solar Cells Using Thieno[3,4-c]pyrrole-4,6-dione and Dithieno[3,2-b:2 ',3 '-d]silole Copolymer with a Power Conversion Efficiency of 7.3%
DOI:10.1021/ja200314m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:688 AU: Chu, Ta-Ya;Lu, Jianping;Beaupre, Serge;Zhang, Yanguang;Pouliot, Jean-Remi;Wakim, Salem;Zhou, Jiayun;Leclerc, Mario;Li, Zhao;Ding, Jianfu;Tao, Ye;
2:1:4 Molecular Design and Ordering Effects in pi-Functional Materials for Transistor and Solar Cell Applications
DOI:10.1021/ja2073643 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:502 AU: Beaujuge, Pierre M.;Frechet, Jean M. J.;
2:1:5 Fluorine Substituted Conjugated Polymer of Medium Band Gap Yields 7% Efficiency in Polymer-Fullerene Solar Cells
DOI:10.1021/ja1112595 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:648 AU: Price, Samuel C.;Stuart, Andrew C.;Yang, Liqiang;Zhou, Huaxing;You, Wei;
2:1:6 Synthetic Control of Structural Order in N-Alkylthieno[3,4-c]pyrrole-4,6-dione-Based Polymers for Efficient Solar Cells
DOI:10.1021/ja103275u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:551 AU: Piliego, Claudia;Holcombe, Thomas W.;Douglas, Jessica D.;Woo, Claire H.;Beaujuge, Pierre M.;Frechet, Jean M. J.;
2:1:7 Dithienogermole As a Fused Electron Donor in Bulk Heterojunction Solar Cells
DOI:10.1021/ja204056m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:401 AU: Amb, Chad M.;Chen, Song;Graham, Kenneth R.;Subbiah, Jegadesan;Small, Cephas E.;So, Franky;Reynolds, John R.;
2:1:8 A Thieno[3,4-c]pyrrole-4,6-dione-Based Copolymer for Efficient Solar Cells
DOI:10.1021/ja101888b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:450 AU: Zou, Yingping;Najari, Ahmed;Berrouard, Philippe;Beaupre, Serge;Aich, Badrou Reda;Tao, Ye;Leclerc, Mario;
2:1:9 25th Anniversary Article: A Decade of Organic/Polymeric Photovoltaic Research
DOI:10.1002/adma.201302563 JN:ADVANCED MATERIALS PY:2013 TC:231 AU: Dou, Letian;You, Jingbi;Hong, Ziruo;Xu, Zheng;Li, Gang;Street, Robert A.;Yang, Yang;
2:1:10 Processable Low-Bandgap Polymers for Photovoltaic Applications
DOI:10.1021/cm1021855 JN:CHEMISTRY OF MATERIALS PY:2011 TC:451 AU: Boudreault, Pierre-Luc T.;Najari, Ahmed;Leclerc, Mario;
2:1:11 Systematic Investigation of Benzodithiophene- and Diketopyrrolopyrrole-Based Low-Bandgap Polymers Designed for Single Junction and Tandem Polymer Solar Cells
DOI:10.1021/ja301460s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:241 AU: Dou, Letian;Gao, Jing;Richard, Eric;You, Jingbi;Chen, Chun-Chao;Cha, Kitty C.;He, Youjun;Li, Gang;Yang, Yang;
2:1:12 Recent development of push-pull conjugated polymers for bulk-heterojunction photovoltaics: rational design and fine tailoring of molecular structures
DOI:10.1039/c2jm30470h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:168 AU: Duan, Chunhui;Huang, Fei;Cao, Yong;
2:1:13 An Easily Synthesized Blue Polymer for High-Performance Polymer Solar Cells
DOI:10.1002/adma.201002225 JN:ADVANCED MATERIALS PY:2010 TC:251 AU: Wang, Ergang;Hou, Lintao;Wang, Zhongqiang;Hellstrom, Stefan;Zhang, Fengling;Inganas, Olle;Andersson, Mats R.;
2:1:14 Synthesis of Fluorinated Polythienothiophene-co-benzodithiophenes and Effect of Fluorination on the Photovoltaic Properties
DOI:10.1021/ja108601g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:248 AU: Son, Hae Jung;Wang, Wei;Xu, Tao;Liang, Yongye;Wu, Yue;Li, Gang;Yu, Luping;
2:1:15 Linear Side Chains in Benzo[1,2-b:4,5-b ']dithiophene-Thieno[3,4-c]pyrrole-4,6-dione Polymers Direct Self-Assembly and Solar Cell Performance
DOI:10.1021/ja400365b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:202 AU: Cabanetos, Clement;El Labban, Abdulrahman;Bartelt, Jonathan A.;Douglas, Jessica D.;Mateker, William R.;Frechet, Jean M. J.;McGehee, Michael D.;Beaujuge, Pierre M.;
2:1:16 Improved Performance of Polymer Bulk Heterojunction Solar Cells Through the Reduction of Phase Separation via Solvent Additives
DOI:10.1002/adma.200903677 JN:ADVANCED MATERIALS PY:2010 TC:231 AU: Hoven, Corey V.;Dang, Xuan-Dung;Coffin, Robert C.;Peet, Jeff;Nguyen, Thuc-Quyen;Bazan, Guillermo C.;
2:1:17 Correlating molecular morphology with optoelectronic function in solar cells based on low band-gap copolymer:fullerene blends
DOI:10.1039/c3tc31235f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Wang, Tao;Pearson, Andrew J.;Lidzey, David G.;
2:1:18 An Easily Accessible Isoindigo-Based Polymer for High-Performance Polymer Solar Cells
DOI:10.1021/ja206610u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:196 AU: Wang, Ergang;Ma, Zaifei;Zhang, Zhen;Vandewal, Koen;Henriksson, Patrik;Inganas, Olle;Zhang, Fengling;Andersson, Mats R.;
2:1:19 Efficient Solar Cells Based on an Easily Accessible Diketopyrrolopyrrole Polymer
DOI:10.1002/adma.201001449 JN:ADVANCED MATERIALS PY:2010 TC:243 AU: Bijleveld, Johan C.;Gevaerts, Veronique S.;Di Nuzzo, Daniele;Turbiez, Mathieu;Mathijssen, Simon G. J.;de Leeuw, Dago M.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:20 Side-Chain Tunability of Furan-Containing Low-Band-Gap Polymers Provides Control of Structural Order in Efficient Solar Cells
DOI:10.1021/ja2089662 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:150 AU: Yiu, Alan T.;Beaujuge, Pierre M.;Lee, Olivia P.;Woo, Claire H.;Toney, Michael F.;Frechet, Jean M. J.;
2:1:21 Donor Acceptor Conjugated Polymer Based on Naphtho[1,2-c:5,6-c]bis[1,2,5]thiadiazole for High-Performance Polymer Solar Cells
DOI:10.1021/ja201131h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:252 AU: Wang, Ming;Hu, Xiaowen;Liu, Peng;Li, Wei;Gong, Xiong;Huang, Fei;Cao, Yong;
2:1:22 Efficient Polymer Solar Cells Based on the Copolymers of Benzodithiophene and Thienopyrroledione
DOI:10.1021/cm100417z JN:CHEMISTRY OF MATERIALS PY:2010 TC:245 AU: Zhang, Yong;Hau, Steven K.;Yip, Hin-Lap;Sun, Ying;Acton, Orb;Jen, Alex K-Y.;
2:1:23 Incorporation of Furan into Low Band-Gap Polymers for Efficient Solar Cells
DOI:10.1021/ja108115y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:237 AU: Woo, Claire H.;Beaujuge, Pierre M.;Holcombe, Thomas W.;Lee, Olivia P.;Frechet, Jean M. J.;
2:1:24 Efficient Tandem and Triple-Junction Polymer Solar Cells
DOI:10.1021/ja401434x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:175 AU: Li, Weiwei;Furlan, Alice;Hendriks, Koen H.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:25 Improving Device Efficiency of Polymer/Fullerene Bulk Heterojunction Solar Cells Through Enhanced Crystallinity and Reduced Grain Boundaries Induced by Solvent Additives
DOI:10.1002/adma.201101274 JN:ADVANCED MATERIALS PY:2011 TC:218 AU: Su, Ming-Shin;Kuo, Chih-Yin;Yuan, Mao-Chuan;Jeng, U-Ser;Su, Chun-Jen;Wei, Kung-Hwa;
2:1:26 Improving the Ordering and Photovoltaic Properties by Extending pi-Conjugated Area of Electron-Donating Units in Polymers with D-A Structure
DOI:10.1002/adma.201200995 JN:ADVANCED MATERIALS PY:2012 TC:198 AU: Huang, Ye;Guo, Xia;Liu, Feng;Huo, Lijun;Chen, Yuning;Russell, Thomas P.;Han, Charles C.;Li, Yongfang;Hou, Jianhui;
2:1:27 A Selenium-Substituted Low-Bandgap Polymer with Versatile Photovoltaic Applications
DOI:10.1002/adma.201203827 JN:ADVANCED MATERIALS PY:2013 TC:180 AU: Dou, Letian;Chang, Wei-Hsuan;Gao, Jing;Chen, Chun-Chao;You, Jingbi;Yang, Yang;
2:1:28 Influence of the Bridging Atom on the Performance of a Low-Bandgap Bulk Heterojunction Solar Cell
DOI:10.1002/adma.200900529 JN:ADVANCED MATERIALS PY:2010 TC:197 AU: Scharber, Markus C.;Koppe, Markus;Gao, Jia;Cordella, Fabrizio;Loi, Maria A.;Denk, Patrick;Morana, Mauro;Egelhaaf, Hans-Joachim;Forberich, Karen;Dennler, Gilles;Gaudiana, Russ;Waller, Dave;Zhu, Zhengguo;Shi, Xiaobo;Brabec, Christoph J.;
2:1:29 Indacenodithiophene and Quinoxaline-Based Conjugated Polymers for Highly Efficient Polymer Solar Cells
DOI:10.1021/cm200316s JN:CHEMISTRY OF MATERIALS PY:2011 TC:181 AU: Zhang, Yong;Zou, Jingyu;Yip, Hin-Lap;Chen, Kung-Shih;Zeigler, David F.;Sun, Ying;Jen, Alex K-Y.;
2:1:30 Bithiopheneimide-Dithienosilole/Dithienogermole Copolymers for Efficient Solar Cells: Information from Structure-Property-Device Performance Correlations and Comparison to Thieno[3,4-c]pyrrole-4,6-dione Analogues
DOI:10.1021/ja3081583 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:95 AU: Guo, Xugang;Zhou, Nanjia;Lou, Sylvia J.;Hennek, Jonathan W.;Ponce Ortiz, Rocio;Butler, Melanie R.;Boudreault, Pierre-Luc T.;Strzalka, Joseph;Morin, Pierre-Olivier;Leclerc, Mario;Lopez Navarrete, Juan T.;Ratner, Mark A.;Chen, Lin X.;Chang, Robert P. H.;Facchetti, Antonio;Marks, Tobin J.;
2:1:31 Enhancing the Photocurrent in Diketopyrrolopyrrole-Based Polymer Solar Cells via Energy Level Control
DOI:10.1021/ja305358z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:116 AU: Li, Weiwei;Roelofs, W. S. Christian;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:32 Fluorinated Copolymer PCPDTBT with Enhanced Open-Circuit Voltage and Reduced Recombination for Highly Efficient Polymer Solar Cells
DOI:10.1021/ja305039j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:109 AU: Albrecht, Steve;Janietz, Silvia;Schindler, Wolfram;Frisch, Johannes;Kurpiers, Jona;Kniepert, Juliane;Inal, Sahika;Pingel, Patrick;Fostiropoulos, Konstantinos;Koch, Norbert;Neher, Dieter;
2:1:33 Silicon Atom Substitution Enhances Interchain Packing in a Thiophene-Based Polymer System
DOI:10.1002/adma.200902469 JN:ADVANCED MATERIALS PY:2010 TC:215 AU: Chen, Hsiang-Yu;Hou, Jianhui;Hayden, Amy E.;Yang, Hoichang;Houk, K. N.;Yang, Yang;
2:1:34 When Function Follows Form: Effects of Donor Copolymer Side Chains on Film Morphology and BHJ Solar Cell Performance
DOI:10.1002/adma.201002687 JN:ADVANCED MATERIALS PY:2010 TC:179 AU: Szarko, Jodi M.;Guo, Jianchang;Liang, Yongye;Lee, Byeongdu;Rolczynski, Brian S.;Strzalka, Joseph;Xu, Tao;Loser, Stephen;Marks, Tobin J.;Yu, Luping;Chen, Lin X.;
2:1:35 Prominent Short-Circuit Currents of Fluorinated Quinoxaline-Based Copolymer Solar Cells with a Power Conversion Efficiency of 8.0%
DOI:10.1021/cm302861s JN:CHEMISTRY OF MATERIALS PY:2012 TC:161 AU: Chen, Hsieh-Chih;Chen, Ying-Hsiao;Liu, Chi-Chang;Chien, Yun-Chen;Chou, Shang-Wei;Chou, Pi-Tai;
2:1:36 Effects of Additives on the Morphology of Solution Phase Aggregates Formed by Active Layer Components of High-Efficiency Organic Solar Cells
DOI:10.1021/ja2085564 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:138 AU: Lou, Sylvia J.;Szarko, Jodi M.;Xu, Tao;Yu, Luping;Marks, Tobin J.;Chen, Lin X.;
2:1:37 Fluorine Substituents Reduce Charge Recombination and Drive Structure and Morphology Development in Polymer Solar Cells
DOI:10.1021/ja309289u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:100 AU: Stuart, Andrew C.;Tumbleston, John R.;Zhou, Huaxing;Li, Wentao;Liu, Shubin;Ade, Harald;You, Wei;
2:1:38 Efficient Polymer Solar Cells Based on Benzothiadiazole and Alkylphenyl Substituted Benzodithiophene with a Power Conversion Efficiency over 8%
DOI:10.1002/adma.201301494 JN:ADVANCED MATERIALS PY:2013 TC:146 AU: Zhang, Maojie;Gu, Yu;Guo, Xia;Liu, Feng;Zhang, Shaoqing;Huo, Lijun;Russell, Thomas P.;Hou, Jianhui;
2:1:39 Solution Processed Polymer Tandem Solar Cell Using Efficient Small and Wide bandgap Polymer:Fullerene Blends
DOI:10.1002/adma.201104939 JN:ADVANCED MATERIALS PY:2012 TC:111 AU: Gevaerts, Veronique S.;Furlan, Alice;Wienk, Martijn M.;Turbiez, Mathieu;Janssen, Rene A. J.;
2:1:40 Efficient Small Bandgap Polymer Solar Cells with High Fill Factors for 300 nm Thick Films
DOI:10.1002/adma.201300017 JN:ADVANCED MATERIALS PY:2013 TC:101 AU: Li, Weiwei;Hendriks, Koen H.;Roelofs, W. S. Christian;Kim, Youngju;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:41 From Binary to Ternary Solvent: Morphology Fine-tuning of D/A Blends in PDPP3T-based Polymer Solar Cells
DOI:10.1002/adma.201202855 JN:ADVANCED MATERIALS PY:2012 TC:116 AU: Ye, Long;Zhang, Shaoqing;Ma, Wei;Fan, Benhu;Guo, Xia;Huang, Ye;Ade, Harald;Hou, Jianhui;
2:1:42 Nanomorphology and Charge Generation in Bulk Heterojunctions Based on Low-Bandgap Dithiophene Polymers with Different Bridging Atoms
DOI:10.1002/adfm.200900931 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:120 AU: Morana, Mauro;Azimi, Hamed;Dennler, Gilles;Egelhaaf, Hans-Joachim;Scharber, Markus;Forberich, Karen;Hauch, Jens;Gaudiana, Russell;Waller, David;Zhu, Zenghuo;Hingerl, Kurt;van Bavel, Svetlana S.;Loos, Joachim;Brabec, Christoph J.;
2:1:43 Improved Charge Transport and Absorption Coefficient in Indacenodithieno[3,2-b]thiophene-based Ladder-Type Polymer Leading to Highly Efficient Polymer Solar Cells
DOI:10.1002/adma.201203246 JN:ADVANCED MATERIALS PY:2012 TC:115 AU: Xu, Yun-Xiang;Chueh, Chu-Chen;Yip, Hin-Lap;Ding, Fei-Zhi;Li, Yong-Xi;Li, Chang-Zhi;Li, Xiaosong;Chen, Wen-Chang;Jen, Alex K. -Y.;
2:1:44 Structural Order in Bulk Heterojunction Films Prepared with Solvent Additives
DOI:10.1002/adma.201003690 JN:ADVANCED MATERIALS PY:2011 TC:126 AU: Rogers, James T.;Schmidt, Kristin;Toney, Michael F.;Kramer, Edward J.;Bazan, Guillermo C.;
2:1:45 An Easy and Effective Method to Modulate Molecular Energy Level of the Polymer Based on Benzodithiophene for the Application in Polymer Solar Cells
DOI:10.1002/adma.201304631 JN:ADVANCED MATERIALS PY:2014 TC:38 AU: Zhang, Maojie;Guo, Xia;Ma, Wei;Zhang, Shaoqing;Huo, Lijun;Ade, Harald;Hou, Jianhui;
2:1:46 Bithiophene Imide and Benzodithiophene Copolymers for Efficient Inverted Polymer Solar Cells
DOI:10.1002/adma.201103948 JN:ADVANCED MATERIALS PY:2012 TC:78 AU: Zhou, Nanjia;Guo, Xugang;Ortiz, Rocio Ponce;Li, Shiqiang;Zhang, Shiming;Chang, Robert P. H.;Facchetti, Antonio;Marks, Tobin J.;
2:1:47 Effect of Processing Additive on the Nanomorphology of a Bulk Heterojunction Material
DOI:10.1021/nl101923m JN:NANO LETTERS PY:2010 TC:130 AU: Moon, Ji Sun;Takacs, Christopher J.;Cho, Shinuk;Coffin, Robert C.;Kim, Heejoo;Bazan, Guillermo C.;Heeger, Alan J.;
2:1:48 Synergistic Effect of Fluorination on Molecular Energy Level Modulation in Highly Efficient Photovoltaic Polymers
DOI:10.1002/adma.201304427 JN:ADVANCED MATERIALS PY:2014 TC:87 AU: Zhang, Maojie;Guo, Xia;Zhang, Shaoqing;Hou, Jianhui;
2:1:49 Synthesis and Photovoltaic Properties of D-A Copolymers Based on Alkyl-Substituted Indacenodithiophene Donor Unit
DOI:10.1021/cm2019586 JN:CHEMISTRY OF MATERIALS PY:2011 TC:103 AU: Zhang, Maojie;Guo, Xia;Wang, Xiaochen;Wang, Haiqiao;Li, Yongfang;
2:1:50 Influence of D/A Ratio on Photovoltaic Performance of a Highly Efficient Polymer Solar Cell System
DOI:10.1002/adma.201202719 JN:ADVANCED MATERIALS PY:2012 TC:92 AU: Guo, Xia;Zhang, Maojie;Tan, Jiahui;Zhang, Shaoqing;Huo, Lijun;Hu, Wenping;Li, Yongfang;Hou, Jianhui;
2:1:51 Efficient Polymer Solar Cells Based on a Low Bandgap Semi-crystalline DPP Polymer-PCBM Blends
DOI:10.1002/adma.201200902 JN:ADVANCED MATERIALS PY:2012 TC:87 AU: Liu, Feng;Gu, Yu;Wang, Cheng;Zhao, Wei;Chen, Dian;Briseno, Alejandro L.;Russell, Thomas P.;
2:1:52 Design and control of organic semiconductors and their nanostructures for polymer-fullerene-based photovoltaic devices
DOI:10.1039/c3ta15387h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:24 AU: Umeyama, Tomokazu;Imahori, Hiroshi;
2:1:53 Controlling Solution-Phase Polymer Aggregation with Molecular Weight and Solvent Additives to Optimize Polymer-Fullerene Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201301733 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:34 AU: Bartelt, Jonathan A.;Douglas, Jessica D.;Mateker, William R.;El Labban, Abdulrahman;Tassone, Christopher J.;Toney, Michael F.;Frechet, Jean M. J.;Beaujuge, Pierre M.;McGehee, Michael D.;
2:1:54 Effects of the Molecular Weight and the Side-Chain Length on the Photovoltaic Performance of Dithienosilole/Thienopyrrolodione Copolymers
DOI:10.1002/adfm.201102623 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:109 AU: Chu, Ta-Ya;Lu, Jianping;Beaupre, Serge;Zhang, Yanguang;Pouliot, Jean-Remi;Zhou, Jiayun;Najari, Ahmed;Leclerc, Mario;Tao, Ye;
2:1:55 Factors Limiting Device Efficiency in Organic Photovoltaics
DOI:10.1002/adma.201202873 JN:ADVANCED MATERIALS PY:2013 TC:135 AU: Janssen, Rene A. J.;Nelson, Jenny;
2:1:56 Enhanced Photovoltaic Performance by Modulating Surface Composition in Bulk Heterojunction Polymer Solar Cells Based on PBDTTT-C-T/PC71BM
DOI:10.1002/adma.201400411 JN:ADVANCED MATERIALS PY:2014 TC:69 AU: Guo, Xia;Zhang, Maojie;Ma, Wei;Ye, Long;Zhang, Shaoqing;Liu, Shengjian;Ade, Harald;Huang, Fei;Hou, Jianhui;
2:1:57 Structures and properties of conjugated Donor-Acceptor copolymers for solar cell applications
DOI:10.1039/c2jm14951f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:105 AU: Zhang, Zhi-Guo;Wang, Jizheng;
2:1:58 Computational modelling of donor-acceptor conjugated polymers through engineered backbone manipulations based on a thiophene-quinoxaline alternating copolymer
DOI:10.1039/c3ta14456a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Zhuang, Wenliu;Lundin, Angelica;Andersson, Mats R.;
2:1:59 Efficient Polymer Solar Cells with a High Open Circuit Voltage of 1 Volt
DOI:10.1002/adfm.201201535 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:86 AU: Yuan, Jianyu;Zhai, Zhichun;Dong, Huilong;Li, Jing;Jiang, Zuoquan;Li, Youyong;Ma, Wanli;
2:1:60 Benzobisthiazole as Weak Donor for Improved Photovoltaic Performance: Microwave Conductivity Technique Assisted Molecular Engineering
DOI:10.1002/adfm.201301371 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Tsuji, Masashi;Saeki, Akinori;Koizumi, Yoshiko;Matsuyama, Naoto;Vijayakumar, Chakkooth;Seki, Shu;
2:1:61 A Weak Donor-Strong Acceptor Strategy to Design Ideal Polymers for Organic Solar Cells
DOI:10.1021/am1000344 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:151 AU: Zhou, Huaxing;Yang, Liqiang;Stoneking, Sarah;You, Wei;
2:1:62 Next-Generation Polymer Solar Cell Materials: Designed Control of Interfacial Variables
DOI:10.1021/nn301140w JN:ACS NANO PY:2012 TC:19 AU: Lecover, Rachel;Williams, Nicholas;Markovic, Nina;Reich, Daniel H.;Naiman, Daniel Q.;Katz, Howard E.;
2:1:63 Effects of Side Chains on Thiazolothiazole-Based Copolymer Semiconductors for High Performance Solar Cells
DOI:10.1002/aenm.201100215 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:113 AU: Subramaniyan, Selvam;Xin, Hao;Kim, Felix Sunjoo;Shoaee, Safa;Durrant, James R.;Jenekhe, Samson A.;
2:1:64 Combination of Molecular, Morphological, and Interfacial Engineering to Achieve Highly Efficient and Stable Plastic Solar Cells
DOI:10.1002/adma.201103945 JN:ADVANCED MATERIALS PY:2012 TC:87 AU: Chang, Chih-Yu;Cheng, Yen-Ju;Hung, Shih-Hsiu;Wu, Jhong-Sian;Kao, Wei-Shun;Lee, Chia-Hao;Hsu, Chain-Shu;
2:1:65 Examining the Effect of the Dipole Moment on Charge Separation in Donor-Acceptor Polymers for Organic Photovoltaic Applications
DOI:10.1021/ja208642b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:95 AU: Carsten, Bridget;Szarko, Jodi M.;Son, Hae Jung;Wang, Wei;Lu, Luyao;He, Feng;Rolczynski, Brian S.;Lou, Sylvia J.;Chen, Lin X.;Yu, Luping;
2:1:66 25th Anniversary Article: Isoindigo- Based Polymers and Small Molecules for Bulk Heterojunction Solar Cells and Field Effect Transistors
DOI:10.1002/adma.201304945 JN:ADVANCED MATERIALS PY:2014 TC:45 AU: Wang, Ergang;Mammo, Wendimagegn;Andersson, Mats R.;
2:1:67 Improved Performance of Molecular Bulk-Heterojunction Photovoltaic Cells through Predictable Selection of Solvent Additives
DOI:10.1002/adfm.201102456 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:70 AU: Graham, Kenneth R.;Wieruszewski, Patrick M.;Stalder, Romain;Hartel, Michael J.;Mei, Jianguo;So, Franky;Reynolds, John R.;
2:1:68 Importance of the Donor:Fullerene Intermolecular Arrangement for High-Efficiency Organic Photovoltaics
DOI:10.1021/ja502985g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Graham, Kenneth R.;Cabanetos, Clement;Jahnke, Justin P.;Idso, Matthew N.;El Labban, Abdulrahman;Ndjawa, Guy O. Ngongang;Heumueller, Thomas;Vandewal, Koen;Salleo, Alberto;Chmelka, Bradley F.;Amassian, Aram;Beaujuge, Pierre M.;McGehee, Michael D.;
2:1:69 Silaindacenodithiophene-Based Low Band Gap Polymers - The Effect of Fluorine Substitution on Device Performances and Film Morphologies
DOI:10.1002/adfm.201102941 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:82 AU: Schroeder, Bob C.;Huang, Zhenggang;Ashraf, Raja Shahid;Smith, Jeremy;D'Angelo, Pasquale;Watkins, Scott E.;Anthopoulos, Thomas D.;Durrant, James R.;McCulloch, Iain;
2:1:70 Higher Molecular Weight Leads to Improved Photoresponsivity, Charge Transport and Interfacial Ordering in a Narrow Bandgap Semiconducting Polymer
DOI:10.1002/adfm.201001271 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:73 AU: Tong, Minghong;Cho, Shinuk;Rogers, James T.;Schmidt, Kristin;Hsu, Ben B. Y.;Moses, Daniel;Coffin, Robert C.;Kramer, Edward J.;Bazan, Guillermo C.;Heeger, Alan J.;
2:1:71 Novel Benzo[1,2-b:4,5-b ']dithiophene-Benzothiadiazole Derivatives with Variable Side Chains for High-Performance Solar Cells
DOI:10.1002/adma.201101933 JN:ADVANCED MATERIALS PY:2011 TC:123 AU: Peng, Qiang;Liu, Xiangju;Su, Dan;Fu, Guanwen;Xu, Jun;Dai, Liming;
2:1:72 Effect of Fluorination on the Properties of a Donor-Acceptor Copolymer for Use in Photovoltaic Cells and Transistors
DOI:10.1021/cm301910t JN:CHEMISTRY OF MATERIALS PY:2013 TC:67 AU: Bronstein, Hugo;Frost, Jarvist M.;Hadipour, Afshin;Kim, Youngju;Nielsen, Christian B.;Ashraf, Raja Shahid;Rand, Barry P.;Watkins, Scott;McCulloch, Iain;
2:1:73 Are we there yet? Design of better conjugated polymers for polymer solar cells
DOI:10.1039/c1jm12388b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:87 AU: Son, Hae Jung;He, Feng;Carsten, Bridget;Yu, Luping;
2:1:74 Design of benzodithiophene-diketopyrrolopyrrole based donor-acceptor copolymers for efficient organic field effect transistors and polymer solar cells
DOI:10.1039/c2jm34004f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:30 AU: Yuan, Jianyu;Huang, Xiaodong;Zhang, Fengjiao;Lu, Jialing;Zhai, Zhichun;Di, Chongan;Jiang, Zuoquan;Ma, Wanli;
2:1:75 Design of terpolymers as electron donors for highly efficient polymer solar cells
DOI:10.1039/c4ta02426e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:22 AU: Kang, Tae Eui;Kim, Ki-Hyun;Kim, Bumjoon J.;
2:1:76 Optimization of Solubility, Film Morphology and Photodetector Performance by Molecular Side-Chain Engineering of Low-Bandgap Thienothiadiazole-Based Polymers
DOI:10.1002/adfm.201401948 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Qi, Ji;Zhou, Xiaokang;Yang, Dezhi;Qiao, Wenqiang;Ma, Dongge;Wang, Zhi Yuan;
2:1:77 A Series of New Medium-Bandgap Conjugated Polymers Based on Naphtho[1,2-c:5,6-c]bis(2-octyl-[1,2,3]triazole) for High-Performance Polymer Solar Cells
DOI:10.1002/adma.201301547 JN:ADVANCED MATERIALS PY:2013 TC:46 AU: Dong, Yang;Hu, Xiaowen;Duan, Chunhui;Liu, Peng;Liu, Shengjian;Lan, Liuyuan;Chen, Dongcheng;Ying, Lei;Su, Shijian;Gong, Xiong;Huang, Fei;Cao, Yong;
2:1:78 Influences of the Non-Covalent Interaction Strength on Reaching High Solid-State Order and Device Performance of a Low Bandgap Polymer with Axisymmetrical Structural Units
DOI:10.1002/adma.201300098 JN:ADVANCED MATERIALS PY:2013 TC:37 AU: Jheng, Jyun-Fong;Lai, Yu-Ying;Wu, Jhong-Sian;Chao, Yi-Hsiang;Wang, Chien-Lung;Hsu, Chain-Shu;
2:1:79 Dithienocarbazole and Isoindigo based Amorphous Low Bandgap Conjugated Polymers for Efficient Polymer Solar Cells
DOI:10.1002/adma.201303586 JN:ADVANCED MATERIALS PY:2014 TC:59 AU: Deng, Yunfeng;Liu, Jian;Wang, Jiantai;Liu, Lihui;Li, Weili;Tian, Hongkun;Zhang, Xiaojie;Xie, Zhiyuan;Geng, Yanhou;Wang, Fosong;
2:1:80 Enhanced Open Circuit Voltage and Efficiency of Donor-Acceptor Copolymer Solar Cells by Using Indene-C60 Bisadduct
DOI:10.1021/cm300355e JN:CHEMISTRY OF MATERIALS PY:2012 TC:62 AU: Xin, Hao;Subramaniyan, Selvam;Kwon, Tae-Woo;Shoaee, Safa;Durrant, James R.;Jenekhe, Samson A.;
2:1:81 Ladder-Type Oligo-p-phenylene-Containing Copolymers with High Open-Circuit Voltages and Ambient Photovoltaic Activity
DOI:10.1021/ja909111p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:127 AU: Zheng, Qingdong;Jung, Byung Jun;Sun, Jia;Katz, Howard E.;
2:1:82 Conjugated Side-Chain-Isolated D-A Copolymers Based on Benzo[1,2-b:4,5-b ']dithiophene-alt-dithienylbenzotriazole: Synthesis and Photovoltaic Properties
DOI:10.1021/cm3017006 JN:CHEMISTRY OF MATERIALS PY:2012 TC:94 AU: Min, Jie;Zhang, Zhi-Guo;Zhang, Siyuan;Li, Yongfang;
2:1:83 Fused Dithienogermolodithiophene Low Band Gap Polymers for High-Performance Organic Solar Cells without Processing Additives
DOI:10.1021/ja311700u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:55 AU: Zhong, Hongliang;Li, Zhe;Deledalle, Florent;Fregoso, Elisa Collado;Shahid, Munazza;Fei, Zhuping;Nielsen, Christian B.;Yaacobi-Gross, Nir;Rossbauer, Stephan;Anthopoulos, Thomas D.;Durrant, James R.;Heeney, Martin;
2:1:84 Conjugated polymers based on C, Si and N-bridged dithiophene and thienopyrroledione units: synthesis, field-effect transistors and bulk heterojunction polymer solar cells
DOI:10.1039/c0jm03927f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:71 AU: Zhang, Yong;Zou, Jingyu;Yip, Hin-Lap;Sun, Ying;Davies, Josh A.;Chen, Kung-Shih;Acton, Orb;Jen, Alex K-Y.;
2:1:85 Synthesis and photovoltaic performance of low band gap copolymers based on diketopyrrolopyrrole and tetrathienoacene with different conjugated bridges
DOI:10.1039/c3ta14022a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:14 AU: Zeng, Zhi;Li, Ying;Deng, Jufu;Huang, Qin;Peng, Qiang;
2:1:86 The Role of N-Doped Multiwall Carbon Nanotubes in Achieving Highly Efficient Polymer Bulk Heterojunction Solar Cells
DOI:10.1021/nl304533j JN:NANO LETTERS PY:2013 TC:54 AU: Lu, Luyao;Xu, Tao;Chen, Wei;Lee, Ju Min;Luo, Zhiqiang;Jung, In Hwan;Park, Hyung Il;Kim, Sang Ouk;Yu, Luping;
2:1:87 High-Efficiency Organic Solar Cells Based on End-Functional-Group-Modified Poly(3-hexylthiophene)
DOI:10.1002/adma.200902803 JN:ADVANCED MATERIALS PY:2010 TC:87 AU: Kim, Jong Soo;Lee, Youngmin;Lee, Ji Hwang;Park, Jong Hwan;Kim, Jin Kon;Cho, Kilwon;
2:1:88 End-Capping Effect of a Narrow Bandgap Conjugated Polymer on Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201004629 JN:ADVANCED MATERIALS PY:2011 TC:78 AU: Park, Jin Kuen;Jo, Jang;Seo, Jung Hwa;Moon, Ji Sun;Park, Yeong Don;Lee, Kwanghee;Heeger, Alan J.;Bazan, Guillermo C.;
2:1:89 Drastic Change of Molecular Orientation in a Thiazolothiazole Copolymer by Molecular-Weight Control and Blending with PC61BM Leads to High Efficiencies in Solar Cells
DOI:10.1002/adma.201103065 JN:ADVANCED MATERIALS PY:2012 TC:59 AU: Osaka, Itaru;Saito, Masahiko;Mori, Hiroki;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:1:90 Synthesis of a New Ladder-Type Benzodi(cyclopentadithiophene) Arene with Forced Planarization Leading to an Enhanced Efficiency of Organic Photovoltaics
DOI:10.1021/cm3024082 JN:CHEMISTRY OF MATERIALS PY:2012 TC:45 AU: Chen, Yung-Lung;Chang, Chih-Yu;Cheng, Yen-Ju;Hsu, Chain-Shu;
2:1:91 Direct Evaluation of Intrinsic Optoelectronic Performance of Organic Photovoltaic Cells with Minimizing Impurity and Degradation Effects
DOI:10.1002/aenm.201100143 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:53 AU: Saeki, Akinori;Tsuji, Masashi;Seki, Shu;
2:1:92 A New Terthiophene-Thienopyrrolodione Copolymer-Based Bulk Heterojunction Solar Cell with High Open-Circuit Voltage
DOI:10.1002/aenm.201200350 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:58 AU: Jo, Jang;Pron, Agnieszka;Berrouard, Philippe;Leong, Wei Lin;Yuen, Jonathan D.;Moon, Ji Sun;Leclerc, Mario;Heeger, Alan J.;
2:1:93 Improving Structural Order for a High-Performance Diketopyrrolopyrrole-Based Polymer Solar Cell with a Thick Active Layer
DOI:10.1002/aenm.201300739 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:13 AU: Gao, Jing;Dou, Letian;Chen, Wei;Chen, Chun-Chao;Guo, Xuanrong;You, Jingbi;Bob, Brion;Chang, Wei-Hsuan;Strzalka, Joseph;Wang, Cheng;Li, Gang;Yang, Yang;
2:1:94 Synthesis and Characterization of New Thieno[3,4-c] pyrrole-4,6-dione Derivatives for Photovoltaic Applications
DOI:10.1002/adfm.201001771 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:103 AU: Najari, Ahmed;Beaupre, Serge;Berrouard, Philippe;Zou, Yingping;Pouliot, Jean-Remi;Lepage-Perusse, Charlotte;Leclerc, Mario;
2:1:95 Solar-Energy Production and Energy-Efficient Lighting: Photovoltaic Devices and White-Light-Emitting Diodes Using Poly(2,7-fluorene), Poly(2,7-carbazole), and Poly(2,7-dibenzosilole) Derivatives
DOI:10.1002/adma.200903484 JN:ADVANCED MATERIALS PY:2010 TC:116 AU: Beaupre, Serge;Boudreault, Pierre-Luc T.;Leclerc, Mario;
2:1:96 Enhanced Photovoltaic Performance of Amorphous Copolymers Based on Dithienosilole and Dioxocycloalkene-annelated Thiophene
DOI:10.1021/cm503117j JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Huang, Jianming;Ie, Yutaka;Karakawa, Makoto;Saito, Masahiko;Osaka, Itaru;Aso, Yoshio;
2:1:97 Enhanced Efficiency of Single and Tandem Organic Solar Cells Incorporating a Diketopyrrolopyrrole-Based Low-Bandgap Polymer by Utilizing Combined ZnO/Polyelectrolyte Electron-Transport Layers
DOI:10.1002/adma.201301288 JN:ADVANCED MATERIALS PY:2013 TC:39 AU: Jo, Jang;Pouliot, Jean-Remi;Wynands, David;Collins, Samuel D.;Kim, Jin Young;Thanh Luan Nguyen;Woo, Han Young;Sun, Yanming;Leclerc, Mario;Heeger, Alan J.;
2:1:98 Low Band-Gap Conjugated Polymers with Strong Interchain Aggregation and Very High Hole Mobility Towards Highly Effi cient Thick- Film Polymer Solar Cells
DOI:10.1002/adma.201305092 JN:ADVANCED MATERIALS PY:2014 TC:48 AU: Chen, Zhenhui;Cai, Ping;Chen, Junwu;Liu, Xuncheng;Zhang, Lianjie;Lan, Linfeng;Peng, Junbiao;Ma, Yuguang;Cao, Yong;
2:1:99 Molecular Weight Effect on the Absorption, Charge Carrier Mobility, and Photovoltaic Performance of an Indacenodiselenophene-Based Ladder-Type Polymer
DOI:10.1021/cm401586t JN:CHEMISTRY OF MATERIALS PY:2013 TC:52 AU: Intemann, Jeremy J.;Yao, Kai;Yip, Hin-Lap;Xu, Yun-Xiang;Li, Yong-Xi;Liang, Po-Wei;Ding, Fei-Zhi;Li, Xiaosong;Jen, Alex K-Y.;
2:1:100 Development of Large Band-Gap Conjugated Copolymers for Efficient Regular Single and Tandem Organic Solar Cells
DOI:10.1021/ja406220a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:74 AU: Li, Kai;Li, Zuojia;Feng, Kui;Xu, Xiaopeng;Wang, Lingyan;Peng, Qiang;
2:1:101 Synthesis and characterization of benzodithiophene-isoindigo polymers for solar cells
DOI:10.1039/c1jm14940g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:82 AU: Ma, Zaifei;Wang, Ergang;Jarvid, Markus E.;Henriksson, Patrik;Inganas, Olle;Zhang, Fengling;Andersson, Mats R.;
2:1:102 Solvent Additive Control of Morphology and Crystallization in Semiconducting Polymer Blends
DOI:10.1002/adma.201103097 JN:ADVANCED MATERIALS PY:2012 TC:65 AU: Liu, Xueliang;Huettner, Sven;Rong, Zhuxia;Sommer, Michael;Friend, Richard H.;
2:1:103 New Angular-Shaped and Isomerically Pure Anthradithiophene with Lateral Aliphatic Side Chains for Conjugated Polymers: Synthesis, Characterization, and Implications for Solution-Prossessed Organic Field-Effect Transistors and Photovoltaics
DOI:10.1021/cm301176s JN:CHEMISTRY OF MATERIALS PY:2012 TC:40 AU: Wu, Jhong-Sian;Lin, Chung-Te;Wang, Chien-Lung;Cheng, Yen-Ju;Hsu, Chain-Shu;
2:1:104 Determining Optimal Crystallinity of Diketopyrrolopyrrole-Based Terpolymers for Highly Efficient Polymer Solar Cells and Transistors
DOI:10.1021/cm502991d JN:CHEMISTRY OF MATERIALS PY:2014 TC:17 AU: Kim, Ki-Hyun;Park, Sunhee;Yu, Hojeong;Kang, Hyunbum;Song, Inho;Oh, Joon Hak;Kim, Bumjoon J.;
2:1:105 Effect of Fluorine Content in Thienothiophene-Benzodithiophene Copolymers on the Morphology and Performance of Polymer Solar Cells
DOI:10.1021/cm500953e JN:CHEMISTRY OF MATERIALS PY:2014 TC:42 AU: Liu, Peng;Zhang, Kai;Liu, Feng;Jin, Yaocheng;Liu, Shengjian;Russell, Thomas P.;Yip, Hin-Lap;Huang, Fei;Cao, Yong;
2:1:106 Linear- and Angular-Shaped Naphthodithiophenes: Selective Synthesis, Properties, and Application to Organic Field-Effect Transistors
DOI:10.1021/ja110973m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:122 AU: Shinamura, Shoji;Osaka, Itaru;Miyazaki, Eigo;Nakao, Akiko;Yamagishi, Masakazu;Takeya, Jun;Takimiya, Kazuo;
2:1:107 eThe study of solvent additive effects in efficient polymer photovoltaics via impedance spectroscopy
DOI:10.1016/j.solmat2014.05.049 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Yao, En-Ping;Chen, Chun-Chao;Gao, Jing;Liu, Yongsheng;Chen, Qi;Cai, Min;Hsu, Wei-Chou;Hong, Ziruo;Li, Gang;Yang, Yang;
2:1:108 Regioregular Pyridal[2,1,3]thiadiazole pi-Conjugated Copolymers
DOI:10.1021/ja207543g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:39 AU: Ying, Lei;Hsu, Ben B. Y.;Zhan, Hongmei;Welch, Gregory C.;Zalar, Peter;Perez, Louis A.;Kramer, Edward J.;Thuc-Quyen Nguyen;Heeger, Alan J.;Wong, Wai-Yeung;Bazan, Guillermo C.;
2:1:109 Time-Resolved Structural Evolution of Additive-Processed Bulk Heterojunction Solar Cells
DOI:10.1021/ja2104747 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:38 AU: Rogers, James T.;Schmidt, Kristin;Toney, Michael F.;Bazan, Guillermo C.;Kramer, Edward J.;
2:1:110 Fluorinated Benzothiadiazole-Based Conjugated Polymers for High-Performance Polymer Solar Cells without Any Processing Additives or Post-treatments
DOI:10.1021/ja409881g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:55 AU: Wang, Ning;Chen, Zheng;Wei, Wei;Jiang, Zhenhua;
2:1:111 Solvent additives and their effects on blend morphologies of bulk heterojunctions
DOI:10.1039/c0jm01976c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:82 AU: Salim, Teddy;Wong, Lydia Helena;Braeuer, Bjoern;Kukreja, Roopali;Foo, Yong Lim;Bao, Zhenan;Lam, Yeng Ming;
2:1:112 A Versatile Low Bandgap Polymer for Air-Stable, High-Mobility Field-Effect Transistors and Efficient Polymer Solar Cells
DOI:10.1002/adma.201003903 JN:ADVANCED MATERIALS PY:2011 TC:103 AU: Ong, Kok-Haw;Lim, Siew-Lay;Tan, Huei-Shuan;Wong, Hoi-Ka;Li, Jun;Ma, Zhun;Moh, Lionel C. H.;Lim, Suo-Hon;de Mello, John C.;Chen, Zhi-Kuan;
2:1:113 Tetrathienoanthracene-Based Copolymers for Efficient Solar Cells
DOI:10.1021/ja1110915 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:75 AU: He, Feng;Wang, Wei;Chen, Wei;Xu, Tao;Darling, Seth B.;Strzalka, Joseph;Liu, Yun;Yu, Luping;
2:1:114 Incorporation of ester groups into low band-gap diketopyrrolopyrrole containing polymers for solar cell applications
DOI:10.1039/c2jm31700a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Hu, Xiaolian;Zuo, Lijian;Fu, Weifei;Larsen-Olsen, Thue T.;Helgesen, Martin;Bundgaard, Eva;Hagemann, Ole;Shi, Minmin;Krebs, Frederik C.;Chen, Hongzheng;
2:1:115 Improved thin film morphology and bulk-heterojunction solar cell performance through systematic tuning of the surface energy of conjugated polymers
DOI:10.1039/c2jm15517f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:33 AU: Sun, Ying;Chien, Shang-Chieh;Yip, Hin-Lap;Chen, Kung-Shih;Zhang, Yong;Davies, Joshua A.;Chen, Fang-Chung;Lin, Baoping;Jen, Alex K. -Y.;
2:1:116 Enhanced open-circuit voltage in polymer solar cells by dithieno[3,2-b:2 ',3 '-d]pyrrole N-acylation
DOI:10.1039/c4ta00525b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Vanormelingen, Wouter;Kesters, Jurgen;Verstappen, Pieter;Drijkoningen, Jeroen;Kudrjasova, Julija;Koudjina, Simplice;Liegeois, Vincent;Champagne, Benoit;Manca, Jean;Lutsen, Laurence;Vanderzande, Dirk;Maes, Wouter;
2:1:117 New acceptor-pended conjugated polymers based on 3,6-and 2,7-carbazole for polymer solar cells
DOI:10.1016/j.polymer.2012.10.008 JN:POLYMER PY:2012 TC:14 AU: Xie, Hongmei;Zhang, Kai;Duan, Chunhui;Liu, Shengjian;Huang, Fei;Cao, Yong;
2:1:118 Dithienocarbazole-Based Ladder-Type Heptacyclic Arenes with Silicon, Carbon, and Nitrogen Bridges: Synthesis, Molecular Properties, Field-Effect Transistors, and Photovoltaic Applications
DOI:10.1002/adfm.201102906 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:46 AU: Wu, Jhong-Sian;Cheng, Yen-Ju;Lin, Tai-Yen;Chang, Chih-Yu;Shih, Peng-I.;Hsu, Chain-Shu;
2:1:119 Low-Band-Gap Conjugated Polymers of Dithieno[2,3-b:7,6-b]carbazole and Diketopyrrolopyrrole: Effect of the Alkyl Side Chain on Photovoltaic Properties
DOI:10.1021/am401175v JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:24 AU: Deng, Yunfeng;Chen, Yagang;Liu, Jian;Liu, Lihui;Tian, Hongkun;Xie, Zhiyuan;Geng, Yanhou;Wang, Fosong;
2:1:120 Naphtho[1,2-b:5,6-b ']dithiophene Based Two-Dimensional Conjugated Polymers for Highly Efficient Thick-Film Inverted Polymer Solar Cells
DOI:10.1021/cm5033223 JN:CHEMISTRY OF MATERIALS PY:2014 TC:9 AU: Zhu, Xiangwei;Fang, Jin;Lu, Kun;Zhang, Jianqi;Zhu, Lingyun;Zhao, Yifan;Shuai, Zhigang;Wei, Zhixiang;
2:1:121 Comparison of additive amount used in spin-coated and roll-coated organic solar cells
DOI:10.1039/c4ta04906c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Cheng, Pei;Lin, Yuze;Zawacka, Natalia K.;Andersen, Thomas R.;Liu, Wenqing;Bundgaard, Eva;Jorgensen, Mikkel;Chen, Hongzheng;Krebs, Frederik C.;Zhan, Xiaowei;
2:1:122 Conformational Disorder Enhances Solubility and Photovoltaic Performance of a Thiophene-Quinoxaline Copolymer
DOI:10.1002/aenm.201201019 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:34 AU: Wang, Ergang;Bergqvist, Jonas;Vandewal, Koen;Ma, Zaifei;Hou, Lintao;Lundin, Angelica;Himmelberger, Scott;Salleo, Alberto;Muller, Christian;Inganas, Olle;Zhang, Fengling;Andersson, Mats R.;
2:1:123 Side-Chain Engineering for Fine-Tuning of Energy Levels and Nanoscale Morphology in Polymer Solar Cells
DOI:10.1002/aenm.201400087 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:6 AU: Lee, Jaewon;Kim, Min;Kang, Boseok;Jo, Sae Byeok;Kim, Heung Gyu;Shin, Jisoo;Cho, Kilwon;
2:1:124 Thieno[3,2-b]thiophene-diketopyrrolopyrrole Containing Polymers for Inverted Solar Cells Devices with High Short Circuit Currents
DOI:10.1002/adfm.201300287 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:32 AU: Bronstein, Hugo;Collado-Fregoso, Elisa;Hadipour, Afshin;Soon, Ying W.;Huang, Zhenggang;Dimitrov, Stoichko D.;Ashraf, Raja Shahid;Rand, Barry P.;Watkins, Scott E.;Tuladhar, Pabitra S.;Meager, Iain;Durrant, James R.;McCulloch, Iain;
2:1:125 Thiophene-Thiazolothiazole Copolymers: Significant Impact of Side Chain Composition on Backbone Orientation and Solar Cell Performances
DOI:10.1002/adma.201303059 JN:ADVANCED MATERIALS PY:2014 TC:49 AU: Osaka, Itaru;Saito, Masahiko;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:1:126 Side-Chain Engineering of Isoindigo-Containing Conjugated Polymers Using Polystyrene for High-Performance Bulk Heterojunction Solar Cells
DOI:10.1021/cm4024259 JN:CHEMISTRY OF MATERIALS PY:2013 TC:45 AU: Fang, Lei;Zhou, Yan;Yao, Yu-Xing;Diao, Ying;Lee, Wen-Ya;Appleton, Anthony L.;Allen, Ranulfo;Reinspach, Julia;Mannsfeld, Stefan C. B.;Bao, Zhenan;
2:1:127 Naphthodithiophene-Naphthobisthiadiazole Copolymers for Solar Cells: Alkylation Drives the Polymer Backbone Flat and Promotes Efficiency
DOI:10.1021/ja404064m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:97 AU: Osaka, Itaru;Kakara, Takeshi;Takemura, Noriko;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:1:128 Tailored Donor-Acceptor Polymers with an A-D1-A-D2 Structure: Controlling Intermolecular Interactions to Enable Enhanced Polymer Photovoltaic Devices
DOI:10.1021/ja500935d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:16 AU: Qin, Tianshi;Zajaczkowski, Wojciech;Pisula, Wojciech;Baumgarten, Martin;Chen, Ming;Gao, Mei;Wilson, Gerry;Easton, Christopher D.;Muellen, Klaus;Watkins, Scott E.;
2:1:129 Synthesis and Characterization of a Copolymer Based on Thiazolothiazole and Dithienosilole for Polymer Solar Cells
DOI:10.1002/aenm.201100193 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:79 AU: Zhang, Maojie;Guo, Xia;Li, Yongfang;
2:1:130 Influence of Molecular Weight on the Performance of Organic Solar Cells Based on a Fluorene Derivative
DOI:10.1002/adfm.201000224 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:69 AU: Muller, Christian;Wang, Ergang;Andersson, L. Mattias;Tvingstedt, Kristofer;Zhou, Yi;Andersson, Mats R.;Inganas, Olle;
2:1:131 Influence of the Electron Deficient Co-Monomer on the Optoelectronic Properties and Photovoltaic Performance of Dithienogermole-based Co-Polymers
DOI:10.1002/adfm.201302270 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:17 AU: Yau, Chin Pang;Fei, Zhuping;Ashraf, Raja Shahid;Shahid, Munazza;Watkins, Scott E.;Pattanasattayavong, Pichaya;Anthopoulos, Thomas D.;Gregoriou, Vasilis G.;Chochos, Christos L.;Heeney, Martin;
2:1:132 Synthesis and Photovoltaic Effect in Dithieno[2,3-d:2 ',3 '-d ']Benzo[1,2-b:4,5-b ']dithiophene-Based Conjugated Polymers
DOI:10.1002/adma.201204238 JN:ADVANCED MATERIALS PY:2013 TC:73 AU: Son, Hae Jung;Lu, Luyao;Chen, Wei;Xu, Tao;Zheng, Tianyue;Carsten, Bridget;Strzalka, Joseph;Darling, Seth B.;Chen, Lin X.;Yu, Luping;
2:1:133 High Polymer/Fullerene Ratio Realized in Efficient Polymer Solar Cells by Tailoring of the Polymer Side-Chains
DOI:10.1002/adma.201305577 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Yuan, Jianyu;Dong, Huilong;Li, Ming;Huang, Xiaodong;Zhong, Jun;Li, Youyong;Ma, Wanli;
2:1:134 Strategic Design of Three-Dimensional (3D) Urchin-Like Pt-Ni Nanoalloys: How This Unique Nanostructure Boosts the Bulk Heterojunction Polymer Solar Cells Efficiency to 8.48%
DOI:10.1021/cm5033628 JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Chou, Shang-Wei;Chen, Hsieh-Chih;Zhang, Zhiyun;Tseng, Wei-Hsuan;Wu, Chih-I;Yang, Ya-Yun;Lin, Ching-Yen;Chou, Pi-Tai;
2:1:135 Development of a New s-Tetrazine-Based Copolymer for Efficient Solar Cells
DOI:10.1021/ja106052e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:81 AU: Li, Zhao;Ding, Jianfu;Song, Naiheng;Lu, Jianping;Tao, Ye;
2:1:136 A Versatile Approach to Organic Photovoltaics Evaluation Using White Light Pulse and Microwave Conductivity
DOI:10.1021/ja309524f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Saeki, Akinori;Yoshikawa, Saya;Tsuji, Masashi;Koizumi, Yoshiko;Ide, Marina;Vijayakumar, Chakkooth;Seki, Shu;
2:1:137 Universal Correlation between Fibril Width and Quantum Efficiency in Diketopyrrolopyrrole-Based Polymer Solar Cells
DOI:10.1021/ja4101003 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:32 AU: Li, Weiwei;Hendriks, Koen H.;Furlan, Alice;Roelofs, W. S. Christian;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:138 Crystalline donor-acceptor conjugated polymers for bulk heterojunction photovoltaics
DOI:10.1039/c2ta00965j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:21 AU: Jiang, Jian-Ming;Yuan, Mao-Chuan;Dinakaran, K.;Hariharan, A.;Wei, Kung-Hwa;
2:1:139 Side-Chain Tunability via Triple Component Random Copolymerization for Better Photovoltaic Polymers
DOI:10.1002/aenm.201300864 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:13 AU: Chang, Wei-Hsuan;Gao, Jing;Dou, Letian;Chen, Chun-Chao;Liu, Yongsheng;Yang, Yang;
2:1:140 Alternating Copolymers of Cyclopenta[2,1-b;3,4-b '] dithiophene and Thieno[3,4-c]pyrrole-4,6-dione for High-Performance Polymer Solar Cells
DOI:10.1002/adfm.201100708 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:75 AU: Li, Zhao;Tsang, Sai-Wing;Du, Xiaomei;Scoles, Ludmila;Robertson, Gilles;Zhang, Yanguang;Toll, Floyd;Tao, Ye;Lu, Jianping;Ding, Jianfu;
2:1:141 Bulk heterojunction solar cells with thick active layers and high fill factors enabled by a bithiophene-co-thiazolothiazole push-pull copolymer
DOI:10.1063/1.3544940 JN:APPLIED PHYSICS LETTERS PY:2011 TC:55 AU: Peet, J.;Wen, L.;Byrne, P.;Rodman, S.;Forberich, K.;Shao, Y.;Drolet, N.;Gaudiana, R.;Dennler, G.;Waller, D.;
2:1:142 Synthesis of PCDTBT-Based Fluorinated Polymers for High Open-Circuit Voltage in Organic Photovoltaics: Towards an Understanding of Relationships between Polymer Energy Levels Engineering and Ideal Morphology Control
DOI:10.1021/am500891z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:13 AU: Kim, Jonggi;Yun, Myoung Hee;Kim, Gi-Hwan;Lee, Jungho;Lee, Sang Myeon;Ko, Seo-Jin;Kim, Yiho;Dutta, Gitish K.;Moon, Mijin;Park, Song Yi;Kim, Dong Suk;Kim, Jin Young;Yang, Changduk;
2:1:143 Enhanced performance of solution-processed solar cells based on porphyrin small molecules with a diketopyrrolopyrrole acceptor unit and a pyridine additive
DOI:10.1039/c2ta00858k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:27 AU: Li, Lisheng;Huang, Yuying;Peng, Junbiao;Cao, Yong;Peng, Xiaobin;
2:1:144 Low band gap polymers for photovoltaic device with photocurrent response wavelengths over 1000 nm
DOI:10.1016/j.polymer.2013.09.058 JN:POLYMER PY:2013 TC:11 AU: Zhou, Erjun;Hashimoto, Kazuhito;Tajima, Keisuke;
2:1:145 Synthesis and Photovoltaic Properties of Donor-Acceptor Copolymers Based on 5,8-Dithien-2-yl-2,3-diphenylquinoxaline
DOI:10.1021/cm101677x JN:CHEMISTRY OF MATERIALS PY:2010 TC:87 AU: Zhou, Erjun;Cong, Junzi;Tajima, Keisuke;Hashimoto, Kazuhito;
2:1:146 Significant Enhancement of Polymer Solar Cell Performance via Side-Chain Engineering and Simple Solvent Treatment
DOI:10.1021/cm401618h JN:CHEMISTRY OF MATERIALS PY:2013 TC:47 AU: Wang, Yang;Liu, Ying;Chen, Shaojie;Peng, Ruixiang;Ge, Ziyi;
2:1:147 Ring Substituents Mediate the Morphology of PBDTTPD-PCBM Bulk-Heterojunction Solar Cells
DOI:10.1021/cm500172w JN:CHEMISTRY OF MATERIALS PY:2014 TC:33 AU: Warnan, Julien;El Labban, Abdulrahman;Cabanetos, Clement;Hoke, Eric T.;Shukla, Pradeep Kumar;Risko, Chad;Bredas, Jean-Luc;McGehee, Michael D.;Beaujuge, Pierre M.;
2:1:148 A Systematic Approach to the Design Optimization of Light-Absorbing Indenofluorene Polymers for Organic Photovoltaics
DOI:10.1002/aenm.201100622 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:27 AU: Kirkpatrick, James;Nielsen, Christian B.;Zhang, Weimin;Bronstein, Hugo;Ashraf, R. Shahid;Heeney, Martin;McCulloch, Iain;
2:1:149 Effect of Molecular Order on the Performance of Naphthobisthiadiazole-Based Polymer Solar Cells
DOI:10.1002/aenm.201301601 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:5 AU: Sun, Yanming;Seifter, Jason;Wang, Ming;Perez, Louis A.;Luo, Chan;Bazan, Guillermo C.;Huang, Fei;Cao, Yong;Heeger, Alan J.;
2:1:150 Benzobis(silolothiophene)-Based Low Bandgap Polymers for Efficient Polymer Solar Cells
DOI:10.1021/cm1020228 JN:CHEMISTRY OF MATERIALS PY:2011 TC:53 AU: Wang, Jie-Yu;Hau, Steven K.;Yip, Hin-Lap;Davies, Joshua A.;Chen, Kung-Shih;Zhang, Yong;Sun, Ying;Jen, Alex K. -Y.;
2:1:151 High Open Circuit Voltage Solution-Processed Tandem Organic Photovoltaic Cells Employing a Bottom Cell Using a New Medium Band Gap Semiconducting Polymer
DOI:10.1021/cm401527b JN:CHEMISTRY OF MATERIALS PY:2013 TC:38 AU: Kim, Ji-Hoon;Song, Chang Eun;Kim, Hee Un;Grimsdale, Andrew C.;Moon, Sang-Jin;Shin, Won Suk;Choi, Si Kyung;Hwang, Do-Hoon;
2:1:152 Comparison of the Photovoltaic Characteristics and Nanostructure of Fullerenes Blended with Conjugated Polymers with Siloxane-Terminated and Branched Aliphatic Side Chains
DOI:10.1021/cm303572d JN:CHEMISTRY OF MATERIALS PY:2013 TC:28 AU: Kim, Do Hwan;Ayzner, Alexander L.;Appleton, Anthony L.;Schmidt, Kristin;Mei, Jianguo;Toney, Michael F.;Bao, Zhenan;
2:1:153 Highly Efficient 2D-Conjugated Benzodithiophene-Based Photovoltaic Polymer with Linear Alkylthio Side Chain
DOI:10.1021/cm501513n JN:CHEMISTRY OF MATERIALS PY:2014 TC:150 AU: Ye, Long;Zhang, Shaoqing;Zhao, Wenchao;Yao, Huifeng;Hou, Jianhui;
2:1:154 Mobility-Controlled Performance of Thick Solar Cells Based on Fluorinated Copolymers
DOI:10.1021/ja5067724 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Li, Wentao;Abrecht, Steve;Yang, Liqiang;Roland, Steffen;Tumbleston, John R.;McAfee, Terry;Yan, Liang;Kelly, Mary Allison;Ade, Harald;Neher, Dieter;You, Wei;
2:1:155 Synthesis, characterization and photovoltaic performances of D-A copolymers based on BDT and DBPz: the largely improved performance caused by additional thiophene blocks
DOI:10.1039/c3ta01305g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:15 AU: Li, Shuang;Zhao, Baofeng;He, Zhicai;Chen, Su'an;Yu, Jian;Zhong, Aoshu;Tang, Runli;Wu, Hongbin;Li, Qianqian;Qin, Jingui;Li, Zhen;
2:1:156 Double acceptor D-A copolymers containing benzotriazole and benzothiadiazole units: chemical tailoring towards efficient photovoltaic properties
DOI:10.1039/c3ta11698k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:11 AU: Kotowski, Dariusz;Luzzati, Silvia;Bianchi, Gabriele;Calabrese, Anna;Pellegrino, Andrea;Po, Riccardo;Schimperna, Giuliana;Tacca, Alessandra;
2:1:157 Novel wide band-gap polymer utilizing fused hetero-aromatic unit for efficient polymer solar cells and field-effect transistors
DOI:10.1016/j.polymer.2014.10.067 JN:POLYMER PY:2014 TC:6 AU: Dang, Dongfeng;Zhou, Pei;Zhong, Juan;Fan, Jiang;Wang, Zongrui;Wang, Yafei;Pei, Yong;Bao, Xichang;Yang, Renqiang;Hu, Wenping;Zhu, Weiguo;
2:1:158 PDT-S-T: A New Polymer with Optimized Molecular Conformation for Controlled Aggregation and pi-pi Stacking and Its Application in Efficient Photovoltaic Devices
DOI:10.1002/adma.201301174 JN:ADVANCED MATERIALS PY:2013 TC:55 AU: Wu, Yue;Li, Zhaojun;Ma, Wei;Huang, Ye;Huo, Lijun;Guo, Xia;Zhang, Maojie;Ade, Harald;Hou, Jianhui;
2:1:159 A Polythiophene Derivative with Superior Properties for Practical Application in Polymer Solar Cells
DOI:10.1002/adma.201401494 JN:ADVANCED MATERIALS PY:2014 TC:16 AU: Zhang, Maojie;Guo, Xia;Ma, Wei;Ade, Harald;Hou, Jianhui;
2:1:160 A Mechanistic Understanding of Processing Additive-Induced Efficiency Enhancement in Bulk Heterojunction Organic Solar Cells
DOI:10.1002/adma.201303622 JN:ADVANCED MATERIALS PY:2014 TC:44 AU: Schmidt, Kristin;Tassone, Christopher J.;Niskala, Jeremy R.;Yiu, Alan T.;Lee, Olivia P.;Weiss, Thomas M.;Wang, Cheng;Frechet, Jean M. J.;Beaujuge, Pierre M.;Toney, Michael F.;
2:1:161 9-Arylidene-9H-Fluorene-Containing Polymers for High Efficiency Polymer Solar Cells
DOI:10.1021/am404437y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Liu, Qian;Li, Cuihong;Jin, Enquan;Lu, Zhen;Chen, Youchun;Li, Fenghong;Bo, Zhishan;
2:1:162 Synthesis and applications of difluorobenzothiadiazole based conjugated polymers for organic photovoltaics
DOI:10.1039/c0jm04166a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:63 AU: Li, Zhao;Lu, Jianping;Tse, Shing-Chi;Zhou, Jiayun;Du, Xiaomei;Tao, Ye;Ding, Jianfu;
2:1:163 Synthesis of low bandgap polymers based on thienoquinodimethane units and their applications in bulk heterojunction solar cells
DOI:10.1039/c2jm33637e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Umeyama, Tomokazu;Watanabe, Yusuke;Oodoi, Masaaki;Evgenia, Douvogianni;Shishido, Tetsuya;Imahori, Hiroshi;
2:1:164 Comparison of thiophene- and selenophene-bridged donor-acceptor low band-gap copolymers used in bulk-heterojunction organic photovoltaics
DOI:10.1039/c2jm33735e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Chen, Hung-Yang;Yeh, Shih-Chieh;Chen, Chin-Ti;Chen, Chao-Tsen;
2:1:165 Effects of side chain isomerism on the physical and photovoltaic properties of indacenodithieno[3,2-b] thiophene-quinoxaline copolymers: toward a side chain design for enhanced photovoltaic performance
DOI:10.1039/c4ta04102j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Xu, Xiaofeng;Li, Zhaojun;Backe, Olof;Bini, Kim;James, David I.;Olsson, Eva;Andersson, Mats R.;Wang, Ergang;
2:1:166 Dithienocoronene diimide based conjugated polymers as electron acceptors for all-polymer solar cells
DOI:10.1016/j.solmat.2013.01.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:12 AU: Zhou, Weiyi;Zhang, Zhi-Guo;Ma, Lanchao;Li, Yongfang;Zhan, Xiaowei;
2:1:167 A New sp2-sp2 Dialkylethylene-Bridged Heptacyclic Ladder-Type Arene for High Efficiency Polymer Solar Cells
DOI:10.1002/aenm.201200929 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:11 AU: Wu, Jhong-Sian;Lai, Yu-Ying;Cheng, Yen-Ju;Chang, Chih-Yu;Wang, Chien-Lung;Hsu, Chain-Shu;
2:1:168 Carbazole-Based Ladder-Type Heptacylic Arene with Aliphatic Side Chains Leading to Enhanced Efficiency of Organic Photovoltaics
DOI:10.1021/cm200041v JN:CHEMISTRY OF MATERIALS PY:2011 TC:63 AU: Cheng, Yen-Ju;Wu, Jhong-Sian;Shih, Ping-I;Chang, Chih-Yu;Jwo, Pei-Chi;Kao, Wei-Shun;Hsu, Chain-Shu;
2:1:169 Green and Blue Electrochromic Polymers from Processable Siloxane Precursors
DOI:10.1021/cm401498f JN:CHEMISTRY OF MATERIALS PY:2013 TC:2 AU: Lee, Ki-Ryong;Sotzing, Gregory A.;
2:1:170 Electron-Deficient N-Alkyloyl Derivatives of Thieno[3,4-c]pyrrole-4,6-dione Yield Efficient Polymer Solar Cells with Open-Circuit Voltages > 1 V
DOI:10.1021/cm5002303 JN:CHEMISTRY OF MATERIALS PY:2014 TC:18 AU: Warnan, Julien;Cabanetos, Clement;Bude, Romain;El Labban, Abdulrahman;Li, Liang;Eaujuge, Pierre M.;
2:1:171 Dithienopyrrole-quinoxaline/pyridopyrazine donor-acceptor polymers: synthesis and electrochemical, optical, charge-transport, and photovoltaic properties
DOI:10.1039/c0jm04290k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:28 AU: Zhang, Xuan;Shim, Jae Won;Tiwari, Shree Prakash;Zhang, Qing;Norton, Joseph E.;Wu, Pei-Tzu;Barlow, Stephen;Jenekhe, Samson A.;Kippelen, Bernard;Bredas, Jean-Luc;Marder, Seth R.;
2:1:172 Low band-gap donor-acceptor copolymers based on dioxocyclopenta[c]thiophene derivatives as acceptor units: synthesis, properties, and photovoltaic performances
DOI:10.1039/c3ta13504g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:2 AU: Huang, Jianming;Ie, Yutaka;Karakawa, Makoto;Aso, Yoshio;
2:1:173 Improving the photovoltaic performance of ladder-type dithienonaphthalene-containing copolymers through structural isomerization
DOI:10.1039/c4ta02585g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Ma, Yunlong;Zheng, Qingdong;Wang, Lixin;Cai, Dongdong;Tang, Changquan;Wang, Meng;Yin, Zhigang;Chen, Shan-Ci;
2:1:174 Benzo[1,2-b:4,5-b'] dithiophene-fumaronitrile-based D-A type copolymers with different pi-bridges: Synthesis, characterization and photovoltaic properties
DOI:10.1016/j.synthmet.2013.11.019 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Lu, Jialing;Peng, Jun;Wang, Yuchen;Yuan, Jianyu;Sheng, Chuanxiang;Wang, Hai-Qiao;Ma, Wanli;
2:1:175 Efficient Phthalimide Copolymer-Based Bulk Heterojunction Solar Cells: How the Processing Additive Influences Nanoscale Morphology and Photovoltaic Properties
DOI:10.1002/aenm.201100718 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:35 AU: Xin, Hao;Guo, Xugang;Ren, Guoqiang;Watson, Mark D.;Jenekhe, Samson A.;
2:1:176 A Versatile Fluoro-Containing Low-Bandgap Polymer for Efficient Semitransparent and Tandem Polymer Solar Cells
DOI:10.1002/adfm201301557 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:32 AU: Chang, Chih-Yu;Zuo, Lijian;Yip, Hin-Lap;Li, Yongxi;Li, Chang-Zhi;Hsu, Chain-Shu;Cheng, Yen-Ju;Chen, Hongzheng;Jen, Alex K. -Y.;
2:1:177 High Open Circuit Voltage in Regioregular Narrow Band Gap Polymer Solar Cells
DOI:10.1021/ja506785w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Wang, Ming;Wang, Hengbin;Yokoyama, Takamichi;Liu, Xiaofeng;Huang, Ye;Zhang, Yuan;Thuc-Quyen Nguyen;Aramaki, Shinji;Bazan, Guillermo C.;
2:1:178 High-mobility low-bandgap conjugated copolymers based on indacenodithiophene and thiadiazolo[3,4-c]pyridine units for thin film transistor and photovoltaic applications
DOI:10.1039/c1jm11564b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:43 AU: Sun, Ying;Chien, Shang-Chieh;Yip, Hin-Lap;Zhang, Yong;Chen, Kung-Shih;Zeigler, David F.;Chen, Fang-Chung;Lin, Baoping;Jen, Alex K. -Y.;
2:1:179 Synthesis and properties of small band gap thienoisoindigo based conjugated polymers
DOI:10.1039/c2jm34668k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:27 AU: Van Pruissen, Gijs W. P.;Gholamrezaie, Fatemeh;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:180 Efficient bulk heterojunction solar cells based on D-A copolymers as electron donors and PC70BM as electron acceptor
DOI:10.1016/j.matchemphys.2012.03.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:7 AU: Sharma, G. D.;Mikroyannidis, J. A.;Singh, Surya Prakash;
2:1:181 D-A copolymers based on 5,6-difluorobenzotriazole and oligothiophenes: Synthesis, field effect transistors, and polymer solar cells
DOI:10.1016/j.polymer.2014.02.046 JN:POLYMER PY:2014 TC:3 AU: Liu, Xuncheng;Cai, Ping;Chen, Zhenhui;Zhang, Lianjie;Zhang, Xiaofei;Sun, Jiangman;Wang, Haitao;Chen, Junwu;Peng, Junbiao;Chen, Hongzheng;Cao, Yong;
2:1:182 New quinoxaline and pyridopyrazine-based polymers for solution-processable photovoltaics
DOI:10.1016/j.solmat.2012.06.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:34 AU: Kroon, Renee;Gehlhaar, Robert;Steckler, Timothy T.;Henriksson, Patrik;Muller, Christian;Bergqvist, Jonas;Hadipour, Afshin;Heremans, Paul;Andersson, Mats R.;
2:1:183 Band Gap Control in Diketopyrrolopyrrole-Based Polymer Solar Cells Using Electron Donating Side Chains
DOI:10.1002/aenm.201200950 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:15 AU: Hendriks, Koen H.;Li, Weiwei;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:184 Layer-by-Layer Solution-Processed Low-Bandgap Polymer-PC61BM Solar Cells with High Efficiency
DOI:10.1002/aenm.201301349 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:12 AU: Cheng, Pei;Hou, Jianhui;Li, Yongfang;Zhan, Xiaowei;
2:1:185 Lateral Phase Separation Gradients in Spin-Coated Thin Films of High-Performance Polymer: Fullerene Photovoltaic Blends
DOI:10.1002/adfm.201100566 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:34 AU: Hou, Lintao;Wang, Ergang;Bergqvist, Jonas;Andersson, B. Viktor;Wang, Zhongqiang;Muller, Christian;Campoy-Quiles, Mariano;Andersson, Mats R.;Zhang, Fengling;Inganas, Olle;
2:1:186 Additive-Free Bulk-Heterojuction Solar Cells with Enhanced Power Conversion Efficiency, Comprising a Newly Designed Selenophene-Thienopyrrolodione Copolymer
DOI:10.1002/adfm.201202541 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:37 AU: Wang, Dong Hwan;Pron, Agnieszka;Leclerc, Mario;Heeger, Alan J.;
2:1:187 Dependence of Crystallite Formation and Preferential Backbone Orientations on the Side Chain Pattern in PBDTTPD Polymers
DOI:10.1021/am505280a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: El Labban, Abdulrahman;Warnan, Julien;Cabanetos, Clement;Ratel, Olivier;Tassone, Christopher;Toney, Michael F.;Beaujuge, Pierre M.;
2:1:188 Green Dioxythiophene-Benzothiadiazole Donor-Acceptor Copolymers for Photovoltaic Device Applications
DOI:10.1021/cm903495b JN:CHEMISTRY OF MATERIALS PY:2010 TC:57 AU: Beaujuge, Pierre M.;Subbiah, Jegadesan;Choudhury, Kaushik Roy;Ellinger, Stefan;McCarley, Tracy D.;So, Franky;Reynolds, John R.;
2:1:189 Enhanced and Tunable Open-Circuit Voltage using Dialkylthio Benzo[1,2-b:4,5-b ']dithiophene in Polymer Solar Cells
DOI:10.1021/cm3011056 JN:CHEMISTRY OF MATERIALS PY:2012 TC:43 AU: Lee, Doyun;Hubijar, Emir;Kalaw, Grace Jones D.;Ferraris, John P.;
2:1:190 A low band gap co-polymer of dithienogermole and 2,1,3-benzothiadiazole by Suzuki polycondensation and its application in transistor and photovoltaic cells
DOI:10.1039/c1jm13628c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:42 AU: Fei, Zhuping;Kim, Jong Soo;Smith, Jeremy;Domingo, Ester Buchaca;Anthopoulos, Thomas D.;Stingelin, Natalie;Watkins, Scott E.;Kim, Ji-Seon;Heeney, Martin;
2:1:191 Correlation between structure and photovoltaic performance of a series of furan bridged donor-acceptor conjugated polymers
DOI:10.1039/c3ta12210g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Yuan, Jianyu;Zhai, Zhichun;Li, Jing;Lu, Jialing;Huang, Xiaodong;Xu, Zhongjie;Ma, Wanli;
2:1:192 A high voltage solar cell using a donor-acceptor conjugated polymer based on pyrrolo[3,4-f]-2,1,3-benzothiadiazole-5,7-dione
DOI:10.1039/c4ta01248h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Li, Hairong;Sun, Shuangyong;Mhaisalkar, Subodh;Zin, Melvin T.;Lam, Yeng Ming;Grimsdale, Andrew C.;
2:1:193 Boosting photovoltaic performance of a benzobisthiazole based copolymer: a device approach using a zinc oxide electron transport layer
DOI:10.1039/c3ta14109h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:12 AU: Saeki, Akinori;Tsuji, Masashi;Yoshikawa, Saya;Gopal, Anesh;Seki, Shu;
2:1:194 Synthesis and photovoltaic performance of novel thiophenyl-methylene-9H-fluorene-based low bandgap polymers
DOI:10.1016/j.polymer.2013.07.001 JN:POLYMER PY:2013 TC:10 AU: Hai, Jiefeng;Zhao, Baofeng;Zhang, Fujun;Sheng, Chuan-Xiang;Yin, Liangming;Li, Yang;Zhu, Enwei;Bian, Linyi;Wu, Hongbin;Tang, Weihua;
2:1:195 Synthesis of N-[4-Octylphenyl]dithieno[3,2-b:2 ',3 '-d]pyrrole-based broad absorbing polymers and their photovoltaic applications
DOI:10.1016/j.polymer.2013.04.049 JN:POLYMER PY:2013 TC:10 AU: Tamilavan, Vellaiappillai;Song, Myungkwan;Kim, Sangjun;Agneeswari, Rajalingam;Kang, Jae-Wook;Hyun, Myung Ho;
2:1:196 Benzooxadiazole-based donor/acceptor copolymers imparting bulk-heterojunction solar cells with high open-circuit voltages
DOI:10.1016/j.polymer.2012.11.034 JN:POLYMER PY:2013 TC:9 AU: Jiang, Jian-Ming;Yang, Po-An;Lan, Shang-Che;Yu, Chia-Ming;Wei, Kung-Hwa;
2:1:197 Polymer Photovoltaics with Alternating Copolymer/Fullerene Blends and Novel Device Architectures
DOI:10.1002/adma.200904407 JN:ADVANCED MATERIALS PY:2010 TC:67 AU: Inganas, Olle;Zhang, Fengling;Tvingstedt, Kristofer;Andersson, Lars Mattias;Hellstrom, Stefan;Andersson, Mats R.;
2:1:198 The Influence of Polymer Purification on Photovoltaic Device Performance of a Series of Indacenodithiophene Donor Polymers
DOI:10.1002/adma.201300027 JN:ADVANCED MATERIALS PY:2013 TC:44 AU: Ashraf, Raja Shahid;Schroeder, Bob C.;Bronstein, Hugo A.;Huang, Zhenggang;Thomas, Stuart;Kline, R. Joseph;Brabec, Christoph J.;Rannou, Patrice;Anthopoulos, Thomas D.;Durrant, James R.;McCulloch, Iain;
2:1:199 Improved Photovoltaic Performance of a Semicrystalline Narrow Bandgap Copolymer Based on 4H-Cyclopenta[2,1-b:3,4-b ']dithiophene Donor and Thiazolo[5,4-d]thiazole Acceptor Units
DOI:10.1021/cm203351t JN:CHEMISTRY OF MATERIALS PY:2012 TC:44 AU: Van Mierloo, Sarah;Hadipour, Afshin;Spijkman, Mark-Jan;Van den Brande, Niko;Ruttens, Bart;Kesters, Jurgen;D'Haen, Jan;Van Assche, Guy;de Leeuw, Dago M.;Aernouts, Tom;Manca, Jean;Lutsen, Laurence;Vanderzande, Dirk J.;Maes, Wouter;
2:1:200 High Thermal Stability Solution-Processable Narrow-Band Gap Molecular Semiconductors
DOI:10.1021/ja510088x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Liu, Xiaofeng;Hsu, Ben B. Y.;Sun, Yanming;Mai, Cheng-Kang;Heeger, Alan J.;Bazan, Guillermo C.;
2:1:201 Pyrroloindacenodithiophene containing polymers for organic field effect transistors and organic photovoltaics
DOI:10.1039/c1jm13428k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Donaghey, Jenny E.;Ashraf, Raja Shahid;Kim, Youngju;Huang, Zheng Gang;Nielsen, Christian B.;Zhang, Weimin;Schroeder, Bob;Grenier, Christophe R. G.;Brown, Christopher T.;D'Angelo, Pasquale;Smith, Jeremy;Watkins, Scott;Song, Kigook;Anthopoulos, Thomas D.;Durrant, James R.;Williams, Charlotte K.;McCulloch, Iain;
2:1:202 Synthesis of 6H-benzo[c]chromene as a new electron-rich building block of conjugated alternating copolymers and its application to polymer solar cells
DOI:10.1039/c4ta02929a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Lee, Jong Won;Bae, Seunghwan;Jo, Won Ho;
2:1:203 Molecular weight and end capping effects on the optoelectronic properties of structurally related 'heavy atom' donor-acceptor polymers
DOI:10.1039/c4ta02820a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:7 AU: Gibson, Gregory L.;Gao, Dong;Jahnke, Ashlee A.;Sun, Jing;Tilley, Andrew J.;Seferos, Dwight S.;
2:1:204 New conjugated alternating benzodithiophene-containing copolymers with different acceptor units: synthesis and photovoltaic application
DOI:10.1039/c3ta12967e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:25 AU: Keshtov, M. L.;Marochkin, D. V.;Kochurov, V. S.;Khokhlov, A. R.;Koukaras, E. N.;Sharma, G. D.;
2:1:205 The effect of thieno[3,2-b]thiophene on the absorption, charge mobility and photovoltaic performance of diketopyrrolopyrrole-based low bandgap conjugated polymers
DOI:10.1039/c3tc31600a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Li, Yongxi;Chang, Chih-Yu;Chen, Yu;Song, Yi;Li, Chang-Zhi;Yip, Hin-Lap;Jen, Alex K. -Y.;Li, Chao;
2:1:206 Property modulation of benzodithiophene-based polymers via the incorporation of a covalently bonded novel 2,1,3-benzothiadiazole-1,2,4-oxadiazole derivative in their main chain for polymer solar cells
DOI:10.1039/c4tc01558d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Agneeswari, Rajalingam;Tamilavan, Vellaiappillai;Song, Myungkwan;Hyun, Myung Ho;
2:1:207 A crystalline low-bandgap polymer comprising dithienosilole and thieno[3,4-c] pyrrole-4,6-dione units for bulk heterojunction solar cells
DOI:10.1016/j.polymer.2011.04.057 JN:POLYMER PY:2011 TC:19 AU: Yuan, Mao-Chuan;Chou, Yi-Jen;Chen, Chia-Min;Hsu, Chang-Lung;Wei, Kung-Hwa;
2:1:208 Synthesis and photovoltaic properties of new conjugated polymers based on di(2-furyl)thiazolo[5,4-d]thiazole and benzo[1,2-b:4,5-b ']dithiophene
DOI:10.1016/j.polymer.2012.10.025 JN:POLYMER PY:2013 TC:11 AU: Hu, Chao;Wu, Zhongwei;Cao, Kangli;Sun, Baoquan;Zhang, Qing;
2:1:209 High-performance polymer photovoltaics based on rationally designed fullerene acceptors
DOI:10.1016/j.solmat.2013.08.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:6 AU: He, Youjun;Shao, Ming;Xiao, Kai;Smith, Sean C.;Hong, Kunlun;
2:1:210 A thienylenevinylene-phthalimide copolymer based polymer solar cell with high open circuit voltage: Effect of additive concentration on the open circuit voltage
DOI:10.1016/j.solmat.2014.02.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Kim, Juhwan;Yeo, Jun-Seok;Jeong, Hyung-Gu;Yun, Jin-Mun;Kim, Yeong-A;Kim, Dong-Yu;
2:1:211 Donor-Acceptor Alternating Copolymer Nanowires for Highly Efficient Organic Solar Cells
DOI:10.1002/adma.201401203 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Lee, Jaewon;Jo, Sae Byeok;Kim, Min;Kim, Heung Gyu;Shin, Jisoo;Kim, Haena;Cho, Kilwon;
2:1:212 Synthesis, Characterization, and Photovoltaic Properties of Carbazole-Based Two-Dimensional Conjugated Polymers with Donor-pi-Bridge-Acceptor Side Chains
DOI:10.1021/cm1027157 JN:CHEMISTRY OF MATERIALS PY:2010 TC:61 AU: Duan, Chunhui;Chen, Kung-Shih;Huang, Fei;Yip, Hin-Lap;Liu, Shengjian;Zhang, Jie;Jen, Alex K. -Y.;Cao, Yong;
2:1:213 Chemically Doped and Cross-linked Hole-Transporting Materials as an Efficient Anode Buffer Layer for Polymer Solar Cells
DOI:10.1021/cm2024235 JN:CHEMISTRY OF MATERIALS PY:2011 TC:25 AU: Sun, Ying;Chien, Shang-Chieh;Yip, Hin-Lap;Zhang, Yong;Chen, Kung-Shih;Zeigler, David F.;Chen, Fang-Chung;Lin, Baoping;Jen, Alex K. -Y.;
2:1:214 Fluorination of Polythiophene Derivatives for High Performance Organic Photovoltaics
DOI:10.1021/cm502229k JN:CHEMISTRY OF MATERIALS PY:2014 TC:16 AU: Jo, Jea Woong;Jung, Jae Woong;Wang, Hsin-Wei;Kim, Paul;Russell, Thomas P.;Jo, Won Ho;
2:1:215 Efficient polymer solar cells based on a broad bandgap D-A copolymer of "zigzag" naphthodithiophene and thieno[3,4-c]pyrrole-4,6-dione
DOI:10.1039/c2ta01143c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:28 AU: Shi, Shaowei;Jiang, Pei;Yu, Shunquan;Wang, Liwei;Wang, Xiaochen;Wang, Meng;Wang, Haiqiao;Li, Yongfang;Li, Xiaoyu;
2:1:216 Influence of moiety sequence on the performance of small molecular photovoltaic materials
DOI:10.1039/c4ta03125c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Liang, Long;Wang, Jin-Tu;Xiang, Xuan;Ling, Jun;Zhao, Fu-Gang;Li, Wei-Shi;
2:1:217 Structural tuning of quinoxaline-benzodithiophene copolymers via alkyl side chain manipulation: synthesis, characterization and photovoltaic properties
DOI:10.1039/c4ta01479k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:7 AU: Tessarolo, Marta;Gedefaw, Desta;Bolognesi, Margherita;Liscio, Fabiola;Henriksson, Patrik;Zhuang, Wenliu;Milita, Silvia;Muccini, Michele;Wang, Ergang;Seri, Mirko;Andersson, Mats R.;
2:1:218 Comprehensive study of medium-bandgap conjugated polymer merging a fluorinated quinoxaline with branched side chains for highly efficient and air-stable polymer solar cells
DOI:10.1039/c4ta05062b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Tseng, Wei-Hsuan;Chen, Hsieh-Chih;Chien, Yun-Chen;Liu, Chi-Chang;Peng, Yung-Kang;Wu, Yu-Sin;Chang, Jung-Hung;Liu, Shih-Hung;Chou, Shang-Wei;Liu, Chien-Liang;Chen, Ying-Hsiao;Wu, Chih-I;Chou, Pi-Tai;
2:1:219 Synthesis of novel narrow-band-gap copolymers based on [1,2,5]thiadiazolo[3,4-f] benzotriazole and their application in bulk-heterojunction photovoltaic devices
DOI:10.1016/j.polymer.2012.02.014 JN:POLYMER PY:2012 TC:23 AU: Dong, Yang;Cai, Wanzhu;Hu, Xiaowen;Zhong, Chengmei;Huang, Fei;Cao, Yong;
2:1:220 Synthesis, characterization and photovoltaic properties of two-dimensional conjugated polybenzodithiophene derivatives appending diketopyrrolopyrrole units as side chain
DOI:10.1016/j.polymer.2014.07.055 JN:POLYMER PY:2014 TC:1 AU: Chen, Jianhua;Xiao, Manjun;Su, Wenyan;Duan, Xiongwei;Duan, Linrui;Peng, Wenhong;Tan, Hua;Yang, Renqiang;Zhu, Weiguo;
2:1:221 Synthesis and characterization of a series of low-bandgap copolymers based on cyclopenta[2,1-b:3,4-b ']dithiophene and thienopyrroledione for photovoltaic applications
DOI:10.1016/j.solmat.2012.03.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Hong, Young-Rae;Ng, Joo Yee;Wong, Hoi Ka;Moh, Lionel C. H.;Yip, Yong Jie;Chen, Zhi-Kuan;Norsten, Tyler B.;
2:1:222 High-Performance Inverted Organic Photovoltaics with Over 1-mu m Thick Active Layers
DOI:10.1002/aenm.201400378 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:13 AU: Hu, Xiaowen;Yi, Chao;Wang, Ming;Hsu, Chih-Hao;Liu, Shengjian;Zhang, Kai;Zhong, Chengmei;Huang, Fei;Gong, Xiong;Cao, Yong;
2:1:223 Highly Crystalline and Low Bandgap Donor Polymers for Efficient Polymer Solar Cells
DOI:10.1002/adma.201103623 JN:ADVANCED MATERIALS PY:2012 TC:28 AU: Liu, Jun;Choi, Hyosung;Kim, Jin Young;Bailey, Chris;Durstock, Michael;Dai, Liming;
2:1:224 Molecular Design and Morphology Control Towards Efficient Polymer Solar Cells Processed using Non-aromatic and Non-chlorinated Solvents
DOI:10.1002/adma.201304825 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Chen, Yu;Zhang, Shaoqing;Wu, Yue;Hou, Jianhui;
2:1:225 Degradation Mechanism of Benzodithiophene-Based Conjugated Polymers when Exposed to Light in Air
DOI:10.1021/am300362b JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:20 AU: Alem, Salima;Wakim, Salem;Lu, Jianping;Robertson, Gilles;Ding, Jianfu;Tao, Ye;
2:1:226 The underlying reason of DIO additive on the improvement polymer solar cells performance
DOI:10.1016/j.apsusc.2014.03.041 JN:APPLIED SURFACE SCIENCE PY:2014 TC:8 AU: Wang, Zixuan;Zhang, Fujun;Li, Lingliang;An, Qiaoshi;Wang, Jian;Zhang, Jian;
2:1:227 Ladder-Type Nonacyclic Structure Consisting of Alternate Thiophene and Benzene Units for Efficient Conventional and Inverted Organic Photovoltaics
DOI:10.1021/cm202612t JN:CHEMISTRY OF MATERIALS PY:2011 TC:35 AU: Cheng, Yen-Ju;Chen, Chiu-Hsiang;Lin, Yu-Shun;Chang, Chih-Yu;Hsu, Chain-Shu;
2:1:228 Homocoupling Defects in Diketopyrrolopyrrole-Based Copolymers and Their Effect on Photovoltaic Performance
DOI:10.1021/ja505574a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Hendriks, Koen H.;Li, Weiwei;Heintges, Gael H. L.;van Pruissen, Gijs W. P.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:229 Conjugated donor-acceptor (D-A) copolymers in inverted organic solar cells - a combined experimental and modelling study
DOI:10.1039/c3ta10686a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:5 AU: Manninen, Venla;Niskanen, Mika;Hukka, Terttu I.;Pasker, Felix;Claus, Simon;Hoeger, Sigurd;Baek, Jinseok;Umeyama, Tomokazu;Imahori, Hiroshi;Lemmetyinen, Helge;
2:1:230 A novel benzodipyrrolidone-based low band gap polymer for organic solar cells
DOI:10.1039/c3ta12701j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:16 AU: Yue, Wei;Huang, Xiaodong;Yuan, Jianyu;Ma, Wanli;Krebs, Frederik C.;Yu, Donghong;
2:1:231 DTBDT-TTPD: a new dithienobenzodithiophene-based small molecule for use in efficient photovoltaic devices
DOI:10.1039/c4ta03745f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Cheon, Ye Rim;Kim, Yu Jin;Back, Jang Yeol;An, Tae Kyu;Park, Chan Eon;Kim, Yun-Hi;
2:1:232 Fluorine substituted thiophene-quinoxaline copolymer to reduce the HOMO level and increase the dielectric constant for high open-circuit voltage organic solar cells
DOI:10.1039/c2tc00327a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:34 AU: Lu, Yunzhang;Xiao, Zhengguo;Yuan, Yongbo;Wu, Haimei;An, Zhongwei;Hou, Yanbing;Gao, Chao;Huang, Jinsong;
2:1:233 Small molecules incorporating regioregular oligothiophenes and fluorinated benzothiadiazole groups for solution-processed organic solar cells
DOI:10.1039/c4tc00921e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Yuan, Liu;Zhao, Yifan;Lu, Kun;Deng, Dan;Yan, Wei;Wei, Zhixiang;
2:1:234 Determination of the P3HT:PCBM solubility parameters via a binary solvent gradient method: Impact of solubility on the photovoltaic performance
DOI:10.1016/j.solmat.2012.01.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:60 AU: Machui, Florian;Langner, Stefan;Zhu, Xiangdong;Abbott, Steven;Brabec, Christoph J.;
2:1:235 New alkylselenyl substituted benzodithiophene-based solution-processable 2D pi-conjugated polymers for bulk heterojunction polymer solar cell applications
DOI:10.1016/j.solmat.2013.11.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Chakravarthi, Nallan;Kranthiraja, Kakaraparthi;Song, Myungkwan;Gunasekar, Kumarasamy;Jeong, Pyeongsu;Moon, Sang-Jin;Shin, Won Suk;Kang, In-Nam;Lee, Jae Wook;Jin, Sung-Ho;
2:1:236 Effect of end-groups on the photovoltaic property of diphenyl substituted diketopyrrolopyrrole derivatives
DOI:10.1016/j.synthmet.2013.11.024 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Shi, Hangqi;Gu, Zhuowei;Gu, Xiao;Pan, Hongbin;Pan, Junying;Hu, Xiaolian;Fan, Congcheng;Shi, Minmin;Chen, Hongzheng;
2:1:237 A Facile Method to Enhance Photovoltaic Performance of Benzodithiophene-Isoindigo Polymers by Inserting Bithiophene Spacer
DOI:10.1002/aenm.201301455 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:15 AU: Ma, Zaifei;Dang, Dongfeng;Tang, Zheng;Gedefaw, Desta;Bergqvist, Jonas;Zhu, Weiguo;Mammo, Wendimagegn;Andersson, Mats R.;Inganas, Olle;Zhang, Fengling;Wang, Ergang;
2:1:238 Morphological Stabilization by Supramolecular Perfl uorophenyl-C-60 Interactions Leading to Effi cient and Thermally Stable Organic Photovoltaics
DOI:10.1002/adfm.201300437 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Liao, Ming-Hung;Tsai, Che-En;Lai, Yu-Ying;Cao, Fong-Yi;Wu, Jhong-Sian;Wang, Chien-Lung;Hsu, Chain-Shu;Liau, Ian;Cheng, Yen-Ju;
2:1:239 A Porphyrin-Fullerene Dyad with a Supramolecular "Double-Cable" Structure as a Novel Electron Acceptor for Bulk Heterojunction Polymer Solar Cells
DOI:10.1002/adma.201100399 JN:ADVANCED MATERIALS PY:2011 TC:38 AU: Wang, Chien-Lung;Zhang, Wen-Bin;Van Horn, Ryan M.;Tu, Yingfeng;Gong, Xiong;Cheng, Stephen Z. D.;Sun, Yanming;Tong, Minghong;Seo, Junghwa;Hsu, Ben B. Y.;Heeger, Alan J.;
2:1:240 Porphyrin-Incorporated 2D D-A Polymers with Over 8.5% Polymer Solar Cell Efficiency
DOI:10.1002/adma.201401345 JN:ADVANCED MATERIALS PY:2014 TC:22 AU: Chao, YI-Hsiang;Jheng, Jyun-Fong;Wu, Jhong-Sian;Wu, Kuan-Yi;Peng, Hsih-Hao;Tsai, Ming-Chi;Wang, Chin-Li;Hsiao, Yen-Ni;Wang, Chien-Lung;Lin, Ching-Yao;Hsu, Chain-Shu;
2:1:241 Effect of the Fibrillar Microstructure on the Efficiency of High Molecular Weight Diketopyrrolopyrrole-Based Polymer Solar Cells
DOI:10.1002/adma.201304360 JN:ADVANCED MATERIALS PY:2014 TC:33 AU: Li, Weiwei;Hendriks, Koen H.;Furlan, Alice;Roelofs, W. S. C.;Meskers, Stefan C. J.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:242 Thieno[3,2-b]thiophene-Substituted Benzo[1,2-b:4,5-b ']dithiophene as a Promising Building Block for Low Bandgap Semiconducting Polymers for High-Performance Single and Tandem Organic Photovoltaic Cells
DOI:10.1021/cm4035903 JN:CHEMISTRY OF MATERIALS PY:2014 TC:37 AU: Kim, Ji-Hoon;Song, Chang Eun;Kim, BongSoo;Kang, In-Nam;Shin, Won Suk;Hwang, Do-Hoon;
2:1:243 Predicting Morphologies of Solution Processed Polymer:Fullerene Blends
DOI:10.1021/ja405493j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:28 AU: Kouijzer, Sandra;Michels, Jasper J.;van den Berg, Mauricio;Gevaerts, Veronique S.;Turbiez, Mathieu;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:244 Thiophene-benzothiadiazole-thiophene (D-A-D) based polymers: effect of donor/acceptor moieties adjacent to D-A-D segment on photophysical and photovoltaic properties
DOI:10.1039/c1jm10649j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Sonar, Prashant;Williams, Evan L.;Singh, Samarendra P.;Dodabalapur, Ananth;
2:1:245 New TIPS-substituted benzo[1,2-b:4,5-b ']dithiophene-based copolymers for application in polymer solar cells
DOI:10.1039/c2jm33466f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Bathula, Chinna;Song, Chang Eun;Badgujar, Sachin;Hong, Seong-Jin;Kang, In-Nam;Moon, Sang-Jin;Lee, Jaemin;Cho, Shinuk;Shim, Hong-Ku;Lee, Sang Kyu;
2:1:246 Synthesis and photovoltaic properties of benzo[1,2-b:4,5-b ']dithiophene derivative-based polymers with deep HOMO levels
DOI:10.1039/c2jm32514d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Kim, Heung Gyu;Jo, Sae Byeok;Shim, Chiyeoung;Lee, Jaewon;Shin, Jisoo;Cho, Eun Chul;Ihn, Soo-Ghang;Choi, Yeong Suk;Kim, Yungi;Cho, Kilwon;
2:1:247 Improved power conversion efficiency of bulk-heterojunction organic solar cells using a benzothiadiazole-triphenylamine polymer
DOI:10.1039/c2jm14671a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Yasuda, Takeshi;Shinohara, Yuki;Matsuda, Takaaki;Han, Liyuan;Ishi-i, Tsutomu;
2:1:248 Molecular orbital energy level modulation through incorporation of selenium and fluorine into conjugated polymers for organic photovoltaic cells
DOI:10.1039/c3ta13040a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:13 AU: Zhuang, Wenliu;Zhen, Hongyu;Kroon, Renee;Tang, Zheng;Hellstrom, Stefan;Hou, Lintao;Wang, Ergang;Gedefaw, Desta;Inganas, Olle;Zhang, Fengling;Andersson, Mats R.;
2:1:249 Comparing random and regular diketopyrrolopyrrole-bithiophene-thienopyrrolodione terpolymers for organic photovoltaics
DOI:10.1039/c4ta04118f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Hendriks, Koen H.;Heintges, Gael H. L.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:250 Direct access to 4,8-functionalized benzo[1,2-b:4,5-b ']dithiophenes with deep low-lying HOMO Levels and high mobilities
DOI:10.1039/c4ta01226g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Zhu, Enwei;Ge, Guidong;Shu, Jingkun;Yi, Mingdong;Bian, Linyi;Hai, Jiefeng;Yu, Jiangsheng;Liu, Yun;Zhou, Jie;Tang, Weihua;
2:1:251 Flexible polymer solar cells with power conversion efficiency of 8.7%
DOI:10.1039/c3tc32520b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:20 AU: Zhao, Baofeng;He, Zhicai;Cheng, Xiaoping;Qin, Donghuan;Yun, Min;Wang, Meijuan;Huang, Xiaodong;Wu, Jianguo;Wu, Hongbin;Cao, Yong;
2:1:252 Synthesis, characterization, and photovoltaic property of a low band gap polymer alternating dithienopyrrole and thienopyrroledione units
DOI:10.1016/j.polymer.2011.03.057 JN:POLYMER PY:2011 TC:22 AU: Hu, Xiaolian;Shi, Minmin;Zuo, Lijian;Nan, Yaxiong;Liu, Yujing;Fu, Lei;Chen, Hongzheng;
2:1:253 Synthesis and photovoltaic properties of donor-acceptor polymers incorporating a structurally-novel pyrrole-based imide-functionalized electron acceptor moiety
DOI:10.1016/j.polymer.2013.09.012 JN:POLYMER PY:2013 TC:15 AU: Tamilavan, Vellaiappillai;Song, Myungkwan;Agneeswari, Rajalingam;Kang, Jae-Wook;Hwang, Do-Hoon;Hyun, Myung Ho;
2:1:254 Synthesis of seleno[3,4-c]pyrrole-4,6-dione-based polymers for polymer solar cells
DOI:10.1016/j.synthmet.2012.07.003 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Ikai, Tomoyuki;Azam, A. K. M. Fakhrul;Kuzuba, Mitsuhiro;Kuwabara, Takayuki;Maeda, Katsuhiro;Takahashi, Kohshin;Kanoh, Shigeyoshi;
2:1:255 Synthesis and photovoltaic characterization of thiadiazole based low bandgap polymers
DOI:10.1016/j.tsf.2014.03.087 JN:THIN SOLID FILMS PY:2014 TC:7 AU: Hai, Jiefeng;Yu, Wei;Zhu, Enwei;Bian, Linyi;Zhang, Jian;Tang, Weihua;
2:1:256 Role of the Side Chain in the Phase Segregation of Polymer: Fullerene Bulk Heterojunction Composites
DOI:10.1002/aenm.201300434 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:2 AU: Kim, Heejoo;Lee, Byoung Hoon;Lee, Kyu Cheol;Kim, Geunjin;Yu, Jin Young;Kim, Nara;Lee, Seoung Ho;Lee, Kwanghee;
2:1:257 Energy Level Modulation of HOMO, LUMO, and Band-Gap in Conjugated Polymers for Organic Photovoltaic Applications
DOI:10.1002/adfm.201201385 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:25 AU: Kim, Bong-Gi;Ma, Xiao;Chen, Chelsea;Ie, Yutaka;Coir, Elizabeth W.;Hashemi, Hossein;Aso, Yoshio;Green, Peter F.;Kieffer, John;Kim, Jinsang;
2:1:258 Tuning the Polarizability in Donor Polymers with a Thiophenesaccharin Unit for Organic Photovoltaic Applications
DOI:10.1002/adfm.201303688 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Xu, Tao;Lu, Luyao;Zheng, Tianyue;Szarko, Jodi M.;Schneider, Alexander;Chen, Lin X.;Yu, Luping;
2:1:259 Elucidating Double Aggregation Mechanisms in the Morphology Optimization of Diketopyrrolopyrrole-Based Narrow Bandgap Polymer Solar Cells
DOI:10.1002/adma.201305645 JN:ADVANCED MATERIALS PY:2014 TC:14 AU: Gao, Jing;Chen, Wei;Dou, Letian;Chen, Chun-Chao;Chang, Wei-Hsuan;Liu, Yongsheng;Li, Gang;Yang, Yang;
2:1:260 The investigation of donor-acceptor compatibility in bulk-heterojunction polymer systems
DOI:10.1063/1.4816056 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Huang, Jen-Hsien;Hsiao, Yu-Sheng;Richard, Eric;Chen, Chun-Chao;Chen, Peilin;Li, Gang;Chu, Chih-Wei;Yang, Yang;
2:1:261 Small-Bandgap Semiconducting Polymers with High Near-Infrared Photoresponse
DOI:10.1021/ja506265h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:9 AU: Hendriks, Koen H.;Li, Weiwei;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:262 Novel ladder-type heteroheptacene-based copolymers for bulk heterojunction solar cells
DOI:10.1039/c2jm31638b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Cai, Dongdong;Zheng, Qingdong;Chen, Shan-Ci;Zhang, Qikai;Lu, Can-Zhong;Sheng, Yu;Zhu, Deqin;Yin, Zhigang;Tang, Changquan;
2:1:263 Low band gap dithienogermolodithiophene copolymers with tunable acceptors and side-chains for organic solar cells
DOI:10.1039/c3ta13778c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:12 AU: Zhong, Hongliang;Li, Zhe;Buchaca-Domingo, Ester;Rossbauer, Stephan;Watkins, Scott E.;Stingelin, Natalie;Anthopoulos, Thomas D.;Heeney, Martin;
2:1:264 Effect of processing additive on morphology and charge extraction in bulk-heterojunction solar cells
DOI:10.1039/c4ta03091e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:12 AU: Wang, Dong Hwan;Morin, Pierre-Olivier;Lee, Chang-Lyoul;Kyaw, Aung Ko Ko;Leclerc, Mario;Heeger, Alan J.;
2:1:265 Efficient polymer solar cells based on terpolymers with a broad absorption range of 300-900 nm
DOI:10.1039/c4ta00020j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Huang, Yuanshuai;Zhang, Min;Chen, Huajie;Wu, Fen;Cao, Zhencai;Zhang, Lingjun;Tan, Songting;
2:1:266 Thiazolyl substituted benzodithiophene copolymers: synthesis, properties and photovoltaic applications
DOI:10.1039/c3tc31622j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Xiao, Zeyun;Subbiah, Jegadesan;Sun, Kuan;Ji, Shaomin;Jones, David J.;Holmes, Andrew B.;Wong, Wallace W. H.;
2:1:267 Enhancement of photovoltaic performance by increasing conjugation of the acceptor unit in benzodithiophene and quinoxaline copolymers
DOI:10.1039/c4tc01440e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Hu, Tong;Han, Liangliang;Xiao, Manjun;Bao, Xichang;Wang, Ting;Sun, Mingliang;Yang, Renqiang;
2:1:268 Effect of asymmetric solubility of diketopyrrolopyrrole-based polymers and PC71BMs in a binary solvent system on the performance of bulk heterojunction solar cells
DOI:10.1016/j.solmat.2014.02.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Son, Seon Kyoung;Lee, Hyo-Sang;Ha, Jae Seung;Kim, Kyung Hwan;Son, Hae Jung;Ko, Min Jae;Kim, Honggon;Lee, Doh-Kwon;Kim, Jin Young;Lee, Wonmok;Park, Sungnam;Choi, Dong Hoon;Kim, BongSoo;
2:1:269 A cyclopentadithiophene/thienopyrroledione-based donor-acceptor copolymer for organic solar cells
DOI:10.1016/j.synthmet.2011.02.010 JN:SYNTHETIC METALS PY:2011 TC:7 AU: MacNeill, Christopher M.;Peterson, Eric D.;Noftle, Ronald E.;Carroll, David L.;Coffin, Robert C.;
2:1:270 Benzodithiophene-based polymers containing novel electron accepting selenophene-incorporated pyrrolo[3,4-c]pyrrole-1,3-dione units for highly efficient thin film transistors and polymer solar cells
DOI:10.1016/j.synthmet.2014.10.023 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Tamilavan, Vellaiappillai;Park, Jong Baek;Kang, In-Nam;Hwang, Do-Hoon;Hyun, Myung Ho;
2:1:271 Effects of Solvent Additives on Morphology, Charge Generation, Transport, and Recombination in Solution-Processed Small-Molecule Solar Cells
DOI:10.1002/aenm.201301469 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:27 AU: Kyaw, Aung Ko Ko;Wang, Dong Hwan;Luo, Chan;Cao, Yong;Thuc-Quyen Nguyen;Bazan, Guillermo C.;Heeger, Alan J.;
2:1:272 Interfacial Engineering of Ultrathin Metal Film Transparent Electrode for Flexible Organic Photovoltaic Cells
DOI:10.1002/adma.201306212 JN:ADVANCED MATERIALS PY:2014 TC:17 AU: Zou, Jingyu;Li, Chang-Zhi;Chang, Chih-Yu;Yip, Hin-Lap;Jen, Alex K. -Y.;
2:1:273 Enhance performance of organic solar cells based on an isoindigo-based copolymer by balancing absorption and miscibility of electron acceptor
DOI:10.1063/1.3645622 JN:APPLIED PHYSICS LETTERS PY:2011 TC:23 AU: Ma, Zaifei;Wang, Ergang;Vandewal, Koen;Andersson, Mats R.;Zhang, Fengling;
2:1:274 High-Crystalline Medium-Band-Gap Polymers Consisting of Benzodithiophene and Benzotriazole Derivatives for Organic Photovoltaic Cells
DOI:10.1021/am401926h JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Kim, Ji-Hoon;Song, Chang Eun;Shin, Nara;Kang, Hyunbum;Wood, Sebastian;Kang, In-Nam;Kim, Bumjoon J.;Kim, BongSoo;Kim, Ji-Seon;Shin, Won Suk;Hwang, Do-Hoon;
2:1:275 Effect of Fluorination on Electronic Properties of Polythienothiophene-co-benzodithiophenes and Their Fullerene Complexes
DOI:10.1021/am5035126 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Bhatta, Ram S.;Tsige, Mesfin;
2:1:276 Carbazoles on same main chain for polymer solar cells
DOI:10.1002/app.38996 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Qin, Ruiping;Jiang, Yurong;Ma, Heng;Yang, Le;Liu, Hengzhi;Chang, Fanggao;
2:1:277 Pendant group effects on the optical and electrical properties of carbazole-diketopyrrolopyrrole copolymers
DOI:10.1039/c3ta11058c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:6 AU: Kwon, Obum;Jo, Jang;Walker, Bright;Bazan, Guillermo C.;Seo, Jung Hwa;
2:1:278 Selenophene vs. thiophene in benzothiadiazole-based low energy gap donor-acceptor polymers for photovoltaic applications
DOI:10.1039/c3ta00122a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:32 AU: Alghamdi, Abdulaziz A. B.;Watters, Darren C.;Yi, Hunan;Al-Faifi, Solyman;Almeataq, Mohammed S.;Coles, David;Kingsley, James;Lidzey, David G.;Iraqi, Ahmed;
2:1:279 An alternating D-A(1)-D-A(2) copolymer containing two electron-deficient moieties for efficient polymer solar cells
DOI:10.1039/c3ta12321a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:19 AU: Sun, Wenjun;Ma, Zaifei;Dang, Dongfeng;Zhu, Weiguo;Andersson, Mats R.;Zhang, Fengling;Wang, Ergang;
2:1:280 A high molecular weight triisopropylsilylethynyl (TIPS)-benzodithiophene and diketopyrrolopyrrole-based copolymer for high performance organic photovoltaic cells
DOI:10.1039/c4ta00535j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:19 AU: Kim, Ji-Hoon;Lee, Minjung;Yang, Hoichang;Hwang, Do-Hoon;
2:1:281 Highly efficient imide functionalized pyrrolo[3,4-c]-pyrrole-1,3-dione-based random copolymer containing thieno[3,4-c]pyrrole-4,6-dione and benzodithiophene for simple structured polymer solar cells
DOI:10.1039/c4ta05086j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Tamilavan, Vellaiappillai;Roh, Kyung Hwan;Agneeswari, Rajalingam;Lee, Dal Yong;Cho, Shinuk;Jin, Youngeup;Park, Sung Heum;Hyun, Myung Ho;
2:1:282 A new two-dimensional donor/acceptor copolymer based on 4,8-bis(2 '-ethylhexylthiophene)thieno[2,3-f]benzofuran for high-performance polymer solar cells
DOI:10.1039/c4tc00738g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Fan, Ling;Cui, Ruili;Guo, Xiuping;Qian, Dong;Qiu, Beibei;Yuan, Jun;Li, Yongfang;Huang, Wenlong;Yang, Junliang;Liu, Weifang;Xu, Xinjun;Li, Lidong;Zou, Yingping;
2:1:283 Synthesis and characterization of new indeno[1,2-b]indole-co-benzothiadiazole-based pi-conjugated ladder type polymers for bulk heterojunction polymer solar cells
DOI:10.1016/j.polymer.2013.07.004 JN:POLYMER PY:2013 TC:9 AU: Sakthivel, Pachagounder;Song, Ho Sung;Chakravarthi, Nallan;Lee, Jae Wook;Gal, Yeong-Soon;Hwang, Sungu;Jin, Sung-Ho;
2:1:284 Dinaphtho-s-indacene-based copolymers for inverted organic solar cells with high open-circuit voltages
DOI:10.1016/j.polymer.2014.03.017 JN:POLYMER PY:2014 TC:2 AU: Fan, Wenbin;Yin, Zhigang;Ma, Yunlong;Wang, Bingxi;Chen, Shanci;Tang, Changquan;Zheng, Qingdong;
2:1:285 Superiority of Branched Side Chains in Spontaneous Nanowire Formation: Exemplified by Poly(3-2-methylbutylthiophene) for High-Performance Solar Cells
DOI:10.1002/smll.201002196 JN:SMALL PY:2011 TC:13 AU: Chen, Hsieh-Chih;Wu, I-Che;Hung, Jui-Hsiang;Chen, Fu-Je;Chen, I-Wen P.;Peng, Yung-Kang;Lin, Chao-Sung;Chen, Chun-Hsien;Sheng, Yu-Jane;Tsao, Heng-Kwong;Chou, Pi-Tai;
2:1:286 Fine tuning the HOMO energy levels of polythieno[3,4-b]thiophene derivatives by incorporation of thiophene-3,4-dicarboxylate moiety for photovoltaic applications
DOI:10.1016/j.synthmet.2012.10.001 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Hu, Xiao-Lian;Zuo, Li-Jian;Nan, Ya-Xiong;Helgesen, Martin;Hagemann, Ole;Bundgaard, Eva;Shi, Min-Min;Krebs, Frederik C.;Chen, Hong-Zheng;
2:1:287 Synthesis of new near infrared absorption polymers based on thiadiazoloquinoxaline and their solar cell applications
DOI:10.1016/j.synthmet.2012.05.004 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Tamilavan, Vellaiappillai;Song, Myungkwan;Jin, Sung-Ho;Park, Hea Jung;Yoon, Ung Chan;Hyun, Myung Ho;
2:1:288 High open-circuit voltage solar cells using a new thieno[3,4-c] pyrrole-4,6-dione based copolymer
DOI:10.1016/j.synthmet.2013.08.022 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Beaupre, Serge;Najari, Ahmed;Leclerc, Mario;
2:1:289 A new polymer from fluorinated benzothiadiazole and alkoxylphenyl substituted benzo[1,2-b:4,5-b ']dithiophene: Synthesis and photovoltaic applications
DOI:10.1016/j.synthmet.2013.11.009 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Xiao, Lu;Yuan, Jun;Zou, Yingping;Liu, Bo;Jiang, Jinzhi;Wang, Yan;Jiang, Lihui;Li, Yong Fang;
2:1:290 Solubility-Controlled Structural Ordering of Narrow Bandgap Conjugated Polymers
DOI:10.1002/aenm.201000005 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:21 AU: Park, Yeong Don;Park, Jin Kuen;Seo, Jung Hwa;Yuen, Jonathan D.;Lee, Wi Hyoung;Cho, Kilwon;Bazan, Guillermo C.;
2:1:291 Synergistic Effect of Processing Additives and Optical Spacers in Bulk-Heterojunction Solar Cells
DOI:10.1002/aenm.201200311 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:18 AU: Kwon, Sooncheol;Park, Jin Kuen;Kim, Geunjin;Kong, Jaemin;Bazan, Guillermo C.;Lee, Kwanghee;
2:1:292 Conjugated Polymer Based on Polycyclic Aromatics for Bulk Heterojunction Organic Solar Cells: A Case Study of Quadrathienonaphthalene Polymers with 2% Efficiency
DOI:10.1002/adfm.200901407 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:48 AU: Xiao, Shengqiang;Stuart, Andrew C.;Liu, Shubin;Zhou, Huaxing;You, Wei;
2:1:293 Eleven-Membered Fused-Ring Low Band-Gap Polymer with Enhanced Charge Carrier Mobility and Photovoltaic Performance
DOI:10.1002/adfm.201303953 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:18 AU: Li, Yongxi;Yao, Kai;Yip, Hin-Lap;Ding, Fei-Zhi;Xu, Yun-Xiang;Li, Xiaosong;Chen, Yu;Jen, Alex K. -Y.;
2:1:294 Top-Down Approach for Nanophase Reconstruction in Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201402182 JN:ADVANCED MATERIALS PY:2014 TC:21 AU: Kong, Jaemin;Hwang, In-Wook;Lee, Kwanghee;
2:1:295 Fullerene mixtures enhance the thermal stability of a non-crystalline polymer solar cell blend
DOI:10.1063/1.4870997 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Lindqvist, Camilla;Bergqvist, Jonas;Backe, Olof;Gustafsson, Stefan;Wang, Ergang;Olsson, Eva;Inganas, Olle;Andersson, Mats R.;Muller, Christian;
2:1:296 Preparation of Active Layers in Polymer Solar Cells by Aerosol Jet Printing
DOI:10.1021/am200907k JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:13 AU: Yang, Chunhe;Zhou, Erjun;Miyanishi, Shoji;Hashimoto, Kazuhito;Tojima, Keisuke;
2:1:297 Evolved Phase Separation toward Balanced Charge Transport and High Efficiency in Polymer Solar Cells
DOI:10.1021/am200842y JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:16 AU: Fan, Haijun;Zhang, Maojie;Guo, Xia;Li, Yongfang;Zhan, Xiaowei;
2:1:298 Donor Copolymer with Benzo[ 1,2-b: 4,5-b0] dithiophene and Quinoxaline Derivative Segments for Photovoltaic Applications
DOI:10.1002/app.40279 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Gao, Zhi;Qu, Bo;Wu, Haimei;Gao, Chao;Yang, Hongsheng;Zhang, Lipei;Xiao, Lixin;Chen, Zhijian;Gong, Qihuang;
2:1:299 Synthesis and photovoltaic properties of thiophene-imide-fused thiophene alternating copolymers with different alkyl side chains
DOI:10.1039/c1jm11531f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:14 AU: Umeyama, Tomokazu;Oodoi, Masaaki;Yoshikawa, Osamu;Sagawa, Takashi;Yoshikawa, Susumu;Evgenia, Douvogianni;Tezuka, Noriyasu;Matano, Yoshihiro;Stranius, Kati;Tkachencko, Nikolai V.;Lemmetyinen, Helge;Imahori, Hiroshi;
2:1:300 Solvent-soaking treatment induced morphology evolution in P3HT/PCBM composite films
DOI:10.1039/c1jm10148j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:45 AU: Li, Hui;Tang, Haowei;Li, Ligui;Xu, Wentao;Zhao, Xiaoli;Yang, Xiaoniu;
2:1:301 How the linkage positions affect the performance of bulk-heterojunction polymer solar cells
DOI:10.1039/c2jm32002a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Li, Shuang;He, Zhicai;Yu, Jian;Chen, Su'an;Zhong, Aoshu;Tang, Runli;Wu, Hongbin;Qin, Jingui;Li, Zhen;
2:1:302 Synthesis and study of low-bandgap polymers containing the diazapentalene and diketopyrrolopyrrole chromophores for potential use in solar cells and near-infrared photodetectors
DOI:10.1039/c2jm30868a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Qian, Gang;Qi, Ji;Wang, Zhi Yuan;
2:1:303 Nucleation-limited fullerene crystallisation in a polymer-fullerene bulk-heterojunction blend
DOI:10.1039/c3ta11018d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Lindqvist, Camilla;Sanz-Velasco, Anke;Wang, Ergang;Backe, Olof;Gustafsson, Stefan;Olsson, Eva;Andersson, Mats R.;Muller, Christian;
2:1:304 New alkylthienyl substituted benzo[1,2-b:4,5-b '] dithiophene-based polymers for high performance solar cells
DOI:10.1039/c2ta00474g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:29 AU: Liu, Bo;Chen, Xuewen;He, Yuehui;Li, Yongfang;Xu, Xinjun;Xiao, Lu;Li, Lidong;Zou, Yingping;
2:1:305 Optical and electronic properties of fluorene/thiophene/benzothiadiazole pseudorandom copolymers for photovoltaic applications
DOI:10.1007/s10853-011-5321-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:15 AU: Bonoldi, Lucia;Calabrese, Anna;Pellegrino, Andrea;Perin, Nicola;Po, Riccardo;Spera, Silvia;Tacca, Alessandra;
2:1:306 Novel conjugated alternating copolymer based on 2,7-carbazole and 2,1,3-benzoselenadiazole
DOI:10.1016/j.polymer.2010.04.057 JN:POLYMER PY:2010 TC:38 AU: Zhao, Wei;Cai, Wanzhu;Xu, Ruixia;Yang, Wei;Gong, Xiong;Wu, Hongbin;Cao, Yong;
2:1:307 Synthesis and photovoltaic properties of a donor-acceptor polymer containing both dithieno[3,2-b:2 ',3 '-d]pyrrole and fluorene as donor units
DOI:10.1016/j.polymer.2012.09.013 JN:POLYMER PY:2012 TC:4 AU: Song, Haiyang;Tong, Hui;Xie, Zhiyuan;Wang, Lixiang;Wang, Fosong;
2:1:308 Synthesis and photovoltaic properties of n-type conjugated polymers alternating 2,7-carbazole and arylene diimides
DOI:10.1016/j.solmat.2012.04.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Hu, Xiaolian;Zuo, Lijian;Pan, Hongbin;Hao, Feng;Pan, Junying;Fu, Lei;Shi, Minmin;Chen, Hongzheng;
2:1:309 Conjugated moiety effect on blend film phase separation and photovoltaic properties of benzo[1,2-b:4,5-b ']dithiophene-containing coplanar donor-acceptor copolymers
DOI:10.1016/j.solmat.2012.09.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Li, Yaowen;Chen, Liwei;Chen, Yujin;Li, Chao;Zhang, Pan;Gao, Lingfeng;Yang, Xiaoming;Tu, Yingfeng;Zhu, Xiulin;
2:1:310 Temperature-dependent morphology evolution of P3HT:PCBM blend solar cells during annealing processes
DOI:10.1016/j.synthmet.2012.10.012 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Lu, Yunzhang;Wang, Yan;Feng, Zhihui;Ning, Yu;Liu, Xiaojun;Lu, Yanwu;Hou, Yanbing;
2:1:311 Photovoltaic properties of benzotriazole containing alternating donor-acceptor copolymers: Effect of alkyl chain length
DOI:10.1016/j.synthmet.2012.09.017 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Baran, Derya;Balan, Abidin;Stubhan, Tobias;Ameri, Tayebeh;Toppare, Levent;Brabec, Christoph J.;
2:1:312 Polycarbazoles: Relationship between intra- and intermolecular charge carrier transports
DOI:10.1016/j.synthmet.2012.07.005 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Yasutani, Yoshihiro;Honsho, Yoshihito;Saeki, Akinori;Seki, Shu;
2:1:313 Synthesis of the novel 2,2-bithiophene-3,3-dicarboximide-based conjugated copolymers for OPVs
DOI:10.1016/j.synthmet.2013.06.012 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Songa, Suhee;Kim, Taehyo;Bang, Su Yeon;Heo, Mihee;Kim, Jinwoo;Jin, Youngeup;Kim, Il;Kim, Jin Young;Suh, Hongsuk;
2:1:314 Manipulating Backbone Structure to Enhance Low Band Gap Polymer Photovoltaic Performance
DOI:10.1002/aenm.201300031 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:22 AU: Huang, Ye;Liu, Feng;Guo, Xia;Zhang, Wei;Gu, Yu;Zhang, Jianping;Han, Charles C.;Russell, Thomas P.;Hou, Jianhui;
2:1:315 Germanium- and Silicon-Substituted Donor-Acceptor Type Copolymers: Effect of the Bridging Heteroatom on Molecular Packing and Photovoltaic Device Performance
DOI:10.1002/aenm.201400527 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:3 AU: Kim, Jong Soo;Fei, Zhuping;Wood, Sebastian;James, David T.;Sim, Myungsun;Cho, Kilwon;Heeney, Martin J.;Kim, Ji-Seon;
2:1:316 Enhanced Photovoltaic Performance of Indacenodithiophene-Quinoxaline Copolymers by Side-Chain Modulation
DOI:10.1002/aenm.201400680 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:18 AU: Dang, Dongfeng;Chen, Weichao;Himmelberger, Scott;Tao, Qiang;Lundin, Angelica;Yang, Renqiang;Zhu, Weiguo;Salleo, Alberto;Mueller, Christian;Wang, Ergang;
2:1:317 Cyclopenta[c]thiophene-4,6-dione-Based Copolymers as Organic Photovoltaic Donor Materials
DOI:10.1002/aenm.201301821 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Owczarczyk, Zbyslaw R.;Braunecker, Wade A.;Oosterhout, Stefan D.;Kopidakis, Nikos;Larsen, Ross E.;Ginley, David S.;Olson, Dana C.;
2:1:318 Enhanced Power Conversion Efficiency of Low BandGap Polymer Solar Cells by Insertion of Optimized Binary Processing Additives
DOI:10.1002/aenm.201300835 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Wang, Dong Hwan;Kyaw, Aung Ko Ko;Pouliot, Jean-Remi;Leclerc, Mario;Heeger, Alan J.;
2:1:319 Ordering Effects in Benzo[1,2-b:4,5-b ']difuran-thieno[3,4-c]pyrrole-4,6-dione Polymers with > 7% Solar Cell Efficiency
DOI:10.1002/adma.201305344 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Warnan, Julien;Cabanetos, Clement;El Labban, Abdulrahman;Hansen, Michael Ryan;Tassone, Christopher;Toney, Michael F.;Beaujuge, Pierre M.;
2:1:320 Tuning the Vertical Phase Separation in Polyfluorene:Fullerene Blend Films by Polymer Functionalization
DOI:10.1021/cm1021596 JN:CHEMISTRY OF MATERIALS PY:2011 TC:25 AU: Anselmo, Ana Sofia;Lindgren, Lars;Rysz, Jakub;Bernasik, Andrzej;Budkowski, Andrzej;Andersson, Mats R.;Svensson, Krister;van Stam, Jan;Moons, Ellen;
2:1:321 A New Tetracyclic Lactam Building Block for Thick, Broad-Bandgap Photovoltaics
DOI:10.1021/ja5051692 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:3 AU: Kroon, Renee;Mendaza, Amaia Diaz de Zerio;Himmelberger, Scott;Bergqvist, Jonas;Backe, Olof;Faria, Gregorio Couto;Gao, Feng;Obaid, Abdulmalik;Zhuang, Wenliu;Gedefaw, Desta;Olsson, Eva;Inganas, Olle;Salleo, Alberto;Muller, Christian;Andersson, Mats R.;
2:1:322 Fluorene-based copolymers with donor-acceptor units on the side chain and main chain: Synthesis and application in polymer solar cells
DOI:10.1002/app.39563 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:4 AU: Hou, Qiong;Liu, Jungen;Jia, Tao;Luo, Suilian;Shi, Guang;
2:1:323 A promising combination of benzotriazole and quinoxaline units: A new acceptor moiety toward synthesis of multipurpose donor-acceptor type polymers
DOI:10.1039/c2jm16171k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Ozdemir, Serife;Sendur, Merve;Oktem, Gozde;Dogan, Ozdemir;Toppare, Levent;
2:1:324 Sub-glass transition annealing enhances polymer solar cell performance
DOI:10.1039/c3ta14165a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Bergqvist, Jonas;Lindqvist, Camilla;Backe, Olof;Ma, Zaifei;Tang, Zheng;Tress, Wolfgang;Gustafsson, Stefan;Wang, Ergang;Olsson, Eva;Andersson, Mats R.;Inganas, Olle;Muller, Christian;
2:1:325 Influence of fluorine substituents on the film dielectric constant and open-circuit voltage in organic photovoltaics
DOI:10.1039/c3tc32087a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Yang, Pinyi;Yuan, Mingjian;Zeigler, David F.;Watkins, Scott E.;Lee, Jason A.;Luscombe, Christine K.;
2:1:326 Cyclopentadithiophene-naphthalenediimide polymers; synthesis, characterisation, and n-type semiconducting properties in field-effect transistors and photovoltaic devices
DOI:10.1016/j.matchemphys.2014.01.029 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Li, Chun-Han;Kettle, Jeff;Horie, Masaki;
2:1:327 Low bandgap polymers with benzo [1,2-b:4,5-b '] dithiophene and bisthiophene-dioxopyrrolothiophene units for photovoltaic applications
DOI:10.1016/j.polymer.2010.11.022 JN:POLYMER PY:2011 TC:20 AU: Zhang, Guobing;Fu, Yingying;Xie, Zhiyuan;Zhang, Qing;
2:1:328 Improved bulk-heterojunction polymer solar cell performance through optimization of the linker groupin donor-acceptor conjugated polymer
DOI:10.1016/j.polymer.2012.02.007 JN:POLYMER PY:2012 TC:13 AU: Sun, Ying;Lin, Baoping;Yang, Hong;Gong, Xiaohui;
2:1:329 Synthesis of triarylamine-based alternating copolymers for polymeric solar cell
DOI:10.1016/j.polymer.2014.08.018 JN:POLYMER PY:2014 TC:2 AU: Lee, Jinhee;Cha, Hyojung;Kong, Hoyoul;Seo, Myungeun;Heo, Jaewon;Jung, In Hwan;Kim, Jisung;Shim, Hong-Ku;Park, Chan Eon;Kim, Sang You;
2:1:330 Development of DA-type polymers with phthalimide derivatives as electron withdrawing units and a promising strategy for the enhancement of photovoltaic properties
DOI:10.1016/j.solmat.2011.07.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:16 AU: Lee, Jang Yong;Song, Kwan Wook;Ku, Ja Ram;Sung, Tae Hyun;Moon, Doo Kyung;
2:1:331 Comparison between theoretical and experimental electronic properties of some popular donor polymers for bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2011.09.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Longo, Luca;Carbonera, Chiara;Pellegrino, Andrea;Perin, Nicola;Schimperna, Giuliana;Tacca, Alessandra;Po, Riccardo;
2:1:332 Novel conjugated polymers with planar backbone bearing acenaphtho[1,2-b]quinoxaline acceptor subunit for polymer solar cells
DOI:10.1016/j.synthmet.2013.04.024 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Zhang, Zhanyuan;Peng, Qing;Yang, Daobin;Chen, Yunqing;Huang, Yan;Pu, Xuemei;Lu, Zhiyun;Jiang, Qing;Liu, Yu;
2:1:333 A weak donor/strong acceptor alternating copolymer for efficient bulk heterojunction solar cells
DOI:10.1016/j.synthmet.2014.09.036 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Kim, Yu Jin;Kim, Hyoung Nam;Hwang, Moon-Chan;Kim, Yun-Hi;Park, Chan Eon;
2:1:334 Enhanced performance for polymer/fullerene solar cells by using bromobenzene/1,8-diiodooctane co-solvent
DOI:10.1063/1.4880207 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Huang, Xiaodong;Peng, Jun;Lu, Kunyuan;Liu, Zeke;Wu, Zhongwei;Yuan, Jianyu;Lu, Jialing;Wang, Hai-Qiao;Ma, Wanli;
2:1:335 Synthesis and application of dithieno[2,3-d:2 ',3 '-d ']benzo[1,2-b:4,5-b '] dithiophene in conjugated polymer
DOI:10.1039/c2jm34629j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:26 AU: Wu, Yue;Li, Zhaojun;Guo, Xia;Fan, Huili;Huo, Lijun;Hou, Jianhui;
2:1:336 A conjugated polymer based on 5,5 '-bibenzo[c][1,2,5]thiadiazole for high-performance solar cells
DOI:10.1039/c2jm14283j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Wang, Haifeng;Cheng, Pei;Liu, Yao;Chen, Jianming;Zhan, Xiaowei;Hu, Wenping;Shuai, Zhigang;Li, Yongfang;Zhu, Daoben;
2:1:337 Manipulating the horizontal morphology and vertical distribution of the active layer in BHJ-PSC with a multi-functional solid organic additive
DOI:10.1039/c3ta15378a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Wu, Chun-Guey;Chiang, Chien-Hung;Han, Hsieh-Cheng;
2:1:338 Synthesis and photovoltaic properties of low-bandgap polymers based on N-arylcarbazole
DOI:10.1016/j.polymer.2011.02.029 JN:POLYMER PY:2011 TC:14 AU: Wang, Lifen;Fu, Yingying;Zhu, Lei;Cui, Guangrui;Liang, Fushun;Guo, Liping;Zhang, Xintong;Xie, Zhiyuan;Su, Zhongmin;
2:1:339 Synthesis and characterization of thieno[3,4-c]pyrrole-4,6-dione and pyrrolo [3,4-c]pyrrole-1,4-dione-based random polymers for photovoltaic applications
DOI:10.1016/j.polymer.2012.08.011 JN:POLYMER PY:2012 TC:12 AU: Zhang, Guobing;Fu, Yingying;Qiu, Longzhen;Xie, Zhiyuan;
2:1:340 Polymer solar cells fabricated with 4,8-bis(2-ethylhexyloxy)benzo[1,2-b:4,5-b '] dithiophene and alkyl-substituted thiophene-3-carboxylate-containing conjugated polymers: Effect of alkyl side-chain in thiophene-3-carboxylate monomer on the device performance
DOI:10.1016/j.polymer.2012.07.007 JN:POLYMER PY:2012 TC:6 AU: Cho, Min Ju;Seo, Jangwon;Luo, Kai;Kim, Kyung Hwan;Choi, Dong Hoon;Prasad, Paras N.;
2:1:341 Novel photovoltaic polymers constructed from alternative donor and acceptor units having one mother structure
DOI:10.1016/j.polymer.2013.02.036 JN:POLYMER PY:2013 TC:4 AU: Liang, Long;Wang, Jin-Tu;Mei, Chong-Yu;Li, Wei-Shi;
2:1:342 Synthesis and simultaneously enhanced photovoltaic property of poly [4,4,9,9-tetra(4-octyloxyphenyl)-2,7-indaceno[1,2-b:5,6-b ']dithiophene-alt-2,5-thieno[3,2-b]thiophene]
DOI:10.1016/j.polymer.2012.12.006 JN:POLYMER PY:2013 TC:10 AU: Xia, Yangjun;Gao, Yuanyuan;Zhang, Yong;Tong, Junfeng;Li, Jianfeng;Li, Huijuan;Chen, Dejia;Fan, Duowang;
2:1:343 Fine tuning of frontier orbital energy levels in dithieno[3,2-b:2 ',3 '-d] silole-based copolymers based on the substituent effect of phenyl pendants
DOI:10.1016/j.polymer.2014.03.021 JN:POLYMER PY:2014 TC:1 AU: Ikai, Tomoyuki;Kudo, Tomoya;Nagaki, Masahiro;Yamamoto, Tomoyuki;Maeda, Katsuhiro;Kanoh, Shigeyoshi;
2:1:344 A benzo[1,2-b:4,5-b ']dithiophene-based copolymer with deep HOMO level for efficient polymer solar cells
DOI:10.1016/j.solmat.2012.01.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Wen, Shanpeng;Dong, Qingfeng;Cheng, Weidong;Li, Pengfei;Xu, Bin;Tian, Wenjing;
2:1:345 Synthesis and photovoltaic properties of new conjugated polymers based on two angular-shaped naphthodifuran isomers and isoindigo
DOI:10.1016/j.solmat.2013.07.049 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:11 AU: Li, Shugang;Yuan, Jianyu;Deng, Ping;Ma, Wanli;Zhang, Qing;
2:1:346 An efficient PDPPTPT:PC61BM-based tandem polymer solar cells with a Ca/Ag/MoO3 intermediate layer
DOI:10.1016/j.solmat.2013.02.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:6 AU: Fan, Xi;Guo, Shishang;Fang, Guojia;Zhan, Caimao;Wang, Hao;Zhang, Zhiguo;Li, Yongfang;
2:1:347 3,8-Dialkoxynaphthodithiophene based copolymers for efficient polymer solar cells
DOI:10.1016/j.solmat.2012.09.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Koti, Rajesh S.;Sanjaykumar, S. R.;Hong, Seong-Jin;Song, Chang Eun;Kang, In-Nam;Lee, Sang Kyu;Shin, Won Suk;Moon, Sang-Jin;Lee, Jong-Cheol;
2:1:348 Synthesis and photovoltaic properties of an alternating polymer based on benzo[1,2-b:4,5-b ']dithiophene and fluorine substituted 4,7-dithiophene-2-yl-2,1,3-benzothiadiazole
DOI:10.1016/j.synthmet.2014.03.022 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Liu, Hongli;Qu, Bo;Cong, Zhiyuan;Wang, Weiping;Gao, Chao;An, Zhongwei;Chen, Zhijian;Xiao, Lixin;Gong, Qihuang;
2:1:349 Guiding the Selection of Processing Additives for Increasing the Efficiency of Bulk Heterojunction Polymeric Solar Cells
DOI:10.1002/aenm.201300752 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Vongsaysy, Uyxing;Pavageau, Bertrand;Wantz, Guillaume;Bassani, Dario M.;Servant, Laurent;Aziz, Hany;
2:1:350 Bulk heterojunction solar cells based on a low-bandgap carbazole-diketopyrrolopyrrole copolymer
DOI:10.1063/1.3508951 JN:APPLIED PHYSICS LETTERS PY:2010 TC:31 AU: Jo, Jang;Gendron, David;Najari, Ahmed;Moon, Ji Sun;Cho, Shinuk;Leclerc, Mario;Heeger, Alan J.;
2:1:351 Polymer-nanocrystal hybrid photodetectors with planar heterojunctions designed strategically to yield a high photoconductive gain
DOI:10.1063/1.4807422 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: An, Tae Kyu;Park, Chan Eon;Chung, Dae Sung;
2:1:352 Benzodithiophene and Imide-Based Copolymers for Photovoltaic Applications
DOI:10.1021/cm2038427 JN:CHEMISTRY OF MATERIALS PY:2012 TC:29 AU: Braunecker, Wade A.;Owczarczyk, Zbyslaw R.;Garcia, Andres;Kopidakis, Nikos;Larsen, Ross E.;Hammond, Scott R.;Ginley, David S.;Olson, Dana C.;
2:1:353 Thiophene-Fused Benzothiadiazole: A Strong Electron-Acceptor Unit to Build D-A Copolymer for Highly Efficient Polymer Solar Cells
DOI:10.1021/cm501052a JN:CHEMISTRY OF MATERIALS PY:2014 TC:18 AU: Zhou, Pengcheng;Zhang, Zhi-Guo;Li, Yongfang;Chen, Xingguo;Qin, Jingui;
2:1:354 Enhanced performance and stability of inverted organic solar cells by using novel zinc-benzothiazole complexes as anode buffer layers
DOI:10.1039/c1jm13256c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Dey, Somnath;Vivo, Paola;Efimov, Alexander;Lemmetyinen, Helge;
2:1:355 A comparison between dithienosilole and dithienogermole donor-acceptor type co-polymers for organic bulk heterojunction photovoltaic devices
DOI:10.1039/c2jm30256j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Kim, Jong Soo;Fei, Zhuping;James, David T.;Heeney, Martin;Kim, Ji-Seon;
2:1:356 Molecular energy level modulation by changing the position of electron-donating side groups
DOI:10.1039/c2jm16474d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:29 AU: Huang, Ye;Zhang, Mingqian;Ye, Long;Guo, Xia;Han, Charles C.;Li, Yongfang;Hou, Jianhui;
2:1:357 Synthetically controlling the optoelectronic properties of dithieno[2,3-d:2 ',3 '-d ']benzo[1,2-b:4,5-b ']dithiophene-alt-diketopyrrolopyrrole-conjugated polymers for efficient solar cells
DOI:10.1039/c4ta01632g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:7 AU: Sun, Shuo;Zhang, Peng;Li, Jianfeng;Li, Yuanke;Wang, Jianlu;Zhang, Shujiang;Xia, Yangjun;Meng, Xiangjian;Fan, Duowang;Chu, Junhao;
2:1:358 Isoindigo-based copolymers for polymer solar cells with efficiency over 7%
DOI:10.1039/c4ta01083c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Ho, Chun-Chih;Chen, Chien-An;Chang, Chun-Yu;Darling, Seth B.;Su, Wei-Fang;
2:1:359 Optimisation of diketopyrrolopyrrole:fullerene solar cell performance through control of polymer molecular weight and thermal annealing
DOI:10.1039/c4ta03589e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Huang, Zhenggang;Fregoso, Elisa Collado;Dimitrov, Stoichko;Tuladhar, Pabitra Shakya;Soon, Ying Woan;Bronstein, Hugo;Meager, Iain;Zhang, Weimin;McCulloch, Iain;Durrant, James R.;
2:1:360 Dithieno[2,3-d:2',3'-d']naphtho[1,2-b:3,4-b']-dithiophene - a novel electron-rich building block for low band gap conjugated polymers
DOI:10.1039/c3tc32192d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Xia, Yangjun;Li, Yuanke;Zhu, Yuancheng;Li, Jianfeng;Zhang, Peng;Tong, Junfeng;Yang, Chunyan;Li, Huijuan;Fan, Duowang;
2:1:361 Power conversion efficiency enhancement in diketopyrrolopyrrole based solar cells through polymer fractionation
DOI:10.1039/c4tc01594k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Meager, Iain;Ashraf, Raja Shahid;Nielsen, Christian B.;Donaghey, Jenny E.;Huang, Zhenggang;Bronstein, Hugo;Durrant, James R.;McCulloch, Iain;
2:1:362 Synthesis and photovoltaic properties of benzotriazole-based donor-acceptor copolymers
DOI:10.1007/s10853-012-7096-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:5 AU: Yang, Miao;Chen, Xuewen;Zou, Yingping;He, Yuehui;Pan, Chunyue;Xiao, Lu;Liu, Bo;
2:1:363 Anomalous thickness-dependence of photocurrent explained for state-of-the-art planar nano-heterojunction organic solar cells
DOI:10.1088/0957-4484/23/9/095402 JN:NANOTECHNOLOGY PY:2012 TC:7 AU: Paulus, Geraldine L. C.;Ham, Moon-Ho;Strano, Michael S.;
2:1:364 Highly pi-extended polymers based on phenanthro-pyrazine: Synthesis, characterization, theoretical calculation and photovoltaic properties
DOI:10.1016/j.polymer.2013.09.015 JN:POLYMER PY:2013 TC:2 AU: Wang, Zhiming;Gao, Zhao;Feng, Ying;Liu, Yu Long;Yang, Bing;Liu, Dandan;Lv, Ying;Lu, Ping;Ma, Yuguang;
2:1:365 Determining the internal quantum efficiency of organic Bulk Heterojunctions based on mono and bis-adduct fullerenes as acceptor
DOI:10.1016/j.solmat.2011.06.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Azimi, Hamed;Morana, Mauro;Ameri, Tayebeh;Dastmalchi, Babak;Scharber, Markus;Hingerl, Kurt;Brabec, Christoph J.;
2:1:366 Synthesis of low bandgap polymer based on 3,6-dithien-2-yl-2, 5-dialkylpyrrolo[3,4-c]pyrrole-1,4-dione for photovoltaic applications
DOI:10.1016/j.solmat.2010.12.049 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:19 AU: Zhang, Guobing;Fu, Yingying;Xie, Zhiyuan;Zhang, Qing;
2:1:367 Large active area inverted tandem polymer solar cell with high performance via alcohol treatment on the surface of bottom active layer P3HT:ICBA
DOI:10.1016/j.solmat.2014.05.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Yeh, Po-Nan;Liao, Sih-Hao;Li, Yi-Lun;Syue, Hong-Ren;Chen, Show-An;
2:1:368 New donor-acceptor conjugated polymers based on benzo[1,2-b:4,5-b ']dithiophene for photovoltaic cells
DOI:10.1016/j.synthmet.2013.01.006 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Keshtov, M. L.;Sharma, G. D.;Kochurov, V. S.;Khokhlov, A. R.;
2:1:369 The effect of thiophene substituents of fulleropyrrolidine acceptors on the performance of inverted organic solar cells
DOI:10.1016/j.synthmet.2014.06.007 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Kaunisto, Kimmo M.;Subbaiyan, Navaneetha K.;Bikram, Chandra K. C.;Chukharev, Vladimir I.;Hakola, Hanna M.;Vuorinen, Tommi K.;Manninen, Venla M.;Tkachenko, Nikolai V.;Lemmetyinen, Helge J.;D'Souza, Francis;
2:1:370 Homogeneous bulk heterojunction networks via surface energy matching at polymer/fullerene interfaces
DOI:10.1063/1.4747331 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Lee, Byoung Hoon;Shim, Jooyoung;Kim, Geunjin;Kim, Heejoo;Song, Suhee;Suh, Hongsuk;Lee, Kwanghee;
2:1:371 Morphology-Driven High-Performance Polymeric Photodetector
DOI:10.1021/am301128d JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:8 AU: Chung, Dae Sung;Rho, Yecheol;Ree, Moonhor;Kwon, Soon-Ki;Kim, Yun-Hi;
2:1:372 The Proton Dissociation Constant of Additive Effect on Self-Assembly of Poly(3-hexyl-thiophene) for Organic Solar Cells
DOI:10.1007/s13391-013-3274-0 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:4 AU: Wang, Po-Hsun;Lee, Hsu-Feng;Huang, Yi-Chiang;Jung, Yi-Jiun;Gong, Fang-Lin;Huang, Wen-Yao;
2:1:373 A novel electrochemically and thermally stable polythiophene for photovoltaic application
DOI:10.1002/app.37852 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Hanif, Muddasir;Zuo, Lijian;Yan, Quanxiang;Hu, Xiaolian;Shi, Minmin;Chen, Hongzheng;
2:1:374 Pyrazino[2,3-g]quinoxaline-based conjugated copolymers with indolocarbazole coplanar moieties designed for efficient photovoltaic applications
DOI:10.1039/c1jm10433k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:30 AU: Peng, Qiang;Liu, Xiangju;Qin, Yuancheng;Xu, Jun;Li, Mingjun;Dai, Liming;
2:1:375 Structural variation of donor-acceptor copolymers containing benzodithiophene with bithienyl substituents to achieve high open circuit voltage in bulk heterojunction solar cells
DOI:10.1039/c3ta13686h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Kularatne, Ruvini S.;Taenzler, Ferdinand J.;Magurudeniya, Harsha D.;Du, Jia;Murphy, John W.;Sheina, Elena E.;Gnade, Bruce E.;Biewer, Michael C.;Stefan, Mihaela C.;
2:1:376 Fluoro-functionalization of vinylene units in a polyarylenevinylene for polymer solar cells
DOI:10.1039/c2ta00177b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Cardone, Antonio;Martinelli, Carmela;Losurdo, Maria;Dilonardo, Elena;Bruno, Giovanni;Scavia, Guido;Destri, Silvia;Cosma, Pinalysa;Salamandra, Luigi;Reale, Andrea;Di Carlo, Aldo;Aguirre, Aranzazu;Milian-Medina, Begona;Gierschner, Johannes;Farinola, Gianluca M.;
2:1:377 Neat C-60:C-70 buckminsterfullerene mixtures enhance polymer solar cell performance
DOI:10.1039/c4ta02515f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Mendaza, Amaia Diaz de Zerio;Bergqvist, Jonas;Backe, Olof;Lindqvist, Camilla;Kroon, Renee;Gao, Feng;Andersson, Mats R.;Olsson, Eva;Inganas, Olle;Muller, Christian;
2:1:378 Phenylenevinylene copolymers of dihexylthienylbenzothiadiazole and triphenylamine or tetraphenylbenzidine: synthesis, characterization and photovoltaic properties
DOI:10.1007/s10853-012-6458-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Fang, Yan;Huang, Hui;Jiang, Peng;Li, Haohao;Shen, Ping;Tian, Zongfang;Zhao, Bin;Tan, Songting;
2:1:379 Controlling band gap and hole mobility of photovoltaic donor polymers with terpolymer system
DOI:10.1016/j.polymer.2012.09.041 JN:POLYMER PY:2012 TC:5 AU: Lim, Younhee;Ihn, Soo-Ghang;Bulliard, Xavier;Yun, Sungyoung;Chung, Yeonji;Kim, Yungi;Chang, Hyuk;Choi, Yeong Suk;
2:1:380 Synthesis and photovoltaic behaviors of benzothiadiazole- and triphenylamine-based alternating copolymers
DOI:10.1016/j.polymer.2011.12.026 JN:POLYMER PY:2012 TC:12 AU: Wang, Ming;Li, Cuihong;Lv, Aifeng;Wang, Zhaohui;Bo, Zhishan;Zhang, Fengling;
2:1:381 Synthesis and photovoltaic properties of D-pi-A copolymers based on thieno[3,2-b]thiophene bridge unit
DOI:10.1016/j.polymer.2013.09.021 JN:POLYMER PY:2013 TC:1 AU: Li, Zhaojun;Huo, Lijun;Guo, Xia;Yong, Weina;Zhang, Shaoqing;Fan, Huili;
2:1:382 Effect of electron-withdrawing side chain modifications on the optical properties of thiophene-quinoxaline acceptor based polymers
DOI:10.1016/j.polymer.2013.01.003 JN:POLYMER PY:2013 TC:16 AU: Kroon, Renee;Lundin, Angelica;Lindqvist, Camilla;Henriksson, Patrik;Steckler, Timothy T.;Andersson, Mats R.;
2:1:383 Low band gap poly(1,4-arylene-2,5-thienylene)s with benzothiadiazole units: Synthesis, characterization and application in polymer solar cells
DOI:10.1016/j.solmat.2011.08.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Operamolla, Alessandra;Colella, Silvia;Musio, Roberta;Loiudice, Anna;Omar, Omar Hassan;Melcarne, Giovanna;Mazzeo, Marco;Gigli, Giuseppe;Farinola, Gianluca M.;Babudri, Francesco;
2:1:384 Fully visible-light-harvesting conjugated polymers with pendant donor-pi-acceptor chromophores for photovoltaic applications
DOI:10.1016/j.solmat.2011.08.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Duan, Chunhui;Hu, Xiaowen;Chen, Kung-Shih;Yip, Hin-Lap;Li, Wei;Huang, Fei;Jen, Alex K. -Y.;Cao, Yong;
2:1:385 Semiconducting copolymers comprising benzodithiophene and benzotriazole derivatives for organic photovoltaic cells
DOI:10.1016/j.synthmet.2013.07.007 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Kim, Ji-Hoon;Kim, Hee Un;Lee, Jin-Kyun;Park, Moo-Jin;Hyun, Myung Ho;Hwang, Do-Hoon;
2:1:386 A fluorine-functionalized alternating polymer with benzo[1,2-b:4,5-b ']dithiophene and quinoxaline segments for photovoltaic devices
DOI:10.1016/j.synthmet.2013.04.006 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Gao, Zhi;Qu, Bo;Wu, Haimei;Yang, Hongsheng;Gao, Chao;Zhang, Lipei;Xiao, Lixin;Chen, Zhijian;Wei, Wei;Gong, Qihuang;
2:1:387 High open-circuit voltage organic photovoltaic cells fabricated using semiconducting copolymers consisting of bithiophene and fluorinated quinoxaline or triazole derivatives
DOI:10.1016/j.synthmet.2014.04.033 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Kim, Ji-Hoon;Park, Jong Saek;Kim, Hee Un;Kang, In-Nam;Hwang, Do-Hoon;
2:1:388 Impedance Measurements as a Simple Tool to Control the Quality of Conjugated Polymers Designed for Photovoltaic Applications
DOI:10.1002/adfm.201001308 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:23 AU: Troshin, Pavel A.;Susarova, Diana K.;Moskvin, Yury L.;Kuznetsov, Ilya E.;Ponomarenko, Sergei A.;Myshkovskaya, Ekaterina N.;Zakharcheva, Ksenya A.;Balakai, Alexander A.;Babenko, Sergei D.;Razumov, Vladimir F.;
2:1:389 Alternating Copolymers of Dithienyl-s-Tetrazine and Cyclopentadithiophene for Organic Photovoltaic Applications
DOI:10.1021/cm200330c JN:CHEMISTRY OF MATERIALS PY:2011 TC:29 AU: Li, Zhao;Ding, Jianfu;Song, Naiheng;Du, Xiaomei;Zhou, Jiayun;Lu, Jianping;Tao, Ye;
2:1:390 New low band gap thieno[3,4-b]thiophene-based polymers with deep HOMO levels for organic solar cells
DOI:10.1039/c1jm11229e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Wakim, Salem;Alem, Salima;Li, Zhao;Zhang, Yanguang;Tse, Shing-Chi;Lu, Jianping;Ding, Jianfu;Tao, Ye;
2:1:391 Three pyrido[2,3,4,5-lmn]phenanthridine derivatives and their large band gap copolymers for organic solar cells
DOI:10.1039/c3ta13406g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Liu, Ming;Liang, Yamin;Chen, Peihong;Chen, Dongcheng;Liu, Kunkun;Li, Yunchuan;Liu, Shengjian;Gong, Xiong;Huang, Fei;Su, Shi-Jian;Cao, Yong;
2:1:392 Performance of Solution Processed Organic Photovoltaic Cells Using A-D-A Type Small Molecular Donors
DOI:10.1080/15421406.2014.933385 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Park, Sangman;Nam, So Yeon;Park, Min-Ah;Suh, Dong Hack;Hong, Sung Kwon;Lee, Jaemin;Lee, Changjin;Yoon, Sung Cheol;
2:1:393 Microstructure formation in molecular and polymer semiconductors assisted by nucleation agents
DOI:10.1038/NMAT3655 JN:NATURE MATERIALS PY:2013 TC:27 AU: Treat, Neil D.;Malik, Jennifer A. Nekuda;Reid, Obadiah;Yu, Liyang;Shuttle, Christopher G.;Rumbles, Garry;Hawker, Craig J.;Chabinyc, Michael L.;Smith, Paul;Stingelin, Natalie;
2:1:394 Fused pyrrolo[3,2-d:4,5-d ']bisthiazole-containing polymers for using in high-performance organic bulk heterojunction solar cells
DOI:10.1016/j.solmat.2011.09.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Xia, Ruidong;Al-Hashimi, Mohammed;Tsoi, Wing C.;Heeney, Martin;Bradley, Donal D. C.;Nelson, Jenny;
2:1:395 Benzotriazole-based donor-acceptor type semiconducting polymers with different alkyl side chains for photovoltaic devices
DOI:10.1016/j.solmat.2012.09.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:20 AU: Kim, Ji-Hoon;Kim, Hee Un;Song, Chang Eun;Kang, In-Nam;Lee, Jin-Kyun;Shin, Won Suk;Hwang, Do-Hoon;
2:1:396 Stability study of quinoxaline and pyrido pyrazine based co-polymers for solar cell applications
DOI:10.1016/j.solmat.2014.06.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Henriksson, Patrik;Lindqvist, Camilla;Abdisa, Bedasa;Wang, Ergang;George, Zandra;Kroon, Renee;Muller, Christian;Yohannes, Teketel;Inganas, Olle;Andersson, Mats R.;
2:1:397 The double-edged function of UV light in polymer solar cells with an inverted structure
DOI:10.1016/j.synthmet.2012.10.022 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Du, Xiaoyan;He, Dan;Xiao, Zuo;Ding, Liming;
2:1:398 Low-boiling-point solvent additives can also enable morphological control in polymer solar cells
DOI:10.1016/j.synthmet.2013.10.004 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Mahadevapuram, Rakesh C.;Carr, John A.;Chen, Yuqing;Bose, Sayantan;Nalwa, Kanwar S.;Petrich, Jacob W.;Chaudharya, Sumit;
2:1:399 Synthesis of alternating copolymers consisting of N-2-octyldodecyldithieno[2,3-b;7,6-b]carbazole and N-octylthieno[3,4-c]pyrrole-4,6-dione derivative units for photovoltaic applications
DOI:10.1016/j.synthmet.2013.06.007 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Yang, Yu Qi;Park, Hanok;Lee, Soo-Hyoung;Kim, Dong Hee;Lee, Youn-Sik;
2:1:400 Full donor-type conjugated polymers consisting of alkoxy- or alkylselenophene-substituted benzodithiophene and thiophene units for organic photovoltaic devices
DOI:10.1016/j.synthmet.2013.02.013 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Byun, Yun-Sun;Kim, Ji-Hoon;Park, Jong Baek;Kang, In-Nam;Jin, Sung-Ho;Hwang, Do-Hoon;
2:1:401 Effects of pi-conjugated side chains on properties and performances of photovoltaic copolymers
DOI:10.1016/j.synthmet.2013.10.016 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Tan, Zhifang;Imae, Ichiro;Komaguchi, Kenji;Ooyama, Yousuke;Ohshita, Joji;Harima, Yutaka;
2:1:402 Excitation dynamics of a low bandgap silicon-bridged dithiophene copolymer and its composites with fullerenes
DOI:10.1063/1.3703601 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Othonos, Andreas;Itskos, Grigorios;Neophytou, Marios;Choulis, Stelios A.;
2:1:403 Roles of solvent additive in organic photovoltaic cells through intensity dependence of current-voltage characteristics and charge recombination
DOI:10.1063/1.4895531 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Dong Hwan;Kyaw, Aung Ko Ko;
2:1:404 Synthesis and photovoltaic performances of conjugated copolymers with 4,7-dithien-5-yl-2,1,3-benzothiadiazole and di(p-tolyl)phenylamine side groups
DOI:10.1039/c2jm33886f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Li, Haohao;Luo, Hao;Cao, Zhencai;Gu, Zhaojie;Shen, Ping;Zhao, Bin;Chen, Huajie;Yu, Gui;Tan, Songting;
2:1:405 Design, synthesis and photovoltaic properties of a new D-pi-A polymer with extended pi-bridge units
DOI:10.1039/c2jm32931j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Guo, Xia;Zhang, Maojie;Huo, Lijun;Xu, Feng;Wu, Yue;Hou, Jianhui;
2:1:406 A new benzo[1,2-b:4,5-b ']difuran-based copolymer for efficient polymer solar cells
DOI:10.1039/c2jm32843g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:30 AU: Chen, Xuewen;Liu, Bo;Zou, Yingping;Xiao, Lu;Guo, Xiuping;He, Yuehui;Li, Yongfang;
2:1:407 Porphyrin-containing D-pi-A conjugated polymer with absorption over the entire spectrum of visible light and its applications in solar cells
DOI:10.1039/c2jm31649h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Shi, Shaowei;Wang, Xiaochen;Sun, Yeping;Chen, Song;Li, Xiaoyu;Li, Yongfang;Wang, Haiqiao;
2:1:408 5,6-Difluorobenzothiadiazole and silafluorene based conjugated polymers for organic photovoltaic cells
DOI:10.1039/c4tc00340c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Li, Guangwu;Kang, Chong;Gong, Xue;Zhang, Jicheng;Li, Weiwei;Li, Cuihong;Dong, Huanli;Hu, Wenping;Bo, Zhishan;
2:1:409 Synthesis and characterization of novel D-A porphyrin-containing copolymers for polymer solar cells
DOI:10.1016/j.mseb.2012.08.020 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:7 AU: Deng, Lijun;Gu, Zhaojie;Cao, Zhencai;Shen, Ping;Li, Xiangling;Zhang, Lingjun;Tan, Songting;
2:1:410 Conjugated polymers based on quinoxaline for polymer solar cells
DOI:10.1016/j.solmat.2011.11.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Kitazawa, Daisuke;Watanabe, Nobuhiro;Yamamoto, Shuhei;Tsukamoto, Jun;
2:1:411 New polybenzo[1,2-b:4,5-b ']dithiophene derivative with an alkoxyphenyl side chain: Applications in organic photovoltaic cells and organic semiconductors
DOI:10.1016/j.solmat.2014.02.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Hwang, Moon Chan;Kang, Hongkyu;Yu, Kilho;Yun, Hui-Jun;Kwon, Soon-Ki;Lee, Kwanghee;Kim, Yun-Hi;
2:1:412 Efficient Charge Extraction in Thick Bulk Heterojunction Solar Cells through Infiltrated Diffusion Doping
DOI:10.1002/aenm.201301502 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Kim, Junghwan;Yu, Kilho;Kim, Heejoo;Kwon, Sooncheol;Kim, Geunjin;Kwon, Kyungchoon;Lee, Kwanghee;
2:1:413 Solubility Based Identifi cation of Green Solvents for Small Molecule Organic Solar Cells
DOI:10.1002/adfm.201301509 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:16 AU: Burgues-Ceballos, Ignasi;Machui, Florian;Min, Jie;Ameri, Tayebeh;Voigt, Monika M.;Luponosov, Yuriy N.;Ponomarenko, Sergei A.;Lacharmoise, Paul D.;Campoy-Quiles, Mariano;Brabec, Christoph J.;
2:1:414 Morphology evolution by controlling solvent-solute interactions using a binary solvent in bulk heterojunction solar cells
DOI:10.1063/1.4811173 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Cho, Namchul;Yip, Hin-Lap;Jen, Alex K. -Y.;
2:1:415 Synthesis of a terpolymer containing fluorene, side chain conjugated thiophene and benzothiadiazole and its applications in photovoltaic devices
DOI:10.1002/app.38528 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Liu, Hongli;Qu, Bo;Chen, Jian;Cong, Zhiyuan;An, Zhongwei;Gao, Chao;Xiao, Lixin;Chen, Zhijian;Gong, Qihuang;
2:1:416 Mixed selenium-sulfur fused ring systems as building blocks for novel polymers used in field effect transistors
DOI:10.1039/c0jm00602e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Mishra, Sarada P.;Javier, Anna E.;Zhang, Rui;Liu, Junying;Belot, John A.;Osaka, Itaru;McCullough, Richard D.;
2:1:417 Interplay of alternative conjugated pathways and steric interactions on the electronic and optical properties of donor-acceptor conjugated polymers
DOI:10.1039/c4tc01264j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Lima, Igo T.;Risko, Chad;Aziz, Saadullah G.;da Silva Filho, Demetrio A.;Bredas, Jean-Luc;
2:1:418 Synthesis and photovoltaic properties of conjugated copolymers bearing planar acenaphtho[1,2-b]quinoxaline moiety with deep HOMO level
DOI:10.1007/s10853-012-6446-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:9 AU: Zou, Yong;Guan, Zhiqiang;Zhang, Zhanyuan;Huang, Yan;Wang, Nana;Lu, Zhiyun;Jiang, Qing;Yu, Junsheng;Liu, Yu;Pu, Xuemei;
2:1:419 The performance of new polymer solar cells based on thiophene and thienyl-quinoxaline with the post treatments
DOI:10.1016/j.matlet.2014.01.140 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Gao, Bowen;Gao, Chao;Wu, Haimei;Que, Wenxiu;Wei, Wei;
2:1:420 Effect of Phthalimide in 2,1,3-Benzooxadiazole Based Copolymer on the Performances of Solar Cells
DOI:10.1080/15421406.2014.933383 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Thu Trang Do;Ha, Ye Eun;Ahn, Byung-Hyun;Lee, Gun Dae;Kim, Joo Hyun;
2:1:421 Annealing-free P3HT:PCBM-based organic solar cells via two halohydrocarbons additives with similar boiling points
DOI:10.1016/j.mseb.2013.10.009 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:4 AU: Bao, Xichang;Wang, Ting;Yang, Ailing;Yang, Chunpeng;Dou, Xiaowei;Chen, Weichao;Wang, Ning;Yang, Renqiang;
2:1:422 D-A copolymers based on dithienosilole and phthalimide for photovoltaic materials
DOI:10.1016/j.polymer.2011.10.007 JN:POLYMER PY:2011 TC:18 AU: Zhang, Maojie;Guo, Xia;Zhang, Zhi-Guo;Li, Yongfang;
2:1:423 Low-bandgap copolymers consisting of 2,1,3-benzoselenadiazole and carbazole derivatives with thiophene or selenophene pi-bridges
DOI:10.1016/j.polymer.2014.05.055 JN:POLYMER PY:2014 TC:4 AU: Kim, Ji-Hoon;Park, Jong Baek;Shin, Seung Ah;Hyun, Myung Ho;Hwang, Do-Hoon;
2:1:424 Thieno[3,2-13]thiophene as pi-bridge at different acceptor systems for electrochromic applications
DOI:10.1016/j.polymer.2014.05.029 JN:POLYMER PY:2014 TC:5 AU: Toksabay, Sinem;Hacioglu, Serife O.;Unlu, Naime A.;Cirpan, Ali;Toppare, Levent;
2:1:425 Fused ring thiophene-based poly(heteroarylene ethynylene)s for organic solar cells
DOI:10.1016/j.solmat.2010.05.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:23 AU: Ashraf, Raja Shahid;Gilot, Jan;Janssen, Rene A. J.;
2:1:426 Synthesis and characterization of conjugated polymers containing low-bandgap arylenevinylene units
DOI:10.1016/j.solmat.2012.02.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Kim, Ji-Hoon;Kim, Hee Un;Shin, Won Suk;Moon, Sang-Jin;Yoon, Sung Cheol;Hwang, Do-Hoon;
2:1:427 Large active area inverted tandem polymer solar cell with high performance via insertion of subnano-scale silver layer
DOI:10.1016/j.solmat.2013.07.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Yeh, Po-Nan;Jen, Tzu-Hao;Cheng, Yu-Shan;Chen, Show-An;
2:1:428 A Dithienosilole-Benzooxadiazole Donor-Acceptor Copolymer for Utility in Organic Solar Cells
DOI:10.1002/smll.201100005 JN:SMALL PY:2011 TC:18 AU: Caputo, Bruno J. A.;Welch, Gregory C.;Kamkar, Daniel A.;Henson, Zachary B.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:1:429 Structure in ternary blend systems for organic photovoltaics
DOI:10.1016/j.synthmet.2011.07.013 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Ruderer, Matthias A.;Hinterstocker, Michael;Mueller-Buschbaum, Peter;
2:1:430 Synthesis and characterization of conjugated copolymer containing 2,5-bis(3-decylthiophen-2-yl)thiazolo[5,4-d]thiazole and 2,6-[(1,5-didecyloxy)naphthalene for polymer solar cells
DOI:10.1016/j.synthmet.2011.05.022 JN:SYNTHETIC METALS PY:2011 TC:10 AU: Dutta, Pranabesh;Yang, Wooseung;Park, Hanok;Baek, Myung-jin;Lee, Youn-Sik;Lee, Soo-Hyoung;
2:1:431 Effect of acceptor substituents on photophysical and photovoltaic properties of triphenylamine-carbazole alternating copolymers
DOI:10.1016/j.synthmet.2011.05.005 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Zhang, Zhi-Guo;Yang, Yang;Zhang, Siyuan;Min, Jie;Zhang, Jing;Zhang, Maojie;Guo, Xia;Li, Yongfang;
2:1:432 Strong electron acceptor additive for achieving efficient polymer solar cells with P3HT: PCBM films by a quick drying process
DOI:10.1016/j.synthmet.2013.02.023 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Li, Aiyuan;Miao, Xinrui;Deng, Xianyu;
2:1:433 On the complex refractive index of polymer:fullerene photovoltaic blends
DOI:10.1016/j.tsf.2014.02.096 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Campoy-Quiles, M.;Muller, C.;Garriga, M.;Wang, E.;Inganas, O.;Alonso, M. I.;
2:1:434 Conformation sensitive charge transport in conjugated polymers
DOI:10.1063/1.4832075 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Andersson, L. Mattias;Hedstrom, Svante;Persson, Petter;
2:1:435 Molecular Weight Effect on the Efficiency of Polymer Solar Cells
DOI:10.1021/am4041571 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:35 AU: Liu, Chang;Wang, Kai;Hu, Xiaowen;Yang, Yali;Hsu, Chih-Hao;Zhang, Wei;Xiao, Steven;Gong, Xiong;Cao, Yong;
2:1:436 Effects of thiophene units on substituted benzothiadiazole and benzodithiophene copolymers for photovoltaic applications
DOI:10.1002/app.36541 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Ding, Ping;Zou, Yingping;Chu, Cheng-Che;Xiao, Dequan;Hsu, Chain-Shu;
2:1:437 Synthesis and characterization of low bandgap conjugated donor-acceptor polymers for polymer: PCBM solar cells
DOI:10.1039/c0jm01641a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Tu, Guoli;Massip, Sylvain;Oberhumer, Philipp M.;He, Ximin;Friend, Richard H.;Greenham, Neil C.;Huck, Wilhelm T. S.;
2:1:438 Benzodithiophene homopolymers synthesized by Grignard metathesis (GRIM) and Stille coupling polymerizations
DOI:10.1039/c4ta01739k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Magurudeniya, Harsha D.;Kularatne, Ruvini S.;Rainbolt, Elizabeth A.;Bhatt, Mahesh P.;Murphy, John W.;Sheina, Elena E.;Gnade, Bruce E.;Biewer, Michael C.;Stefan, Mihaela C.;
2:1:439 Novel regioregular polythiophenes containing side-chain porphyrin groups for polymeric photovoltaic cells
DOI:10.1016/j.matchemphys.2014.03.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:3 AU: Angiolini, Luigi;Cocchi, Valentina;Lanzi, Massimiliano;Salatelli, Elisabetta;Tonelli, Domenica;Vlamidis, Ylea;
2:1:440 Fine tuning of the PCDTBT-OR:PC71BM blend nanoscale phase separation via selective solvent annealing toward high-performance polymer photovoltaics
DOI:10.1088/0957-4484/24/48/484004 JN:NANOTECHNOLOGY PY:2013 TC:6 AU: Meng, Bin;Fang, Gang;Fu, Yingying;Xie, Zhiyuan;Wang, Lixiang;
2:1:441 Conjugated polymers based on benzodithiophene and arylene imides: Extended absorptions and tunable electrochemical properties
DOI:10.1016/j.polymer.2010.04.035 JN:POLYMER PY:2010 TC:33 AU: Chen, Jian;Shi, Min-Min;Hu, Xiao-Lian;Wang, Mang;Chen, Hong-Zheng;
2:1:442 Synthesis, characterization, and photovoltaic applications of dithienogermole-dithienylbenzothiadiazole and -dithienylthiazolothiazole copolymers
DOI:10.1016/j.polymer.2011.07.009 JN:POLYMER PY:2011 TC:23 AU: Hwang, Yong-Mook;Ohshita, Joji;Harima, Yutaka;Mizumo, Tomonobu;Ooyama, Yousuke;Morihara, Yasushi;Izawa, Takafumi;Sugioka, Takashi;Fujita, Akio;
2:1:443 Thermoresponsive core-shell nanoparticles with cross-linked pi-conjugate core based on amphiphilic block copolymers by RAFT polymerization and palladium-catalyzed coupling reactions
DOI:10.1016/j.polymer.2014.09.025 JN:POLYMER PY:2014 TC:5 AU: Abiko, Yohei;Matsumura, Aiko;Nakabayashi, Kazuhiro;Mori, Hideharu;
2:1:444 Experimental and computational studies of 4H-cyclopenta[2,1-b:3,4-b ']dithiophen-4-one (CPDTO)-oligomers
DOI:10.1016/j.polymer.2014.07.023 JN:POLYMER PY:2014 TC:0 AU: Zhang, Cheng;Sun, Jianyuan;Qiao, Qiquan;Li, Jing;
2:1:445 Synthesis and photovoltaic properties of heteroaromatic low-band gap oligomers for bulk heterojunction solar cells
DOI:10.1016/j.synthmet.2011.04.002 JN:SYNTHETIC METALS PY:2011 TC:23 AU: Tamilavan, Vellaiappillai;Song, Myungkwan;Jin, Sung-Ho;Hyun, Myung Ho;
2:1:446 Synthesis, characterization and photovoltaic properties of conjugated copolymers based on 2-alkyl-thieno[3,4-b]imidazole
DOI:10.1016/j.synthmet.2012.07.001 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Gao, Juan;He, Dan;Zhang, Wei;Xiao, Zuo;Zuo, Qiqun;Shi, Zhiqiang;Ding, Liming;
2:1:447 Effects of side chains on physical and photovoltaic properties of methyl thiophene-3-carboxylate containing dithienopyrrole-based copolymers
DOI:10.1016/j.synthmet.2013.08.023 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Cho, Min Ju;Seo, Jangwon;Yoon, Seung Hee;Choi, Dong Hoon;Prasad, Paras N.;
2:1:448 High open circuit voltage polymer solar cells with blend of MEH-PPV as donor and fumaronitrile derivate as acceptor
DOI:10.1016/j.synthmet.2013.06.021 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Wan, Meixiu;Zhu, Hongbing;Guo, Jun;Peng, Yangxi;Deng, Heqiu;Jin, Le;Liu, Meifang;
2:1:449 Synthesis and characterization of 2,1,3-benzoselenadiazole-based conjugated polymers for organic photovoltaic cells
DOI:10.1016/j.synthmet.2013.04.004 JN:SYNTHETIC METALS PY:2013 TC:12 AU: Shin, Seung Ah;Park, Jong Baek;Kim, Ji-Hoon;Hwang, Do-Hoon;
2:1:450 Synthesis and characterization of wide range light absorbing poly(dithieno[3,2-b:2 ',3 '-d]thiophene-alt-3,6-bis(thiophen-2-yl)-2,5-di-n-octyl-pyrrolo[3,4-c]py rrole-1,4-dione) for polymer solar cells
DOI:10.1016/j.synthmet.2012.12.028 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Lee, Chun-Young;Kim, BongSoo;Kim, Kyung Hwan;Yoon, Youngwoon;Lee, Min Woo;Choi, Dong Hoon;Ko, Min Jae;Kim, Honggon;Lee, Doh-Kwon;Kim, Kyungkon;
2:1:451 Organometallic tris(8-hydroxyquinoline)aluminum complexes as buffer layers and dopants in inverted organic solar cells
DOI:10.1016/j.tsf.2012.02.084 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Tolkki, Antti;Kaunisto, Kimmo;Heiskanen, Juha P.;Omar, Walaa A. E.;Huttunen, Kirsi;Lehtimaki, Suvi;Hormi, Osmo E. O.;Lemmetyinen, Helge;
2:1:452 Influence of Bridging Atom and Side Chains on the Structure and Crystallinity of Cyclopentadithiophene-Benzothiadiazole Polymers
DOI:10.1021/cm403410w JN:CHEMISTRY OF MATERIALS PY:2014 TC:10 AU: Guilbert, Anne A. Y.;Frost, Jarvist M.;Agostinelli, Tiziano;Pires, Ellis;Lilliu, Samuele;Macdonald, J. Emyr;Nelson, Jenny;
2:1:453 Bis-EH-PFDTBT:PCBM solar cells: A compositional, thickness, and light-dependent study
DOI:10.1063/1.3665126 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Calabrese, Anna;Schimperna, Giuliana;Po, Riccardo;Yohannes, Teketel;Debebe, Siraye E.;Tinti, Francesca;Camaioni, Nadia;
2:1:454 New Low Bandgap Conjugated Polymer Derived from 2, 7-Carbazole and 5, 6-Bis(octyloxy)-4, 7-di(thiophen-2-yl) Benzothiadiazole: Synthesis and Photovoltaic Properties
DOI:10.1002/app.34439 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:8 AU: Ding, Ping;Chu, Cheng-Che;Zou, Yingping;Xiao, Dequan;Pan, Chunyue;Hsu, Chain-Shu;
2:1:455 Synthesis and characterization of tris-(5-amino-8-hydroxyquinoline) aluminum complexes and their use as anode buffer layers in inverted organic solar cells
DOI:10.1039/c2jm35292c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Manninen, Venla M.;Omar, Walaa A. E.;Heiskanen, Juha P.;Lemmetyinen, Helge J.;Hormi, Osmo E. O.;
2:1:456 New alkoxylphenyl substituted benzo[1,2-b:4,5-b '] dithiophene-based polymers: synthesis and application in solar cells
DOI:10.1039/c3ta11968h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:18 AU: Yuan, Jun;Xiao, Lu;Liu, Bo;Li, Yongfang;He, Yuehui;Pan, Chunyue;Zou, Yingping;
2:1:457 A novel complementary absorbing donor-acceptor pair in block copolymers based on single material organic photovoltaics
DOI:10.1039/c3ta14902a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:0 AU: Koyuncu, Sermet;Wang, Hsin-Wei;Liu, Feng;Toga, Kamil Bugra;Gu, Weiyin;Russell, Thomas P.;
2:1:458 Optoelectronic properties of a perylene substituted (cholesteryl) benzoateethynylene co-polymer
DOI:10.1016/j.matchemphys.2014.05.017 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Zappia, Stefania;de Leon, Arxel;Alloisio, Marina;Arias, Eduardo;Dellepiane, Giovanna;Petrillo, Giovanni;Moggio, Ivana;Thea, Sergio;Gallardo-Vega, Carlos;Rodriguez, Marlene;
2:1:459 New alternating copolymers of fluorene and triphenylamine bearing terthiophene and acceptor groups in the side chains: Synthesis and photovoltaic properties
DOI:10.1016/j.polymer.2011.09.022 JN:POLYMER PY:2011 TC:4 AU: Li, Shuang;He, Zhicai;Zhong, Aoshu;Yu, Jian;Wu, Hongbin;Zhou, Yue;Chen, Su'an;Zhong, Cheng;Qin, Jingui;Li, Zhen;
2:1:460 Effect of blend composition in BisEH-PFDTBT:PC70BM solar cells
DOI:10.1016/j.solmat.2011.07.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Calabrese, Anna;Pellegrino, Andrea;Po, Riccardo;Savoini, Alberto;Tinti, Francesca;Camaioni, Nadia;
2:1:461 Low bandgap copolymer of 1,4-diketopyrrolo[3,4-c]pyrrole and thieno[3,2-b]thiophene: Synthesis and applications in polymer solar cells and field-effect transistors
DOI:10.1016/j.synthmet.2011.06.015 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Min, Jie;Peng, Bo;Wen, Yugen;Zhang, Zhi-Guo;Zhang, Maojie;Zhang, Jing;Xie, Qiang;Liu, Yunqi;Li, Yongfang;
2:1:462 Synthesis of new alternating conjugated copolymers consisting of tetrazine/carbazole or tetrazine/fluorene derivatives along with thiophene spacers for photovoltaic applications
DOI:10.1016/j.synthmet.2011.10.020 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Baek, Myung-Jin;Jang, Wooree;Lee, Soo-Hyoung;Lee, Youn-Sik;
2:1:463 5,6-bis(tetradecyloxy)-2,1,3-benzoselenadiazole-based polymers for photovoltaic applications
DOI:10.1002/app.38586 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:1 AU: Tang, Wanjun;Chen, Xuewen;Zou, Yingping;Liu, Bo;Zhong, Hong;Pan, Chunyue;
2:1:464 Post-deposition dipping method for improving the electronic properties of a narrow bandgap conjugated polymer
DOI:10.1039/c2jm31183f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Park, Yeong Don;Park, Jin Kuen;Lee, Wi Hyoung;Kang, Boseok;Cho, Kilwon;Bazan, Guillermo C.;
2:1:465 Random vs. alternating donor-acceptor copolymers: A comparative study of absorption and field effect mobility
DOI:10.1016/j.polymer.2014.04.004 JN:POLYMER PY:2014 TC:1 AU: Neubig, Anne;Thelakkat, Mukundan;
2:1:466 Synthesis and photovoltaic properties of a solution-processable organic molecule containing dithienylbenzotriazole and triphenylamine
DOI:10.1016/j.synthmet.2012.02.012 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Liu, Bo;Zou, Ying-ping;Long, Mengqiu;He, Yue-hui;Zhong, Hong;Li, Yong-fang;
2:1:467 Micro X-ray diffraction mapping of a fluorene copolymer fibre
DOI:10.1016/j.polymer.2012.10.059 JN:POLYMER PY:2013 TC:4 AU: Muller, Christian;Esmaeili, Morteza;Riekel, Christian;Breiby, Dag W.;Inganas, Olle;
2:1:468 Indolinone-substituted methanofullerene-A new acceptor for organic solar cells
DOI:10.1016/j.solmat.2012.04.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Valitova, Murad I.;Romanova, Irina P.;Gromchenko, Anna A.;Shaikhutdinova, Gulnara R.;Yakhvarov, Dmitry G.;Bruevich, Vladimir V.;Dyakov, Vladimir A.;Sinyashin, Oleg G.;Paraschuk, Dmitry Yu.;
2:1:469 Synthesis of new acenaphtho[1,2-c]thiophene-based low bandgap polymers for organic photovoltaics
DOI:10.1016/j.solmat.2013.12.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Lee, Woo-Hyung;Lee, Sang Kyu;Shin, Won Suk;Moon, Sang-Jin;Park, Moo-Jin;Lee, Soo-Hyoung;Kang, In-Nam;
2:1:470 Effect of monodisperse Cu2S nanodisks on photovoltaic performance of P3HT/PCBM polymer solar cells
DOI:10.1016/j.synthmet.2011.02.023 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Lu, Yunzhang;Hou, Yanbing;Wang, Yan;Feng, Zhihui;Liu, Xiaojun;Lue, Yanwu;
2:1:471 Photovoltaic characteristics of organic solar cells using Zn-porphyrin derivatives with controlled pi-conjugation structures
DOI:10.1016/j.synthmet.2012.03.007 JN:SYNTHETIC METALS PY:2012 TC:8 AU: Cho, Eun Hei;Chae, Seung Hyun;Kim, Kihyun;Lee, Suk Joong;Joo, Jinsoo;
2:1:472 Ambipolar charge transport in polymer:fullerene bulk heterojunctions for different polymer side-chains
DOI:10.1063/1.4754590 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Fall, S.;Biniek, L.;Leclerc, N.;Leveque, P.;Heiser, T.;
2:1:473 Synthesis of fluorene based two acceptor random copolymers for organic solar cell applications
DOI:10.1016/j.synthmet.2014.02.027 JN:SYNTHETIC METALS PY:2014 TC:6 AU: Scaria, Renchu;Dhawan, S. K.;Chand, Suresh;
2:1:474 Impedance Measurements as a Simple Tool to Control the Quality of Conjugated Polymers Designed for Photovoltaic Applications (vol 20, pg 4351, 2010)
DOI:10.1002/adfm.201090111 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:0 AU: Troshin, Pavel A.;Susarova, Diana K.;Moskvin, Yury L.;Kuznetsov, Ilya E.;Ponomarenko, Sergei A.;Myshkovskaya, Ekaterina N.;Zakharcheva, Ksenya A.;Balakai, Alexander A.;Babenko, Sergei D.;Razumov, Vladimir F.;
2:1:475 Generation of Singlet Oxygen by the Glyoxal-Peroxynitrite System
DOI:10.1021/ja2051414 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:7 AU: Massari, Julio;Tokikawa, Rita;Medinas, Danilo B.;Angeli, Jose P. F.;Di Mascio, Paolo;Assuncao, Nilson A.;Bechara, Etelvino J. H.;
2:1:476 Double Lactonization in Triarylamine-Conjugated Dimethyl Diethynylfumarate: Formation of Intensely Colored and Luminescent Quadrupolar Molecules Including a Missing Structural Isomer of Pechmann Dyes
DOI:10.1021/ja2054176 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Hayashi, Mikihiro;Toshimitsu, Fumiyuki;Sakamoto, Ryota;Nishihara, Hiroshi;
2:1:477 Synthesis and characterizations of poly(4-alkylthiazole vinylene)
DOI:10.1002/app.35106 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:0 AU: Guo, Xia;Fan, Haijun;Zhang, Maojie;Huang, Yu;Tan, Songting;Li, Yongfang;
2:1:478 The performance of new polymer solar cells based on thiophene and thienyl-quinoxaline with the post treatments (vol 122, pg 74, 2014)
DOI:10.1016/j.matlet.2014.05.053 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Gao, Bowen;Gao, Chao;Wu, Haimei;Que, Wenxin;Wei, Wei;
2:1:479 Energy Conversion into Hydrogen Gas Using Series Circuit of Organic Thin-Film Solar Cells
DOI:10.1080/15421406.2011.563719 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Aoki, Atsushi;Naruse, Mitsuru;Abe, Takayuki;
2:1:480 Synthesis and Characterization of pi-Conjugated Polymers Based on 2-arylbenzimidazole and 4,7-di-thiophene-2-yl-4,5,6,7-tetrahydro-benzo[1,2,5]thiadiazole
DOI:10.1080/15421406.2013.808145 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Thu Trang Do;Bae, Jun Huei;Yoo, Seong Il;Lim, Kwon Taek;Woo, Han Young;Kim, Joo Hyun;
2:1:481 New linear pi-conjugated polymers via Suzuki coupling of (1Z, 3Z)-1,4-dibromo-1,4-diaryl-buta-1,3-diene with aromatic diborates: Synthesis and photophysical properties
DOI:10.1016/j.polymer.2010.06.003 JN:POLYMER PY:2010 TC:3 AU: Liu, Yan;Chen, Xingguo;Qin, Jingui;Yu, Gui;Liu, Yunqi;
2:1:482 A bibliographic analysis of recent solar energy literatures: The expansion and evolution of a research field
DOI:10.1016/j.renene.2014.01.018 JN:RENEWABLE ENERGY PY:2014 TC:5 AU: Du, Huibui;Li, Na;Brown, Marilyn A.;Peng, Yuenuan;Shuai, Yong;
2:1:483 Controlling morphology and photovoltaic properties by chemical structure in copolymers of cyclopentadithiophene and thiophene segments
DOI:10.1016/j.solmat.2010.07.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:0 AU: Bijleveld, Johan C.;Fonrodona, Marta;Wienk, Martijn M.;Janssen, Rene A. J.;
2:1:484 High-performance polymer tandem devices combining solar cell and light-emitting diode
DOI:10.1016/j.solmat.2012.08.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:1 AU: Kang, Hongkyu;Kim, Geunjin;Hwang, In-Wook;Kim, Yonghee;Lee, Kyu Cheol;Park, Sung Heum;Lee, Kwanghee;
2:1:485 An extremely low bandgap donor-acceptor copolymer for panchromatic solar cells
DOI:10.1016/j.solmat.2012.06.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:3 AU: Wang, Tzong-Liu;Yang, Chien-Hsin;Shieh, Yeong-Tarng;Chen, Ya-Chun;Ho, Tsung-Han;Chen, Chin-Hsiang;
2:1:486 Sub-100 nm scale polymer transfer printing process for organic photovoltaic devices
DOI:10.1016/j.solmat.2012.10.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Choi, Dae-Geun;Lee, Ki-Joong;Jeong, Jun-Ho;Wang, Dong Hwan;Park, O. Ok;Park, Jong Hyeok;
2:1:487 Synthesis and characterization of soluble narrow band gap conducting polymers based on diketopyrrolopyrrole and propylenedioxythiophenes
DOI:10.1016/j.synthmet.2010.09.021 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Mishra, Sarada Prasad;Palai, Akshaya Kumar;Patri, Manoranjan;
2:1:488 Synthesis and energy gap studies of a series of sulfone-substituted polyphenylenevinylenes (SF-PPVs)
DOI:10.1016/j.synthmet.2009.09.020 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Zhang, Cheng;Sun, Jianyuan;Li, Rui;Black, Suely;Sun, Sam-Shajing;
2:1:489 Synthesis of a side chain conjugated polythiophene copolymer and its photovoltaic property
DOI:10.1016/j.synthmet.2011.02.014 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Gao, Chao;Qu, Bo;Jiang, Zhongliang;Tian, Di;Liu, Hongli;Chen, Zhijian;Xiao, Lixin;Gong, Qihuang;
2:1:490 Liquid nitrogen quenching effects of P3HT:PCBM bulk heterojunction photovoltaic cells
DOI:10.1016/j.synthmet.2012.08.010 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Kim, Namkyoon;Park, Jun Kue;Oh, In Hwan;Lee, Kyu Won;Kim, Do-wan;Lee, Cheol Eui;
2:2:1 pi-Conjugated Polymers for Organic Electronics and Photovoltaic Cell Applications
DOI:10.1021/cm102419z JN:CHEMISTRY OF MATERIALS PY:2011 TC:662 AU: Facchetti, Antonio;
2:2:2 Thieno[3,2-b]thiophene-Diketopyrrolopyrrole-Containing Polymers for High-Performance Organic Field-Effect Transistors and Organic Photovoltaic Devices
DOI:10.1021/ja110619k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:417 AU: Bronstein, Hugo;Chen, Zhuoying;Ashraf, Rap Shahid;Zhang, Weimin;Du, Junping;Durrant, James R.;Tuladhar, Pabitra Shakya;Song, Kigook;Watkins, Scott E.;Geerts, Yves;Wienk, Martijn M.;Janssen, Rene A. J.;Anthopoulos, Thomas;Sirringhaus, Henning;Heeney, Martin;McCulloch, Iain;
2:2:3 Ultrahigh Mobility in Polymer Field-Effect Transistors by Design
DOI:10.1021/ja108861q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:293 AU: Tsao, Hoi Nok;Cho, Don M.;Park, Insun;Hansen, Michael Ryan;Mavrinskiy, Alexey;Yoon, Do Y.;Graf, Robert;Pisula, Wojciech;Spiess, Hans Wolfgang;Muellen, Klaus;
2:2:4 n-Type Organic Semiconductors in Organic Electronics
DOI:10.1002/adma.200903628 JN:ADVANCED MATERIALS PY:2010 TC:417 AU: Anthony, John E.;Facchetti, Antonio;Heeney, Martin;Marder, Seth R.;Zhan, Xiaowei;
2:2:5 Rylene and Related Diimides for Organic Electronics
DOI:10.1002/adma.201001402 JN:ADVANCED MATERIALS PY:2011 TC:484 AU: Zhan, Xiaowei;Facchetti, Antonio;Barlow, Stephen;Marks, Tobin J.;Ratner, Mark A.;Wasielewski, Michael R.;Marder, Seth R.;
2:2:6 Highly p-Extended Copolymers with Diketopyrrolopyrrole Moieties for High-Performance Field-Effect Transistors
DOI:10.1002/adma.201201318 JN:ADVANCED MATERIALS PY:2012 TC:243 AU: Chen, Huajie;Guo, Yunlong;Yu, Gui;Zhao, Yan;Zhang, Ji;Gao, Dong;Liu, Hongtao;Liu, Yunqi;
2:2:7 Integrated Materials Design of Organic Semiconductors for Field-Effect Transistors
DOI:10.1021/ja400881n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:188 AU: Mei, Jianguo;Diao, Ying;Appleton, Anthony L.;Fang, Lei;Bao, Zhenan;
2:2:8 A High Mobility P-Type DPP-Thieno[3,2-b]thiophene Copolymer for Organic Thin-Film Transistors
DOI:10.1002/adma.201002313 JN:ADVANCED MATERIALS PY:2010 TC:243 AU: Li, Yuning;Singh, Samarendra P.;Sonar, Prashant;
2:2:9 High-Performance Ambipolar Diketopyrrolopyrrole-Thieno[3,2-b]thiophene Copolymer Field-Effect Transistors with Balanced Hole and Electron Mobilities
DOI:10.1002/adma.201102786 JN:ADVANCED MATERIALS PY:2012 TC:237 AU: Chen, Zhuoying;Lee, Mi Jung;Ashraf, Raja Shahid;Gu, Yun;Albert-Seifried, Sebastian;Nielsen, Martin Meedom;Schroeder, Bob;Anthopoulos, Thomas D.;Heeney, Martin;McCulloch, Iain;Sirringhaus, Henning;
2:2:10 Siloxane-Terminated Solubilizing Side Chains: Bringing Conjugated Polymer Backbones Closer and Boosting Hole Mobilities in Thin-Film Transistors
DOI:10.1021/ja209328m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:185 AU: Mei, Jianguo;Kim, Do Hwan;Ayzner, Alexander L.;Toney, Michael F.;Bao, Zhenan;
2:2:11 A Low-Bandgap Diketopyrrolopyrrole-Benzothiadiazole-Based Copolymer for High-Mobility Ambipolar Organic Thin-Film Transistors
DOI:10.1002/adma.201002973 JN:ADVANCED MATERIALS PY:2010 TC:216 AU: Sonar, Prashant;Singh, Samarendra P.;Li, Yuning;Soh, Mui Siang;Dodabalapur, Ananth;
2:2:12 Organic Transistors in Optical Displays and Microelectronic Applications
DOI:10.1002/adma.200903559 JN:ADVANCED MATERIALS PY:2010 TC:228 AU: Gelinck, Gerwin;Heremans, Paul;Nomoto, Kazumasa;Anthopoulos, Thomas D.;
2:2:13 Recent Advances in the Development of Semiconducting DPP-Containing Polymers for Transistor Applications
DOI:10.1002/adma.201201795 JN:ADVANCED MATERIALS PY:2013 TC:195 AU: Nielsen, Christian B.;Turbiez, Mathieu;McCulloch, Iain;
2:2:14 Toward Printed Integrated Circuits based on Unipolar or Ambipolar Polymer Semiconductors
DOI:10.1002/adma.201205361 JN:ADVANCED MATERIALS PY:2013 TC:99 AU: Baeg, Kang-Jun;Caironi, Mario;Noh, Yong-Young;
2:2:15 Thienoacene-Based Organic Semiconductors
DOI:10.1002/adma.201102007 JN:ADVANCED MATERIALS PY:2011 TC:255 AU: Takimiya, Kazuo;Shinamura, Shoji;Osaka, Itaru;Miyazaki, Eigo;
2:2:16 25th Anniversary Article: Recent Advances in n-Type and Ambipolar Organic Field-Effect Transistors
DOI:10.1002/adma.201302315 JN:ADVANCED MATERIALS PY:2013 TC:100 AU: Zhao, Yan;Guo, Yunlong;Liu, Yunqi;
2:2:17 Indacenodithiophene Semiconducting Polymers for High-Performance, Air-Stable Transistors
DOI:10.1021/ja1049324 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:181 AU: Zhang, Weimin;Smith, Jeremy;Watkins, Scott E.;Gysel, Roman;McGehee, Michael;Salleo, Alberto;Kirkpatrick, James;Ashraf, Shahid;Anthopoulos, Thomas;Heeney, Martin;McCulloch, Iain;
2:2:18 A Selenophene-Based Low-Bandgap Donor-Acceptor Polymer Leading to Fast Ambipolar Logic
DOI:10.1002/adma.201104522 JN:ADVANCED MATERIALS PY:2012 TC:137 AU: Kronemeijer, Auke J.;Gili, Enrico;Shahid, Munazza;Rivnay, Jonathan;Salleo, Alberto;Heeney, Martin;Sirringhaus, Henning;
2:2:19 Charge Injection in Solution-Processed Organic Field-Effect Transistors: Physics, Models and Characterization Methods
DOI:10.1002/adma.201104206 JN:ADVANCED MATERIALS PY:2012 TC:105 AU: Natali, Dario;Caironi, Mario;
2:2:20 High-Performance Air-Stable Organic Field-Effect Transistors: Isoindigo-Based Conjugated Polymers
DOI:10.1021/ja111066r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:155 AU: Lei, Ting;Cao, Yue;Fan, Yunlong;Liu, Chen-Jiang;Yuan, Si-Chun;Pei, Jian;
2:2:21 Unconventional Face-On Texture and Exceptional In-Plane Order of a High Mobility n-Type Polymer
DOI:10.1002/adma.201001202 JN:ADVANCED MATERIALS PY:2010 TC:136 AU: Rivnay, Jonathan;Toney, Michael F.;Zheng, Yan;Kauvar, Isaac V.;Chen, Zhihua;Wagner, Veit;Facchetti, Antonio;Salleo, Alberto;
2:2:22 Annealing-Free High-Mobility Diketopyrrolopyrrole-Quaterthiophene Copolymer for Solution-Processed Organic Thin Film Transistors
DOI:10.1021/ja1085996 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:169 AU: Li, Yuning;Sonar, Prashant;Singh, Samarendra P.;Soh, Mui Siang;van Meurs, Martin;Tan, Jozel;
2:2:23 High Performance Weak Donor-Acceptor Polymers in Thin Film Transistors: Effect of the Acceptor on Electronic Properties, Ambipolar Conductivity, Mobility, and Thermal Stability
DOI:10.1021/ja205566w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:145 AU: Yuen, Jonathan D.;Fan, Jian;Seifter, Jason;Lim, Bogyu;Hufschmid, Ryan;Heeger, Alan J.;Wudl, Fred;
2:2:24 Microstructural Characterization and Charge Transport in Thin Films of Conjugated Polymers
DOI:10.1002/adma.200903712 JN:ADVANCED MATERIALS PY:2010 TC:211 AU: Salleo, Alberto;Kline, R. Joseph;DeLongchamp, Dean M.;Chabinyc, Michael L.;
2:2:25 Influence of Alkyl Chain Branching Positions on the Hole Mobilities of Polymer Thin-Film Transistors
DOI:10.1002/adma.201202689 JN:ADVANCED MATERIALS PY:2012 TC:157 AU: Lei, Ting;Dou, Jin-Hu;Pei, Jian;
2:2:26 2,5-Bis(2-octyldodecyl)pyrrolo[3,4-c]pyrrole-1,4-(2H,5H)-dione-Based Donor-Acceptor Alternating Copolymer Bearing 5,5 '-Di (thiophen-2-yl)-2,2 '-biselenophene Exhibiting 1.5 cm(2).V-1.s(-1) Hole Mobility in Thin-Film Transistors
DOI:10.1021/ja203189h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:160 AU: Ha, Jae Seung;Kim, Kyung Hwan;Choi, Dong Hoon;
2:2:27 Solution-Processable Ambipolar Diketopyrrolopyrrole-Selenophene Polymer with Unprecedentedly High Hole and Electron Mobilities
DOI:10.1021/ja308927g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:91 AU: Lee, Junghoon;Han, A-Reum;Kim, Jonggi;Kim, Yiho;Oh, Joon Hak;Yang, Changduk;
2:2:28 Molecular Packing of High-Mobility Diketo Pyrrolo-Pyrrole Polymer Semiconductors with Branched Alkyl Side Chains
DOI:10.1021/ja204515s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:136 AU: Zhang, Xinran;Richter, Lee J.;DeLongchamp, Dean M.;Kline, R. Joseph;Hammond, Matthew R.;McCulloch, Iain;Heeney, Martin;Ashraf, Raja S.;Smith, Jeremy N.;Anthopoulos, Thomas D.;Schroeder, Bob;Geerts, Yves H.;Fischer, Daniel A.;Toney, Michael F.;
2:2:29 Recent Progress in n-Channel Organic Thin-Film Transistors
DOI:10.1002/adma.200901454 JN:ADVANCED MATERIALS PY:2010 TC:186 AU: Wen, Yugeng;Liu, Yunqi;
2:2:30 Critical Role of Alkyl Chain Branching of Organic Semiconductors in Enabling Solution-Processed N-Channel Organic Thin-Film Transistors with Mobility of up to 3.50 cm(2) V-1 s(-1)
DOI:10.1021/ja311469y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:84 AU: Zhang, Fengjiao;Hu, Yunbin;Schuettfort, Torben;Di, Chong-an;Gao, Xike;McNeill, Christopher R.;Thomsen, Lars;Mannsfeld, Stefan C. B.;Yuan, Wei;Sirringhaus, Henning;Zhu, Daoben;
2:2:31 Thieno[3,4-c]pyrrole-4,6-dione-Based Polymer Semiconductors: Toward High-Performance, Air-Stable Organic Thin-Film Transistors
DOI:10.1021/ja205398u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:96 AU: Guo, Xugang;Ponce Ortiz, Rocio;Zheng, Yan;Kim, Myung-Gil;Zhang, Shiming;Hu, Yan;Lu, Gang;Facchetti, Antonio;Marks, Tobin J.;
2:2:32 Organic Semiconductor Growth and Morphology Considerations for Organic Thin-Film Transistors
DOI:10.1002/adma.200903193 JN:ADVANCED MATERIALS PY:2010 TC:152 AU: Virkar, Ajay A.;Mannsfeld, Stefan;Bao, Zhenan;Stingelin, Natalie;
2:2:33 Side Chain Engineering in Solution-Processable Conjugated Polymers
DOI:10.1021/cm4020805 JN:CHEMISTRY OF MATERIALS PY:2014 TC:113 AU: Mei, Jianguo;Bao, Zhenan;
2:2:34 Development of n-type organic semiconductors for thin film transistors: a viewpoint of molecular design
DOI:10.1039/c3tc32046d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:36 AU: Gao, Xike;Hu, Yunbin;
2:2:35 25th Anniversary Article: Organic Field-Effect Transistors: The Path Beyond Amorphous Silicon
DOI:10.1002/adma.201304346 JN:ADVANCED MATERIALS PY:2014 TC:122 AU: Sirringhaus, Henning;
2:2:36 25th Anniversary Article: Key Points for High-Mobility Organic Field-Effect Transistors
DOI:10.1002/adma.201302514 JN:ADVANCED MATERIALS PY:2013 TC:87 AU: Dong, Huanli;Fu, Xiaolong;Liu, Jie;Wang, Zongrui;Hu, Wenping;
2:2:37 Systematic Investigation of Isoindigo-Based Polymeric Field-Effect Transistors: Design Strategy and Impact of Polymer Symmetry and Backbone Curvature
DOI:10.1021/cm300117x JN:CHEMISTRY OF MATERIALS PY:2012 TC:117 AU: Lei, Ting;Cao, Yue;Zhou, Xu;Peng, Yang;Bian, Jiang;Pei, Jian;
2:2:38 Ambipolar Polymer Field-Effect Transistors Based on Fluorinated Isoindigo: High Performance and Improved Ambient Stability
DOI:10.1021/ja310283f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:92 AU: Lei, Ting;Dou, Jin-Hu;Ma, Zhi-Jun;Yao, Cong-Hui;Liu, Chen-Jiang;Wang, Jie-Yu;Pei, Jian;
2:2:39 High-Mobility Ambipolar Transistors and High-Gain Inverters from a Donor-Acceptor Copolymer Semiconductor
DOI:10.1002/adma.200901819 JN:ADVANCED MATERIALS PY:2010 TC:148 AU: Kim, Felix Sunjoo;Guo, Xugang;Watson, Mark D.;Jenekhe, Samson A.;
2:2:40 Advances in Charge Carrier Mobilities of Semiconducting Polymers Used in Organic Transistors
DOI:10.1021/cm402421p JN:CHEMISTRY OF MATERIALS PY:2014 TC:51 AU: Holliday, Sarah;Donaghey, Jenny E.;McCulloch, Iain;
2:2:41 Synthesis, Characterization, and Transistor and Solar Cell Applications of a Naphthobisthiadiazole-Based Semiconducting Polymer
DOI:10.1021/ja210687r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:117 AU: Osaka, Itaru;Shimawaki, Masafumi;Mori, Hiroki;Doi, Iori;Miyazaki, Eigo;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:2:42 Remarkable Enhancement of Hole Transport in Top-Gated N-Type Polymer Field-Effect Transistors by a High-k Dielectric for Ambipolar Electronic Circuits
DOI:10.1002/adma.201201464 JN:ADVANCED MATERIALS PY:2012 TC:67 AU: Baeg, Kang-Jun;Khim, Dongyoon;Jung, Soon-Won;Kang, Minji;You, In-Kyu;Kim, Dong-Yu;Facchetti, Antonio;Noh, Yong-Young;
2:2:43 Very Low Degree of Energetic Disorder as the Origin of High Mobility in an n-channel Polymer Semiconductor
DOI:10.1002/adfm.201100592 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:75 AU: Caironi, Mario;Bird, Matt;Fazzi, Daniele;Chen, Zhihua;Di Pietro, Riccardo;Newman, Christopher;Facchetti, Antonio;Sirringhaus, Henning;
2:2:44 Effect of Selenophene in a DPP Copolymer Incorporating a Vinyl Group for High-Performance Organic Field-Effect Transistors
DOI:10.1002/adma.201202867 JN:ADVANCED MATERIALS PY:2013 TC:97 AU: Kang, Il;An, Tae Kyu;Hong, Jung-a;Yun, Hui-Jun;Kim, Ran;Chung, Dae Sung;Park, Chan Eon;Kim, Yun-Hi;Kwon, Soon-Ki;
2:2:45 All-Solution-Processed, High-Performance n-Channel Organic Transistors and Circuits: Toward Low-Cost Ambient Electronics
DOI:10.1002/adma.201004588 JN:ADVANCED MATERIALS PY:2011 TC:105 AU: Zhao, Yan;Di, Chong-an;Gao, Xike;Hu, Yunbin;Guo, Yunlong;Zhang, Lei;Liu, Yunqi;Wang, Jizheng;Hu, Wenping;Zhu, Daoben;
2:2:46 Aggregation in a High-Mobility n-Type Low-Bandgap Copolymer with Implications on Semicrystalline Morphology
DOI:10.1021/ja306844f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:60 AU: Steyrleuthner, Robert;Schubert, Marcel;Howard, Ian;Klaumuenzer, Bastian;Schilling, Kristian;Chen, Zhihua;Saalfrank, Peter;Laquai, Frederic;Facchetti, Antonio;Neher, Dieter;
2:2:47 New Organic Semiconductors with Imide/Amide-Containing Molecular Systems
DOI:10.1002/adma.201305718 JN:ADVANCED MATERIALS PY:2014 TC:25 AU: Liu, Zitong;Zhang, Guanxin;Cai, Zhengxu;Chen, Xin;Luo, Hewei;Li, Yonghai;Wang, Jianguo;Zhang, Deqing;
2:2:48 Diketopyrrolopyrrole-Diketopyrrolopyrrole-Based Conjugated Copolymer for High-Mobility Organic Field-Effect Transistors
DOI:10.1021/ja308211n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:108 AU: Kanimozhi, Catherine;Yaacobi-Gross, Nir;Chou, Kang Wei;Amassian, Aram;Anthopoulos, Thomas D.;Patil, Satish;
2:2:49 Dithienocoronenediimide-Based Copolymers as Novel Ambipolar Semiconductors for Organic Thin-Film Transistors
DOI:10.1002/adma.201201014 JN:ADVANCED MATERIALS PY:2012 TC:54 AU: Usta, Hakan;Newman, Christopher;Chen, Zhihua;Facchetti, Antonio;
2:2:50 High-Mobility Semiconducting Naphthodithiophene Copolymers
DOI:10.1021/ja101125p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:124 AU: Osaka, Itaru;Abe, Toru;Shinamura, Shoji;Miyazaki, Eigo;Takimiya, Kazuo;
2:2:51 Bithiophene-Imide-Based Polymeric Semiconductors for Field-Effect Transistors: Synthesis, Structure-Property Correlations, Charge Carrier Polarity, and Device Stability
DOI:10.1021/ja107678m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:93 AU: Guo, Xugang;Ortiz, Rocio Ponce;Zheng, Yan;Hu, Yan;Noh, Yong-Young;Baeg, Kang-Jun;Facchetti, Antonio;Marks, Tobin J.;
2:2:52 Molecular Design and Synthetic Approaches to Electron-Transporting Organic Transistor Semiconductors
DOI:10.1021/cm102296d JN:CHEMISTRY OF MATERIALS PY:2011 TC:118 AU: Jung, Byung Jun;Tremblay, Noah J.;Yeh, Ming-Ling;Katz, Howard E.;
2:2:53 Naphthalene Diimide-Based Polymer Semiconductors: Synthesis, Structure-Property Correlations, and n-Channel and Ambipolar Field-Effect Transistors
DOI:10.1021/cm2034273 JN:CHEMISTRY OF MATERIALS PY:2012 TC:99 AU: Guo, Xugang;Kim, Felix Sunjoo;Seger, Mark J.;Jenekhe, Samson A.;Watson, Mark D.;
2:2:54 Charge Injection Engineering of Ambipolar Field-Effect Transistors for High-Performance Organic Complementary Circuits
DOI:10.1021/am200705j JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:72 AU: Baeg, Kang-Jun;Kim, Juhwan;Khim, Dongyoon;Caironi, Mario;Kim, Dong-Yu;You, In-Kyu;Quinn, Jordan R.;Facchetti, Antonio;Noh, Yong-Young;
2:2:55 New dithienyl-diketopyrrolopyrrole-based conjugated molecules entailing electron withdrawing moieties for organic ambipolar semiconductors and photovoltaic materials
DOI:10.1039/c4tc01872a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Yu, Chenmin;Liu, Zitong;Yang, Yang;Yao, Jingjing;Cai, Zhengxu;Luo, Hewei;Zhang, Guanxin;Zhang, Deqing;
2:2:56 A Fluorinated Phenylene Unit as a Building Block for High-Performance n-Type Semiconducting Polymer
DOI:10.1002/adma.201205320 JN:ADVANCED MATERIALS PY:2013 TC:63 AU: Park, Jung Ha;Jung, Eui Hyuk;Jung, Jae Woong;Jo, Won Ho;
2:2:57 Core-Expanded Naphthalene Diimides Fused with 2-(1,3-Dithiol-2-Ylidene)Malonitrile Groups for High-Performance, Ambient-Stable, Solution-Processed n-Channel Organic Thin Film Transistors
DOI:10.1021/ja910667y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:132 AU: Gao, Xike;Di, Chong-an;Hu, Yunbin;Yang, Xiaodi;Fan, Hongyu;Zhang, Feng;Liu, Yunqi;Li, Hongxiang;Zhu, Daoben;
2:2:58 Combining Electron-Neutral Building Blocks with Intramolecular "Conformational Locks" Affords Stable, High-Mobility P- and N-Channel Polymer Semiconductors
DOI:10.1021/ja303401s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:40 AU: Huang, Hui;Chen, Zhihua;Ponce Ortiz, Rocio;Newman, Christopher;Usta, Hakan;Lou, Sylvia;Youn, Jangdae;Noh, Yong-Young;Baeg, Kang-Jun;Chen, Lin X.;Facchetti, Antonio;Marks, Tobin J.;
2:2:59 Boosting the Ambipolar Performance of Solution-Processable Polymer Semiconductors via Hybrid Side-Chain Engineering
DOI:10.1021/ja403949g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:72 AU: Lee, Junghoon;Han, A-Reum;Yu, Hojeong;Shin, Tae Joo;Yang, Changduk;Oh, Joon Hak;
2:2:60 Bulk Electron Transport and Charge Injection in a High Mobility n-Type Semiconducting Polymer
DOI:10.1002/adma.201000232 JN:ADVANCED MATERIALS PY:2010 TC:76 AU: Steyrleuthner, Robert;Schubert, Marcel;Jaiser, Frank;Blakesley, James C.;Chen, Zhihua;Facchetti, Antonio;Neher, Dieter;
2:2:61 Poly(diketopyrrolopyrrole-benzothiadiazole) with Ambipolarity Approaching 100% Equivalency
DOI:10.1002/adfm.201002651 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:92 AU: Cho, Shinuk;Lee, Junghoon;Tong, Minghong;Seo, Jung Hwa;Yang, Changduk;
2:2:62 High Mobility Ambipolar Charge Transport in Polyselenophene Conjugated Polymers
DOI:10.1002/adma.200903711 JN:ADVANCED MATERIALS PY:2010 TC:112 AU: Chen, Zhuoying;Lemke, Henrik;Albert-Seifried, Sebastian;Caironi, Mario;Nielsen, Martin Meedom;Heeney, Martin;Zhang, Weimin;McCulloch, Iain;Sirringhaus, Henning;
2:2:63 Naphthalene Diimide Incorporated Thiophene-Free Copolymers with Acene and Heteroacene Units: Comparison of Geometric Features and Electron-Donating Strength of Co-units
DOI:10.1021/cm401829x JN:CHEMISTRY OF MATERIALS PY:2013 TC:28 AU: Kim, Yiho;Hong, Jayeon;Oh, Joon Hak;Yang, Changduk;
2:2:64 3,6-Di(furan-2-yl)pyrrolo[3,4-c]pyrrole-1,4(2H,5H)-dione and bithiophene copolymer with rather disordered chain orientation showing high mobility in organic thin film transistors
DOI:10.1039/c1jm11290b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:84 AU: Li, Yuning;Sonar, Prashant;Singh, Samarendra P.;Zeng, Wenjin;Soh, Mui Siang;
2:2:65 Transistor Paint: High Mobilities in Small Bandgap Polymer Semiconductor Based on the Strong Acceptor, Diketopyrrolopyrrole and Strong Donor, Dithienopyrrole
DOI:10.1002/adma.201001599 JN:ADVANCED MATERIALS PY:2010 TC:87 AU: Nelson, Toby L.;Young, Tomasz M.;Liu, Junying;Mishra, Sarada P.;Belot, John A.;Balliet, Courtney L.;Javier, Anna E.;Kowalewski, Tomasz;McCullough, Richard D.;
2:2:66 A BDOPV-Based Donor-Acceptor Polymer for High-Performance n-Type and Oxygen-Doped Ambipolar Field-Effect Transistors
DOI:10.1002/adma.201302278 JN:ADVANCED MATERIALS PY:2013 TC:36 AU: Lei, Ting;Dou, Jin-Hu;Cao, Xiao-Yu;Wang, Jie-Yu;Pei, Jian;
2:2:67 Diketopyrrolopyrrole-Containing Quinoidal Small Molecules for High-Performance, Air-Stable, and Solution-Processable n-Channel Organic Field-Effect Transistors
DOI:10.1021/ja3003183 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:77 AU: Qiao, Yali;Guo, Yunlong;Yu, Chunmeng;Zhang, Fengjiao;Xu, Wei;Liu, Yunqi;Zhu, Daoben;
2:2:68 Dialkoxybithiazole: A New Building Block for Head-to-Head Polymer Semiconductors
DOI:10.1021/ja3120532 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:35 AU: Guo, Xugang;Quinn, Jordan;Chen, Zhihua;Usta, Hakan;Zheng, Yan;Xia, Yu;Hennek, Jonathan W.;Ortiz, Rocio Ponce;Marks, Tobin J.;Facchetti, Antonio;
2:2:69 Thiazole-Based Organic Semiconductors for Organic Electronics
DOI:10.1002/adma.201200721 JN:ADVANCED MATERIALS PY:2012 TC:87 AU: Lin, Yuze;Fan, Haijun;Li, Yongfang;Zhan, Xiaowei;
2:2:70 Control of Polymer-Packing Orientation in Thin Films through Synthetic Tailoring of Backbone Coplanarity
DOI:10.1021/cm402489a JN:CHEMISTRY OF MATERIALS PY:2013 TC:58 AU: Chen, Mark S.;Niskala, Jeremy R.;Unruh, David A.;Chu, Crystal K.;Lee, Olivia P.;Frechet, Jean M. J.;
2:2:71 Record High Hole Mobility in Polymer Semiconductors via Side-Chain Engineering
DOI:10.1021/ja405112s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:83 AU: Kang, Il;Yun, Hui-Jun;Chung, Dae Sung;Kwon, Soon-Ki;Kim, Yun-Hi;
2:2:72 Selenophene-DPP donor-acceptor conjugated polymer for high performance ambipolar field effect transistor and nonvolatile memory applications
DOI:10.1039/c1jm14640h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:71 AU: Lin, Hsiang-Wei;Lee, Wen-Ya;Chen, Wen-Chang;
2:2:73 Charge Transport Physics of Conjugated Polymer Field-Effect Transistors
DOI:10.1002/adma.200902857 JN:ADVANCED MATERIALS PY:2010 TC:88 AU: Sirringhaus, Henning;Bird, Matt;Richards, Tim;Zhao, Ni;
2:2:74 High Mobility, Air Stable, Organic Single Crystal Transistors of an n-Type Diperylene Bisimide
DOI:10.1002/adma.201104987 JN:ADVANCED MATERIALS PY:2012 TC:72 AU: Lv, Aifeng;Puniredd, Sreenivasa R.;Zhang, Jiahui;Li, Zhibo;Zhu, Hongfei;Jiang, Wei;Dong, Huanli;He, Yudong;Jiang, Lang;Li, Yan;Pisula, Wojciech;Meng, Qing;Hu, Wenping;Wang, Zhaohui;
2:2:75 Enhanced Solid-State Order and Field-Effect Hole Mobility through Control of Nanoscale Polymer Aggregation
DOI:10.1021/ja4088665 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:13 AU: Chen, Mark S.;Lee, Olivia P.;Niskala, Jeremy R.;Yiu, Alan T.;Tassone, Christopher J.;Schmidt, Kristin;Beaujuge, Pierre M.;Onishi, Seita S.;Toney, Michael F.;Zettl, Alex;Frechet, Jean M. J.;
2:2:76 Recent advances in high mobility donor-acceptor semiconducting polymers
DOI:10.1039/c2jm31943h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:67 AU: Biniek, Laure;Schroeder, Bob C.;Nielsen, Christian B.;McCulloch, Iain;
2:2:77 Conjugated polymers based on naphthalene diimide for organic electronics
DOI:10.1039/c3tc31755b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:19 AU: Sommer, Michael;
2:2:78 High-Performance Air-Stable n-Type Organic Transistors Based on Core-Chlorinated Naphthalene Tetracarboxylic Diimides
DOI:10.1002/adfm.201000425 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:106 AU: Oh, Joon Hak;Suraru, Sabin-Lucian;Lee, Wen-Ya;Koenemann, Martin;Hoeffken, Hans Wolfgang;Roeger, Cornelia;Schmidt, Ruediger;Chung, Yoonyoung;Chen, Wen-Chang;Wuerthner, Frank;Bao, Zhenan;
2:2:79 25th Anniversary Article: High-Mobility Hole and Electron Transport Conjugated Polymers: How Structure Defines Function
DOI:10.1002/adma.201305809 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Olivier, Yoann;Niedzialek, Dorota;Lemaur, Vincent;Pisula, Wojciech;Muellen, Klaus;Koldemir, Unsal;Reynolds, John R.;Lazzaroni, Roberto;Cornil, Jerome;Beljonne, David;
2:2:80 New Donor-Acceptor-Donor Molecules with Pechmann Dye as the Core Moiety for Solution-Processed Good-Performance Organic Field-Effect Transistors
DOI:10.1021/cm303793g JN:CHEMISTRY OF MATERIALS PY:2013 TC:26 AU: Cai, Zhengxu;Guo, Yunlong;Yang, Sifen;Peng, Qian;Luo, Hewei;Liu, Zitong;Zhang, Guanxin;Liu, Yunqi;Zhang, Deqing;
2:2:81 The unusual electronic structure of ambipolar dicyanovinyl-substituted diketopyrrolopyrrole derivatives
DOI:10.1039/c4tc00714j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Riano, A.;Mayorga Burrezo, P.;Mancheno, M. J.;Timalsina, A.;Smith, J.;Facchetti, A.;Marks, T. J.;Lopez Navarrete, J. T.;Segura, J. L.;Casado, J.;Ponce Ortiz, R.;
2:2:82 Systematic Investigation of Side-Chain Branching Position Effect on Electron Carrier Mobility in Conjugated Polymers
DOI:10.1002/adfm.201401822 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:24 AU: Dou, Jin-Hu;Zheng, Yu-Qing;Lei, Ting;Zhang, Shi-Ding;Wang, Zhi;Zhang, Wen-Bin;Wang, Jie-Yu;Pei, Jian;
2:2:83 Soluble and Stable N-Heteropentacenes with High Field-Effect Mobility
DOI:10.1002/adma.201004325 JN:ADVANCED MATERIALS PY:2011 TC:119 AU: Liang, Zhixiong;Tang, Qin;Xu, Jianbin;Miao, Qian;
2:2:84 High-Hole-Mobility Field-Effect Transistors Based on Co-Benzobisthiadiazole-Quaterthiophene
DOI:10.1002/adma.201202195 JN:ADVANCED MATERIALS PY:2012 TC:46 AU: Fan, Jian;Yuen, Jonathan D.;Cui, Weibin;Seifter, Jason;Mohebbi, Ali Reza;Wang, Mingfeng;Zhou, Huiqiong;Heeger, Alan;Wudl, Fred;
2:2:85 Record High Electron Mobility of 6.3 cm(2)V(-1)s(-1) Achieved for Polymer Semiconductors Using a New Building Block
DOI:10.1002/adma.201305981 JN:ADVANCED MATERIALS PY:2014 TC:47 AU: Sun, Bin;Hong, Wei;Yan, Zhuangqing;Aziz, Hany;Li, Yuning;
2:2:86 Impact of Isomeric Structures on Transistor Performances in Naphthodithiophene Semiconducting Polymers
DOI:10.1021/ja201591a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:93 AU: Osaka, Itaru;Abe, Toru;Shinamura, Shoji;Takimiya, Kazuo;
2:2:87 Controlled Conjugated Backbone Twisting for an Increased Open-Circuit Voltage while Having a High Short-Circuit Current in Poly(hexylthiophene) Derivatives
DOI:10.1021/ja210954r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:77 AU: Ko, Sangwon;Hoke, Eric T.;Pandey, Laxman;Hong, Sanghyun;Mondal, Rajib;Risko, Chad;Yi, Yuanping;Noriega, Rodrigo;McGehee, Michael D.;Bredas, Jean-Luc;Salleo, Alberto;Bao, Zhenan;
2:2:88 Ambipolar charge-transport property for the D-A complex with naphthalene diimide motif
DOI:10.1039/c3tc32377c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Chen, Xin;Zhang, Guanxin;Luo, Hewei;Li, Yonghai;Liu, Zitong;Zhang, Deqing;
2:2:89 High-Performance Ambipolar Transistors and Inverters from an Ultralow Bandgap Polymer
DOI:10.1002/adma.201103836 JN:ADVANCED MATERIALS PY:2012 TC:72 AU: Fan, Jian;Yuen, Jonathan D.;Wang, Mingfeng;Seifter, Jason;Seo, Jung-Hwa;Mohebbi, Ali Reza;Zakhidov, Dante;Heeger, Alan;Wudl, Fred;
2:2:90 Organic Field-Effect Transistors based on Highly Ordered Single Polymer Fibers
DOI:10.1002/adma.201103057 JN:ADVANCED MATERIALS PY:2012 TC:85 AU: Wang, Suhao;Kappl, Michael;Liebewirth, Ingo;Mueller, Maren;Kirchhoff, Katrin;Pisula, Wojciech;Muellen, Klaus;
2:2:91 Diketopyrrolopyrrole-Based pi-Conjugated Copolymer Containing beta-Unsubstituted Quintetthiophene Unit: A Promising Material Exhibiting High Hole-Mobility for Organic Thin-Film Transistors
DOI:10.1021/cm302341m JN:CHEMISTRY OF MATERIALS PY:2012 TC:39 AU: Yi, Zhengran;Sun, Xiangnan;Zhao, Yan;Guo, Yunlong;Chen, Xingguo;Qin, Jingui;Yu, Gui;Liu, Yunqi;
2:2:92 New Semiconductors Based on 2,2 '-Ethyne-1,2-diylbis[3-(alk-1-yn-1-yl)thiophene] for Organic Opto-Electronics
DOI:10.1021/cm301095x JN:CHEMISTRY OF MATERIALS PY:2012 TC:19 AU: Boudreault, Pierre-Luc T.;Hennek, Jonathan W.;Loser, Stephen;Ponce Ortiz, Rocio;Eckstein, Brian J.;Facchetti, Antonio;Marks, Tobin J.;
2:2:93 Roles of Flexible Chains in Organic Semiconducting Materials
DOI:10.1021/cm4018776 JN:CHEMISTRY OF MATERIALS PY:2014 TC:64 AU: Lei, Ting;Wang, Jie-Yu;Pei, Jian;
2:2:94 "Conformation Locked" Strong Electron-Deficient Poly(p-Phenylene Vinylene) Derivatives for Ambient-Stable n-Type Field-Effect Transistors: Synthesis, Properties, and Effects of Fluorine Substitution Position
DOI:10.1021/ja412533d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:14 AU: Lei, Ting;Xia, Xin;Wang, Jie-Yu;Liu, Chen-Jiang;Pei, Jian;
2:2:95 New building blocks for pi-conjugated polymer semiconductors for organic thin film transistors and photovoltaics
DOI:10.1039/c4tc01201a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:15 AU: He, Yinghui;Hong, Wei;Li, Yuning;
2:2:96 Electrical and photoelectrical properties of polymer single nanowire made of diketopyrrolopyrrole-based conjugated copolymer bearing dithieno[3,2-b:2 ',3 '-d]thiophene
DOI:10.1016/j.synthmet.2013.02.006 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Kim, Ji Ho;Kim, Kyung Hwan;Shin, Jicheol;Lee, Tae Wan;Cho, Min Ju;Choi, Dong Hoon;
2:2:97 Indigo - A Natural Pigment for High Performance Ambipolar Organic Field Effect Transistors and Circuits
DOI:10.1002/adma.201102619 JN:ADVANCED MATERIALS PY:2012 TC:75 AU: Irimia-Vladu, Mihai;Glowacki, Eric D.;Troshin, Pavel A.;Schwabegger, Guenther;Leonat, Lucia;Susarova, Diana K.;Krystal, Olga;Ullah, Mujeeb;Kanbur, Yasin;Bodea, Marius A.;Razumov, Vladimir F.;Sitter, Helmut;Bauer, Siegfried;Sariciftci, Niyazi Serdar;
2:2:98 Isoindigo, a Versatile Electron-Deficient Unit For High-Performance Organic Electronics
DOI:10.1021/cm402219v JN:CHEMISTRY OF MATERIALS PY:2014 TC:44 AU: Stalder, Romain;Mei, Jianguo;Graham, Kenneth R.;Estrada, Leandro A.;Reynolds, John R.;
2:2:99 Small band gap polymers based on diketopyrrolopyrrole
DOI:10.1039/b919066j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:93 AU: Zoombelt, Arjan P.;Mathijssen, Simon G. J.;Turbiez, Mathieu G. R.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:2:100 Inversion of Dominant Polarity in Ambipolar Polydiketopyrrolopyrrole with Thermally Removable Groups
DOI:10.1002/adfm.201200940 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:38 AU: Lee, Junghoon;Han, A-Reum;Hong, Jayeon;Seo, Jung Hwa;Oh, Joon Hak;Yang, Changduk;
2:2:101 Alkyl Chain Orientations in Dicyanomethylene-Substituted 2,5-Di(thiophen-2-yl)thieno-[3,2-b]thienoquinoid: Impact on Solid-State and Thin-Film Transistor Performance
DOI:10.1002/adfm.201202744 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:22 AU: Wu, Qinghe;Ren, Shendong;Wang, Mao;Qiao, Xiaolan;Li, Hongxiang;Gao, Xike;Yang, Xiaodi;Zhu, Daoben;
2:2:102 Synthesis, Electronic Structure, and Charge Transport Characteristics of Naphthalenediimide-Based Co-Polymers with Different Oligothiophene Donor Units
DOI:10.1002/adfm.201302297 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:22 AU: Luzio, Alessandro;Fazzi, Daniele;Natali, Dario;Giussani, Ester;Baeg, Kang-Jun;Chen, Zhihua;Noh, Yong-Young;Facchetti, Antonio;Caironi, Mario;
2:2:103 pi-Building Blocks for Organic Electronics: Revaluation of "Inductive" and "Resonance" Effects of pi-Electron Deficient Units
DOI:10.1021/cm4021063 JN:CHEMISTRY OF MATERIALS PY:2014 TC:32 AU: Takimiya, Kazuo;Osaka, Itaru;Nakano, Masahiro;
2:2:104 Structural origin of gap states in semicrystalline polymers and the implications for charge transport
DOI:10.1103/PhysRevB.83.121306 JN:PHYSICAL REVIEW B PY:2011 TC:49 AU: Rivnay, Jonathan;Noriega, Rodrigo;Northrup, John E.;Kline, R. Joseph;Toney, Michael F.;Salleo, Alberto;
2:2:105 Air-Stable and High-Mobility n-Channel Organic Transistors Based on Small-Molecule/Polymer Semiconducting Blends
DOI:10.1002/adma.201200859 JN:ADVANCED MATERIALS PY:2012 TC:38 AU: Zhong, Hongliang;Smith, Jeremy;Rossbauer, Stephan;White, Andrew J. P.;Anthopoulos, Thomas D.;Heeney, Martin;
2:2:106 From Monolayer to Multilayer N-Channel Polymeric Field-Effect Transistors with Precise Conformational Order
DOI:10.1002/adma.201103800 JN:ADVANCED MATERIALS PY:2012 TC:43 AU: Fabiano, Simone;Musumeci, Chiara;Chen, Zhihua;Scandurra, Antonino;Wang, He;Loo, Yueh-Lin;Facchetti, Antonio;Pignataro, Bruno;
2:2:107 Benzodipyrrolidone (BDP)-Based Polymer Semiconductors Containing a Series of Chalcogen Atoms: Comprehensive Investigation of the Effect of Heteroaromatic Blocks on Intrinsic Semiconducting Properties
DOI:10.1021/am405917a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Lee, Kyu Cheol;Park, Won-Tae;Noh, Yong-Young;Yang, Changduk;
2:2:108 Naphthalenediimide-Based Copolymers Incorporating Vinyl-Linkages for High-Performance Ambipolar Field-Effect Transistors and Complementary-Like Inverters under Air
DOI:10.1021/cm401130n JN:CHEMISTRY OF MATERIALS PY:2013 TC:30 AU: Chen, Huajie;Guo, Yunlong;Mao, Zupan;Yu, Gui;Huang, Jianyao;Zhao, Yan;Liu, Yunqi;
2:2:109 Optimal Ambipolar Charge Transport of Thienylenevinylene-Based Polymer Semiconductors by Changes in Conformation for High-Performance Organic Thin Film Transistors and Inverters
DOI:10.1021/cm303908f JN:CHEMISTRY OF MATERIALS PY:2013 TC:19 AU: Kim, Juhwan;Baeg, Kang-Jun;Khim, Dongyoon;James, David T.;Kim, Ji-Seon;Lim, Bogyu;Yun, Jin-Mun;Jeong, Hyung-Gu;Amegadze, Paul S. K.;Noh, Yong-Young;Kim, Dong-Yu;
2:2:110 Quantum-Chemical Insights into the Prediction of Charge Transport Parameters for a Naphthalenetetracarboxydiimide-Based Copolymer with Enhanced Electron Mobility
DOI:10.1021/ja208824d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:29 AU: Fazzi, Daniele;Caironi, Mario;Castiglioni, Chiara;
2:2:111 The Role of Regioregularity, Crystallinity, and Chain Orientation on Electron Transport in a High-Mobility n-Type Copolymer
DOI:10.1021/ja4118736 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:15 AU: Steyrleuthner, Robert;Di Pietro, Riccardo;Collins, Brian A.;Polzer, Frank;Himmelberger, Scott;Schubert, Marcel;Chen, Zhihua;Zhang, Shiming;Salleo, Alberto;Ade, Harald;Facchetti, Antonio;Neher, Dieter;
2:2:112 Influence of alkyl chain length on the solid-state properties and transistor performance of BN-substituted tetrathienonaphthalenes
DOI:10.1039/c4tc01369g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Wang, Xiao-Ye;Zhuang, Fang-Dong;Zhou, Xu;Yang, Dong-Chu;Wang, Jie-Yu;Pei, Jian;
2:2:113 Toward high-mobility organic field-effect transistors: Control of molecular packing and large-area fabrication of single-crystal-based devices
DOI:10.1557/mrs.2012.309 JN:MRS BULLETIN PY:2013 TC:29 AU: Li, Hanying;Giri, Gaurav;Tok, Jeffrey B. -H.;Bao, Zhenan;
2:2:114 Visible-Near Infrared Absorbing Polymers Containing Thienoisoindigo and Electron-Rich Units for Organic Transistors with Tunable Polarity
DOI:10.1002/adfm.201300536 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:24 AU: Dutta, Gitish K.;Han, A-Reum;Lee, Junghoon;Kim, Yiho;Oh, Joon Hak;Yang, Changduk;
2:2:115 Ambipolarity in Benzobisthiadiazole-Based Donor-Acceptor Conjugated Polymers
DOI:10.1002/adma.201101134 JN:ADVANCED MATERIALS PY:2011 TC:58 AU: Yuen, Jonathan D.;Kumar, Rajeev;Zakhidov, Dante;Seifter, Jason;Lim, Bogyu;Heeger, Alan J.;Wudl, Fred;
2:2:116 Solution Processable Low-Voltage Organic Thin Film Transistors with High-k Relaxor Ferroelectric Polymer as Gate Insulator
DOI:10.1002/adma.201103542 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Li, Jinhua;Sun, Zhenhua;Yan, Feng;
2:2:117 Effect of the Longer beta-Unsubstituted Oliogothiophene Unit (6T and 7T) on the Organic Thin-Film Transistor Performances of Diketopyrrolopyrrole-Oliogothiophene Copolymers
DOI:10.1021/cm402381w JN:CHEMISTRY OF MATERIALS PY:2013 TC:13 AU: Yi, Zhengran;Ma, Lanchao;Chen, Bing;Chen, Dugang;Chen, Xingguo;Qin, Jingui;Zhan, Xiaowei;Liu, Yunqi;Ong, Wen Jie;Li, Jun;
2:2:118 Scalable Synthesis of Fused Thiophene-Diketopyrrolopyrrole Semiconducting Polymers Processed from Nonchlorinated Solvents into High Performance Thin Film Transistors
DOI:10.1021/cm303953e JN:CHEMISTRY OF MATERIALS PY:2013 TC:43 AU: Matthews, James R.;Niu, Weijun;Tandia, Adama;Wallace, Arthur L.;Hu, Jieyu;Lee, Wen-Ya;Giri, Gaurav;Mannsfeld, Stefan C. B.;Xie, Yingtao;Cai, Shucheng;Fong, Hon Hang;Bao, Zhenan;He, Mingqian;
2:2:119 In-Situ Probe of Gate Dielectric-Semiconductor Interfacial Order in Organic Transistors: Origin and Control of Large Performance Sensitivities
DOI:10.1021/ja3036493 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:23 AU: Walter, Stephanie R.;Youn, Jangdae;Emery, Jonathan D.;Kewalramani, Sumit;Hennek, Jonathan W.;Bedzyk, Michael J.;Facchetti, Antonio;Marks, Tobin J.;Geiger, Franz M.;
2:2:120 Electron-Deficient Poly(p-phenylene vinylene) Provides Electron Mobility over 1 cm(2) V-1 s(-1) under Ambient Conditions
DOI:10.1021/ja403624a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:43 AU: Lei, Ting;Dou, Jin-Hu;Cao, Xiao-Yu;Wang, Jie-Yu;Pei, Jian;
2:2:121 New Form of an Old Natural Dye: Bay-Annulated Indigo (BAI) as an Excellent Electron Accepting Unit for High Performance Organic Semiconductors
DOI:10.1021/ja0508807m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: He, Bo;Pun, Andrew B.;Zherebetskyy, Danylo;Liu, Yao;Liu, Feng;Klivansky, Liana M.;McGough, Alexandra M.;Zhang, Benjamin A.;Lo, Kelvin;Russell, Thomas P.;Wang, Linwang;Liu, Yi;
2:2:122 Arenedithiocarboxyimide-containing extended pi-conjugated systems with high electron affinity
DOI:10.1039/c3tc31152j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Ie, Yutaka;Jinnai, Seihou;Nitania, Masashi;Aso, Yoshio;
2:2:123 Polythiophene-perylene diimide heterojunction field-effect transistors
DOI:10.1039/c3tc00562c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Puniredd, Sreenivasa Reddy;Kiersnowski, Adam;Battagliarin, Glauco;Zajaczkowski, Wojciech;Wong, Wallace W. H.;Kirby, Nigel;Muellen, Klaus;Pisula, Wojciech;
2:2:124 Photovoltaic and field effect transistor performance of selenophene and thiophene diketopyrrolopyrrole co-polymers with dithienothiophene
DOI:10.1039/c2jm31189e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:44 AU: Shahid, Munazza;Ashraf, Raja Shahid;Huang, Zhenggang;Kronemeijer, Auke J.;McCarthy-Ward, Thomas;McCulloch, Iain;Durrant, James R.;Sirringhaus, Henning;Heeney, Martin;
2:2:125 Alkoxy-Functionalized Thienyl-Vinylene Polymers for Field-Effect Transistors and All-Polymer Solar Cells
DOI:10.1002/adfm.201303219 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:14 AU: Huang, Hui;Zhou, Nanjia;Ortiz, Rocio Ponce;Chen, Zhihua;Loser, Stephen;Zhang, Shiming;Guo, Xugang;Casado, Juan;Lopez Navarrete, J. Teodomiro;Yu, Xinge;Facchetti, Antonio;Marks, Tobin J.;
2:2:126 Thin Film Structure of Triisopropylsilylethynyl-Functionalized Pentacene and Tetraceno[2,3-b]thiophene from Grazing Incidence X-Ray Diffraction
DOI:10.1002/adma.201003135 JN:ADVANCED MATERIALS PY:2011 TC:71 AU: Mannsfeld, Stefan C. B.;Tang, Ming Lee;Bao, Zhenan;
2:2:127 Oligothiophene Semiconductors: Synthesis, Characterization, and Applications for Organic Devices
DOI:10.1021/am4060468 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:28 AU: Zhang, Lei;Colella, Nicholas S.;Cherniawski, Benjamin P.;Mannsfeld, Stefan C. B.;Briseno, Alejandro L.;
2:2:128 Importance of Solubilizing Group and Backbone Planarity in Low Band Gap Polymers for High Performance Ambipolar field-effect Transistors
DOI:10.1021/cm2037487 JN:CHEMISTRY OF MATERIALS PY:2012 TC:81 AU: Lee, Joong Suk;Son, Seon Kyoung;Song, Sanghoon;Kim, Hyunjung;Lee, Dong Ryoul;Kim, Kyungkon;Ko, Min Jae;Choi, Dong Hoon;Kim, BongSoo;Cho, Jeong Ho;
2:2:129 Synthetic Principles Directing Charge Transport in Low-Band-Gap Dithienosilole-Benzothiadiazole Copolymers
DOI:10.1021/ja301898h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:40 AU: Beaujuge, Pierre M.;Tsao, Hoi Nok;Hansen, Michael Ryan;Amb, Chad M.;Risko, Chad;Subbiah, Jegadesan;Choudhury, Kaushik Roy;Mavrinskiy, Alexei;Pisula, Wojciech;Bredas, Jean-Luc;So, Franky;Muellen, Klaus;Reynods, John R.;
2:2:130 Small band gap copolymers based on furan and diketopyrrolopyrrole for field-effect transistors and photovoltaic cells
DOI:10.1039/c0jm03137b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:88 AU: Bijleveld, Johan C.;Karsten, Bram P.;Mathijssen, Simon G. J.;Wienk, Martijn M.;de Leeuw, Dago M.;Janssen, Rene A. J.;
2:2:131 Dithiazole-fused naphthalene diimides toward new n-type semiconductors
DOI:10.1039/c2tc00308b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Chen, Xin;Guo, Yunlong;Tan, Luxi;Yang, Ge;Li, Yonghai;Zhang, Guanxin;Liu, Zitong;Xu, Wei;Zhang, Deqing;
2:2:132 Enhancing Field-Effect Mobility of Conjugated Polymers Through Rational Design of Branched Side Chains
DOI:10.1002/adfm.201304231 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:22 AU: Fu, Boyi;Baltazar, Jose;Sankar, Ashwin Ravi;Chu, Ping-Hsun;Zhang, Siyuan;Collard, David M.;Reichmanis, Elsa;
2:2:133 25th Anniversary Article: Progress in Chemistry and Applications of Functional Indigos for Organic Electronics
DOI:10.1002/adma.201302652 JN:ADVANCED MATERIALS PY:2013 TC:29 AU: Glowacki, Eric Daniel;Voss, Gundula;Sariciftci, Niyazi Serdar;
2:2:134 Heteroatom Substituted Organic/Polymeric Semiconductors and their Applications in Field-Effect Transistors
DOI:10.1002/adma.201305297 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Zhang, Weifeng;Liu, Yunqi;Yu, Gui;
2:2:135 Halogenated Materials as Organic Semiconductors
DOI:10.1021/cm102182x JN:CHEMISTRY OF MATERIALS PY:2011 TC:106 AU: Tang, Ming L.;Bao, Zhenan;
2:2:136 Observation of a Distinct Surface Molecular Orientation in Films of a High Mobility Conjugated Polymer
DOI:10.1021/ja310240q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:19 AU: Schuettfort, Torben;Thomsen, Lars;McNeill, Christopher R.;
2:2:137 Two-Dimensional pi-Expanded Quinoidal Terthiophenes Terminated with Dicyanomethylenes as n-Type Semiconductors for High-Performance Organic Thin-Film Transistors
DOI:10.1021/ja510003y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Zhang, Cheng;Zang, Yaping;Gann, Eliot;McNeill, Christopher R.;Zhu, Xiaozhang;Di, Chong-an;Zhu, Daoben;
2:2:138 Band Bending in Conjugated Polymer Layers
DOI:10.1103/PhysRevLett.106.216402 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:53 AU: Lange, Ilja;Blakesley, James C.;Frisch, Johannes;Vollmer, Antje;Koch, Norbert;Neher, Dieter;
2:2:139 Emeraldicene as an Acceptor Moiety: Balanced-Mobility, Ambipolar, Organic Thin-Film Transistors
DOI:10.1002/adma.201102726 JN:ADVANCED MATERIALS PY:2011 TC:52 AU: Mohebbi, Ali Reza;Yuen, Jonathan;Fan, Jian;Munoz, Cedric;Wang, Ming Feng;Shirazi, Rahau S.;Seifter, Jason;Wudl, Fred;
2:2:140 Top-Gate Organic Field-Effect Transistors with High Environmental and Operational Stability
DOI:10.1002/adma.201004278 JN:ADVANCED MATERIALS PY:2011 TC:59 AU: Hwang, Do Kyung;Fuentes-Hernandez, Canek;Kim, Jungbae;Potscavage, William J., Jr.;Kim, Sung-Jin;Kippelen, Bernard;
2:2:141 New Donor-Donor Type Copolymers with Rigid and Coplanar Structures for High-Mobility Organic Field-Effect Transistors
DOI:10.1021/cm502486n JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Jang, Soo-Young;Kim, In-Bok;Kim, Jihong;Khim, Dongyoon;Jung, Eunhwan;Kang, Boseok;Lim, Bogyu;Kim, Yeong-A;Jang, Yun Hee;Cho, Kilwon;Kim, Dong-Yu;
2:2:142 Solution-processed core-extended naphthalene diimides toward organic n-type and ambipolar semiconductors
DOI:10.1039/c3tc00799e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Luo, Hewei;Cai, Zhengxu;Tan, Luxi;Guo, Yunlong;Yang, Ge;Liu, Zitong;Zhang, Guanxin;Zhang, Deqing;Xu, Wei;Liu, Yunqi;
2:2:143 Influence of side chain length and bifurcation point on the crystalline structure and charge transport of diketopyrrolopyrrole-quaterthiophene copolymers (PDQTs)
DOI:10.1039/c3tc32219j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:14 AU: Chen, Shaoyun;Sun, Bin;Hong, Wei;Aziz, Hany;Meng, Yuezhong;Li, Yuning;
2:2:144 Energetics of charges in organic semiconductors and at organic donor-acceptor interfaces
DOI:10.1039/c3tc32475c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Gorczak, Natalie;Swart, Marcel;Grozema, Ferdinand C.;
2:2:145 Mapping Orientational Order of Charge-Probed Domains in a Semiconducting Polymer
DOI:10.1021/nn5011182 JN:ACS NANO PY:2014 TC:7 AU: Martino, Nicola;Fazzi, Daniele;Sciascia, Calogero;Luzio, Alessandro;Antognazza, Maria Rosa;Caironi, Mario;
2:2:146 Nature of Charge Carriers in a High Electron Mobility Naphthalenediimide Based Semiconducting Copolymer
DOI:10.1002/adfm.201400394 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: D'Innocenzo, Valerio;Luzio, Alessandro;Petrozza, Annamaria;Fazzi, Daniele;Caironi, Mario;
2:2:147 Sub-Micrometer Charge Modulation Microscopy of a High Mobility Polymeric n-Channel Field-Effect Transistor
DOI:10.1002/adma.201102410 JN:ADVANCED MATERIALS PY:2011 TC:30 AU: Sciascia, Calogero;Martino, Nicola;Schuettfort, Torben;Watts, Benjamin;Grancini, Giulia;Antognazza, Maria Rosa;Zavelani-Rossi, Margherita;McNeill, Christopher R.;Caironi, Mario;
2:2:148 High and Balanced Hole and Electron Mobilities from Ambipolar Thin-Film Transistors Based on Nitrogen-Containing Oligoacences
DOI:10.1021/ja107046s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:89 AU: Liu, Yi-Yang;Song, Cheng-Li;Zeng, Wei-Jing;Zhou, Kai-Ge;Shi, Zi-Fa;Ma, Chong-Bo;Yang, Feng;Zhang, Hao-Li;Gong, Xiong;
2:2:149 Dithienopyrrole-based donor-acceptor copolymers: low band-gap materials for charge transport, photovoltaics and electrochromism
DOI:10.1039/b915940a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:91 AU: Zhang, Xuan;Steckler, Timothy T.;Dasari, Raghunath R.;Ohira, Shino;Potscavage, William J., Jr.;Tiwari, Shree Prakash;Coppee, Severine;Ellinger, Stefan;Barlow, Stephen;Bredas, Jean-Luc;Kippelen, Bernard;Reynolds, John R.;Marder, Seth R.;
2:2:150 Polymorph, assembly, luminescence and semiconductor properties of a quinacridone derivative with extended pi-conjugated framework
DOI:10.1039/c3tc30803k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Wang, Chenguang;Chen, Dong;Chen, Weiping;Chen, Shanyong;Ye, Kaiqi;Zhang, Hongyu;Zhang, Jingying;Wang, Yue;
2:2:151 Segregated versus Mixed Interchain Stacking in Highly Oriented Films of Naphthalene Diimide Bithiophene Copolymers
DOI:10.1021/nn304213h JN:ACS NANO PY:2012 TC:29 AU: Brinkmann, Martin;Gonthier, Eric;Bogen, Stefan;Tremel, Kim;Ludwigs, Sabine;Hufnagel, Martin;Sommer, Michael;
2:2:152 A Cruciform Electron Donor-Acceptor Semiconductor with Solid-State Red Emission: 1D/2D Optical Waveguides and Highly Sensitive/Selective Detection of H2S Gas
DOI:10.1002/adfm.201304027 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:13 AU: Luo, Hewei;Chen, Songjie;Liu, Zitong;Zhang, Chuang;Cai, Zhengxu;Chen, Xin;Zhang, Guanxin;Zhao, Yongsheng;Decurtins, Silvio;Liu, Shi-Xia;Zhang, Deqing;
2:2:153 Simple Bar-Coating Process for Large-Area, High-Performance Organic Field-Effect Transistors and Ambipolar Complementary Integrated Circuits
DOI:10.1002/adma.201205330 JN:ADVANCED MATERIALS PY:2013 TC:37 AU: Khim, Dongyoon;Han, Hyun;Baeg, Kang-Jun;Kim, Juhwan;Kwak, Sun-Woo;Kim, Dong-Yu;Noh, Yong-Young;
2:2:154 BODIPY-Thiophene Copolymers as p-Channel Semiconductors for Organic Thin-Film Transistors
DOI:10.1002/adma.201300318 JN:ADVANCED MATERIALS PY:2013 TC:12 AU: Usta, Hakan;Yilmaz, M. Deniz;Avestro, Alyssa-Jennifer;Boudinet, Damien;Denti, Mitchell;Zhao, Wei;Stoddart, J. Fraser;Facchetti, Antonio;
2:2:155 Self-Assembled Amphiphilic Diketopyrrolopyrrole-Based Oligothiophenes for Field-Effect Transistors and Solar Cells
DOI:10.1021/cm1036869 JN:CHEMISTRY OF MATERIALS PY:2011 TC:45 AU: Mei, Jianguo;Graham, Kenneth R.;Stalder, Romain;Tiwari, Shree Prakash;Cheun, Hyeunseok;Shim, Jaewon;Yoshio, Masafumi;Nuckolls, Colin;Kippelen, Bernard;Castellano, Ronald K.;Reynolds, John R.;
2:2:156 Core-Expanded Naphthalene Diimides Fused with Sulfur Heterocycles and End-Capped with Electron-Withdrawing Groups for Air-Stable Solution-Processed n-Channel Organic Thin Film Transistors
DOI:10.1021/cm102850j JN:CHEMISTRY OF MATERIALS PY:2011 TC:81 AU: Hu, Yunbin;Gao, Xike;Di, Chong-an;Yang, Xiaodi;Zhang, Feng;Liu, Yunqi;Li, Hongxiang;Zhu, Daoben;
2:2:157 Silaindacenodithiophene Semiconducting Polymers for Efficient Solar Cells and High-Mobility Ambipolar Transistors
DOI:10.1021/cm1029744 JN:CHEMISTRY OF MATERIALS PY:2011 TC:67 AU: Ashraf, Raja Shahid;Chen, Zhuoying;Leem, Dong Seok;Bronstein, Hugo;Zhang, Weimin;Schroeder, Bob;Geerts, Yves;Smith, Jeremy;Watkins, Scott;Anthopoulos, Thomas D.;Sirringhaus, Henning;de Mello, John C.;Heeney, Martin;McCulloch, Iain;
2:2:158 Quinacridone-Based Semiconducting Polymers: Implication of Electronic Structure and Orientational Order for Charge Transport Property
DOI:10.1021/cm300514z JN:CHEMISTRY OF MATERIALS PY:2012 TC:26 AU: Osaka, Itaru;Akita, Masahiro;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:2:159 ((Alkyloxy)carbonyl)cyanomethylene-Substituted Thienoquinoidal Compounds: a New Class of Soluble n-Channel Organic Semiconductors for Air-Stable Organic Field-Effect Transistors
DOI:10.1021/ja103171y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:52 AU: Suzuki, Yuki;Miyazaki, Eigo;Takimiya, Kazuo;
2:2:160 Conjugated electron donor-acceptor molecules with (E)-[4,4 '-biimidazolylidene]-5,5 '(1H,1 ' H)-dione for new organic semiconductors
DOI:10.1039/c3tc31741b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Wang, Jianguo;Chen, Xin;Zhang, Guanxin;Liu, Zitong;Zhang, Deqing;
2:2:161 Quantitative analysis of lattice disorder and crystallite size in organic semiconductor thin films
DOI:10.1103/PhysRevB.84.045203 JN:PHYSICAL REVIEW B PY:2011 TC:34 AU: Rivnay, Jonathan;Noriega, Rodrigo;Kline, R. Joseph;Salleo, Alberto;Toney, Michael F.;
2:2:162 Ambipolar Multi-Stripe Organic Field-Effect Transistors
DOI:10.1002/adma.201103439 JN:ADVANCED MATERIALS PY:2011 TC:29 AU: Cavallini, Massimiliano;D'Angelo, Pasquale;Criado, Victoria Vendrell;Gentili, Denis;Shehu, Arian;Leonardi, Francesca;Milita, Silvia;Liscio, Fabiola;Biscarini, Fabio;
2:2:163 Hydrogen-Bonded Semiconducting Pigments for Air-Stable Field-Effect Transistors
DOI:10.1002/adma.201204039 JN:ADVANCED MATERIALS PY:2013 TC:48 AU: Glowacki, Eric Daniel;Irimia-Vladu, Mihai;Kaltenbrunner, Martin;Gasiorowski, Jacek;White, Matthew S.;Monkowius, Uwe;Romanazzi, Giuseppe;Suranna, Gian Paolo;Mastrorilli, Piero;Sekitani, Tsuyoshi;Bauer, Siegfried;Someya, Takao;Torsi, Luisa;Sariciftci, Niyazi Serdar;
2:2:164 Fluorinated Benzothiadiazole (BT) Groups as a Powerful Unit for High-Performance Electron-Transporting Polymers
DOI:10.1021/am505925w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Lee, Junghoon;Jang, Moonjeong;Lee, Sang Myeon;Yoo, Dohyuk;Shin, Tae Joo;Oh, Joon Hak;Yang, Changduk;
2:2:165 Naphtho[2,1-b:6,5-b ']difuran: A Versatile Motif Available for Solution-Processed Single-Crystal Organic Field-Effect Transistors with High Hole Mobility
DOI:10.1021/ja2120635 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:75 AU: Mitsui, Chikahiko;Soeda, Junshi;Miwa, Kazumoto;Tsuji, Hayato;Takeya, Jun;Nakamura, Eiichi;
2:2:166 Microstructure Evolution and Device Performance in Solution-Processed Polymeric Field-Effect Transistors: The Key Role of the First Monolayer
DOI:10.1021/ja211630w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:40 AU: Wang, Suhao;Kiersnowski, Adam;Pisula, Wojciech;Muellen, Klaus;
2:2:167 Controlling Conformations of Conjugated Polymers and Small Molecules: The Role of Nonbonding Interactions
DOI:10.1021/ja403667s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:39 AU: Jackson, Nicholas E.;Savoie, Brett M.;Kohlstedt, Kevin L.;de la Cruz, Monica Olvera;Schatz, George C.;Chen, Lin X.;Ratner, Mark A.;
2:2:168 Furan containing diketopyrrolopyrrole copolymers: synthesis, characterization, organic field effect transistor performance and photovoltaic properties
DOI:10.1039/c2jm14989c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:53 AU: Sonar, Prashant;Singh, Samarendra P.;Williams, Evan L.;Li, Yuning;Soh, Mui Siang;Dodabalapur, Ananth;
2:2:169 A solution-processable dicyano-substituted quinoidal oligothiophene for air-stable ambipolar organic field-effect transistors
DOI:10.1039/c3tc30860j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Li, Jie;Qiao, Xiaolan;Xiong, Yu;Hong, Wei;Gao, Xike;Li, Hongxiang;
2:2:170 The impact of molecular planarity on electronic devices in thienoisoindigo-based organic semiconductors
DOI:10.1039/c4tc02170c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Odajima, Takefumi;Ashizawa, Minoru;Konosu, Yuichi;Matsumoto, Hidetoshi;Mori, Takehiko;
2:2:171 A general relationship between disorder, aggregation and charge transport in conjugated polymers
DOI:10.1038/NMAT3722 JN:NATURE MATERIALS PY:2013 TC:28 AU: Noriega, Rodrigo;Rivnay, Jonathan;Vandewal, Koen;Koch, Felix P. V.;Stingelin, Natalie;Smith, Paul;Toney, Michael F.;Salleo, Alberto;
2:2:172 High Mobility Field Effect Transistors Based on Macroscopically Oriented Regioregular Copolymers
DOI:10.1021/nl303612z JN:NANO LETTERS PY:2012 TC:45 AU: Tseng, Hsin-Rong;Ying, Lei;Hsu, Ben B. Y.;Perez, Louis A.;Takacs, Christopher J.;Bazan, Guillermo C.;Heeger, Alan J.;
2:2:173 Remarkable Order of a High-Performance Polymer
DOI:10.1021/nl4005805 JN:NANO LETTERS PY:2013 TC:32 AU: Takacs, Christopher J.;Treat, Neil D.;Kraemer, Stephan;Chen, Zhihua;Facchetti, Antonio;Chabinyc, Michael L.;Heeger, Alan J.;
2:2:174 Bis-lactam-based donor polymers for organic solar cells: Evolution by design
DOI:10.1016/j.tsf.2013.10.089 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Rumer, Joseph W.;Schroeder, Bob C.;Nielsen, Christian B.;Ashraf, Raja S.;Beatrup, Daniel;Bronstein, Hugo;Cryer, Samuel J.;Donaghey, Jenny E.;Holliday, Sarah;Hurhangee, Michael;James, David I.;Lim, Stefanie;Meager, Iain;Zhang, Weimin;McCulloch, Iain;
2:2:175 Effect of Non-Chlorinated Mixed Solvents on Charge Transport and Morphology of Solution-Processed Polymer Field-Effect Transistors
DOI:10.1002/adfm.201303794 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Lee, Wen-Ya;Giri, Gaurav;Diao, Ying;Tassone, Christopher J.;Matthews, James R.;Sorensen, Michael L.;Mannsfeld, Stefan C. B.;Chen, Wen-Chang;Fong, Hon H.;Tok, Jeffrey B. -H.;Toney, Michael F.;He, Mingqian;Bao, Zhenan;
2:2:176 Novel Polymer Nanowire Crystals of Diketopyrrolopyrrole-Based Copolymer with Excellent Charge Transport Properties
DOI:10.1002/adma.201301536 JN:ADVANCED MATERIALS PY:2013 TC:14 AU: Kim, Ji Ho;Lee, Dae Hee;Yang, Da Seul;Heo, Dong Uk;Kim, Kyung Hwan;Shin, Jicheol;Kim, Hyun-Ji;Baek, Kyung-Youl;Lee, Kwangyeol;Baik, Hionsuck;Cho, Min Ju;Choi, Dong Hoon;
2:2:177 Efficient charge injection from a high work function metal in high mobility n-type polymer field-effect transistors
DOI:10.1063/1.3424792 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: Caironi, M.;Newman, C.;Moore, J. R.;Natali, D.;Yan, H.;Facchetti, A.;Sirringhaus, H.;
2:2:178 Solution-Processed Molecular Bis(Naphthalene Diimide) Derivatives with High Electron Mobility
DOI:10.1021/cm201729s JN:CHEMISTRY OF MATERIALS PY:2011 TC:60 AU: Polander, Lauren E.;Tiwari, Shree P.;Pandey, Laxman;Seifried, Brian M.;Zhang, Qing;Barlow, Stephen;Risko, Chad;Bredas, Jean-Luc;Kippelen, Bernard;Marder, Seth R.;
2:2:179 Ambipolar Semiconducting Polymers with pi-Spacer Linked Bis-Benzothiadiazole Blocks as Strong Accepting Units
DOI:10.1021/cm500800u JN:CHEMISTRY OF MATERIALS PY:2014 TC:13 AU: Kim, Jonggi;Han, A-Reum;Hong, Jayeon;Kim, Gyoungsik;Lee, Junghoon;Shin, Tae Joo;Oh, Joon Hak;Yang, Changduk;
2:2:180 Organic n-Channel Field-Effect Transistors Based on Arylenediimide-Thiophene Derivatives
DOI:10.1021/ja1018783 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:70 AU: Ponce Ortiz, Rocio;Herrera, Helena;Blanco, Raul;Huang, Hui;Facchetti, Antonio;Marks, Tobin J.;Zheng, Yan;Segura, Jose L.;
2:2:181 A Thienoisoindigo-Naphthalene Polymer with Ultrahigh Mobility of 14.4 cm(2)/V.s That Substantially Exceeds Benchmark Values for Amorphous Silicon Semiconductors
DOI:10.1021/ja504537v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:18 AU: Kim, Gyoungsik;Kang, Seok-Ju;Dutta, Gitish K.;Han, Young-Kyu;Shin, Tae Joo;Noh, Yong-Young;Yang, Changduk;
2:2:182 Ambipolar all-polymer bulk heterojunction field-effect transistors
DOI:10.1039/b919596c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:44 AU: Szendrei, Krisztina;Jarzab, Dorota;Chen, Zhihua;Facchetti, Antonio;Loi, Maria A.;
2:2:183 Solution-grown aligned C-60 single-crystals for field-effect transistors
DOI:10.1039/c3tc32431a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Li, Hanying;Fan, Congcheng;Vosgueritchian, Michael;Tee, Benjamin C. -K.;Chen, Hongzheng;
2:2:184 Charge Transport Orthogonality in All-Polymer Blend Transistors, Diodes, and Solar Cells
DOI:10.1002/aenm.201301409 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:10 AU: Fabiano, Simone;Himmelberger, Scott;Drees, Martin;Chen, Zhihua;Altamimi, Rashid M.;Salleo, Alberto;Loi, Maria Antonietta;Facchetti, Antonio;
2:2:185 High-Mobility Air-Stable Naphthalene Diimide-Based Copolymer Containing Extended pi-Conjugation for n-Channel Organic Field Effect Transistors
DOI:10.1002/adfm.201301197 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:38 AU: Kim, Ran;Amegadze, Paul S. K.;Kang, Il;Yun, Hui-Jun;Noh, Yong-Young;Kwon, Soon-Ki;Kim, Yun-Hi;
2:2:186 Close Encounters of the 3D Kind Exploiting High Dimensionality in Molecular Semiconductors
DOI:10.1002/adma.201200862 JN:ADVANCED MATERIALS PY:2013 TC:14 AU: Skabara, Peter J.;Arlin, Jean-Baptiste;Geerts, Yves H.;
2:2:187 Dramatic Inversion of Charge Polarity in Diketopyrrolopyrrole-Based Organic Field-Effect Transistors via a Simple Nitrile Group Substitution
DOI:10.1002/adma.201403262 JN:ADVANCED MATERIALS PY:2014 TC:12 AU: Yun, Hui-Jun;Kang, Seok-Ju;Xu, Yong;Kim, Seul Ong;Kim, Yun-Hi;Noh, Yong-Young;Kwon, Soon-Ki;
2:2:188 Backbone Curvature in Polythiophenes
DOI:10.1021/cm101577j JN:CHEMISTRY OF MATERIALS PY:2010 TC:66 AU: Rieger, Ralph;Beckmann, Dirk;Mavrinskiy, Alexey;Kastler, Marcel;Muellen, Klaus;
2:2:189 Highly Stable Semiconducting Polymers Based on Thiazolothiazole
DOI:10.1021/cm101052b JN:CHEMISTRY OF MATERIALS PY:2010 TC:63 AU: Osaka, Itaru;Zhang, Rui;Liu, Junying;Smilgies, Detlef-M.;Kowalewski, Tomasz;McCullough, Richard D.;
2:2:190 Benzotriazole-Containing Planar Conjugated Polymers with Noncovalent Conformational Locks for Thermally Stable and Efficient Polymer Field-Effect Transistors
DOI:10.1021/cm4042346 JN:CHEMISTRY OF MATERIALS PY:2014 TC:24 AU: Yum, Seungjib;An, Tae Kyu;Wang, Xiaowei;Lee, Wonho;Uddin, Mohammad Afsar;Kim, Yu Jin;Thanh Luan Nguyen;Xu, Shuhao;Hwang, Sungu;Park, Chan Eon;Woo, Han Young;
2:2:191 3,4-Disubstituted Polyalkylthiophenes for High-Performance Thin-Film Transistors and Photovoltaics
DOI:10.1021/ja207429s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:38 AU: Ko, Sangwon;Verploegen, Eric;Hong, Sanghyun;Mondal, Rajib;Hoke, Eric T.;Toney, Michael F.;McGehee, Michael D.;Bao, Zhenan;
2:2:192 Three-Dimensional Packing Structure and Electronic Properties of Biaxially Oriented Poly(2,5-bis(3-alkylthiophene-2-yl)thieno-[3,2-b]thiophene) Films
DOI:10.1021/ja210272z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:39 AU: Cho, Eunkyung;Risko, Chad;Kim, Dongwook;Gysel, Roman;Miller, Nichole Cates;Breiby, Dag W.;McGehee, Michael D.;Toney, Michael F.;Kline, R. Joseph;Bredas, Jean-Luc;
2:2:193 n-Channel polymer thin film transistors with long-term air-stability and durability and their use in complementary inverters
DOI:10.1039/c1jm12953h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Briseno, Alejandro L.;Kim, Felix Sunjoo;Babel, Amit;Xia, Younan;Jenekhe, Samson A.;
2:2:194 Synthesis and thin-film transistor performance of benzodipyrrolinone and bithiophene donor-acceptor copolymers
DOI:10.1039/c2jm34867e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Hong, Wei;Guo, Chang;Li, Yuning;Zheng, Yan;Huang, Chun;Lu, Shaofeng;Facchetti, Antonio;
2:2:195 Small band gap polymers incorporating a strong acceptor, thieno[3,2-b]thiophene-2,5-dione, with p-channel and ambipolar charge transport characteristics
DOI:10.1039/c3tc32386b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Osaka, Itaru;Abe, Toru;Mori, Hiroki;Saito, Masahiko;Takemura, Noriko;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:2:196 High Yield, Single Droplet Electrode Arrays for Nanoscale Printed Electronics
DOI:10.1021/nn9014664 JN:ACS NANO PY:2010 TC:43 AU: Caironi, Mario;Gili, Enrico;Sakanoue, Tomo;Cheng, Xiaoyang;Sirringhaus, Henning;
2:2:197 Solution-Processed Ambipolar Field-Effect Transistor Based on Diketopyrrolopyrrole Functionalized with Benzothiadiazole
DOI:10.1002/adfm.201101820 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:41 AU: Zhang, Yuan;Kim, Chunki;Lin, Jason;Thuc-Quyen Nguyen;
2:2:198 Stable Solution-Processed Molecular n-Channel Organic Field-Effect Transistors
DOI:10.1002/adma.201201689 JN:ADVANCED MATERIALS PY:2012 TC:20 AU: Hwang, Do Kyung;Dasari, Raghunath R.;Fenoll, Mathieu;Alain-Rizzo, Valerie;Dindar, Amir;Shim, Jae Won;Deb, Nabankur;Fuentes-Hernandez, Canek;Barlow, Stephen;Bucknall, David G.;Audebert, Pierre;Marder, Seth R.;Kippelen, Bernard;
2:2:199 Conformation-Insensitive Ambipolar Charge Transport in a Diketopyrrolopyrrole-Based Co-polymer Containing Acetylene Linkages
DOI:10.1021/cm5014703 JN:CHEMISTRY OF MATERIALS PY:2014 TC:17 AU: Yun, Hui-Jun;Choi, Hyun Ho;Kwon, Soon-Ki;Kim, Yun-Hi;Cho, Kilwon;
2:2:200 Solution processed organic field-effect transistors and their application in printed logic circuits
DOI:10.1039/c0jm00331j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:44 AU: Zhang, Lei;Di, Chong-an;Yu, Gui;Liu, Yunqi;
2:2:201 Copolymers of diketopyrrolopyrrole and thienothiophene for photovoltaic cells
DOI:10.1039/c1jm10961h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:49 AU: Bijleveld, Johan C.;Verstrijden, R. A. Melanie;Wienk, Martijn M.;Janssen, Rene A. J.;
2:2:202 Recent progress of high performance organic thin film field-effect transistors
DOI:10.1039/c1jm10243e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:34 AU: Meng, Qing;Dong, Huanli;Hu, Wenping;Zhu, Daoben;
2:2:203 Transition metal-catalyzed C-H activation as a route to structurally diverse di(arylthiophenyl)-diketopyrrolopyrroles
DOI:10.1039/c2jm35398a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Zhang, Junxiang;Kang, Dun-Yen;Barlow, Stephen;Marder, Seth R.;
2:2:204 Fascinating effect of dehydrogenation on the transport properties of N-heteropentacenes: transformation from p- to n-type semiconductor
DOI:10.1039/c2jm33039c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Tang, Xiao-Dan;Liao, Yi;Geng, Hua;Shuai, Zhi-Gang;
2:2:205 Symmetrically functionalized diketopyrrolopyrrole with alkylated thiophene moiety: from synthesis to electronic devices applications
DOI:10.1007/s10853-014-8116-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:6 AU: Palai, Akshaya K.;Lee, Jihee;Jea, Minkyung;Na, Hanah;Shin, Tae Joo;Jang, Soonmin;Park, Seung-Un;Pyo, Seungmoon;
2:2:206 Microstructure of Polycrystalline PBTTT Films: Domain Mapping and Structure Formation
DOI:10.1021/nn2051295 JN:ACS NANO PY:2012 TC:32 AU: Schuettfort, Torben;Watts, Benjamin;Thomsen, Lars;Lee, Mijung;Sirringhaus, Henning;McNeill, Christopher R.;
2:2:207 High-Mobility Air-Stable Solution-Shear-Processed n-Channel Organic Transistors Based on Core-Chlorinated Naphthalene Diimides
DOI:10.1002/adfm.201101606 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:35 AU: Lee, Wen-Ya;Oh, Joon Hak;Suraru, Sabin-Lucian;Chen, Wen-Chang;Wuerthner, Frank;Bao, Zhenan;
2:2:208 High-Mobility n-Type Organic Transistors Based on a Crystallized Diketopyrrolopyrrole Derivative
DOI:10.1002/adfm.201203065 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:15 AU: Yoon, Won Sik;Park, Sang Kyu;Cho, Illhun;Oh, Jeong-A;Kim, Jong H.;Park, Soo Young;
2:2:209 High-Performance n-Channel Thin-Film Field-Effect Transistors Based on a Nanowire-Forming Polymer
DOI:10.1002/adfm.201202065 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:18 AU: Hahm, Suk Gyu;Rho, Yecheol;Jung, Jungwoon;Kim, Se Hyun;Sajoto, Tissa;Kim, Felix S.;Barlow, Stephen;Park, Chan Eon;Jenekhe, Samson A.;Marder, Seth R.;Ree, Moonhor;
2:2:210 Orientation-Dependent Electronic Structures and Charge Transport Mechanisms in Ultrathin Polymeric n-Channel Field-Effect Transistors
DOI:10.1021/am400786c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:26 AU: Fabiano, Simone;Yoshida, Hiroyuki;Chen, Zhihua;Facchetti, Antonio;Loi, Maria Antonietta;
2:2:211 New Poly(arylene vinylene)s Based on Diketopyrrolopyrrole for Ambipolar Transistors
DOI:10.1021/cm202247a JN:CHEMISTRY OF MATERIALS PY:2011 TC:49 AU: Wu, Pei-Tzu;Kim, Felix Sunjoo;Jenekhe, Samson A.;
2:2:212 Air-Stable n-Type Organic Field-Effect Transistors Based on 4,9-Dihydro-s-indaceno[1,2-b:5,6-b ']dithiazole-4,9-dione Unit
DOI:10.1021/cm301985q JN:CHEMISTRY OF MATERIALS PY:2012 TC:13 AU: Ie, Yutaka;Ueta, Masashi;Nitani, Masashi;Tohnai, Norimitsu;Miyata, Mikiji;Tada, Hirokazu;Aso, Yoshio;
2:2:213 Hybrid Rylene Arrays via Combination of Stille Coupling and C-H Transformation as High-Performance Electron Transport Materials
DOI:10.1021/ja301184r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:50 AU: Yue, Wan;Lv, Aifeng;Gao, Jing;Jiang, Wei;Hao, Linxiao;Li, Cheng;Li, Yan;Polander, Lauren E.;Barlow, Stephen;Hu, Wenping;Di Motta, Simone;Negri, Fabrizia;Marder, Seth R.;Wang, Zhaohui;
2:2:214 Relating Chemical Structure to Device Performance via Morphology Control in Diketopyrrolopyrrole-Based Low Band Gap Polymers
DOI:10.1021/ja408923y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:20 AU: Liu, Feng;Wang, Cheng;Baral, Jayanta K.;Zhang, Lei;Watkins, James J.;Briseno, Alejandro L.;Russell, Thomas P.;
2:2:215 Highly Coplanar Very Long Oligo(alkylfuran)s: A Conjugated System with Specific Head-To-Head Defect
DOI:10.1021/ja411842g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Jin, Xu-Hui;Sheberla, Dennis;Shimon, Linda J. W.;Bendikov, Michael;
2:2:216 Anthracenedicarboximide-based semiconductors for air-stable, n-channel organic thin-film transistors: materials design, synthesis, and structural characterization
DOI:10.1039/c1jm14713g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Usta, Hakan;Kim, Choongik;Wang, Zhiming;Lu, Shaofeng;Huang, Hui;Facchetti, Antonio;Marks, Tobin J.;
2:2:217 Asymmetric fused thiophenes for field-effect transistors: crystal structure-film microstructure-transistor performance correlations
DOI:10.1039/c4tc01454e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Chen, Ming-Chou;Vegiraju, Sureshraju;Huang, Chi-Ming;Huang, Peng-Yi;Prabakaran, Kumaresan;Yau, Shueh Lin;Chen, Wei-Chih;Peng, Wei-Tao;Chao, Ito;Kim, Choongik;Tao, Yu-Tai;
2:2:218 Phthalimide-thiophene-based conjugated organic small molecules with high electron mobility
DOI:10.1039/c3tc32497d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Sun, Jon-Paul;Hendsbee, Arthur D.;Eftaiha, Ala'a F.;Macaulay, Casper;Rutledge, Lesley R.;Welch, Gregory C.;Hill, Ian G.;
2:2:219 Supramolecular Order of Solution-Processed Perylenediimide Thin Films: High-Performance Small-Channel n-Type Organic Transistors
DOI:10.1002/adfm.201101427 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:25 AU: Fabiano, Simone;Wang, He;Piliego, Claudia;Jaye, Cherno;Fischer, Daniel A.;Chen, Zhihua;Pignataro, Bruno;Facchetti, Antonio;Loo, Yueh-Lin;Loi, Maria Antonietta;
2:2:220 Thieno[3,2-b] thiophene Flanked Isoindigo Polymers for High Performance Ambipolar OFET Applications
DOI:10.1002/adfm.201402307 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Meager, Iain;Nikolka, Mark;Schroeder, Bob C.;Nielsen, Christian B.;Planells, Miquel;Bronstein, Hugo;Rumer, Joseph W.;James, David Ian;Ashraf, Raja Shahid;Sadhanala, Aditya;Hayoz, Pascal;Flores, Jean-Charles;Sirringhaus, Henning;McCulloch, Iain;
2:2:221 The influence of gate dielectrics on a high-mobility n-type conjugated polymer in organic thin-film transistors
DOI:10.1063/1.3678196 JN:APPLIED PHYSICS LETTERS PY:2012 TC:18 AU: Li, Jinhua;Du, Jun;Xu, Jianbin;Chan, Helen L. W.;Yan, Feng;
2:2:222 Controlled Charge Transport by Polymer Blend Dielectrics in Top-Gate Organic Field-Effect Transistors for Low-Voltage-Operating Complementary Circuits
DOI:10.1021/am301793m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:17 AU: Baeg, Kang-Jun;Khim, Dongyoon;Kim, Juhwan;Han, Hyun;Jung, Soon-Won;Kim, Tae-Wook;Kang, Minji;Facchetti, Antonio;Hong, Sung-Kyu;Kim, Dong-Yu;Noh, Yong-Young;
2:2:223 Enhanced Hole Carrier Transport Due to Increased Intermolecular Contacts in Small Molecule Based Field Effect Transistors
DOI:10.1021/am401379a JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Dharmapurikar, Satej S.;Arulkashmir, Arulraj;Das, Chayanika;Muddellu, Pooja;Krishnamoorthy, Kothandam;
2:2:224 Systematic Reliability Study of Top-Gate p- and n-Channel Organic Field-Effect Transistors
DOI:10.1021/am405424k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Hwang, Do Kyung;Fuentes-Hernandez, Canek;Fenoll, Mathieu;Yun, Minseong;Park, Jihoon;Shim, Jae Won;Knauer, Keith A.;Dindar, Arnir;Kim, Hyunichul;Kim, Yongjin;Kim, Jungbae;Cheun, Hyeunseok;Payne, Marcia M.;Graham, Samuel;Im, Seongil;Anthony, John E.;Kippelen, Bernard;
2:2:225 New Two-Dimensional Thiophene-Acceptor Conjugated Copolymers for Field Effect Transistor and Photovoltaic Cell Applications
DOI:10.1021/cm100661z JN:CHEMISTRY OF MATERIALS PY:2010 TC:71 AU: Tsai, Jung-Hsun;Lee, Wen-Ya;Chen, Wen-Chang;Yu, Chao-Ying;Hwang, Gue-Wuu;Ting, Ching;
2:2:226 Thiadizoloquinoxaline-Based Low-Bandgap Conjugated Polymers as Ambipolar Semiconductors for Organic Field Effect Transistors
DOI:10.1021/cm502563t JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: An, Cunbin;Li, Mengmeng;Marszalek, Tomasz;Li, Dan;Berger, Ruediger;Pisula, Wojciech;Baumgarten, Martin;
2:2:227 Five-Ring Fused Tetracyanothienoquinoids as High-Performance and Solution-Processable n-Channel Organic Semiconductors: Effect of the Branching Position of Alkyl Chains
DOI:10.1021/cm502952u JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Li, Jie;Qiao, Xiaolan;Xiong, Yu;Li, Hongxiang;Zhu, Daoben;
2:2:228 Low-Voltage Organic Field Effect Transistors with a 2-Tridecyl[1]benzothieno[3,2-b][1]benzothiophene Semiconductor Layer
DOI:10.1021/ja307802q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:41 AU: Amin, Atefeh Y.;Khassanov, Artoem;Reuter, Knud;Meyer-Friedrichsen, Timo;Halik, Marcus;
2:2:229 Spectroscopic Investigation of Oxygen- and Water-Induced Electron Trapping and Charge Transport Instabilities in n-type Polymer Semiconductors
DOI:10.1021/ja304198e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:21 AU: Di Pietro, Riccardo;Fazzi, Daniele;Kehoe, Tom B.;Sirringhaus, Henning;
2:2:230 High-Mobility n-Type Conjugated Polymers Based on Electron-Deficient Tetraazabenzodifluoranthene Diimide for Organic Electronics
DOI:10.1021/ja407471b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:23 AU: Li, Haiyan;Kim, Felix Sunjoo;Ren, Guoqiang;Jenekhe, Samson A.;
2:2:231 Organic spin transporting materials: present and future
DOI:10.1039/c3ta12779f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Zheng, Yonghao;Wudl, Fred;
2:2:232 Supramolecular P4VP-pentadecylphenol naphthatenebisimide comb-polymer: mesoscopic organization and charge transport properties
DOI:10.1039/c4tc00611a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Narayan, Rekha;Kumar, Prashant;Narayan, K. S.;Ashe, S. K.;
2:2:233 Functionalized benzothieno[3,2 b]thiophenes (BTTs) for high performance organic thin-film transistors (OTFTs)
DOI:10.1039/c4tc01115e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Youn, Jangdae;Huang, Peng-Yi;Zhang, Shiming;Liu, Chiao-Wei;Vegiraju, Sureshraju;Prabakaran, Kumaresan;Stern, Charlotte;Kim, Choongik;Chen, Ming-Chou;Facchetti, Antonio;Marks, Tobin J.;
2:2:234 Logic-Gate Devices Based on Printed Polymer Semiconducting Nanostripes
DOI:10.1021/nl401484x JN:NANO LETTERS PY:2013 TC:12 AU: Gentili, Denis;Sonar, Prashant;Liscio, Fabiola;Cramer, Tobias;Ferlauto, Laura;Leonardi, Francesca;Milita, Silvia;Dodabalapur, Ananth;Cavallini, Massimiliano;
2:2:235 Anisotropy of Charge Transport in a Uniaxially Aligned and Chain-Extended, High-Mobility, Conjugated Polymer Semiconductor
DOI:10.1002/adfm.201001781 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:59 AU: Lee, Mi Jung;Gupta, Dhritiman;Zhao, Ni;Heeney, Martin;McCulloch, Iain;Sirringhaus, Henning;
2:2:236 Versatile alpha,omega-Disubstituted Tetrathienoacene Semiconductors for High Performance Organic Thin-Film Transistors
DOI:10.1002/adfm.201101053 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:37 AU: Youn, Jangdae;Huang, Peng-Yi;Huang, Yu-Wen;Chen, Ming-Chou;Lin, Yu-Jou;Huang, Hui;Ponce Ortiz, Rocio;Stern, Charlotte;Chung, Ming-Che;Feng, Chieh-Yuan;Chen, Liang-Hsiang;Facchetti, Antonio;Marks, Tobin J.;
2:2:237 Fused Thiophene Semiconductors: Crystal Structure-Film Microstructure Transistor Performance Correlations
DOI:10.1002/adfm.201203439 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:14 AU: Youn, Jangdae;Kewalramani, Sumit;Emery, Jonathan D.;Shi, Yanrong;Zhang, Shiming;Chang, Hsiu-Chieh;Liang, You-jhih;Yeh, Chia-Ming;Feng, Chieh-Yuan;Huang, Hui;Stern, Charlotte;Chen, Liang-Hsiang;Ho, Jia-Chong;Chen, Ming-Chou;Bedzyk, Michael J.;Facchetti, Antonio;Marks, Tobin J.;
2:2:238 Highly Sensitive Chemical-Vapor Sensor Based on Thin-Film Organic Field-Effect Transistors with Benzothiadiazole-Fused-Tetrathiafulvalene
DOI:10.1002/adfm.201202473 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:15 AU: Yang, Ge;Di, Chong-an;Zhang, Guanxin;Zhang, Jing;Xiang, Junfeng;Zhang, Deqing;Zhu, Daoben;
2:2:239 Microstructural Origin of High Mobility in High-Performance Poly(thieno-thiophene) Thin-Film Transistors
DOI:10.1002/adma.200902303 JN:ADVANCED MATERIALS PY:2010 TC:43 AU: Wang, Chenchen;Jimison, Leslie H.;Goris, Ludwig;McCulloch, Iain;Heeney, Martin;Ziegler, Alexander;Salleo, Alberto;
2:2:240 Rational Optimization of Benzo[2,1-b;3,4-b ']dithilophene-Containing Polymers for Organic Field-Effect Transistors
DOI:10.1002/adma.200901286 JN:ADVANCED MATERIALS PY:2010 TC:62 AU: Rieger, Ralph;Beckmann, Dirk;Pisula, Wojciech;Steffen, Werner;Kastler, Marcel;Muellen, Klaus;
2:2:241 Solution-Processed Barium Salts as Charge Injection Layers for High Performance N-Channel Organic Field-Effect Transistors
DOI:10.1021/am502007j JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Kim, Nam-Koo;Khim, Dongyoon;Xu, Yong;Lee, Seung-Hoon;Kang, Minji;Kim, Jihong;Facchetti, Antonio;Noh, Yong-Young;Kim, Dong-Yu;
2:2:242 High Crystalline Dithienosilole-Cored Small Molecule Semiconductor for Ambipolar Transistor and Nonvolatile Memory
DOI:10.1021/am500080p JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Kang, Woonggi;Jung, Minwoo;Cha, Wonsuk;Jang, Sukjae;Yoon, Youngwoon;Kim, Hyunjung;Son, Hae Jung;Lee, Doh-Kwon;Kim, BongSoo;Cho, Jeong Ho;
2:2:243 Improved Performance in Diketopyrrolopyrrole-Based Transistors with Bilayer Gate Dielectrics
DOI:10.1021/am4043646 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Ha, Tae-Jun;Sonar, Prashant;Dodabalapur, Ananth;
2:2:244 Laterally Expanded Rylene Diimides with Uniform Branched Side Chains for Solution-Processed Air Stable n-Channel Thin Film Transistors
DOI:10.1021/am504984z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Xiao, Chengyi;Jiang, Wei;Li, Xiangguang;Hao, Linxiao;Liu, Chunming;Wang, Zhaohui;
2:2:245 Highly Soluble Poly(thienylenevinylene) Derivatives with Charge-Carrier Mobility Exceeding 1 cm(2)V(-1)s(-1)
DOI:10.1021/cm2021802 JN:CHEMISTRY OF MATERIALS PY:2011 TC:34 AU: Kim, Juhwan;Lim, Bogyu;Baeg, Kang-Jun;Noh, Yong-Young;Khim, Dongyoon;Jeong, Hyung-Gu;Yun, Jin-Mun;Kim, Dong-Yu;
2:2:246 Benzotrithiophene Co-polymers with High Charge Carrier Mobilities in Field-Effect Transistors
DOI:10.1021/cm2015884 JN:CHEMISTRY OF MATERIALS PY:2011 TC:37 AU: Schroeder, Bob C.;Nielsen, Christian B.;Kim, Young Ju;Smith, Jeremy;Huang, Zhenggang;Durrant, James;Watkins, Scott E.;Song, Kigook;Anthopoulos, Thomas D.;McCulloch, Iain;
2:2:247 Dicyanomethylene-Substituted Fused Tetrathienoquinoid for High-Performance, Ambient-Stable, Solution-Processable n-Channel Organic Thin-Film Transistors
DOI:10.1021/cm201326c JN:CHEMISTRY OF MATERIALS PY:2011 TC:45 AU: Wu, Qinghe;Li, Rongjin;Hong, Wei;Li, Hongxiang;Gao, Xike;Zhu, Daoben;
2:2:248 Naphthalenediimide-Benzothiadiazole Copolymer Semiconductors: Rational Molecular Design for Air-Stable Ambipolar Charge Transport
DOI:10.1021/cm401122h JN:CHEMISTRY OF MATERIALS PY:2013 TC:19 AU: Gu, Chunling;Hu, Wenping;Yao, Jiannian;Fu, Hongbing;
2:2:249 Structure-Function Relationships of High-Electron Mobility Naphthalene Diimide Copolymers Prepared Via Direct Arylation
DOI:10.1021/cm503033j JN:CHEMISTRY OF MATERIALS PY:2014 TC:19 AU: Luzio, Alessandro;Fazzi, Daniele;Nuebling, Fritz;Matsidik, Rukiya;Straub, Alexander;Komber, Hartmut;Giussani, Ester;Watkins, Scott E.;Barbatti, Mario;Thiel, Walter;Gann, Eliot;Thomsen, Lars;McNeill, Christopher R.;Caironi, Mario;Sommer, Michael;
2:2:250 Pathway Complexity in pi-Conjugated Materials
DOI:10.1021/cm4021172 JN:CHEMISTRY OF MATERIALS PY:2014 TC:18 AU: Korevaar, Peter A.;de Greef, Tom F. A.;Meijer, E. W.;
2:2:251 alpha-Oligofurans
DOI:10.1021/ja9093346 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:99 AU: Gidron, Ori;Diskin-Posner, Yael;Bendikov, Michael;
2:2:252 High-Performance Organic Thin-Film Transistors of J-Stacked Squaraine Dyes
DOI:10.1021/ja409496r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:8 AU: Gsaenger, Marcel;Kirchner, Eva;Stolte, Matthias;Burschka, Christian;Stepanenko, Vladimir;Pflaum, Jens;Wuerthner, Frank;
2:2:253 New air-stable solution-processed organic n-type semiconductors based on sulfur-rich core-expanded naphthalene diimides
DOI:10.1039/c1jm13637b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:25 AU: Tan, Luxi;Guo, Yunlong;Zhang, Guanxin;Yang, Yang;Zhang, Deqing;Yu, Gui;Xu, Wei;Liu, Yunqi;
2:2:254 Ambipolar organic field-effect transistors with balanced mobilities through solvent-vapour annealing induced phase-separation of bi-component mixtures
DOI:10.1039/c2jm31063e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Treier, Matthias;Arlin, Jean-Baptiste;Ruzie, Christian;Geerts, Yves H.;Lemaur, Vincent;Cornil, Jerome;Samori, Paolo;
2:2:255 Hydrogen-bonds in molecular solids - from biological systems to organic electronics
DOI:10.1039/c3tb20193g JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:5 AU: Gowacki, Eric Daniel;Irimia-Vladu, Mihai;Bauer, Siegfried;Sariciftci, Niyazi Serdar;
2:2:256 Dihydropyrroloindoledione-based copolymers for organic electronics
DOI:10.1039/c3tc30184b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Rumer, Joseph W.;Dai, Sheng-Yao;Levick, Matthew;Kim, Youngju;Madec, Marie-Beatrice;Ashraf, Raja S.;Huang, Zhenggang;Rossbauer, Stephan;Schroeder, Bob;Biniek, Laure;Watkins, Scott E.;Anthopoulos, Thomas D.;Janssen, Rene A. J.;Durrant, James R.;Procter, David J.;McCulloch, Iain;
2:2:257 High performance ambipolar organic field-effect transistors based on indigo derivatives
DOI:10.1039/c4tc01563k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Pitayatanakul, Oratai;Higashino, Toshiki;Kadoya, Tomofumi;Tanaka, Masaki;Kojima, Hirotaka;Ashizawa, Minoru;Kawamoto, Tadashi;Matsumoto, Hidetoshi;Ishikawa, Ken;Mori, Takehiko;
2:2:258 Multifunctional materials for OFETs, LEFETs and NIR PLEDs
DOI:10.1039/c4tc00342j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Steckler, T. T.;Lee, M. J.;Chen, Z.;Fenwick, O.;Andersson, M. R.;Cacialli, F.;Sirringhaus, H.;
2:2:259 Charge Transport Anisotropy in Highly Oriented Thin Films of the Acceptor Polymer P(NDI2OD-T2)
DOI:10.1002/aenm.201301659 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Tremel, Kim;Fischer, Florian S. U.;Kayunkid, Navaphun;Di Pietro, Riccardo;Tkachov, Roman;Kiriy, Anton;Neher, Dieter;Ludwigs, Sabine;Brinkmann, Martin;
2:2:260 Air-Operable, High-Mobility Organic Transistors with Semifluorinated Side Chains and Unsubstituted Naphthalenetetracarboxylic Diimide Cores: High Mobility and Environmental and Bias Stress Stability from the Perfluorooctylpropyl Side Chain
DOI:10.1002/adfm.201000655 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:36 AU: Jung, Byung Jun;Lee, Kyusang;Sun, Jia;Andreou, Andreas G.;Katz, Howard E.;
2:2:261 Mapping of Domain Orientation and Molecular Order in Polycrystalline Semiconducting Polymer Films with Soft X-Ray Microscopy
DOI:10.1002/adfm.201001918 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:30 AU: Watts, Benjamin;Schuettfort, Torben;McNeill, Christopher R.;
2:2:262 Control of Ambipolar and Unipolar Transport in Organic Transistors by Selective Inkjet-Printed Chemical Doping for High Performance Complementary Circuits
DOI:10.1002/adfm.201400850 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Khim, Dongyoon;Baeg, Kang-Jun;Caironi, Mario;Liu, Chuan;Xu, Yong;Kim, Dong-Yu;Noh, Yong-Young;
2:2:263 Selective Remanent Ambipolar Charge Transport in Polymeric Field-Effect Transistors For High-Performance Logic Circuits Fabricated in Ambient
DOI:10.1002/adma.201403070 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Fabiano, Simone;Usta, Hakan;Forchheimer, Robert;Crispin, Xavier;Facchetti, Antonio;Berggren, Magnus;
2:2:264 High-Mobility Field-Effect Transistors Fabricated with Macroscopic Aligned Semiconducting Polymers
DOI:10.1002/adma.201305084 JN:ADVANCED MATERIALS PY:2014 TC:60 AU: Tseng, Hsin-Rong;Phan, Hung;Luo, Chan;Wang, Ming;Perez, Louis A.;Patel, Shrayesh N.;Ying, Lei;Kramer, Edward J.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;Heeger, Alan J.;
2:2:265 High-Performance Solution-Deposited Ambipolar Organic Transistors Based on Terrylene Diimides
DOI:10.1021/cm902925g JN:CHEMISTRY OF MATERIALS PY:2010 TC:45 AU: Liu, Chuan;Liu, Zhihong;Lemke, Henrik T.;Tsao, Hoi Nok;Naber, Ronald C. G.;Li, Yun;Banger, Kulbinder;Muellen, Klaus;Nielsen, Martin M.;Sirringhaus, Henning;
2:2:266 Thiadiazoloquinoxaline-Acetylene Containing Polymers as Semiconductors in Ambipolar Field Effect Transistors
DOI:10.1021/ja2057709 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Dallos, Timea;Beckmann, Dirk;Brunklaus, Gunther;Baumgarten, Martin;
2:2:267 Naphthodithiophenediimide (NDTI): Synthesis, Structure, and Applications
DOI:10.1021/ja404753r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:16 AU: Fukutomi, Yuta;Nakano, Masahiro;Hu, Jian-Yong;Osaka, Itaru;Takimiya, Kazuo;
2:2:268 Synthesis, Electronic Structure, Molecular Packing/Morphology Evolution, and Carrier Mobilities of Pure Oligo-/Poly(alkylthiophenes)
DOI:10.1021/ja3104796 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:17 AU: Zhang, Lei;Colella, Nicholas S.;Liu, Feng;Trahan, Stephan;Baral, Jayanta K.;Winter, H. Henning;Mannsfeld, Stefan C. B.;Briseno, Alejandro L.;
2:2:269 Sensitization of fullerenes by covalent attachment of a diketopyrrolopyrrole chromophore
DOI:10.1039/c2jm31508d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Banerji, Natalie;Wang, Mingfeng;Fan, Jian;Chesnut, Eneida S.;Wudl, Fred;Moser, Jacques-E.;
2:2:270 An expanded isoindigo unit as a new building block for a conjugated polymer leading to high-performance solar cells
DOI:10.1039/c3ta15291j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Li, Shugang;Yuan, Zhongcheng;Yuan, Jianyu;Deng, Ping;Zhang, Qing;Sun, Baoquan;
2:2:271 Impact of N-substitution of a carbazole unit on molecular packing and charge transport of DPP-carbazole copolymers
DOI:10.1039/c3tc31753f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Chen, Shaoyun;Sun, Bin;Hong, Wei;Yan, Zhuangqing;Aziz, Hany;Meng, Yuezhong;Hollinger, Jon;Seferos, Dwight S.;Li, Yuning;
2:2:272 Reduced roughness for improved mobility in benzodipyrrolidone-based, n-type OFETS
DOI:10.1039/c4tc01790k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Rumer, J. W.;Rossbauer, S.;Planells, M.;Watkins, S. E.;Anthopoulos, T. D.;McCulloch, I.;
2:2:273 Structure-property relationships in multifunctional thieno(bis) imide-based semiconductors with different sized and shaped N-alkyl ends
DOI:10.1039/c3tc32538e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Melucci, Manuela;Durso, Margherita;Bettini, Cristian;Gazzano, Massimo;Maini, Lucia;Toffanin, Stefano;Cavallini, Susanna;Cavallini, Massimiliano;Gentili, Denis;Biondo, Viviana;Generali, Gianluca;Gallino, Federico;Capelli, Raffaella;Muccini, Michele;
2:2:274 General Strategy for Self-Assembly of Highly Oriented Nanocrystalline Semiconducting Polymers with High Mobility
DOI:10.1021/nl500758w JN:NANO LETTERS PY:2014 TC:34 AU: Luo, Chan;Kyaw, Aung Ko Ko;Perez, Louis A.;Patel, Shrayesh;Wang, Ming;Grimm, Bruno;Bazan, Guillermo C.;Kramer, Edward J.;Heeger, Alan J.;
2:2:275 Asymmetric electron and hole transport in a high-mobility n-type conjugated polymer
DOI:10.1103/PhysRevB.86.165203 JN:PHYSICAL REVIEW B PY:2012 TC:12 AU: Wetzelaer, Gert-Jan A. H.;Kuik, Martijn;Olivier, Yoann;Lemaur, Vincent;Cornil, Jerome;Fabiano, Simone;Loi, Maria Antonietta;Blom, Paul W. M.;
2:2:276 In-Plane Liquid Crystalline Texture of High-Performance Thienothiophene Copolymer Thin Films
DOI:10.1002/adfm.201001232 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:35 AU: Zhang, Xinran;Hudson, Steven D.;DeLongchamp, Dean M.;Gundlach, David J.;Heeney, Martin;McCulloch, Iain;
2:2:277 Gradual Controlling the Work Function of Metal Electrodes by Solution-Processed Mixed Interlayers for Ambipolar Polymer Field-Effect Transistors and Circuits
DOI:10.1002/adfm.201401154 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Long, Dang Xuan;Baeg, Kang-Jun;Xu, Yong;Kang, Seok-Ju;Kim, Myung-Gil;Lee, Geon-Woong;Noh, Yong-Young;
2:2:278 Benzobisthiazole-Based Semiconducting Copolymers Showing Excellent Environmental Stability in High-Humidity Air
DOI:10.1002/adma.201002117 JN:ADVANCED MATERIALS PY:2010 TC:40 AU: Osaka, Itaru;Takimiya, Kazuo;McCullough, Richard D.;
2:2:279 High-Performance n-type Organic Semiconductors: Incorporating Specific Electron-Withdrawing Motifs to Achieve Tight Molecular Stacking and Optimized Energy Levels
DOI:10.1002/adma.201103978 JN:ADVANCED MATERIALS PY:2012 TC:31 AU: Yun, Sun Woo;Kim, Jong H.;Shin, Seunghoon;Yang, Hoichang;An, Byeong-Kwan;Yang, Lin;Park, Soo Young;
2:2:280 Solvent Additive to Achieve Highly Ordered Nanostructural Semicrystalline DPP Copolymers: Toward a High Charge Carrier Mobility
DOI:10.1002/adma.201301438 JN:ADVANCED MATERIALS PY:2013 TC:17 AU: An, Tae Kyu;Kang, Il;Yun, Hui-jun;Cha, Hyojung;Hwang, Jihun;Park, Seonuk;Kim, Jiye;Kim, Yu Jin;Chung, Dae Sung;Kwon, Soon-Ki;Kim, Yun-Hi;Park, Chan Eon;
2:2:281 Template-Guided Solution-Shearing Method for Enhanced Charge Carrier Mobility in Diketopyrrolopyrrole-Based Polymer Field-Effect Transistors
DOI:10.1002/adma.201401179 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Shin, Jicheol;Hong, Tae Ryang;Lee, Tae Wan;Kim, Aryeon;Kim, Yun Ho;Cho, Min Ju;Choi, Dong Hoon;
2:2:282 Leveraging the Ambipolar Transport in Polymeric Field-Effect Transistors via Blending with Liquid-Phase Exfoliated Graphene
DOI:10.1002/adma.201400895 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: El Gemayel, Mirella;Haar, Sebastien;Liscio, Fabiola;Schlierf, Andrea;Melinte, Georgian;Milita, Silvia;Ersen, Ovidiu;Ciesielski, Artur;Palermo, Vincenzo;Samori, Paolo;
2:2:283 Fast ambipolar integrated circuits with poly(diketopyrrolopyrrole-terthiophene)
DOI:10.1063/1.3589986 JN:APPLIED PHYSICS LETTERS PY:2011 TC:20 AU: Roelofs, W. S. C.;Mathijssen, S. G. J.;Bijleveld, J. C.;Raiteri, D.;Geuns, T. C. T.;Kemerink, M.;Cantatore, E.;Janssen, R. A. J.;de Leeuw, D. M.;
2:2:284 Regulating Charge Injection in Ambipolar Organic Field-Effect Transistors by Mixed Self-Assembled Monolayers
DOI:10.1021/am5037862 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Xu, Yong;Baeg, Kang-Jun;Park, Won-Tae;Cho, Ara;Choi, Eun-Young;Noh, Yong-Young;
2:2:285 Naphtho[2,3-b:6,7-b ']dichalcogenophenes: Syntheses, Characterizations, and Chalcogene Atom Effects on Organic Field-Effect Transistor and Organic Photovoltaic Devices
DOI:10.1021/cm202853b JN:CHEMISTRY OF MATERIALS PY:2012 TC:33 AU: Nakano, Masahiro;Mori, Hiroki;Shinamura, Shoji;Takimiya, Kazuo;
2:2:286 High-Performance Electron-Transporting Polymers Derived from a Heteroaryl Bis(trifluoroborate)
DOI:10.1021/ja201485p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:34 AU: Lee, Jin-Kyun;Gwinner, Michael C.;Berger, Reinhard;Newby, Carol;Zentel, Rudolf;Friend, Richard H.;Sirringhaus, Henning;Ober, Christopher K.;
2:2:287 Very Low Band Gap Thiadiazoloquinoxaline Donor-Acceptor Polymers as Multi-tool Conjugated Polymers
DOI:10.1021/ja410527n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:9 AU: Steckler, Timothy T.;Henriksson, Patrik;Mollinger, Sonya;Lundin, Angelica;Salleo, Alberto;Andersson, Mats R.;
2:2:288 Furan substituted diketopyrrolopyrrole and thienylenevinylene based low band gap copolymer for high mobility organic thin film transistors
DOI:10.1039/c2jm32376a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Sonar, Prashant;Zhuo, Jing-Mei;Zhao, Li-Hong;Lim, Kai-Ming;Chen, Jihua;Rondinone, Adam J.;Singh, Samarendra P.;Chua, Lay-Lay;Ho, Peter K. H.;Dodabalapur, Ananth;
2:2:289 Effect of polymer chain conformation on field-effect transistor performance: synthesis and properties of two arylene imide based D-A copolymers
DOI:10.1039/c2jm31755a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Chen, Dugang;Zhao, Yan;Zhong, Cheng;Gao, Siqi;Yu, Gui;Liu, Yunqi;Qin, Jingui;
2:2:290 Nanofiber growth and alignment in solution processed n-type naphthalene-diimide-based polymeric field-effect transistors
DOI:10.1039/c2jm35351b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Wang, Suhao;Pisula, Wojciech;Muellen, Klaus;
2:2:291 Substitution degree engineering the crystal packing and optoelectronic properties of benzofuranvinylsubstituted benzene-cored derivatives
DOI:10.1039/c4tc00220b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Qiu, Jin-Xing;Li, Ye-Xin;Yang, Xiao-Feng;Nie, Yong;Zhang, Zhen-Wei;Chen, Zhong-He;Sun, Guo-Xin;
2:2:292 Synthesis and properties of indigo based donor-acceptor conjugated polymers
DOI:10.1039/c3tc32276a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Guo, Chang;Sun, Bin;Quinn, Jesse;Yan, Zhuangqing;Li, Yuning;
2:2:293 Effect of spatial inhomogeneity of charge carrier mobility on current-voltage characteristics in organic field-effect transistors
DOI:10.1016/j.tsf.2014.09.060 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Sworakowski, Juliusz;Bielecka, Urszula;Lutsyk, Petro;Janus, Krzysztof;
2:2:294 Effects of Confinement on Microstructure and Charge Transport in High Performance Semicrystalline Polymer Semiconductors
DOI:10.1002/adfm.201202408 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:25 AU: Himmelberger, Scott;Dacuna, Javier;Rivnay, Jonathan;Jimison, Leslie H.;McCarthy-Ward, Thomas;Heeney, Martin;McCulloch, Iain;Toney, Michael F.;Salleo, Alberto;
2:2:295 Molecular Packing-Induced Transition between Ambipolar and Unipolar Behavior in Dithiophene-4,9-dione-Containing Organic Semiconductors
DOI:10.1002/adfm.201302855 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Xu, Huan;Zhou, Ye-Cheng;Zhou, Xing-Yu;Liu, Ke;Cao, Lu-Ya;Ai, Yong;Fan, Zhi-Ping;Zhang, Hao-Li;
2:2:296 Probing the Relation Between Charge Transport and Supramolecular Organization Down to Angstrom Resolution in a Benzothiadiazole-Cyclopentadithiophene Copolymer
DOI:10.1002/adma.201201058 JN:ADVANCED MATERIALS PY:2013 TC:28 AU: Niedzialek, Dorota;Lemaur, Vincent;Dudenko, Dmytro;Shu, Jie;Hansen, Michael Ryan;Andreasen, Jens Wenzel;Pisula, Wojciech;Muellen, Klaus;Cornil, Jerome;Beljonne, David;
2:2:297 Solution-Processed and Air-Stable n-Type Organic Thin-Film Transistors Based on Thiophene-Fused Dicyanoquinonediimine (DCNQI) Deriatives
DOI:10.1021/am300822z JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Chen, Shiyan;Zhao, Yan;Bolag, Altan;Nishida, Jun-ichi;Liu, Yunqi;Yamashita, Yoshiro;
2:2:298 Solution Processable Benzooxadiazole and Benzothiadiazole Based D-A-D Molecules with Chalcogenophene: Field Effect Transistor Study and Structure Property Relationship
DOI:10.1021/am403559a JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Pati, Palas Baran;Senanayak, Satyaprasad P.;Narayan, K. S.;Zade, Sanjio S.;
2:2:299 High Charge Carrier Mobility, Low Band Gap Donor-Acceptor Benzothiadiazole-oligothiophene Based Polymeric Semiconductors
DOI:10.1021/cm3021929 JN:CHEMISTRY OF MATERIALS PY:2012 TC:30 AU: Fu, Boyi;Baltazar, Jose;Hu, Zhaokang;Chien, An-Ting;Kumar, Satish;Henderson, Clifford L.;Collard, David M.;Reichmanis, Elsa;
2:2:300 Family of Diazapentalene Chromophores and Narrow-Band-Gap Polymers: Synthesis, Halochromism, Halofluorism, and Visible-Near Infrared Photodetectivity
DOI:10.1021/cm300938s JN:CHEMISTRY OF MATERIALS PY:2012 TC:23 AU: Qian, Gang;Qi, Ji;Davey, James A.;Wright, James S.;Wang, Zhi Yuan;
2:2:301 Synthesis and Search for Design Principles of New Electron Accepting Polymers for All-Polymer Solar Cells
DOI:10.1021/cm500832h JN:CHEMISTRY OF MATERIALS PY:2014 TC:22 AU: Jung, In Hwan;Lo, Wai-Yip;Jang, Jaeyoung;Chen, Wei;Zhao, Donglin;Landry, Erik S.;Lu, Luyao;Talapin, Dmitri V.;Yu, Luping;
2:2:302 Solution-Shear-Processed Quaterrylene Diimide Thin-Film Transistors Prepared by Pressure-Assisted Thermal Cleavage of Swallow Tails
DOI:10.1021/ja110486s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Oh, Joon Hak;Lee, Wen-Ya;Noe, Torsten;Chen, Wen-Chang;Koenemann, Martin;Bao, Zhenan;
2:2:303 Benzotrithiophene-Based Donor-Acceptor Copolymers with Distinct Supramolecular Organizations
DOI:10.1021/ja302957s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:28 AU: Guo, Xin;Puniredd, Sreenivasa Reddy;Baumgarten, Martin;Pisula, Wojciech;Muellen, Klaus;
2:2:304 Cyano-disubstituted dipyrrolopyrazinedione (CNPzDP) small molecules for solution processed n-channel organic thin-film transistors
DOI:10.1039/c3tc31274g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Hong, Wei;Guo, Chang;Sun, Bin;Yan, Zhuangqing;Huang, Chun;Hu, Yan;Zheng, Yan;Facchetti, Antonio;Li, Yuning;
2:2:305 Isomeric carbazolocarbazoles: synthesis, characterization and comparative study in Organic Field Effect Transistors
DOI:10.1039/c2tc00363e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Mas-Montoya, Miriam;Ponce Ortiz, Rocio;Curiel, David;Espinosa, Arturo;Allain, Magali;Facchetti, Antonio;Marks, Tobin J.;
2:2:306 Polarized X-ray scattering reveals non-crystalline orientational ordering in organic films
DOI:10.1038/NMAT3310 JN:NATURE MATERIALS PY:2012 TC:88 AU: Collins, B. A.;Cochran, J. E.;Yan, H.;Gann, E.;Hub, C.;Fink, R.;Wang, C.;Schuettfort, T.;McNeill, C. R.;Chabinyc, M. L.;Ade, H.;
2:2:307 Flexible, Low-Voltage and High-Performance Polymer Thin-Film Transistors and Their Application in Photo/Thermal Detectors
DOI:10.1002/adma.201306084 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Liu, Xiaotong;Guo, Yunlong;Ma, Yongqiang;Chen, Huajie;Mao, Zupan;Wang, Hanlin;Yu, Gui;Liu, Yunqi;
2:2:308 High-Performance n-Type Organic Transistor with a Solution-Processed and Exfoliation-Transferred Two-Dimensional Crystalline Layered Film
DOI:10.1021/cm301775c JN:CHEMISTRY OF MATERIALS PY:2012 TC:17 AU: Park, Sang Kyu;Kim, Jong H.;Yoon, Seong-Jun;Kwon, Oh Kyu;An, Byeong-Kwan;Park, Soo Young;
2:2:309 Near Infrared Absorbing Soluble Poly(cyclopenta[2,1-b:3,4-b ']dithiophen-4-one)vinylene Polymers Exhibiting High Hole and Electron Mobilities in Ambient Air
DOI:10.1021/cm303166z JN:CHEMISTRY OF MATERIALS PY:2013 TC:11 AU: Fei, Zhuping;Gao, Xiang;Smith, Jeremy;Pattanasattayavong, Pichaya;Domingo, Ester Buchaca;Stingelin, Natalie;Watkins, Scott E.;Anthopoulos, Thomas D.;Kline, R. Joseph;Heeney, Martin;
2:2:310 Combination of Two Diketopyrrolopyrrole Isomers in One Polymer for Ambipolar Transport
DOI:10.1021/cm5017245 JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Guo, Xin;Puniredd, Sreenivasa Reddy;He, Bo;Marszalek, Tomasz;Baumgarten, Martin;Pisula, Wojciech;Muellen, Klaus;
2:2:311 Controllable Direct Arylation: Fast Route to Symmetrical and Unsymmetrical 4,7-Diaryl-5,6-difluoro-2,1,3-benzothiadiazole Derivatives for Organic Optoelectronic Materials
DOI:10.1021/ja4095878 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: Zhang, Junxiang;Chen, Wayne;Rojas, Anthony J.;Jucov, Evgheni V.;Timofeeva, Tatiana V.;Parker, Timothy C.;Barlow, Stephen;Marder, Seth R.;
2:2:312 Swapping field-effect transistor characteristics in polymeric diketopyrrolopyrrole semiconductors: debut of an electron dominant transporting polymer
DOI:10.1039/c1jm14549e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Lee, Junghoon;Cho, Shinuk;Seo, Jung Hwa;Anant, Piyush;Jacob, Josemon;Yang, Changduk;
2:2:313 Diketopyrrolopyrrole-based semiconducting polymer bearing thermocleavable side chains
DOI:10.1039/c2jm33818a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Sun, Bin;Hong, Wei;Aziz, Hany;Li, Yuning;
2:2:314 High-performance electron-transporting hybrid rylenes with low threshold voltage
DOI:10.1039/c3tc31644k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Li, Xiangguang;Xiao, Chengyi;Jiang, Wei;Wang, Zhaohui;
2:2:315 N-Alkyl substituted di(perylene bisimides) as air-stable electron transport materials for solution-processible thin-film transistors with enhanced performance
DOI:10.1039/c3tc30156g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:18 AU: Zhang, Jiahui;Tan, Lin;Jiang, Wei;Hu, Wenping;Wang, Zhaohui;
2:2:316 Naphthodithiophenes as building units for small molecules to polymers; a case study for in-depth understanding of structure-property relationships in organic semiconductors
DOI:10.1039/c2tc00261b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:26 AU: Osaka, Itaru;Shinamura, Shoji;Abe, Toru;Takimiya, Kazuo;
2:2:317 Origin of the different transport properties of electron and hole polarons in an ambipolar polyselenophene-based conjugated polymer
DOI:10.1103/PhysRevB.84.115211 JN:PHYSICAL REVIEW B PY:2011 TC:15 AU: Chen, Zhuoying;Bird, Matthew;Lemaur, Vincent;Radtke, Guillaume;Cornil, Jerome;Heeney, Martin;McCulloch, Iain;Sirringhaus, Henning;
2:2:318 High performance CMOS-like inverter based on an ambipolar organic semiconductor and low cost metals
DOI:10.1063/1.4774287 JN:AIP ADVANCES PY:2013 TC:3 AU: Zeng, Wei-Jing;Zhou, Xing-Yu;Pan, Xiao-Jun;Song, Cheng-Li;Zhang, Hao-Li;
2:2:319 Reversible Conversion of the Majority Carrier Type in Solution-Processed Ambipolar Quinoidal Oligothiophene Thin Films
DOI:10.1002/adma.201001170 JN:ADVANCED MATERIALS PY:2010 TC:35 AU: Ribierre, Jean-Charles;Watanabe, Satoshi;Matsumoto, Mutsuyoshi;Muto, Tsuyoshi;Nakao, Aiko;Aoyama, Tetsuya;
2:2:320 Direct Laser Writing of Complementary Logic Gates and Lateral p-n Diodes in a Solution-Processible Monolithic Organic Semiconductor
DOI:10.1002/adma.200903152 JN:ADVANCED MATERIALS PY:2010 TC:35 AU: Ribierre, Jean Charles;Fujihara, Takashi;Watanabe, Satoshi;Matsumoto, Mutsuyoshi;Muto, Tsuyoshi;Nakao, Aiko;Aoyama, Tetsuya;
2:2:321 Two-Dimensional Carrier Distribution in Top-Gate Polymer Field-Effect Transistors: Correlation between Width of Density of Localized States and Urbach Energy
DOI:10.1002/adma.201303060 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Kronemeijer, Auke J.;Pecunia, Vincenzo;Venkateshvaran, Deepak;Nikolka, Mark;Sadhanala, Aditya;Moriarty, John;Szumilo, Monika;Sirringhaus, Henning;
2:2:322 Diketopyrrolopyrrole-Based pi-Bridged Donor-Acceptor Polymer for Photovoltaic Applications
DOI:10.1021/am200720e JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:23 AU: Li, Wenting;Lee, Taegweon;Oh, Soong Ju;Kagan, Cherie R.;
2:2:323 Efficient Charge Injection in p-Type Polymer Field-Effect Transistors with Low-Cost Molybdenum Electrodes through V2O5 Interlayer
DOI:10.1021/am401375c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Baeg, Kang-Jun;Bae, Gwang-Tae;Noh, Yong-Young;
2:2:324 High-Performance n-Channel Organic Thin-Film Transistor Based on Naphthalene Diimide
DOI:10.1021/am503871k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Dey, Anamika;Kalita, Anamika;Iyer, Parameswar Krishnan;
2:2:325 beta-Alkyl substituted Dithieno[2,3-d;2 ',3 '-d ']benzo[1,2-b;4,5-b ']dithiophene Semiconducting Materials and Their Application to Solution-Processed Organic Transistors
DOI:10.1021/cm301816t JN:CHEMISTRY OF MATERIALS PY:2012 TC:20 AU: Kim, Jonggi;Han, A-Reum;Seo, Jung Hwa;Oh, Joon Hak;Yang, Changduk;
2:2:326 Influence of Substrate Surface Chemistry on the Performance of Top-Gate Organic Thin-Film Transistors
DOI:10.1021/ja2010576 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:18 AU: Boudinet, Damien;Benwadih, Mohammed;Altazin, Stephane;Verilhac, Jean-Marie;De Vito, Eric;Serbutoviez, Christophe;Horowitz, Gilles;Facchetti, Antonio;
2:2:327 Photocurrent Enhancement from Diketopyrrolopyrrole Polymer Solar Cells through Alkyl-Chain Branching Point Manipulation
DOI:10.1021/ja405934j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:50 AU: Meager, Iain;Ashraf, Raja Shahid;Mollinger, Sonya;Schroeder, Bob C.;Bronstein, Hugo;Beatrup, Daniel;Vezie, Michelle S.;Kirchartz, Thomas;Salleo, Alberto;Nelson, Jenny;McCulloch, Iain;
2:2:328 Effects of Odd-Even Side Chain Length of Alkyl-Substituted Diphenylbithiophenes on First Monolayer Thin Film Packing Structure
DOI:10.1021/ja400015e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:12 AU: Akkerman, Hylke B.;Mannsfeld, Stefan C. B.;Kaushik, Ananth P.;Verploegen, Eric;Burnier, Luc;Zoombelt, Arjan P.;Saathoff, Jonathan D.;Hong, Sanghyun;Atahan-Evrenk, Sule;Liu, Xueliang;Aspuru-Guzik, Alan;Toney, Michael F.;Clancy, Paulette;Bao, Zhenan;
2:2:329 Highly reproducible organic field-effect transistor from pseudo 3-dimensional triphenylamine-based amorphous conjugated copolymer
DOI:10.1039/c1jm11515d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Lee, Junghoon;Cho, Shinuk;Yang, Changduk;
2:2:330 Targeting ordered oligothiophene fibers with enhanced functional properties by interplay of self-assembly and wet lithography
DOI:10.1039/c2jm33998f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Gentili, Denis;Di Maria, Francesca;Liscio, Fabiola;Ferlauto, Laura;Leonardi, Francesca;Maini, Lucia;Gazzano, Massimo;Milita, Silvia;Barbarella, Giovanna;Cavallini, Massimiliano;
2:2:331 6,13-Dicyano pentacene-2,3:9,10-bis(dicarboximide) for solution-processed air-stable n-channel field effect transistors and complementary circuit
DOI:10.1039/c2tc00033d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Chang, Jingjing;Qu, Hemi;Ooi, Zi-En;Zhang, Jie;Chen, Zhikuan;Wu, Jishan;Chi, Chunyan;
2:2:332 Beyond perylene diimides: synthesis, assembly and function of higher rylene chromophores
DOI:10.1039/c3tc32315c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:18 AU: Chen, Long;Li, Chen;Muellen, Klaus;
2:2:333 Quadrites and Crossed-Chain Crystal Structures in Polymer Semiconductors
DOI:10.1021/nl500150t JN:NANO LETTERS PY:2014 TC:2 AU: Takacs, Christopher J.;Brady, Michael A.;Treat, Neil D.;Kramer, Edward J.;Chabinyc, Michael L.;
2:2:334 High-Performance Air-Stable Ambipolar Organic Field-Effect Transistor Based on Tris(phthalocyaninato) Europium(III)
DOI:10.1002/adma.201200006 JN:ADVANCED MATERIALS PY:2012 TC:39 AU: Kan, Jinglan;Chen, Yanli;Qi, Dongdong;Liu, Yunqi;Jiang, Jianzhuang;
2:2:335 Ten Years of N-Heteropentacenes as Semiconductors for Organic Thin-Film Transistors
DOI:10.1002/adma.201305497 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Miao, Qian;
2:2:336 Time-of-flight measurements and vertical transport in a high electron-mobility polymer
DOI:10.1063/1.3657827 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Blakesley, James C.;Schubert, Marcel;Steyrleuthner, Robert;Chen, Zhihua;Facchetti, Antonio;Neher, Dieter;
2:2:337 Novel Semiconductors Based on Functionalized Benzo[d,d ']thieno[3,2-b;4,5-b ']dithiophenes and the Effects of Thin Film Growth Conditions on Organic Field Effect Transistor Performance
DOI:10.1021/cm101435s JN:CHEMISTRY OF MATERIALS PY:2010 TC:33 AU: Youn, Jangdae;Chen, Ming-Chou;Liang, You-jhih;Huang, Hui;Ponce Ortiz, Rocio;Kim, Choongik;Stern, Charlotte;Hu, Tarng-Shiang;Chen, Liang-Hsiang;Yan, Jing-Yi;Facchetti, Antonio;Marks, Tobin J.;
2:2:338 Structure Influence on Charge Transport in Naphthalenediimide-Thiophene Copolymers
DOI:10.1021/cm5033578 JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Szumilo, Monika M.;Gann, Eliot H.;McNeill, Christopher R.;Lemaur, Vincent;Oliver, Yoann;Thomsen, Lars;Vaynzof, Yana;Sommer, Michael;Sirringhaus, Henning;
2:2:339 Improved Performance of Solution-Processed n-Type Organic Field-Effect Transistors by Regulating the Intermolecular Interactions and Crystalline Domains on Macroscopic Scale
DOI:10.1021/cm501780p JN:CHEMISTRY OF MATERIALS PY:2014 TC:9 AU: Vasimalla, Suresh;Senanayak, Satyaprasad P.;Sharma, Meenakshi;Narayan, K. S.;Iyer, Parameswar Krishnan;
2:2:340 Observations of PDDTT Subject to Thermal Treatment: Correlation between Performance and Order
DOI:10.1021/ja207312f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:9 AU: Yuen, Jonathan D.;Kumar, Rajeev;Seifter, Jason;Valouch, Sebastian;Zakhidov, Dante;Moses, Daniel;Lemmer, Uli;Heeger, Alan J.;Wudl, Fred;
2:2:341 A benzotrithiophene-based low band gap polymer for polymer solar cells with high open-circuit voltage
DOI:10.1039/c1jm13393d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:25 AU: Nielsen, Christian B.;Schroeder, Bob C.;Hadipour, Afshin;Rand, Barry P.;Watkins, Scott E.;McCulloch, Iain;
2:2:342 Dithieno-naphthalimide based copolymers for air-stable field effect transistors: synthesis, characterization and device performance
DOI:10.1039/c2jm34251k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Dai, Gaole;Chang, Jingjing;Wu, Jishan;Chi, Chunyan;
2:2:343 Preparation, physical properties and n-type FET characteristics of substituted diindenopyrazinediones and bis(dicyanomethylene) derivatives
DOI:10.1039/c2jm14955a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Nishida, Jun-ichi;Deno, Hironori;Ichimura, Satoru;Nakagawa, Tomohiro;Yamashita, Yoshiro;
2:2:344 All-brush-painted top-gate organic thin-film transistors
DOI:10.1039/c3tc30357h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Qi, Zhe;Zhang, Fengjiao;Di, Chong-an;Wang, Jizheng;Zhu, Daoben;
2:2:345 Synthesis and properties of azothiazole based pi-conjugated polymers
DOI:10.1039/c4tc00809j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Yan, Zhuangqing;Sun, Bin;Guo, Chang;Li, Yuning;
2:2:346 Naphtalenediimide-based donor-acceptor copolymer prepared by chain-growth catalysttransfer polycondensation: evaluation of electrontransporting properties and application in printed polymer transistors
DOI:10.1039/c4tc00390j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Schmidt, G. C.;Hoeft, D.;Haase, K.;Huebler, A. C.;Karpov, E.;Tkachov, R.;Stamm, M.;Kiriy, A.;Haidu, F.;Zahn, D. R. T.;Yan, H.;Facchetti, A.;
2:2:347 Synthesis and properties of air-stable n-channel semiconductors based on MEH-PPV derivatives containing benzo[c]cinnoline moieties
DOI:10.1039/c3tc32505a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Chen, Jyh-Chien;Wu, Hsin-Chung;Chiang, Chi-Jui;Chen, Tuo;Xing, Li;
2:2:348 Annealing-Free High-Mobility Diketopyrrolopyrrole-Benzodithiophene Copolymer for Organic Thin Film Transistors
DOI:10.1080/15421406.2014.933304 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Lee, Dae Hee;Shin, Jicheol;Lee, Tae Wan;Cho, Min Ju;Choi, Dong Hoon;
2:2:349 Modulation of carrier mobility of diketopyrrolopyrrole and quaterthiophene containing copolymer with self-assembled monolayers on gate dielectrics of thin film transistors
DOI:10.1016/j.synthmet.2013.09.020 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Um, Hyun Ah;Shin, Jicheol;Lee, Tae Wan;Cho, Min Ju;Choi, Dong Hoon;
2:2:350 Organic thin-film transistors based on thieno[3,4-c]pyrrole-4,6-dione conjugated polymer via oxidative polymerization
DOI:10.1016/j.synthmet.2013.07.019 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Zhang, Guobing;Peng, Rui;Li, Peng;Wang, Xianghua;Lu, Hongbo;Yu, Junsheng;Qiu, Longzhen;
2:2:351 Solution-Processed Small-Molecule Bulk Heterojunction Ambipolar Transistors
DOI:10.1002/adfm.201303378 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:15 AU: Cheng, Shiau-Shin;Huang, Peng-Yi;Ramesh, Mohan;Chang, Hsiu-Chieh;Chen, Li-Ming;Yeh, Chia-Ming;Fung, Chun-Lin;Wu, Meng-Chyi;Liu, Chung-Chi;Kim, Choongik;Lin, Hong-Cheu;Chen, Ming-Chou;Chu, Chih-Wei;
2:2:352 Substrate-Free Ultra-Flexible Organic Field-Effect Transistors and Five-Stage Ring Oscillators
DOI:10.1002/adma.201300675 JN:ADVANCED MATERIALS PY:2013 TC:12 AU: Zhang, Lei;Wang, Hanlin;Zhao, Yan;Guo, Yunlong;Hu, Wenping;Yu, Gui;Liu, Yunqi;
2:2:353 Rational Design of Benzotrithiophene-Diketopyrrolopyrrole-Containing Donor-Acceptor Polymers for Improved Charge Carrier Transport
DOI:10.1002/adma.201302052 JN:ADVANCED MATERIALS PY:2013 TC:29 AU: Guo, Xin;Puniredd, Sreenivasa Reddy;Baumgarten, Martin;Pisula, Wojciech;Muellen, Klaus;
2:2:354 High performance airbrushed organic thin film transistors
DOI:10.1063/1.3360230 JN:APPLIED PHYSICS LETTERS PY:2010 TC:23 AU: Chan, Calvin K.;Richter, Lee J.;Dinardo, Brad;Jaye, Cherno;Conrad, Brad R.;Ro, Hyun Wook;Germack, David S.;Fischer, Daniel A.;DeLongchamp, Dean M.;Gundlach, David J.;
2:2:355 Enhanced Performance of Solution-Processed Organic Thin-Film Transistors with a Low-Temperature-Annealed Alumina Interlayer between the Polyimide Gate Insulator and the Semiconductor
DOI:10.1021/am400996q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Yoon, Jun-Young;Jeong, Sunho;Lee, Sun Sook;Kim, Yun Ho;Ka, Jae-Won;Yi, Mi Hye;Jang, Kwang-Suk;
2:2:356 Photo-induced intramolecular charge transfer in an ambipolar field-effect transistor based on a pi-conjugated donor-acceptor dyad
DOI:10.1039/c3tc30442f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Pfattner, Raphael;Pavlica, Egon;Jaggi, Michael;Liu, Shi-Xia;Decurtins, Silvio;Bratina, Gvido;Veciana, Jaume;Mas-Torrent, Marta;Rovira, Concepcio;
2:2:357 Spray-printed organic field-effect transistors and complementary inverters
DOI:10.1039/c2tc00085g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Khim, Dongyoon;Baeg, Kang-Jun;Yu, Byung-Kwan;Kang, Seok-Ju;Kang, Minji;Chen, Zhihua;Facchetti, Antonio;Kim, Dong-Yu;Noh, Yong-Young;
2:2:358 Donor-acceptor copolymers containing quinacridone and benzothiadiazole for thin film transistors
DOI:10.1039/c3tc00550j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Li, Hui;Gu, Chunling;Jiang, Lang;Wei, Lang;Hu, Wenping;Fu, Hongbing;
2:2:359 Synthesis and characterization of oligo(2,5-bis(3-dodecylthiophen-2-yl)thieno[3,2-b]thiophene)s: effect of the chain length and end-groups on their optical and charge transport properties
DOI:10.1039/c4tc01899k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wang, Li;Zhang, Xiaojie;Zhang, Jidong;Tian, Hongkun;Lu, Yunfeng;Geng, Yanhou;Wang, Fosong;
2:2:360 Ambipolar field-effect transistors using conjugated polymers with structures of bilayer, binary blends, and paralleled nanofibers
DOI:10.1039/c4tc01267d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Lu, Chien;Wang, Jin;Chang, Hsuan-Chun;Chiu, Yu-Cheng;Chen, Hsueh-Yung;Wu, Hung-Chin;Higashihara, Tomoya;Chen, Wen-Chang;
2:2:361 Maximizing the Dielectric Response of Molecular Thin Films via Quantum Chemical Design
DOI:10.1021/nn505431p JN:ACS NANO PY:2014 TC:2 AU: Heitzer, Henry M.;Marks, Tobin J.;Ratner, Mark A.;
2:2:362 Effect of Molecular Asymmetry on the Charge Transport Physics of High Mobility n-Type Molecular Semiconductors Investigated by Scanning Kelvin Probe Microscopy
DOI:10.1021/nn500944f JN:ACS NANO PY:2014 TC:4 AU: Hu, Yuanyuan;Berdunov, Nikolai;Di, Chong-an;Nandhakumar, Iris;Zhang, Fengjiao;Gao, Xike;Zhu, Daoben;Sirringhaus, Henning;
2:2:363 Phase Transitions and Anisotropic Thermal Expansion in High Mobility Core-expanded Naphthalene Diimide Thin Film Transistors
DOI:10.1002/adfm.201401228 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Gann, Eliot;Gao, Xike;Di, Chong-an;McNeill, Christopher R.;
2:2:364 Understanding the Microscopic Origin of the Very High Charge Mobility in PBTTT: Tolerance of Thermal Disorder
DOI:10.1002/adfm.201302069 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Liu, Tao;Troisi, Alessandro;
2:2:365 Ambipolar organic field effect transistors and inverters with the natural material Tyrian Purple
DOI:10.1063/1.3660358 JN:AIP ADVANCES PY:2011 TC:24 AU: Glowacki, Eric Daniel;Leonat, Lucia;Voss, Gundula;Bodea, Marius-Aurel;Bozkurt, Zeynep;Ramil, Alberto Montaigne;Irimia-Vladu, Mihai;Bauer, Siegfried;Sariciftci, Niyazi Serdar;
2:2:366 The Position of Nitrogen in N-Heteropentacenes Matters
DOI:10.1002/adma.201103759 JN:ADVANCED MATERIALS PY:2011 TC:68 AU: Liang, Zhixiong;Tang, Qin;Mao, Renxin;Liu, Danqing;Xu, Jianbin;Miao, Qian;
2:2:367 Self-Assembled Monolayers of Cyclohexyl-Terminated Phosphonic Acids as a General Dielectric Surface for High-Performance Organic Thin-Film Transistors
DOI:10.1002/adma.201402822 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Liu, Danqing;He, Zikai;Su, Yaorong;Diao, Ying;Mannsfeld, Stefan C. B.;Bao, Zhenan;Xu, Jianbin;Miao, Qian;
2:2:368 Solution-processed ambipolar vertical organic field effect transistor
DOI:10.1063/1.4731774 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Ben-Sasson, Ariel J.;Chen, Zhihua;Facchetti, Antonio;Tessler, Nir;
2:2:369 Organic integrated circuits for information storage based on ambipolar polymers and charge injection engineering
DOI:10.1063/1.4871715 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Dell'Erba, Giorgio;Luzio, Alessandro;Natali, Dario;Kim, Juhwan;Khim, Dongyoon;Kim, Dong-Yu;Noh, Yong-Young;Caironi, Mario;
2:2:370 Air-Stable Ambipolar Field-Effect Transistors and Complementary Logic Circuits from Solution-Processed n/p Polymer Heterojunctions
DOI:10.1021/am1006996 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:21 AU: Kim, Felix Sunjoo;Ahmed, Eilaf;Subramaniyan, Selvam;Jenekhe, Samson A.;
2:2:371 Novel Semiconducting Quinone for Air-Stable n-Type Organic Field-Effect Transistors
DOI:10.1021/am1001794 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:25 AU: Mamada, Masashi;Kumaki, Daisuke;Nishida, Jun-ichi;Tokito, Shizuo;Yamashita, Yoshiro;
2:2:372 Efficient Solvent-Assisted Post-Treatment for Molecular Rearrangement of Sprayed Polymer Field-Effect Transistors
DOI:10.1021/am201274s JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:6 AU: Park, Hye-Yun;Yang, Hoichang;Choi, Si-Kyung;Jang, Sung-Yeon;
2:2:373 Inkjet-Printing-Based Soft-Etching Technique for High-Speed Polymer Ambipolar Integrated Circuits
DOI:10.1021/am4039008 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Khim, Dongyoon;Baeg, Kang-Jun;Kang, Minji;Lee, Seung-Hoon;Kim, Nam-Koo;Kim, Jihong;Lee, Geon-Woong;Liu, Chuan;Kim, Dong-Yu;Noh, Yong-Young;
2:2:374 Improved Field-Effect Transistor Performance of a Benzotrithiophene Polymer through Ketal Cleavage in the Solid State
DOI:10.1021/am303138q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Nielsen, Christian B.;Sohn, Eun-Ho;Cho, Dong-Jun;Schroeder, Bob C.;Smith, Jeremy;Lee, Mongryong;Anthopoulos, Thomas D.;Song, Kigook;McCulloch, Iain;
2:2:375 Optimized Grafting Density of End-Functionalized Polymers to Polar Dielectric Surfaces for Solution-Processed Organic Field-Effect Transistors
DOI:10.1021/am506024s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Lee, Seulyi;Jang, Mi;Yang, Hoichang;
2:2:376 High-Performance Stable n-Type Indenofluorenedione Field-Effect Transistors
DOI:10.1021/cm2016824 JN:CHEMISTRY OF MATERIALS PY:2011 TC:25 AU: Park, Young-Il;Lee, Joong Suk;Kim, Beom Joon;Kim, Beomjin;Lee, Jaehyun;Kim, Do Hwan;Oh, Se-Young;Cho, Jeong Ho;Park, Jong-Wook;
2:2:377 Aryl-Perfluoroaryl Substituted Tetracene: Induction of Face-to-Face pi-pi Stacking and Enhancement of Charge Carrier Properties
DOI:10.1021/cm200356y JN:CHEMISTRY OF MATERIALS PY:2011 TC:58 AU: Okamoto, Toshihiro;Nakahara, Katsumasa;Saeki, Akinori;Seki, Shu;Oh, Joon Hak;Akkerman, Hylke B.;Bao, Zhenan;Matsuo, Yutaka;
2:2:378 Quinoidal Oligothiophenes with (Acyl)cyanomethylene Termini: Synthesis, Characterization, Properties, and Solution Processed n-Channel Organic Field-Effect Transistors
DOI:10.1021/cm102109p JN:CHEMISTRY OF MATERIALS PY:2011 TC:24 AU: Suzuki, Yuki;Shimawaki, Masafumi;Miyazaki, Eigo;Osaka, Itaru;Takimiya, Kazuo;
2:2:379 Ink-jet printed p-type polymer electronics based on liquid-crystalline polymer semiconductors
DOI:10.1039/b918472d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:26 AU: Baklar, Mohammed;Woebkenberg, Paul H.;Sparrowe, David;Goncalves, Magda;McCulloch, Iain;Heeney, Martin;Anthopoulos, Thomas;Stingelin, Natalie;
2:2:380 Single crystal n-channel field effect transistors from solution-processed silylethynylated tetraazapentacene
DOI:10.1039/c1jm13153b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Wang, Chengliang;Liang, Zhixiong;Liu, Yaling;Wang, Xiaomu;Zhao, Ni;Miao, Qian;Hu, Wenping;Xu, Jianbin;
2:2:381 Highly stable printed polymer field-effect transistors and inverters via polyselenophene conjugated polymers
DOI:10.1039/c2jm16546e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Khim, Dongyoon;Lee, Woo-Hyung;Baeg, Kang-Jun;Kim, Dong-Yu;Kang, In-Nam;Noh, Yong-Young;
2:2:382 Incorporation of fused tetrathiafulvalene units in a DPP-terthiophene copolymer for air stable solution processable organic field effect transistors
DOI:10.1039/c2jm31502e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Cortizo-Lacalle, Diego;Arumugam, Sasikumar;Elmasly, Saadeldin E. T.;Kanibolotsky, Alexander L.;Findlay, Neil J.;Inigo, Anto Regis;Skabara, Peter J.;
2:2:383 Bitrialkylsilylethynyl thienoacenes: synthesis, molecular conformation and crystal packing, and their field-effect properties
DOI:10.1039/c3tc31421a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Zhang, Weifeng;Zhang, Ji;Chen, Xiangyang;Mao, Zupan;Xie, Xiaodong;Wang, Liping;Liao, Yi;Yu, Gui;Liu, Yunqi;Zhu, Daoben;
2:2:384 High performance ink-jet printed diketopyrrolopyrrole-based copolymer thin-film transistors using a solution-processed aluminium oxide dielectric on a flexible substrate
DOI:10.1039/c3tc00718a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Kim, Sung Hoon;Kang, Il;Kim, Youn Goo;Hwang, Hye Rim;Kim, Yun-Hi;Kwon, Soon-Ki;Jang, Jin;
2:2:385 Heteroaromatic variation in amorphous 1,6-methano[10]annulene-based charge-transporting organic semiconductors
DOI:10.1039/c4tc01326c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Streifel, Benjamin C.;Hardigree, Josue F. Martinez;Katz, Howard E.;Tovar, John D.;
2:2:386 Dithienonaphthothiadiazole semiconductors: synthesis, properties, and application to ambipolar field effect transistors
DOI:10.1039/c4tc00094c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Shuai, Q.;Black, H. T.;Dadvand, A.;Perepichka, D. F.;
2:2:387 Highly air stable branched octithiophene oligomer for organic field effect transistor and pH sensor applications
DOI:10.1016/j.matchemphys.2012.12.017 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:3 AU: Wu, Hung-Chin;Lee, Wen-Ya;Lin, Chih-Jung;Chen, Wen-Chang;
2:2:388 Synthesis and characterization of a pentaselenophene-based donor-acceptor copolymer for use in organic photovoltaic cells
DOI:10.1016/j.solmat.2012.12.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Lee, Woo-Hyung;Lee, Sang-Kyu;Shin, Won-Suk;Moon, Sang-Jin;Lee, Soo-Hyoung;Kang, In-Nam;
2:2:389 Infrared spectroscopy of narrow gap donor-acceptor polymer-based ambipolar transistors
DOI:10.1103/PhysRevB.86.195109 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Khatib, O.;Yuen, J. D.;Wilson, J.;Kumar, R.;Di Ventra, M.;Heeger, A. J.;Basov, D. N.;
2:2:390 Air-Stable n-Type Organic Field-Effect Transistors Based on Carbonyl-Bridged Bithiazole Derivatives
DOI:10.1002/adfm.200901803 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:40 AU: Ie, Yutaka;Nitani, Masashi;Karakawa, Makoto;Tada, Hirokazu;Aso, Yoshio;
2:2:391 Thiophene-Benzothiadiazole Co-Oligomers: Synthesis, Optoelectronic Properties, Electrical Characterization, and Thin-Film Patterning
DOI:10.1002/adfm.200901424 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:34 AU: Melucci, Manuela;Favaretto, Laura;Zanelli, Alberto;Cavallini, Massimiliano;Bongini, Alessandro;Maccagnani, Piera;Ostojo, Paolo;Derue, Gwennaelle;Lazzaroni, Roberto;Barbarello, Giovanno;
2:2:392 Solvent-Assisted Re-annealing of Polymer Films for Solution-Processable Organic Field-Effect Transistors
DOI:10.1002/adma.200902813 JN:ADVANCED MATERIALS PY:2010 TC:29 AU: Di, Chong-an;Lu, Kun;Zhang, Lei;Liu, Yunqi;Guo, Yunlong;Sun, Xiangnan;Wen, Yugeng;Yu, Gui;Zhu, Daoben;
2:2:393 Interfacial Heterogeneity of Surface Energy in Organic Field-Effect Transistors
DOI:10.1002/adma.201004187 JN:ADVANCED MATERIALS PY:2011 TC:21 AU: Sun, Xiangnan;Liu, Yunqi;Di, Chong-an;Wen, Yugeng;Guo, Yunlong;Zhang, Lei;Zhao, Yan;Yu, Gui;
2:2:394 High Resolution Optical Spectroscopy of Air-Induced Electrical Instabilities in n-type Polymer Semiconductors
DOI:10.1002/adma.201200829 JN:ADVANCED MATERIALS PY:2012 TC:13 AU: Di Pietro, Riccardo;Sirringhaus, Henning;
2:2:395 Influence of dielectric-dependent interfacial widths on device performance in top-gate P(NDI2OD-T2) field-effect transistors
DOI:10.1063/1.4748976 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Yan, Hongping;Schuettfort, Torben;Kronemeijer, Auke J.;McNeill, Christopher R.;Ade, Harald W.;
2:2:396 Intermolecular hydrogen-bonded organic semiconductors-Quinacridone versus pentacene
DOI:10.1063/1.4736579 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Glowacki, Eric Daniel;Leonat, Lucia;Irimia-Vladu, Mihai;Diauer, Reinhard Schwo;Ullah, Mujeeb;Sitter, Helmut;Bauer, Siegfried;Sariciftci, Niyazi Serdar;
2:2:397 Amorphous Thieno[3,2-b]thiophene and Benzothiadiazole Based Copolymers for Organic Photovoltaics
DOI:10.1021/am5061189 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Lee, Wonho;Cha, Hyojun;Kim, Yu Jin;Jeong, Ji-Eun;Hwang, Sungu;Park, Chan Eon;Woo, Han Young;
2:2:398 X-ray Microscopy Imaging of the Grain Orientation in a Pentacene Field-Effect Transistor
DOI:10.1021/cm100487j JN:CHEMISTRY OF MATERIALS PY:2010 TC:22 AU: Braeuer, Bjoern;Virkar, Ajay;Mannsfeld, Stefan C. B.;Bernstein, David P.;Kukreja, Roopali;Chou, Kang Wei;Tyliszczak, Tolek;Bao, Zhenan;Acremann, Yves;
2:2:399 Influence of Solid-State Microstructure on the Electronic Performance of 5,11-Bis(triethylsilylethynyl) Anthradithiophene
DOI:10.1021/cm400369w JN:CHEMISTRY OF MATERIALS PY:2013 TC:4 AU: Yu, Liyang;Li, Xiaoran;Pavlica, Egon;Koch, Felix P. V.;Portale, Giuseppe;da Silva, Ivan;Loth, Marsha A.;Anthony, John E.;Smith, Paul;Bratina, Gvido;Kjellander, B. K. Charlotte;Bastiaansen, Cornelis W. M.;Broer, Dirk J.;Gelinck, Gerwin H.;Stingelin, Natalie;
2:2:400 N-Alkyldinaphthocarbazoles, Azaheptacenes, for Solution-Processed Organic Field-Effect Transistors
DOI:10.1021/ja3082582 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Pho, Toan V.;Yuen, Jonathan D.;Kurzman, Joshua A.;Smith, Braden G.;Miao, Maosheng;Walker, Wesley T.;Seshadri, Ram;Wudl, Fred;
2:2:401 Hydrogen-Bonded Organic Semiconductor Micro- And Nanocrystals: From Colloidal Syntheses to (Opto-)Electronic Devices
DOI:10.1021/ja5073965 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Sytnyk, Mykhailo;Glowacki, Eric Daniel;Yakunin, Sergii;Voss, Gundula;Schoefberger, Wolfgang;Kriegner, Dominik;Stangl, Julian;Trotta, Rinaldo;Gollner, Claudia;Tollabimazraehno, Sajjad;Romanazzi, Giuseppe;Bozkurt, Zeynep;Havlicek, Marek;Sariciftci, Niyazi Serdar;Heiss, Wolfgang;
2:2:402 Influence of Side-Chain Regiochemistry on the Transistor Performance of High-Mobility, All-Donor Polymers
DOI:10.1021/ja508798s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Fei, Zhuping;Pattanasattayavong, Pichaya;Han, Yang;Schroeder, Bob C.;Yan, Feng;Kline, R. Joseph;Anthopoulos, Thomas D.;Heeney, Martin;
2:2:403 Development of organic field-effect properties by introducing aryl-acetylene into benzodithiophene
DOI:10.1039/c0jm02895a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:16 AU: Meng, Qing;Jiang, Lang;Wei, Zhongming;Wang, Chengliang;Zhao, Huaping;Li, Hongxiang;Xu, Wei;Hu, Wenping;
2:2:404 Effects of gate dielectrics and their solvents on characteristics of solution-processed N-channel polymer field-effect transistors
DOI:10.1039/c2jm34218a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Baeg, Kang-Jun;Facchetti, Antonio;Noh, Yong-Young;
2:2:405 Perpendicularly entangled perylene diimides for high performance electron transport materials
DOI:10.1039/c3tc31912a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Hao, Linxiao;Xiao, Chengyi;Zhang, Jing;Jiang, Wei;Xu, Wei;Wang, Zhaohui;
2:2:406 Correlation of mobility and molecular packing in organic transistors based on cycloalkyl naphthalene diimides
DOI:10.1039/c3tc30920g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Kakinuma, Tomoyuki;Kojima, Hirotaka;Ashizawa, Minoru;Matsumoto, Hidetoshi;Mori, Takehiko;
2:2:407 Dramatically enhanced molecular ordering and charge transport of a DPP-based polymer assisted by oligomers through antiplasticization
DOI:10.1039/c3tc30667d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Sun, Bin;Hong, Wei;Aziz, Hany;Abukhdeir, Nasser Mohieddin;Li, Yuning;
2:2:408 High balanced ambipolar charge carrier mobility in benzodipyrrolidone conjugated polymers
DOI:10.1039/c3tc31844c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: van Pruissen, Gijs W. P.;Pidko, Evgeny A.;Wienk, Martijn M.;Janssen, Rene A. J.;
2:2:409 Air-stable organic semiconductors based on 6,6 '-dithienylindigo and polymers thereof
DOI:10.1039/c4tc00651h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Glowacki, E. D.;Apaydin, D. H.;Bozkurt, Z.;Monkowius, U.;Demirak, K.;Tordin, E.;Himmelsbach, M.;Schwarzinger, C.;Burian, M.;Lechner, R. T.;Demitri, N.;Voss, G.;Sariciftci, N. S.;
2:2:410 Fused H-shaped tetrathiafulvalene-oligothiophenes as charge transport materials for OFETs and OPVs
DOI:10.1039/c3tc32571g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Wright, Iain A.;Findlay, Neil J.;Arumugam, Sasikumar;Inigo, Anto R.;Kanibolotsky, Alexander L.;Zassowski, Pawel;Domagala, Wojciech;Skabara, Peter J.;
2:2:411 ORGANIC SEMICONDUCTORS Made to order
DOI:10.1038/nmat3686 JN:NATURE MATERIALS PY:2013 TC:22 AU: Facchetti, Antonio;
2:2:412 Semiconducting Polymers with Nanocrystallites Interconnected via Boron-Doped Carbon Nanotubes
DOI:10.1021/nl503574h JN:NANO LETTERS PY:2014 TC:0 AU: Yu, Kilho;Lee, Ju Min;Kim, Junghwan;Kim, Geunjin;Kang, Hongkyu;Park, Byoungwook;Kahng, Yung Ho;Kwon, Sooncheol;Lee, Sangchul;Lee, Byoung Hun;Kim, Jehan;Park, Hyung Il;Kim, Sang Ouk;Lee, Kwanghee;
2:2:413 Diketopyrrolopyrrole dyes: Structure/reactivity/efficiency relationship in photoinitiating systems upon visible lights
DOI:10.1016/j.polymer.2014.01.003 JN:POLYMER PY:2014 TC:5 AU: Xiao, Pu;Hong, Wei;Li, Yuning;Dumur, Frederic;Graff, Bernadette;Fouassier, Jean Pierre;Gigmes, Didier;Lalevee, Jacques;
2:2:414 Substrate-Induced Variations of Molecular Packing, Dynamics, and Intermolecular Electronic Couplings in Pentacene Monolayers on the Amorphous Silica Dielectric
DOI:10.1021/nn405399n JN:ACS NANO PY:2014 TC:5 AU: Viani, Lucas;Risko, Chad;Toney, Michael F.;Breiby, Dag W.;Bredas, Jean-Luc;
2:2:415 Tunable Field-Effect Mobility Utilizing Mixed Crystals of Organic Molecules
DOI:10.1002/adma.201101353 JN:ADVANCED MATERIALS PY:2011 TC:10 AU: Huang, Lizhen;Liu, Chengfang;Qiao, Xiaolan;Tian, Hongkun;Geng, Yonhou;Yan, Donghang;
2:2:416 ABAB-Symmetric Tetraalkyl Titanyl Phthalocyanines for Solution Processed Organic Field-Effect Transistors with Mobility Approaching 1 cm2 V1 s1
DOI:10.1002/adma.201204233 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Dong, Shaoqiang;Bao, Cheng;Tian, Hongkun;Yan, Donghang;Geng, Yanhou;Wang, Fosong;
2:2:417 Highly Oriented Polymer Semiconductor Films Compressed at the Surface of Ionic Liquids for High-Performance Polymeric Organic Field-Effect Transistors
DOI:10.1002/adma.201401495 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Soeda, Junshi;Matsui, Hiroyuki;Okamoto, Toshihiro;Osaka, Itaru;Takimiya, Kazuo;Takeya, Jun;
2:2:418 Simultaneous extraction of charge density dependent mobility and variable contact resistance from thin film transistors
DOI:10.1063/1.4876057 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Di Pietro, Riccardo;Venkateshvaran, Deepak;Klug, Andreas;List-Kratochvil, Emil J. W.;Facchetti, Antonio;Sirringhaus, Henning;Neher, Dieter;
2:2:419 High-Performance Bottom-Contact Organic Thin-Film Transistors Based on Benzo[d,d ']thieno[3,2-b;4,5-b ']dithiophenes (BTDTs) Derivatives
DOI:10.1021/am3022448 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:9 AU: Huang, Peng-Yi;Chen, Liang-Hsiang;Kim, Choongik;Chang, Hsiu-Chieh;Liang, You-jhih;Feng, Chieh-Yuan;Yeh, Chia-Ming;Ho, Jia-Chong;Lee, Cheng-Chung;Chen, Ming-Chou;
2:2:420 Solvent-Dispersed Benzothiadiazole-Tetrathiafulvalene Single-Crystal Nanowires and Their Application in Field-Effect Transistors
DOI:10.1021/am3025036 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Tucker, Neil M.;Briseno, Alejandro L.;Acton, Orb;Yip, Hin-Lap;Ma, Hong;Jenekhe, Samson A.;Xia, Younan;Jen, Alex K-Y;
2:2:421 N-Type Organic Semiconductors Based on pi-Deficient Pentacenequinones: Synthesis, Electronic Structures, Molecular Packing, and Thin Film Transistors
DOI:10.1021/cm102681p JN:CHEMISTRY OF MATERIALS PY:2010 TC:41 AU: Liang, Zhixiong;Tang, Qin;Liu, Jing;Li, Jinhua;Yan, Feng;Miao, Qian;
2:2:422 Importance of C-2 Symmetry for the Device Performance of a Newly Synthesized Family of Fused-Ring Thiophenes
DOI:10.1021/cm100524p JN:CHEMISTRY OF MATERIALS PY:2010 TC:20 AU: He, Mingqian;Li, Jianfeng;Tandia, Adama;Sorensen, Michael;Zhang, Feixia;Fong, Hon Hang;Pozdin, Vladimir A.;Smilgies, Detlef-M.;Malliaras, George G.;
2:2:423 One-Pot Synthesis of Stable NIR Tetracene Diimides via Double Cross-Coupling
DOI:10.1021/ja207630a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:31 AU: Yue, Wan;Gao, Jing;Li, Yan;Jiang, Wei;Di Motta, Simone;Negri, Fabrizia;Wang, Zhaohui;
2:2:424 The Good Host: Formation of Discrete One-Dimensional Fullerene "Channels" in Well-Ordered Poly(2,5-bis(3-alkylthiophen-2-yl)thieno[3,2-b]thiophene) Oligomers
DOI:10.1021/ja510976n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Zhang, Lei;Liu, Feng;Diao, Ying;Marsh, Hilary S.;Colella, Nicholas S.;Jayaraman, Arthi;Russell, Thomas P.;Mannsfeld, Stefan C. B.;Briseno, Alejandro L.;
2:2:425 High performance n-type organic transistors based on a distyrylthiophene derivative
DOI:10.1039/c0jm02646h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Kim, Jong H.;Chung, Jong Won;Jung, Yunoh;Yoon, Seong-Jun;An, Byeong-Kwan;Huh, Hyun Sue;Lee, Soon W.;Park, Soo Young;
2:2:426 Observation of ambipolar field-effect behavior in donor-acceptor conjugated copolymers
DOI:10.1039/c2jm34872a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Cho, Shinuk;Seo, Jung Hwa;Kim, Gi-Hwan;Kim, Jin Young;Woo, Han Young;
2:2:427 Incorporation of pyrrole to oligothiophene-based quinoids endcapped with dicyanomethylene: a new class of solution processable n-channel organic semiconductors for air-stable organic field-effect transistors
DOI:10.1039/c2jm16700j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Qiao, Yali;Zhang, Jing;Xu, Wei;Zhu, Daoben;
2:2:428 Self-stratified semiconductor/dielectric polymer blends: vertical phase separation for facile fabrication of organic transistors
DOI:10.1039/c3tc30257a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Wang, Xiaohong;Lee, Wi Hyoung;Zhang, Guobing;Wang, Xianghua;Kang, Boseok;Lu, Hongbo;Qiu, Longzhen;Cho, Kilwon;
2:2:429 Growth of rylene diimide crystalline layers on aminoalkyl triethoxysilane-monolayers for organic field effect transistor applications
DOI:10.1039/c3tc31162g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Geyer, Florian L.;Pun, Andrew;Hanifi, David;Bunz, Uwe H. F.;Liu, Yi;
2:2:430 Perfluoroalkyl-substitution versus electron-deficient building blocks in design of oligothiophene semiconductors
DOI:10.1039/c2tc00032f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Black, Hayden T.;Dadvand, Afshin;Liu, Shubin;Ashby, Valerie S.;Perepichka, Dmitrii F.;
2:2:431 Self-Assembly and Microstructural Control of a Hexa-peri-hexabenzocoronene-Perylene Diimide Dyad by Solvent Vapor Diffusion
DOI:10.1002/smll.201100730 JN:SMALL PY:2011 TC:12 AU: Wang, Suhao;Doessel, Lukas;Mavrinskiy, Alexey;Gao, Peng;Feng, Xinliang;Pisula, Wojciech;Muellen, Klaus;
2:2:432 Well-Defined and Monodisperse Linear and Star-Shaped Quaterfluorene-DPP Molecules: the Significance of Conjugation and Dimensionality
DOI:10.1002/adma.201100308 JN:ADVANCED MATERIALS PY:2011 TC:14 AU: Kanibolotsky, Alexander L.;Vilela, Filipe;Forgie, John C.;Elmasly, Saadeldin E. T.;Skabara, Peter J.;Zhang, Kai;Tieke, Bernd;McGurk, John;Belton, Colin R.;Stavrinou, Paul N.;Bradley, D. D. C.;
2:2:433 Ambipolar organic thin film transistors based on a soluble pentacene derivative
DOI:10.1063/1.3606537 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Isik, Dilek;Shu, Ying;Tarabella, Giuseppe;Coppede, Nicola;Iannotta, Salvatore;Lutterotti, Luca;Cicoira, Fabio;Anthony, John Edward;Santato, Clara;
2:2:434 Enhanced carrier mobility and electrical stability of n-channel polymer thin film transistors by use of low-k dielectric buffer layer
DOI:10.1063/1.3655680 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Kim, Felix Sunjoo;Hwang, Do-Kyung;Kippelen, Bernard;Jenekhe, Samson A.;
2:2:435 Organic integrated complementary inverters with ink-jet printed source/drain electrodes and sub-micron channels
DOI:10.1063/1.3696487 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Gili, E.;Caironi, M.;Sirringhaus, H.;
2:2:436 Probing bias stress effect and contact resistance in bilayer ambipolar organic field-effect transistors
DOI:10.1063/1.4818644 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Yan, Yan;Sun, Qi-Jun;Gao, Xu;Deng, Ping;Zhang, Qing;Wang, Sui-Dong;
2:2:437 Thiol-ene Cross-Linked Polymer Gate Dielectrics for Low-Voltage Organic Thin-Film Transistors
DOI:10.1021/cm403203k JN:CHEMISTRY OF MATERIALS PY:2013 TC:16 AU: Wang, Chao;Lee, Wen-Ya;Nakajima, Reina;Mei, Jianguo;Kim, Do Hwan;Bao, Zhenan;
2:2:438 Solution-processed small molecule transistors with low operating voltages and high grain-boundary anisotropy
DOI:10.1039/c2jm30893b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Yu, Liyang;Li, Xiaoran;Smith, Jeremy;Tierney, Steven;Sweeney, Richard;Kjellander, B. K. Charlotte;Gelinck, Gerwin H.;Anthopoulos, Thomas D.;Stingelin, Natalie;
2:2:439 2-Bromo perylene diimide: synthesis using C-H activation and use in the synthesis of bis(perylene diimide)-donor electron-transport materials
DOI:10.1039/c3tc30918e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Zhang, Junxiang;Singh, Sanjeev;Hwang, Do Kyung;Barlow, Stephen;Kippelen, Bernard;Marder, Seth R.;
2:2:440 Oligofuran-containing molecules for organic electronics
DOI:10.1039/c3tc00079f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:21 AU: Gidron, Ori;Dadvand, Afshin;Sun, Emily Wei-Hsin;Chung, Insik;Shimon, Linda J. W.;Bendikov, Michael;Perepichka, Dmitrii F.;
2:2:441 Synthesis and optical reactivity of 6,13-alpha-diketoprecursors of 2,3,9,10-tetraalkylpentacenes in solution, films and crystals
DOI:10.1039/c3tc31824a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Katsuta, Shuhei;Saeki, Hiroyuki;Tanaka, Katsuki;Murai, Yuki;Kuzuhara, Daiki;Misaki, Masahiro;Aratani, Naoki;Masuo, Sadahiro;Ueda, Yasukiyo;Yamada, Hiroko;
2:2:442 Novel dibenzo[a, e] pentalene-based conjugated polymers
DOI:10.1039/c3tc31630k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Nakano, Masahiro;Osaka, Itaru;Takimiya, Kazuo;Koganezawa, Tomoyuki;
2:2:443 Pyrrole[3,2-d:4,5-d']bisthiazole-bridged bis(naphthalene diimide)s as electron-transport materials
DOI:10.1039/c3tc31677g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Getmanenko, Yulia A.;Singh, Sanjeev;Sandhu, Bhupinder;Wang, Cheng-Yin;Timofeeva, Tatiana;Kippelen, Bernard;Marder, Seth R.;
2:2:444 An electron deficient dicyanovinylene-ladder-type pentaphenylene derivative for n-type organic field effect transistors
DOI:10.1039/c3tc31925c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Jacques, Emmanuel;Romain, Maxime;Yassin, Ali;Bebiche, Sarah;Harnois, Maxime;Mohammed-Brahim, Tayeb;Rault-Berthelot, Joeelle;Poriel, Cyril;
2:2:445 Interface Control in Organic Electronics Using Mixed Monolayers of Carboranethiol Isomers
DOI:10.1021/nl501081q JN:NANO LETTERS PY:2014 TC:7 AU: Kim, Jaemyung;Rim, You Seung;Liu, Yongsheng;Serino, Andrew C.;Thomas, John C.;Chen, Huajun;Yang, Yang;Weiss, Paul S.;
2:2:446 Synthesis and photovoltaic properties of low band gap quarterthiophenes-alt-diketopyrrolopyrroles polymers having high hole mobility
DOI:10.1016/j.solmat.2012.04.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Son, Seon Kyoung;Kim, Bong Soo;Lee, Chun-Young;Lee, Joong Suk;Cho, Jeong Ho;Ko, Min Jae;Lee, Doh-Kwon;Kim, Honggon;Choi, Dong Hoon;Kim, Kyungkon;
2:2:447 Ortho- vs Bay-Functionalization: A Comparative Study on Tetracyano-Terrylenediimides
DOI:10.1002/adfm.201401573 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Battagliarin, Glauco;Puniredd, Sreenivasa Reddy;Stappert, Sebastian;Zajaczkowski, Wojciech;Wang, Suhao;Li, Chen;Pisula, Wojciech;Muellen, Klaus;
2:2:448 Top-Gate Organic Thin-Film Transistors Constructed by a General Lamination Approach
DOI:10.1002/adma.201000123 JN:ADVANCED MATERIALS PY:2010 TC:21 AU: Zhang, Lei;Di, Chong-an;Zhao, Yan;Guo, Yunlong;Sun, Xiangnan;Wen, Yugeng;Zhou, Weiyi;Zhan, Xiaowei;Yu, Gui;Liu, Yunqi;
2:2:449 Novel Diketopyrroloppyrrole Random Copolymers: High Charge-Carrier Mobility From Environmentally Benign Processing
DOI:10.1002/adma.201400877 JN:ADVANCED MATERIALS PY:2014 TC:16 AU: Yun, Hui-Jun;Lee, Gi Back;Chung, Dae Sung;Kim, Yun-Hi;Kwon, Soon-Ki;
2:2:450 Low-voltage ambipolar polyelectrolyte-gated organic thin film transistors
DOI:10.1063/1.4709484 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Malti, Abdellah;Berggren, Magnus;Crispin, Xavier;
2:2:451 Density of trap states in a polymer field-effect transistor
DOI:10.1063/1.4896913 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Seohee;Ha, Tae-Jun;Sonar, Prashant;Dodabalapur, Ananth;
2:2:452 High-Mobility Pyrene-Based Semiconductor for Organic Thin-Film Transistors
DOI:10.1021/am4005368 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Cho, Hyunduck;Lee, Sunyoung;Cho, Nam Sung;Jabbour, Ghassan E.;Kwak, Jeonghun;Hwang, Do-Hoon;Lee, Changhee;
2:2:453 Synthesis of a Low-Bandgap Fluorinated Donor-Acceptor Copolymer and Its Optoelectronic Application
DOI:10.1021/am4007935 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Yun, Hui-Jun;Hwang, Moon Chan;Park, So Min;Kim, Ran;Chung, Dae Sung;Kim, Yun-Hi;Kwon, Soon-Ki;
2:2:454 Electron-Withdrawing Substituted Tetrathiafulvalenes as Ambipolar Semiconductors
DOI:10.1021/cm1021867 JN:CHEMISTRY OF MATERIALS PY:2011 TC:17 AU: Oton, Francisco;Pfattner, Raphael;Pavlica, Egon;Olivier, Yoann;Moreno, Evelyn;Puigdollers, Joaquim;Bratina, Gvido;Cornil, Jerome;Fontrodona, Xavier;Mas-Torrent, Marta;Veciana, Jaume;Rovira, Concepcio;
2:2:455 Electron injection enhancement by a Cs-salt interlayer in ambipolar organic field-effect transistors and complementary circuits
DOI:10.1039/c2jm32721j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Khim, Dongyoon;Baeg, Kang-Jun;Kim, Juhwan;Yeo, Jun-Seok;Kang, Minji;Amegadzea, Paul S. K.;Kim, Mu-Gyeom;Cho, Joonhyuk;Lee, Jung Hun;Kim, Dong-Yu;Noh, Yong-Young;
2:2:456 The impact of tetrahedral capping groups and device processing conditions on the crystal packing, thin film features and OFET hole mobility of 7,14-bis(ethynyl)dibenzo[b,def]chrysenes
DOI:10.1039/c3tc31030b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Shu, Ying;Collis, Gavin E.;Dunn, Christopher J.;Kemppinen, Peter;Winzenberg, Kevin N.;Williamson, Rachel M.;Bilic, Ante;Singh, Th. Birendra;Bown, Mark;McNeill, Christopher R.;Thomsen, Lars;
2:2:457 Fabrication of ultra-flexible, ultra-thin organic field-effect transistors and circuits by a peeling-off method
DOI:10.1039/c3tc31869a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Hu, Yuanyuan;Warwick, Christopher;Sou, Antony;Jiang, Lang;Sirringhaus, Henning;
2:2:458 The effect of thiadiazole out-backbone displacement in indacenodithiophene semiconductor polymers
DOI:10.1039/c4tc01500b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Planells, Miquel;Nikolka, Mark;Hurhangee, Michael;Tuladhar, Pabitra S.;White, Andrew J. P.;Durrant, James R.;Sirringhaus, Henning;McCulloch, Iain;
2:2:459 Benzothieno[2,3-b]thiophene semiconductors: synthesis, characterization and applications in organic field-effect transistors
DOI:10.1039/c4tc01688b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Liu, Ying;Liu, Zhiyang;Luo, Hao;Xie, Xiaodong;Ai, Ling;Ge, Ziyi;Yu, Gui;Liu, Yunqi;
2:2:460 N-Alkyl functionalized barbituric and thiobarbituric acid bithiophene derivatives for vacuum deposited n-channel OFETs
DOI:10.1039/c4tc00002a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Shu, Ying;Mikosch, Annabel;Winzenberg, Kevin N.;Kemppinen, Peter;Easton, Christopher D.;Bilic, Ante;Forsyth, Craig M.;Dunn, Christopher J.;Singh, Th. Birendra;Collis, Gavin E.;
2:2:461 Formation of parallel aligned nano-fibrils of a donor-acceptor conjugated copolymer via controlling J-aggregates and post treatment
DOI:10.1039/c3sm51986d JN:SOFT MATTER PY:2013 TC:0 AU: Xu, Yaozhuo;Liu, Jiangang;Wang, Haiyang;Yu, Xinhong;Xing, Rubo;Han, Yanchun;
2:2:462 A novel isomer of pyrrolo[3,4-c]pyrrole-1,4 (2H,5H)-dione as a new building block for polymer solar cells
DOI:10.1016/j.synthmet.2014.07.002 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Gironda, Ramona;Choi, Jin Woo;Miozzo, Luciano;Tondelier, Denis;Papagni, Antonio;Yassar, Abderrahim;
2:2:463 Core-Brominated Tetraazaperopyrenes as n-Channel Semiconductors for Organic Complementary Circuits on Flexible Substrates
DOI:10.1002/adfm.201203600 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:7 AU: Geib, Sonja;Zschieschang, Ute;Gsaenger, Marcel;Stolte, Matthias;Wuerthner, Frank;Wadepohl, Hubert;Klauk, Hagen;Gade, Lutz H.;
2:2:464 Improved interfacial and electrical properties of vanadyl-phthalocyanine metal-insulator-semiconductor devices with silicon nitride as gate insulator
DOI:10.1063/1.4845815 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Wang, Lijuan;Li, Yiping;Song, Xiaofeng;Liu, Xin;Zhang, Long;Yan, Donghang;
2:2:465 syn-/anti-Anthradithiophene Derivative Isomer Effects on Semiconducting Properties
DOI:10.1021/am4027136 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Mamada, Masashi;Katagiri, Hiroshi;Mizukami, Makoto;Honda, Kota;Minamiki, Tsukuru;Teraoka, Ryo;Uemura, Taisuke;Tokito, Shizuo;
2:2:466 Electrooptical Spectroscopy of Uniaxially Aligned Polythiophene Films in Field-Effect Transistors
DOI:10.1021/cm400266h JN:CHEMISTRY OF MATERIALS PY:2013 TC:9 AU: Lee, Mi Jung;Chen, Zhuoying;di Pietro, Riccardo;Heeney, Martin;Sirringhaus, Henning;
2:2:467 Tuning Packing and Solubility of Donor (D)-Acceptor (A) Polymers by cis-trans Isomerization within Alkenyl Side Chains
DOI:10.1021/cm5021355 JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Hinkel, Felix;Marszalek, Tomasz;Zajaczkowski, Wojciech;Puniredd, Sreenivasa Reddy;Baumgarten, Martin;Pisula, Wojciech;Muellen, Klaus;
2:2:468 Relation between Structure and Electronic Properties of Amorphous MEH-PPV Polymers
DOI:10.1021/ja404385y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:14 AU: Qin, Ting;Troisi, Alessandro;
2:2:469 Design of indigo derivatives as environment-friendly organic semiconductors for sustainable organic electronics
DOI:10.1039/c4tc00550c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Klimovich, I. V.;Leshanskaya, L. I.;Troyanov, S. I.;Anokhin, D. V.;Novikov, D. V.;Piryazev, A. A.;Ivanov, D. A.;Dremova, N. N.;Troshin, P. A.;
2:2:470 2,5-Bis(2-octyldodecyl)pyrrolo[3,4-c]pyrrole-1,4(2H,5H)-dione-Based Donor-Acceptor Alternating Copolymer Bearing Benzothieno[3,2-b] benzothiophene as an Organic Semiconductor and Its Application to Thin Film Transistors
DOI:10.1080/15421406.2013.808146 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Kim, Ji Ho;Kim, Kyung Hwan;Lee, Dae Hee;Yang, Da Seul;Heo, Dong Uk;Lee, Tae Wan;Cho, Min Ju;Choi, Dong Hoon;
2:2:471 Pyromellitic Diimide-Benzodithiophene Copolymer for Polymer Solar Cells: Effect of Side Chain Length and Thiophene pi-Bridge on Optical and Electronic Properties
DOI:10.1080/15421406.2014.968082 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Luo, Chunhua;Shen, Zhitao;Meng, Xiangjian;Han, Li;Sun, Shuo;Lin, Tie;Sun, Jinglan;Peng, Hui;Chu, Junhao;
2:2:472 Synthesis of donor-acceptor poly(perylene diimide-altoligothiophene) copolymers as n-type materials for polymeric solar cells
DOI:10.1016/j.polymer.2010.03.040 JN:POLYMER PY:2010 TC:25 AU: Kozma, Erika;Kotowski, Dariusz;Bertini, Fabio;Luzzati, Silvia;Catellani, Marinella;
2:2:473 The role of furyl substituents of pyrene on monomer and polymer properties
DOI:10.1016/j.synthmet.2014.02.017 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Ledwon, Przemyslaw;Lapkowski, Mieczyslaw;Licha, Tobias;Frydel, Jaroslaw;Idzik, Krzysztof R.;
2:2:474 Molecular Weight-Induced Structural Transition of Liquid-Crystalline Polymer Semiconductor for High-Stability Organic Transistor
DOI:10.1002/adfm.201101021 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:12 AU: Kim, Do Hwan;Lee, Jiyoul;Park, Jeong-Il;Chung, Jong Won;Lee, Wi Hyoung;Giri, Gaurav;Yoo, Byungwook;Koo, Bonwon;Kim, Joo Young;Jin, Yong Wan;Cho, Kilwon;Lee, Bang-Lin;Lee, Sangyoon;
2:2:475 High-Resolution Near-Field Optical Investigation of Crystalline Domains in Oligomeric PQT-12 Thin Films
DOI:10.1002/adfm.201001978 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:10 AU: Kuehn, Sergei;Pingel, Patrick;Breusing, Markus;Fischer, Thomas;Stumpe, Joachim;Neher, Dieter;Elsaesser, Thomas;
2:2:476 Air stable, ambipolar organic transistors and inverters based upon a heterojunction structure of pentacene on N,N '-ditridecylperylene-3,4,9,10-tetracarboxylic di-imide
DOI:10.1063/1.3460282 JN:APPLIED PHYSICS LETTERS PY:2010 TC:17 AU: An, Min-Jun;Seo, Hoon-Seok;Zhang, Ying;Oh, Jeong-Do;Choi, Jong-Ho;
2:2:477 Charge transfer complex states in diketopyrrolopyrrole polymers and fullerene blends: Implications for organic solar cell efficiency
DOI:10.1063/1.3670043 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Moghe, D.;Yu, P.;Kanimozhi, C.;Patil, S.;Guha, S.;
2:2:478 Electrical and Optical Properties of Diketopyrrolopyrrole-Based Copolymer Interfaces in Thin Film Devices
DOI:10.1021/am200028u JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:7 AU: Adil, Danish;Kanimozhi, Catherine;Ukah, Ndubuisi;Paudel, Keshab;Patil, Satish;Guha, Suchi;
2:2:479 Benzo[1,2-b:4,5-b ']dithiophene-Based Cruciforms: Syntheses, Crystal Structures, and Charge Transport Properties
DOI:10.1021/am302117k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Wang, Shitao;Ren, Shendong;Xiong, Yu;Wang, Mao;Gao, Xike;Li, Hongxiang;
2:2:480 Torsion Potential in Polydiacetylene: Accurate Computations on Oligomers Extrapolated to the Polymer Limit
DOI:10.1021/ja103769j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:8 AU: Sears, John S.;Chance, Ronald R.;Bredas, Jean-Luc;
2:2:481 Tuning the Quinoid versus Biradicaloid Character of Thiophene-Based Heteroquaterphenoquinones by Means of Functional Groups
DOI:10.1021/ja3072385 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:7 AU: Canesi, Eleonora V.;Fazzi, Daniele;Colella, Letizia;Bertarelli, Chiara;Castiglioni, Chiara;
2:2:482 "Fibonacci's Route" to Regioregular Oligo(3-hexylthiophene)s
DOI:10.1021/ja4057932 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:11 AU: Koch, Felix P. V.;Smith, Paul;Heeney, Martin;
2:2:483 In situ STXM investigations of pentacene-based OFETs during operation
DOI:10.1039/c0jm00423e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Hub, C.;Burkhardt, M.;Halik, M.;Tzvetkov, G.;Fink, R.;
2:2:484 Physicochemical, self-assembly and field-effect transistor properties of anti- and syn- thienoacene isomers
DOI:10.1039/c0jm04583g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Li, Rongjin;Dong, Huanli;Zhan, Xiaowei;Li, Hongxiang;Wen, Shu-Hao;Deng, Wei-Qiao;Han, Ke-Li;Hu, Wenping;
2:2:485 Phenanthro[1,10,9,8-cdefg]carbazole-containing copolymer for high performance thin-film transistors and polymer solar cells
DOI:10.1039/c2jm16104d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Chen, Huajie;He, Chang;Yu, Gui;Zhao, Yan;Huang, Jianyao;Zhu, Minliang;Liu, Hongtao;Guo, Yunlong;Li, Yongfang;Liu, Yunqi;
2:2:486 Effect of the molecular weight of the polymer gate dielectric on the performances of solution-processed ambipolar OTFTs
DOI:10.1039/c3tc31080a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Masillamani, Appan Merari;Orgiu, Emanuele;Samor, Paolo;
2:2:487 Synthesis and characterization of naphthalene diimide/diethynylbenzene copolymers
DOI:10.1016/j.polymer.2012.01.016 JN:POLYMER PY:2012 TC:13 AU: Sajoto, Tissa;Tiwari, Shree Prakash;Li, Huifang;Risko, Chad;Barlow, Stephen;Zhang, Qing;Cho, Jian-Yang;Bredas, Jean-Luc;Kippelen, Bernard;Marder, Seth R.;
2:2:488 Synthesis and characterizations of conjugated copolymers containing benzo[f]isoindole-1,3-dione and diketopyrrolopyrrole units
DOI:10.1016/j.polymer.2013.07.049 JN:POLYMER PY:2013 TC:3 AU: Li, Duo;Qian, Gang;Wang, Zhi Yuan;
2:2:489 Effect of gate electrode conductivity on operation frequency of inkjet-printed complementary polymer ring oscillators
DOI:10.1016/j.tsf.2013.04.060 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Han, Hyun;Amegadze, Paul S. K.;Park, Jongwoon;Baeg, Kang-Jun;Noh, Yong-Young;
2:2:490 Narrower Bands with Better Charge Transport: The Counterintuitive Behavior of Semiconducting Copolymers
DOI:10.1002/adma.201402941 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Fornari, Rocco P.;Troisi, Alessandro;
2:2:491 Solution-based silk fibroin dielectric in n-type C-60 organic field-effect transistors: Mobility enhancement by the pentacene interlayer
DOI:10.1063/1.4841595 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Tsai, Li-Shiuan;Hwang, Jenn-Chang;Lee, Chun-Yi;Lin, Yi-Ting;Tsai, Cheng-Lun;Chang, Ting-Hao;Chueh, Yu-Lun;Meng, Hsin-Fei;
2:2:492 Ultrathin Body Poly(3-hexylthiophene) Transistors with Improved Short-Channel Performance
DOI:10.1021/am3027103 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Wang, Chenchen;Rivnay, Jonathan;Himmelberger, Scott;Vakhshouri, Kiarash;Toney, Michael F.;Gomez, Enrique D.;Salleo, Alberto;
2:2:493 Long-Term Air-Stable n-Channel Organic Thin-Film Transistors Using 2,5-Difluoro-1,4-phenylene-bis{2-[4-(trifluoromethyl)phenyl]acrylonitril e}
DOI:10.1021/am404549e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Nagamatsu, Shuichi;Oku, Shinya;Kuramoto, Kouji;Moriguchi, Tetsuji;Takashima, Wataru;Okauchi, Tatsuo;Hayase, Shuzi;
2:2:494 Very Large Silacylic Substituent Effects on Response in Silole-Based Polymer Transistors
DOI:10.1021/cm200009k JN:CHEMISTRY OF MATERIALS PY:2011 TC:16 AU: Huang, Hui;Youn, Jangdae;Ponce Ortiz, Rocio;Zheng, Yan;Facchetti, Antonio;Marks, Tobin;
2:2:495 Tri-N-annulated Hexarylene: An Approach to Well-Defined Graphene Nanoribbons with Large Dipoles
DOI:10.1021/ja100276x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:38 AU: Li, Yan;Gao, Jing;Di Motta, Simone;Negri, Fabrizia;Wang, Zhaohui;
2:2:496 Striking Effect of Intra- versus Intermolecular Hydrogen Bonding on Zwitterions: Physical and Electronic Properties
DOI:10.1021/ja506803y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Zheng, Yonghao;Miao, Mao-sheng;Zhang, Yuan;Thuc-Quyen Nguyen;Wudl, Fred;
2:2:497 Synthesis and FET characteristics of phenylene-vinylene and anthracene-vinylene compounds containing cyano groups
DOI:10.1039/c0jm00715c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:8 AU: Shoji, Kohei;Nishida, Jun-ichi;Kumaki, Daisuke;Tokito, Shizuo;Yamashita, Yoshiro;
2:2:498 Benzo[1,2-b:6,5-b ']dithiophene(dithiazole)-4,5-dione derivatives: synthesis, electronic properties, crystal packing and charge transport
DOI:10.1039/c2tc00805j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Getmanenko, Yulia A.;Fonari, Marina;Risko, Chad;Sandhu, Bhupinder;Galan, Elena;Zhu, Lingyun;Tongwa, Paul;Hwang, Do Kyung;Singh, Sanjeev;Wang, He;Tiwari, Shree Prakash;Loo, Yueh-Lin;Bredas, Jean-Luc;Kippelen, Bernard;Timofeeva, Tatiana;Marder, Seth R.;
2:2:499 Electron-transporting phenazinothiadiazoles with engineered microstructure
DOI:10.1039/c4tc01992j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Lindner, Benjamin D.;Paulus, Fabian;Appleton, Anthony L.;Schaffroth, Manuel;Engelhart, Jens U.;Schelkle, Korwin M.;Tverskoy, Olena;Rominger, Frank;Hamburger, Manuel;Bunz, Uwe H. F.;
2:2:500 Perfluoroarene units in distyryl-oligothiophene analogues: An efficient electron density confinement preventing n-type transport in organic thin film transistors
DOI:10.1016/j.synthmet.2012.03.008 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Ponce Ortiz, Rocio;Brisset, Hugues;Videlot-Ackermann, Christine;
2:2:501 Electrochromic properties of 3-arylthieno[3,2-b]thiophenes
DOI:10.1016/j.synthmet.2013.11.018 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Capan, Asli;Ozturk, Turan;
2:2:502 Non-Peripheral Tetrahexyl-Substituted Vanadyl Phthalocyanines with Intermolecular Cofacial pi-pi Stacking for Solution-Processed Organic Field-Effect Transistors
DOI:10.1002/adma.201004776 JN:ADVANCED MATERIALS PY:2011 TC:11 AU: Dong, Shaoqiang;Tian, Hongkun;Huang, Lizhen;Zhang, Jidong;Yan, Donghang;Geng, Yanhou;Wang, Fosong;
2:2:503 Organic Thin-Film Transistors Processed from Relatively Nontoxic, Environmentally Friendlier Solvents
DOI:10.1021/cm102071m JN:CHEMISTRY OF MATERIALS PY:2010 TC:5 AU: Li, Jun;Bao, Qiaoliang;Li, Chang M.;Zhang, Wei;Gong, Cheng;Chan-Park, Mary B.;Qin, Jingui;Ong, Beng S.;
2:2:504 Synthesis, Characterization, and Transistor and Solar Cell Applications of a Naphthobisthiadiazole-Based Semiconducting Polymer (vol 134, pg 3498, 2012)
DOI:10.1021/ja3015346 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:3 AU: Osaka, Itaru;Shimawaki, Masafumi;Mori, Hiroki;Doi, Iori;Miyazaki, Eigo;Koganezawa, Tomoyuki;Takimiya, Kazuo;
2:2:505 Natural Product and Material Chemistries-Separated Forever?
DOI:10.1021/ja309186q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:2 AU: Kunz, Horst;Muellen, Klaus;
2:2:506 Synthesis and structural, electronic, optical and FET properties of thiophene-pyrrole mixed hexamers end-capped with phenyl and pentafluorophenyl groups
DOI:10.1039/c1jm12966j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:14 AU: Nishinaga, Tohru;Miyata, Toshihiko;Tateno, Masaki;Koizumi, Masahide;Takase, Masayoshi;Iyoda, Masahiko;Kobayashi, Norihito;Kunugi, Yoshihito;
2:2:507 High performance organic thin film transistor based on pentacene derivative: 6,13-dichloropentacene
DOI:10.1039/c2jm16871e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Li, Jie;Wang, Mao;Ren, Shendong;Gao, Xike;Hong, Wei;Li, Hongxiang;Zhu, Daoben;
2:2:508 High-performance organic field-effect transistors based on dihexyl-substituted dibenzo[d,d ']thieno[3,2-b;4,5-b ']dithiophene
DOI:10.1039/c2jm30840a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Miyata, Yasuo;Yoshikawa, Eiji;Minari, Takeo;Tsukagoshi, Kazuhito;Yamaguchi, Shigehiro;
2:2:509 High-Performance Printed Organic Ambipolar Complementary Inverters with Polyazine Containing Diketopyrrolopyrrole
DOI:10.1080/15421406.2014.936800 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Park, Won-Tae;Kang, Seok-Ju;Noh, Yong-Young;
2:2:510 Synthesis and Photovoltaic Properties of Moderate Band Gap Diketopyrrolopyrrole Based Small Molecules for Solution Processed Organic Solar Cells
DOI:10.1080/15421406.2014.933388 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Bagde, Sushil;Dutta, Pranabesh;Park, Hanok;Lee, Soo-Hyoung;
2:2:511 CONJUGATED POLYMERS Long and winding polymeric roads
DOI:10.1038/nmat3790 JN:NATURE MATERIALS PY:2013 TC:5 AU: Podzorov, Vitaly;
2:2:512 Characterization of a soluble anthradithiophene derivative
DOI:10.1063/1.3495998 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Conrad, B. R.;Chan, C. K.;Loth, M. A.;Parkin, S. R.;Zhang, X.;DeLongchamp, D. M.;Anthony, J. E.;Gundlach, D. J.;
2:2:513 Influence of dielectric-dependent interfacial widths on device performance in top-gate P(NDI2OD-T2) field-effect transistors (vol 101, 093308, 2012)
DOI:10.1063/1.4762831 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Yan, Hongping;Schuettfort, Torben;Kronemeijer, Auke J.;McNeill, Christopher R.;Ade, Harald W.;
2:2:514 Synthesis and Photovoltaic Properties of Dithienyl Benzotriazole Based Poly(phenylene vinylene)s
DOI:10.1002/app.33224 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:6 AU: Zhang, Zhenhua;Peng, Bo;Ding, Ping;Liu, Bo;He, Yuehui;Zhou, Kechao;Li, Yongfang;Pan, Chunyue;Zou, Yingping;
2:2:515 A molecular design principle of lyotropic liquid-crystalline conjugated polymers with directed alignment capability for plastic electronics
DOI:10.1038/NMAT3595 JN:NATURE MATERIALS PY:2013 TC:51 AU: Kim, Bong-Gi;Jeong, Eun Jeong;Chung, Jong Won;Seo, Sungbaek;Koo, Bonwon;Kim, Jinsang;
2:2:516 5 '-(Anthracene-9,10-diyl)bis(ethyne-2,1-diyl)bis(2-hexylthiophene) derivatives bearing 5-ethynyl-5 '-hexyl-2,2 '-bithiophene and 2-ethynyl-5-hexylthieno[3,2-b]thiophene: Thin film transistors and photovoltaic applications
DOI:10.1016/j.synthmet.2011.02.009 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Jo, Soyoung;Shin, Jicheol;Bae, Suk Young;Kim, Kyung Hwan;Lee, Tae Wan;Son, Sunkyung;Kim, Kyungkon;Choi, Dong Hoon;
2:2:517 Improved stability in N-alkylated organic semiconductors for thin film transistors: Synthesis and characterization of N,N '-dialkylated dihydrodiazapentacene derivatives
DOI:10.1016/j.synthmet.2012.05.014 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Itoh, Tetsuji;Aomori, Shigeru;Oh-e, Masahito;Koden, Mitsuhiro;Arakawa, Yasuhiko;
2:2:518 Imaging nanostructures in organic Semiconductor films with scanning transmission X-ray spectro-microscopy
DOI:10.1016/j.synthmet.2011.09.016 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Watts, Benjamin;McNeill, Christopher R.;Raabe, Joerg;
2:2:519 Dielectric spectroscopy of [P(NID2OD-T2)](n) thin films: Effects of UV radiation on charge transport
DOI:10.1016/j.tsf.2014.07.007 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Sepulveda, Pablo I.;Rosado, Alexander O.;Pinto, Nicholas J.;
2:2:520 Low-voltage organic field-effect transistors based on novel high-kappa organometallic lanthanide complex for gate insulating materials
DOI:10.1063/1.4894450 JN:AIP ADVANCES PY:2014 TC:0 AU: Liu, Qi;Li, Yi;Zhang, Yang;Sun, Huabin;Song, You;Li, Yun;Shi, Yi;Wang, Xizhang;Hu, Zheng;
2:2:521 Strain-Tunable Superconducting Field-Effect Transistor with an Organic Strongly-Correlated Electron System
DOI:10.1002/adma.201305797 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Suda, Masayuki;Kawasugi, Yoshitaka;Minari, Takeo;Tsukagoshi, Kazuhito;Kato, Reizo;Yamamoto, Hiroshi M.;
2:2:522 Time-of-flight mobility of charge carriers in position-dependent electric field between coplanar electrodes
DOI:10.1063/1.4742149 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Pavlica, Egon;Bratina, Gvido;
2:2:523 Improved Field-Effect Transistor Performance of a Benzotrithiophene Polymer through Ketal Cleavage in the Solid State (vol 5, pg 1806, 2013)
DOI:10.1021/am400946r JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:0 AU: Nielsen, Christian B.;Sohn, Eun-Ho;Cho, Dong-Jun;Schroeder, Bob C.;Smith, Jeremy;Lee, Mongryong;Anthopoulos, Thomas D.;Song, Kigook;McCulloch, Iain;
2:2:524 Naphthalenediimide-Based Copolymers Incorporating Vinyl-Linkages for High-Performance Ambipolar Field-Effect Transistors and Complementary-Like Inverters under Air (vol 25, pg 3589, 2013)
DOI:10.1021/cm403794w JN:CHEMISTRY OF MATERIALS PY:2013 TC:1 AU: Chen, Huajie;Guo, Yunlong;Mao, Zupan;Yu, Gui;Huang, Jianyao;Zhao, Yan;Liu, Yunqi;
2:2:525 Combining Electron-Neutral Building Blocks with Intramolecular 'Conformational Locks' Affords Stable, High-Mobility P- and N-Channel Polymer Semiconductors (vol 134, pg 10966, 2012)
DOI:10.1021/ja400834j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:0 AU: Huang, Hui;Chen, Zhihua;Ortiz, Rocio Ponce;Newman, Christopher;Usta, Hakan;Lou, Sylvia;Youn, Jangdae;Noh, Yong-Young;Baeg, Kang-Jun;Chen, Lin X.;Facchetti, Antonio;Marks, Tobin J.;
2:2:526 Detailed investigation of the conducting channel in poly(3-hexylthiophene) field effect transistors
DOI:10.1063/1.3488607 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: von Hauff, Elizabeth;Johnen, Fabian;Tunc, Ali Veysel;Govor, Leonid;Parisi, Juergen;
2:2:527 Solution processed tetrasubstituted zinc phthalocyanine as an active layer in organic field effect transistors
DOI:10.1063/1.3428386 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Chaure, Nandu B.;Basova, Tamara;Zahedi, Marjan;Ray, Asim K.;Sharma, Ashwani K.;Durmus, Mahmut;Ahsen, Vefa;
2:2:528 Synthesis, characterization, and photoinduced electron transfer properties of core-functionalized perylene-3,4:9,10-bis(dicarboximide)s with pendant anthracenes
DOI:10.1039/c1jm13397g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:3 AU: Ando, Shinji;Ramanan, Charusheela;Facchetti, Antonio;Wasielewski, Michael R.;Marks, Tobin J.;
2:2:529 Organic semiconductors based on annelated beta-oligothiophenes and its application for organic field-effect transistors
DOI:10.1039/c1jm14383b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Shi, Jianwu;Li, Yabo;Jia, Ming;Xu, Li;Wang, Hua;
2:2:530 Electrical property of pentacene organic thin-film transistors with a complementary-gated structure
DOI:10.1007/s10853-009-4194-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:1 AU: Ko, Jun Bin;Hong, Jun-Hee;
2:2:531 Characteristics of Vertical Type Organic Light Emitting Transistor Using IF-dione-F as an Active Layer and DMDCNQI as a n Type Buffer Layer
DOI:10.1080/15421406.2012.701833 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Lee, Tae Yeon;Park, Jong Wook;Cho, Jeong Ho;Oh, Se Young;
2:2:532 Synthesis and Photovoltaic Properties of Low-Band Gap Copolymers Containing Perylene Diimide Derivatives
DOI:10.1080/15421406.2013.804780 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Jin, Sung-Ho;Ban, Taewon;Park, Juhyeon;Gal, Yeong-Soon;Lee, Jae Wook;
2:2:533 Synthesis and Properties of 1,3-Indandione-Disubstituted Derivatives of Carbazole, Phenothiazine, and Phenoxazine
DOI:10.1080/15421406.2013.873851 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Zilinskaite, Vita;Gudeika, Dalius;Grazulevicius, Juozas V.;Sidaravicius, Jonas;
2:2:534 Electrochemical characterization of alternate conducting carbazole-bisthiophene units
DOI:10.1016/j.matchemphys.2011.10.047 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:14 AU: Lapkowski, Mieczyslaw;Data, Przemyslaw;Nowakowska-Oleksy, Anna;Soloducho, Jadwiga;Roszak, Szczepan;
2:2:535 Spectroscopic ellipsometry as a complementary tool for studying luminescent polymers: Poly(p-phenylenevinylene) as a particular case
DOI:10.1016/j.matchemphys.2013.06.037 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Bianchi, Rodrigo F.;Goncalves, Debora;
2:2:536 EU-US joint consultative group meets on science and technology cooperation
DOI:10.1557/mrs.2013.91 JN:MRS BULLETIN PY:2013 TC:0 AU: [Anonymous];
2:2:537 New aliphatic-aromatic tetraphenylphthalic-based diimides: Thermal, optical and electrical study
DOI:10.1016/j.optmat.2010.12.017 JN:OPTICAL MATERIALS PY:2011 TC:1 AU: Iwan, Agnieszka;Schab-Balcerzak, Ewa;Siwy, Mariola;Sikora, Andrzej;Palewicz, Marcin;Janeczek, Henryk;Sibinski, Maciej;
2:2:538 Quality improvement of organic thin films deposited on vibrating substrates
DOI:10.1016/j.tsf.2011.10.040 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Paredes, Y. A.;Caldas, P. G.;Prioli, R.;Cremona, M.;
2:2:539 Effect of titanium oxide-polystyrene nanocomposite dielectrics on morphology and thin film transistor performance for organic and polymeric semiconductors
DOI:10.1016/j.tsf.2012.05.075 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Della Pelle, Andrea M.;Maliakal, Ashok;Sidorenko, Alexander;Thayumanavan, S.;
2:3:1 Simultaneous Enhancement of Open-Circuit Voltage, Short-Circuit Current Density, and Fill Factor in Polymer Solar Cells
DOI:10.1002/adma.201103006 JN:ADVANCED MATERIALS PY:2011 TC:1066 AU: He, Zhicai;Zhong, Chengmei;Huang, Xun;Wong, Wai-Yeung;Wu, Hongbin;Chen, Liwei;Su, Shijian;Cao, Yong;
2:3:2 Inverted Polymer Solar Cells Integrated with a Low-Temperature-Annealed Sol-Gel-Derived ZnO Film as an Electron Transport Layer
DOI:10.1002/adma.201004301 JN:ADVANCED MATERIALS PY:2011 TC:448 AU: Sun, Yanming;Seo, Jung Hwa;Takacs, Christopher J.;Seifter, Jason;Heeger, Alan J.;
2:3:3 Interface Engineering for Organic Electronics
DOI:10.1002/adfm.200902236 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:429 AU: Ma, Hong;Yip, Hin-Lap;Huang, Fei;Jen, Alex K. -Y.;
2:3:4 Interface materials for organic solar cells
DOI:10.1039/b921624c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:325 AU: Steim, Roland;Kogler, F. Rene;Brabec, Christoph J.;
2:3:5 Improved High-Efficiency Organic Solar Cells via Incorporation of a Conjugated Polyelectrolyte Interlayer
DOI:10.1021/ja2037673 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:253 AU: Seo, Jung Hwa;Gutacker, Andrea;Sun, Yanming;Wu, Hongbin;Huang, Fei;Cao, Yong;Scherf, Ullrich;Heeger, Alan J.;Bazan, Guillermo C.;
2:3:6 Interface investigation and engineering - achieving high performance polymer photovoltaic devices
DOI:10.1039/b925382c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:289 AU: Chen, Li-Min;Xu, Zheng;Hong, Ziruo;Yang, Yang;
2:3:7 Highly Efficient and Stable Inverted Polymer Solar Cells Integrated with a Cross-Linked Fullerene Material as an Interlayer
DOI:10.1021/ja100236b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:210 AU: Hsieh, Chao-Hsiang;Cheng, Yen-Ju;Li, Pei-Jung;Chen, Chiu-Hsiang;Dubosc, Martin;Liang, Ru-Meng;Hsu, Chain-Shu;
2:3:8 Polymer solar cells: Recent development and possible routes for improvement in the performance
DOI:10.1016/j.solmat.2009.10.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:285 AU: Cai, Wanzhu;Gong, Xiong;Cao, Yong;
2:3:9 Modeling and simulation of bulk heterojunction polymer solar cells
DOI:10.1016/j.solmat.2014.04.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Liang, Chunjun;Wang, Yongsheng;Li, Dan;Ji, Xingchen;Zhang, Fujun;He, Zhiqun;
2:3:10 Combination of Indene-C-60 Bis-Adduct and Cross-Linked Fullerene Interlayer Leading to Highly Efficient Inverted Polymer Solar Cells
DOI:10.1021/ja108259n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:177 AU: Cheng, Yen-Ju;Hsieh, Chao-Hsiang;He, Youjun;Hsu, Chain-Shu;Li, Yongfang;
2:3:11 High-Efficiency Polymer Solar Cells Enhanced by Solvent Treatment
DOI:10.1002/adma.201204306 JN:ADVANCED MATERIALS PY:2013 TC:162 AU: Zhou, Huiqiong;Zhang, Yuan;Seifter, Jason;Collins, Samuel D.;Luo, Chan;Bazan, Guillermo C.;Thuc-Quyen Nguyen;Heeger, Alan J.;
2:3:12 High-Performance Inverted Polymer Solar Cells with Solution-Processed Titanium Chelate as Electron-Collecting Layer on ITO Electrode
DOI:10.1002/adma.201104863 JN:ADVANCED MATERIALS PY:2012 TC:168 AU: Tan, Zhan'ao;Zhang, Wenqing;Zhang, Zhiguo;Qian, Deping;Huang, Ye;Hou, Jianhui;Li, Yongfang;
2:3:13 Recent Advances in Polymer Solar Cells: Realization of High Device Performance by Incorporating Water/AlcoholSoluble Conjugated Polymers as Electrode Buffer Layer
DOI:10.1002/adma.201303391 JN:ADVANCED MATERIALS PY:2014 TC:41 AU: He, Zhicai;Wu, Hongbin;Cao, Yong;
2:3:14 Effects of the Morphology of a ZnO Buffer Layer on the Photovoltaic Performance of Inverted Polymer Solar Cells
DOI:10.1002/adfm.201101915 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:110 AU: Liang, Zhiqiang;Zhang, Qifeng;Wiranwetchayan, Orawan;Xi, Junting;Yang, Zhou;Park, Kwangsuk;Li, Chundong;Cao, Guozhong;
2:3:15 Recent development of the inverted configuration organic solar cells
DOI:10.1016/j.solmat.2011.02.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:109 AU: Zhang, Fujun;Xu, Xiaowei;Tang, Weihua;Zhang, Jian;Zhuo, Zuliang;Wang, Jian;Wang, Jin;Xu, Zheng;Wang, Yongsheng;
2:3:16 Metal Oxide Nanoparticles as an Electron-Transport Layer in High-Performance and Stable Inverted Polymer Solar Cells
DOI:10.1002/adma.201201958 JN:ADVANCED MATERIALS PY:2012 TC:135 AU: You, Jingbi;Chen, Chun-Chao;Dou, Letian;Murase, Seiichiro;Duan, Hsin-Sheng;Hawks, Steven A.;Xu, Tao;Son, Hae Jung;Yu, Luping;Li, Gang;Yang, Yang;
2:3:17 Origin of the enhanced open-circuit voltage in polymer solar cells via interfacial modification using conjugated polyelectrolytes
DOI:10.1039/b921775d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:124 AU: He, Chao;Zhong, Chengmei;Wu, Hongbin;Yang, Renqiang;Yang, Wei;Huang, Fei;Bazan, Guillermo C.;Cao, Yong;
2:3:18 Largely Enhanced Efficiency with a PFN/Al Bilayer Cathode in High Efficiency Bulk Heterojunction Photovoltaic Cells with a Low Bandgap Polycarbazole Donor
DOI:10.1002/adma.201101319 JN:ADVANCED MATERIALS PY:2011 TC:135 AU: He, Zhicai;Zhang, Chen;Xu, Xiaofeng;Zhang, Lianjie;Huang, Liang;Chen, Junwu;Wu, Hongbin;Cao, Yong;
2:3:19 Fullerene Derivative-Doped Zinc Oxide Nanofilm as the Cathode of Inverted Polymer Solar Cells with Low-Bandgap Polymer (PTB7-Th) for High Performance
DOI:10.1002/adma.201301476 JN:ADVANCED MATERIALS PY:2013 TC:196 AU: Liao, Sih-Hao;Jhuo, Hong-Jyun;Cheng, Yu-Shan;Chen, Show-An;
2:3:20 High-performance polymer solar cells with a conjugated zwitterion by solution processing or thermal deposition as the electron-collection interlayer
DOI:10.1039/c2jm35221d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Sun, Kuan;Zhao, Baomin;Murugesan, Vajjiravel;Kumar, Amit;Zeng, Kaiyang;Subbiah, Jegadesan;Wong, Wallace W. H.;Jones, David J.;Ouyang, Jianyong;
2:3:21 Understanding Low Bandgap Polymer PTB7 and Optimizing Polymer Solar Cells Based on It
DOI:10.1002/adma.201400384 JN:ADVANCED MATERIALS PY:2014 TC:58 AU: Lu, Luyao;Yu, Luping;
2:3:22 Water-Soluble Polyfluorenes as an Interfacial Layer Leading to Cathode-Independent High Performance of Organic Solar Cells
DOI:10.1002/adfm.200902386 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:106 AU: Oh, Seung-Hwan;Na, Seok-In;Jo, Jang;Lim, Bogyu;Vak, Doojin;Kim, Dong-Yu;
2:3:23 Combination of Titanium Oxide and a Conjugated Polyelectrolyte for High-Performance Inverted-Type Organic Optoelectronic Devices
DOI:10.1002/adma.201100266 JN:ADVANCED MATERIALS PY:2011 TC:105 AU: Choi, Hyosung;Park, Ji Sun;Jeong, Eunjae;Kim, Gi-Hwan;Lee, Bo Ram;Kim, Sang Ouk;Song, Myoung Hoon;Woo, Han Young;Kim, Jin Young;
2:3:24 Electrostatically Self-Assembled Nonconjugated Polyelectrolytes as an Ideal Interfacial Layer for Inverted Polymer Solar Cells
DOI:10.1002/adma.201200594 JN:ADVANCED MATERIALS PY:2012 TC:83 AU: Kang, Hongkyu;Hong, Soonil;Lee, Jongjin;Lee, Kwanghee;
2:3:25 Enhanced Open-Circuit Voltage in High Performance Polymer/Fullerene Bulk-Heterojunction Solar Cells by Cathode Modification with a C60 Surfactant
DOI:10.1002/aenm.201100522 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:88 AU: O'Malley, Kevin M.;Li, Chang-Zhi;Yip, Hin-Lap;Jen, Alex K. -Y.;
2:3:26 Enhanced Performance in Polymer Solar Cells by Surface Energy Control
DOI:10.1002/adfm.201000960 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:119 AU: Bulliard, Xavier;Ihn, Soo-Ghang;Yun, Sungyoung;Kim, Yungi;Choi, Dukhyun;Choi, Jae-Young;Kim, Min;Sim, Myungsun;Park, Jong-Hwan;Choi, Woong;Cho, Kilwon;
2:3:27 High-Efficiency Inverted Polymer Solar Cells with Transparent and Work-Function Tunable MoO3-Al Composite Film as Cathode Buffer Layer
DOI:10.1002/adma.201200238 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Liu, Jian;Shao, Shuyan;Fang, Gang;Meng, Bin;Xie, Zhiyuan;Wang, Lixiang;
2:3:28 Inverted Polymer Solar Cells with Reduced Interface Recombination
DOI:10.1002/aenm.201200184 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:86 AU: Chen, Song;Small, Cephas E.;Amb, Chad M.;Subbiah, Jegadesan;Lai, Tzung-han;Tsang, Sai-Wing;Manders, Jesse R.;Reynolds, John R.;So, Franky;
2:3:29 Interlayer for Modified Cathode in Highly Efficient Inverted ITO-Free Organic Solar Cells
DOI:10.1002/adma.201104579 JN:ADVANCED MATERIALS PY:2012 TC:51 AU: Tang, Zheng;Andersson, L. Mattias;George, Zandra;Vandewal, Koen;Tvingstedt, Kristofer;Heriksson, Patrik;Kroon, Renee;Andersson, Mats R.;Inganas, Olle;
2:3:30 Effect of Chemical Modification of Fullerene-Based Self-Assembled Monolayers on the Performance of Inverted Polymer Solar Cells
DOI:10.1021/am100238e JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:87 AU: Hau, Steven K.;Cheng, You-Jung;Yip, Hin-Lap;Zhang, Yong;Ma, Hong;Jen, Alex K. -Y.;
2:3:31 Highly Efficient Inverted Polymer Solar Cells Based on an Alcohol Soluble Fullerene Derivative Interfacial Modification Material
DOI:10.1021/cm300824h JN:CHEMISTRY OF MATERIALS PY:2012 TC:53 AU: Duan, Chunhui;Zhong, Chengmei;Liu, Chunchen;Huang, Fei;Cao, Yong;
2:3:32 Highly efficient flexible inverted organic solar cells using atomic layer deposited ZnO as electron selective layer
DOI:10.1039/b921396a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:100 AU: Wang, Jen-Chun;Weng, Wei-Tse;Tsai, Meng-Yen;Lee, Ming-Kun;Horng, Sheng-Fu;Perng, Tsong-Pyng;Kei, Chi-Chung;Yu, Chih-Chieh;Meng, Hsin-Fei;
2:3:33 Electrostatic Self-Assembly Conjugated Polyelectrolyte-Surfactant Complex as an Interlayer for High Performance Polymer Solar Cells
DOI:10.1002/adfm.201200738 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:59 AU: Chang, Yi-Ming;Zhu, Rui;Richard, Eric;Chen, Chun-Chao;Li, Gang;Yang, Yang;
2:3:34 Effective interfacial layer to enhance efficiency of polymer solar cells via solution-processed fullerene-surfactants
DOI:10.1039/c2jm30755c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:59 AU: Li, Chang-Zhi;Chueh, Chu-Chen;Yip, Hin-Lap;O'Malley, Kevin M.;Chen, Wen-Chang;Jen, Alex K. -Y.;
2:3:35 Comparison of various sol-gel derived metal oxide layers for inverted organic solar cells
DOI:10.1016/j.solmat.2011.03.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:65 AU: Oh, Hyunchul;Krantz, Johannes;Litzov, Ivan;Stubhan, Tobias;Pinna, Luigi;Brabec, Christoph J.;
2:3:36 Solution-Processable Triindoles as Hole Selective Materials in Organic Solar Cells
DOI:10.1021/am300228w JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:16 AU: Shelton, Steve W.;Chen, Teresa L.;Barclay, David E.;Ma, Biwu;
2:3:37 Self n-doped [6,6]-phenyl-C61-butyric acid 2-((2-(trimethylammonium)ethyl)-(dimethyl)ammonium)ethyl ester diiodides as a cathode interlayer for inverted polymer solar cells
DOI:10.1039/c4ta02682a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Jiao, Weixiang;Ma, Di;Lv, Menglan;Chen, Weiwei;Wang, Haiqiao;Zhu, Jin;Lei, Ming;Chen, Xiwen;
2:3:38 Stable Inverted Polymer/Fullerene Solar Cells Using a Cationic Polythiophene Modified PEDOT:PSS Cathodic Interface
DOI:10.1002/adfm.201000304 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:53 AU: Rider, David A.;Worfolk, Brian J.;Harris, Kenneth D.;Lalany, Abeed;Shahbazi, Kevin;Fleischauer, Michael D.;Brett, Michael J.;Buriak, Jillian M.;
2:3:39 Highly Efficient Inverted Organic Solar Cells Through Material and Interfacial Engineering of Indacenodithieno[ 3,2-b] thiophene- Based Polymers and Devices
DOI:10.1002/adfm.201302426 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:31 AU: Intemann, Jeremy J.;Yao, Kai;Li, Yong-Xi;Yip, Hin-Lap;Xu, Yun-Xiang;Liang, Po-Wei;Chueh, Chu-Chen;Ding, Fei-Zhi;Yang, Xi;Li, Xiaosong;Chen, Yiwang;Jen, Alex K. -Y.;
2:3:40 Post-Deposition Treatment of an Arylated-Carbazole Conjugated Polymer for Solar Cell Fabrication
DOI:10.1002/adma.201201567 JN:ADVANCED MATERIALS PY:2012 TC:59 AU: Liu, Xiaofeng;Wen, Wen;Bazan, Guillermo C.;
2:3:41 Self-Assembled and Cross-Linked Fullerene Interlayer on Titanium Oxide for Highly Efficient Inverted Polymer Solar Cells
DOI:10.1021/cm1032404 JN:CHEMISTRY OF MATERIALS PY:2011 TC:69 AU: Cheng, Yen-Ju;Cao, Fong-Yi;Lin, Wei-Cheng;Chen, Chiu-Hsiang;Hsieh, Chao-Hsiang;
2:3:42 Multiple Functionalities of Polyfluorene Grafted with Metal Ion-Intercalated Crown Ether as an Electron Transport Layer for Bulk-Heterojunction Polymer Solar Cells: Optical Interference, Hole Blocking, Interfacial Dipole, and Electron Conduction
DOI:10.1021/ja303813s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:57 AU: Liao, Sih-Hao;Li, Yi-Lun;Jen, Tzu-Hao;Cheng, Yu-Shan;Chen, Show-An;
2:3:43 High-Efficiency Polymer Solar Cells via the Incorporation of an Amino-Functionalized Conjugated Metallopolymer as a Cathode Interlayer
DOI:10.1021/ja408363c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:69 AU: Liu, Shengjian;Zhang, Kai;Lu, Junming;Zhang, Jie;Yip, Hin-Lap;Huang, Fei;Cao, Yong;
2:3:44 Enhanced Performance and Air Stability of Polymer Solar Cells by Formation of a Self-Assembled Buffer Layer from Fullerene-End-Capped Poly(ethylene glycol)
DOI:10.1002/adma.201003996 JN:ADVANCED MATERIALS PY:2011 TC:56 AU: Jung, Jae Woong;Jo, Jea Woong;Jo, Won Ho;
2:3:45 Increasing the Fill Factor of Inverted P3HT:PCBM Solar Cells Through Surface Modification of Al-Doped ZnO via Phosphonic Acid-Anchored C60 SAMs
DOI:10.1002/aenm.201100668 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:51 AU: Stubhan, Tobias;Salinas, Michael;Ebel, Alexander;Krebs, Frederick C.;Hirsch, Andreas;Halik, Marcus;Brabec, Christoph J.;
2:3:46 Work Function Control of Interfacial Buffer Layers for Efficient and Air-Stable Inverted Low-Bandgap Organic Photovoltaics
DOI:10.1002/aenm.201100714 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:25 AU: Worfolk, Brian J.;Hauger, Tate C.;Harris, Kenneth D.;Rider, David A.;Fordyce, Jordan A. M.;Beaupre, Serge;Leclerc, Mario;Buriak, Jillian M.;
2:3:47 A water-soluble metallophthalocyanine derivative as a cathode interlayer for highly efficient polymer solar cells
DOI:10.1039/c4ta01586j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Cheng, Xiao;Sun, Shuheng;Chen, Youchun;Gao, Yajun;Ai, Lin;Jia, Tao;Li, Fenghong;Wang, Yue;
2:3:48 Amino N-Oxide Functionalized Conjugated Polymers and their Amino-Functionalized Precursors: New Cathode Interlayers for High-Performance Optoelectronic Devices
DOI:10.1002/adfm.201200199 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:49 AU: Guan, Xing;Zhang, Kai;Huang, Fei;Bazan, Guillermo C.;Cao, Yong;
2:3:49 Highly Efficient Electron Injection from Indium Tin Oxide/Cross-Linkable Amino-Functionalized Polyfluorene Interface in Inverted Organic Light Emitting Devices
DOI:10.1021/cm2025685 JN:CHEMISTRY OF MATERIALS PY:2011 TC:50 AU: Zhong, Chengmei;Liu, Shengjian;Huang, Fei;Wu, Hongbin;Cao, Yong;
2:3:50 Self-assembled buffer layer from conjugated diblock copolymers with ethyleneoxide side chains for high efficiency polymer solar cells
DOI:10.1039/c4tc01388c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Shi, Yueqin;Tan, Licheng;Chen, Lie;Chen, Yiwang;
2:3:51 Self-Organization of Amine-Based Cathode Interfacial Materials in Inverted Polymer Solar Cells
DOI:10.1021/nn4059067 JN:ACS NANO PY:2014 TC:22 AU: Ma, Di;Lv, Menglan;Lei, Ming;Zhu, Jin;Wang, Haiqiao;Chen, Xiwen;
2:3:52 Fabrication, Optical Modeling, and Color Characterization of Semitransparent Bulk-Heterojunction Organic Solar Cells in an Inverted Structure
DOI:10.1002/adfm.201000176 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:90 AU: Ameri, Tayebeh;Dennler, Gilles;Waldauf, Christoph;Azimi, Hamed;Seemann, Andrea;Forberich, Karen;Hauch, Jens;Scharber, Markus;Hingerl, Kurt;Brabec, Christoph J.;
2:3:53 Optimization of the Power Conversion Efficiency of Room Temperature-Fabricated Polymer Solar Cells Utilizing Solution Processed Tungsten Oxide and Conjugated Polyelectrolyte as Electrode Interlayer
DOI:10.1002/adfm.201304256 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Chen, Lie;Xie, Chen;Chen, Yiwang;
2:3:54 Amine group functionalized fullerene derivatives as cathode buffer layers for high performance polymer solar cells
DOI:10.1039/c3ta12478a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:21 AU: Zhang, Zhi-Guo;Li, Hui;Qi, Boyuan;Chi, Dan;Jin, Zhiwen;Qi, Zhe;Hou, Jianhui;Li, Yongfang;Wang, Jizheng;
2:3:55 Solution processable tungsten polyoxometalate as highly effective cathode interlayer for improved efficiency and stability polymer solar cells
DOI:10.1016/j.solmat.2013.02.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:23 AU: Palilis, Leonidas C.;Vasilopoulou, Maria;Douvas, Antonios M.;Georgiadou, Dimitra G.;Kennou, Stella;Stathopoulos, Nikolaos A.;Constantoudis, Vassilios;Argitis, Panagiotis;
2:3:56 [6,6]-Phenyl-C-61-Butyric Acid Dimethylamino Ester as a Cathode Buffer Layer for High-Performance Polymer Solar Cells
DOI:10.1002/aenm.201300425 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:24 AU: Li, Shusheng;Lei, Ming;Lv, Menglan;Watkins, Scott E.;Tan, Zhan'ao;Zhu, Jin;Hou, Jianhui;Chen, Xiwen;Li, Yongfang;
2:3:57 Overcoming the "Light-Soaking" Issue in Inverted Organic Solar Cells by the Use of Al:ZnO Electron Extraction Layers
DOI:10.1002/aenm.201300402 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:27 AU: Trost, Sara;Zilberberg, Kirill;Behrendt, Andreas;Polywka, Andreas;Goerrn, Patrick;Reckers, Philip;Maibach, Julia;Mayer, Thomas;Riedl, Thomas;
2:3:58 Finely Tailored Performance of Inverted Organic Photovoltaics through Layer-by-Layer Interfacial Engineering
DOI:10.1021/am200849r JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:17 AU: Chen, Qun;Worfolk, Brian J.;Hauger, Tate C.;Al-Atar, Usama;Harris, Kenneth D.;Buriak, Jillian M.;
2:3:59 Titanium dioxide electron-selective interlayers created by chemical vapor deposition for inverted configuration organic solar cells
DOI:10.1039/c3ta10894e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Ou, Kai-Lin;Tadytin, Delvin;Steirer, K. Xerxes;Placencia, Diogenes;Nguyen, Mike;Lee, Paul;Armstrong, Neal R.;
2:3:60 Efficient inverted bulk-heterojunction solar cells from low-temperature processing of amorphous ZnO buffer layers
DOI:10.1039/c4ta02276a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Jagadamma, Lethy Krishnan;Abdelsamie, Maged;El Labban, Abdulrahman;Aresu, Emanuele;Ndjawa, Guy O. Ngongang;Anjum, Dalaver H.;Cha, Dongkyu;Beaujuge, Pierre M.;Amassian, Aram;
2:3:61 Enhanced diode characteristics of organic solar cells using titanium suboxide electron transport layer
DOI:10.1063/1.3409116 JN:APPLIED PHYSICS LETTERS PY:2010 TC:56 AU: Lee, Jae Hyun;Cho, Shinuk;Roy, Anshuman;Jung, Hee-Tae;Heeger, Alan J.;
2:3:62 High-Performance Inverted Polymer Solar Cells: Device Characterization, Optical Modeling, and Hole-Transporting Modifications
DOI:10.1002/adfm.201102937 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:36 AU: Zou, Jingyu;Yip, Hin-Lap;Zhang, Yong;Gao, Yan;Chien, Shang-Chieh;O'Malley, Kevin;Chueh, Chu-Chen;Chen, Hongzheng;Jen, Alex K. -Y.;
2:3:63 Enhanced performance of inverted polymer solar cells with cathode interfacial tuning via water-soluble polyfluorenes
DOI:10.1063/1.3522893 JN:APPLIED PHYSICS LETTERS PY:2010 TC:53 AU: Na, Seok-In;Kim, Tae-Soo;Oh, Seung-Hwan;Kim, Junkyung;Kim, Seok-Soon;Kim, Dong-Yu;
2:3:64 N-Acyldithieno[3,2-b:2',3'-d]pyrrole-Based Low-Band-Gap Conjugated Polymer Solar Cells with Amine-Modified [6,6]-Phenyl-C61-butyric Acid Ester Cathode Inter layers
DOI:10.1021/am4032289 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Hong, Deng;Lv, Menglan;Lei, Ming;Chen, Yu;Lu, Ping;Wang, Yanguang;Zhu, Jin;Wang, Haiqiao;Gao, Mei;Watkins, Scott E.;Chen, Xiwen;
2:3:65 [6,6]-Phenyl-C-61-butyric Acid 2-((2(Dimethylamino)ethyl)(methyl)amino)-ethyl Ester as an Acceptor and Cathode Interfacial Material in Polymer Solar Cells
DOI:10.1021/am5007047 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Lv, Menglan;Lei, Ming;Zhu, Jin;Hirai, Tadahiko;Chen, Xiwen;
2:3:66 Inverted organic solar cells with ITO electrodes modified with an ultrathin Al2O3 buffer layer deposited by atomic layer deposition
DOI:10.1039/c0jm00662a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:52 AU: Zhou, Yinhua;Cheun, Hyeunseok;Potscavage, Willliam J., Jr.;Fuentes-Hernandez, Canek;Kim, Sung-Jin;Kippelen, Bernard;
2:3:67 High efficiency inverted polymeric bulk-heterojunction solar cells with hydrophilic conjugated polymers as cathode interlayer on ITO
DOI:10.1016/j.solmat.2011.09.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:50 AU: Zhu, Yongxiang;Xu, Xiaofeng;Zhang, Lianjie;Chen, Junwu;Cao, Yong;
2:3:68 Atomic-Layer-Deposited Aluminum and Zirconium Oxides for Surface Passivation of TiO2 in High-Efficiency Organic Photovoltaics
DOI:10.1002/aenm.201400214 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Vasilopoulou, Maria;Georgiadou, Dimitra G.;Soultati, Anastasia;Boukos, Nikos;Gardelis, Spyros;Palilis, Leonidas C.;Fakis, Mihalis;Skoulatakis, Georgios;Kennou, Stella;Botzakaki, Martha;Georga, Stavroula;Krontiras, Christoforos A.;Auras, Florian;Fattakhova-Rohlfing, Dina;Bein, Thomas;Papadopoulos, Theodoros A.;Davazoglou, Dimitrios;Argitis, Panagiotis;
2:3:69 Highly Efficient, Inverted Polymer Solar Cells with Indium Tin Oxide Modified with Solution-Processed Zwitterions as the Transparent Cathode
DOI:10.1021/am201844q JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:23 AU: Sun, Kuan;Zhao, Baomin;Kumar, Amit;Zeng, Kaiyang;Ouyang, Jianyong;
2:3:70 Transient characteristics of inverted polymer solar cells using titaniumoxide interlayers
DOI:10.1063/1.3455108 JN:APPLIED PHYSICS LETTERS PY:2010 TC:53 AU: Schmidt, H.;Zilberberg, K.;Schmale, S.;Fluegge, H.;Riedl, T.;Kowalsky, W.;
2:3:71 Thermal-annealing-free inverted polymer solar cells using ZnO/Cs2CO3 bilayer as electron-selective layer
DOI:10.1016/j.solmat.2012.04.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:21 AU: Cheng, Gang;Tong, Wai-Yip;Low, Kam-Hung;Che, Chi-Ming;
2:3:72 Semi-Transparent Tandem Organic Solar Cells with 90% Internal Quantum Efficiency
DOI:10.1002/aenm.201200204 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:40 AU: Tang, Zheng;George, Zandra;Ma, Zaifei;Bergqvist, Jonas;Tvingstedt, Kristofer;Vandewal, Koen;Wang, Ergang;Andersson, L. Mattias;Andersson, Mats R.;Zhang, Fengling;Inganas, Olle;
2:3:73 Interface Control of Semiconducting Metal Oxide Layers for Efficient and Stable Inverted Polymer Solar Cells with Open-Circuit Voltages over 1.0 Volt
DOI:10.1021/am402175m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Yin, Zhigang;Zheng, Qingdong;Chen, Shan-Ci;Cai, Dongdong;
2:3:74 Influence of a novel fluorosurfactant modified PEDOT:PSS hole transport layer on the performance of inverted organic solar cells
DOI:10.1039/c2jm35646e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:30 AU: Lim, Fang Jeng;Ananthanarayanan, Krishnamoorthy;Luther, Joachim;Ho, Ghim Wei;
2:3:75 A Hyperbranched Conjugated Polymer as the Cathode Interlayer for High-Performance Polymer Solar Cells
DOI:10.1002/adma.201302726 JN:ADVANCED MATERIALS PY:2013 TC:25 AU: Lv, Menglan;Li, Shusheng;Jasieniak, Jacek J.;Hou, Jianhui;Zhu, Jin;Tan, Zhan'ao;Watkins, Scott E.;Li, Yongfang;Chen, Xiwen;
2:3:76 Amine-Based Polar Solvent Treatment for Highly Efficient Inverted Polymer Solar Cells
DOI:10.1002/adma.201302991 JN:ADVANCED MATERIALS PY:2014 TC:29 AU: Lee, Bo Ram;Jung, Eui Dae;Nam, Yun Seok;Jung, Minbok;Park, Ji Sun;Lee, Seungjin;Choi, Hyosung;Ko, Seo-Jin;Shin, Na Ra;Kim, Young-Kuk;Kim, Sang Ouk;Kim, Jin Young;Shin, Hyung-Joon;Cho, Shinuk;Song, Myoung Hoon;
2:3:77 Enhanced Performance of Inverted Polymer Solar Cells by Using Poly(ethylene oxide)-Modified ZnO as an Electron Transport Layer
DOI:10.1021/am302408w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:34 AU: Shao, Shuyan;Zheng, Kaibo;Pullerits, Tonu;Zhang, Fengling;
2:3:78 High-Performance Inverted Solar Cells Based on Blend Films of ZnO Naoparticles and TiO2 Nanorods as a Cathode Buffer Layer
DOI:10.1021/am405622q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Li, Pandeng;Sun, Chunming;Jiu, Tonggang;Wang, Guojie;Li, Jun;Li, Xiaofang;Fangt, Junfeng;
2:3:79 Inverted organic photovoltaic devices with high efficiency and stability based on metal oxide charge extraction layers
DOI:10.1039/c0jm03048a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:51 AU: Schumann, S.;Da Campo, R.;Illy, B.;Cruickshank, A. C.;McLachlan, M. A.;Ryan, M. P.;Riley, D. J.;McComb, D. W.;Jones, T. S.;
2:3:80 Effects of direct solvent exposure on the nanoscale morphologies and electrical characteristics of PCBM-based transistors and photovoltaics
DOI:10.1039/c2jm15260f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:37 AU: Nam, Sooji;Jang, Jaeyoung;Cha, Hyojung;Hwang, Jihun;An, Tae Kyu;Park, Seonuk;Park, Chan Eon;
2:3:81 Conjugated polyelectrolyte and zinc oxide stacked structure as an interlayer in highly efficient and stable organic photovoltaic cells
DOI:10.1039/c3ta10537g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:32 AU: Chang, Yi-Ming;Leu, Chi-Yi;
2:3:82 Electrode Considerations for the Optical Enhancement of Organic Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201100250 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:39 AU: Hadipour, Afshin;Cheyns, David;Heremans, Paul;Rand, Barry P.;
2:3:83 Conjugated Polymeric Zwitterions as Efficient Interlayers in Organic Solar Cells
DOI:10.1002/adma.201302477 JN:ADVANCED MATERIALS PY:2013 TC:23 AU: Liu, Feng;Page, Zachariah A.;Duzhko, Volodimyr V.;Russell, Thomas P.;Emrick, Todd;
2:3:84 Self-assembled monolayer as an interfacial modification material for highly efficient and air-stable inverted organic solar cells
DOI:10.1063/1.4802086 JN:APPLIED PHYSICS LETTERS PY:2013 TC:16 AU: Song, Myungkwan;Kang, Jae-Wook;Kim, Dong-Ho;Kwon, Jung-Dae;Park, Sung-Gyu;Nam, Sanggil;Jo, Sungjin;Ryu, Seung Yoon;Kim, Chang Su;
2:3:85 All-Organic Sulfonium Salts Acting as Efficient Solution Processed Electron Injection Layer for PLEDs
DOI:10.1021/am402991b JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Georgiadou, Dimitra G.;Vasilopoulou, Maria;Palilis, Leonidas C.;Petsalakis, Ioannis D.;Theodorakopoulos, Giannoula;Constantoudis, Vassilios;Kennou, Stella;Karantonis, Antonis;Dimotikali, Dimitra;Argitis, Panagiotis;
2:3:86 Interface Engineering to Enhance the Efficiency of Conventional Polymer Solar Cells by Alcohol-/Water-Soluble C-60 Materials Doped with Alkali Carbonates
DOI:10.1021/am400962e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Lai, Yu-Ying;Shih, Ping-I;Li, Yi-Peng;Tsai, Che-En;Wu, Jhong-Sian;Cheng, Yen-Ju;Hsu, Chain-Shu;
2:3:87 Application of Biuret, Dicyandiamide, or Urea as a Cathode Buffer Layer toward the Efficiency Enhancement of Polymer Solar Cells
DOI:10.1021/am500013s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Zhao, Xuemei;Xu, Chenhui;Wang, Haitao;Chen, Fei;Zhang, Wenfeng;Zhao, Zhiqiang;Chen, Liwei;Yang, Shangfeng;
2:3:88 Solvents Induced ZnO Nanoparticles Aggregation Associated with Their Interfacial Effect on Organic Solar Cells
DOI:10.1021/am5051789 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Li, Pandeng;Jiu, Tonggang;Tang, Gang;Wang, Guojie;Li, Jun;Li, Xiaofang;Fang, Junfeng;
2:3:89 Imidazolium-Substituted Polythiophenes as Efficient Electron Transport Materials Improving Photovoltaic Performance
DOI:10.1002/aenm.201300049 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:19 AU: Kesters, Jurgen;Ghoos, Toon;Penxten, Huguette;Drijkoningen, Jeroen;Vangerven, Tim;Lyons, Dani M.;Verreet, Bregt;Aernouts, Tom;Lutsen, Laurence;Vanderzande, Dirk;Manca, Jean;Maes, Wouter;
2:3:90 Toward High-Performance Semi-Transparent Polymer Solar Cells: Optimization of Ultra-Thin Light Absorbing Layer and Transparent Cathode Architecture
DOI:10.1002/aenm.201200679 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:30 AU: Chueh, Chu-Chen;Chien, Shang-Chieh;Yip, Hin-Lap;Salinas, Jose Francisco;Li, Chang-Zhi;Chen, Kung-Shih;Chen, Fang-Chung;Chen, Wen-Chang;Jen, Alex K. -Y;
2:3:91 New solution-processable small molecules as hole-transporting layer in efficient polymer solar cells
DOI:10.1039/c3ta12935g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:6 AU: Lu, Kunyuan;Yuan, Jianyu;Peng, Jun;Huang, Xiaodong;Cui, Linsong;Jiang, Zuoquan;Wang, Hai-Qiao;Ma, Wanli;
2:3:92 Printable Highly Conductive Conjugated Polymer Sensitized ZnO NCs as Cathode Interfacial Layer for Efficient Polymer Solar Cells
DOI:10.1021/am501001v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Liu, Jian;Wu, Jiang;Shao, Shuyan;Deng, Yunfeng;Meng, Bin;Xie, Zhiyuan;Geng, Yanhou;Wang, Lixiang;Zhang, Fengling;
2:3:93 Cesium Carbonate Functionalized Graphene Quantum Dots as Stable Electron-Selective Layer for Improvement of Inverted Polymer Solar Cells
DOI:10.1021/am404638e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Yang, Hong Bin;Dong, Yong Qiang;Wang, Xizu;Khoo, Si Yun;Liu, Bin;
2:3:94 Self-Propagating Molecular Assemblies as Interlayers for Efficient Inverted Bulk-Heterojunction Solar Cells
DOI:10.1021/ja104695p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:47 AU: Motiei, Leila;Yao, Yan;Choudhury, Joyanta;Yan, He;Marks, Tobin J.;van der Boom, Milko E.;Facchetti, Antonio;
2:3:95 Conjugated Zwitterionic Polyelectrolyte as the Charge Injection Layer for High-Performance Polymer Light-Emitting Diodes
DOI:10.1021/ja108541z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:62 AU: Fang, Junfeng;Wallikewitz, Bodo H.;Gao, Feng;Tu, Guoli;Mueller, Christian;Pace, Giuseppina;Friend, Richard H.;Huck, Wilhelm T. S.;
2:3:96 Oleamide as a self-assembled cathode buffer layer for polymer solar cells: the role of the terminal group on the function of the surfactant
DOI:10.1039/c2jm35199d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Zhang, Wenfeng;Wang, Haitao;Chen, Boxue;Bi, Xianghong;Venkatesan, Swaminathan;Qiao, Qiquan;Yang, Shangfeng;
2:3:97 Self-assembly of carboxylated polythiophene nanowires for improved bulk heterojunction morphology in polymer solar cells
DOI:10.1039/c2jm30576c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Li, Weiwei;Worfolk, Brian J.;Li, Peng;Hauger, Tate C.;Harris, Kenneth D.;Buriak, Jillian M.;
2:3:98 Solution processed and self-assembled polymerizable fullerenes/metal oxide as an interlayer for high efficient inverted polymer solar cells
DOI:10.1039/c4tc01747a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Hu, Lin;Chen, Lie;Hu, Xiaotian;Chen, Yiwang;
2:3:99 Enhanced performance of polymer solar cell with ZnO nanoparticle electron transporting layer passivated by in situ cross-linked three-dimensional polymer network
DOI:10.1088/0957-4484/24/48/484012 JN:NANOTECHNOLOGY PY:2013 TC:8 AU: Wu, Zhongwei;Song, Tao;Xia, Zhouhui;Wei, Huaixin;Sun, Baoquan;
2:3:100 Fluorinated Copper Phthalocyanine Nanowires for Enhancing Interfacial Electron Transport in Organic Solar Cells
DOI:10.1021/nl303419n JN:NANO LETTERS PY:2012 TC:43 AU: Yoon, Seok Min;Lou, Sylvia J.;Loser, Stephen;Smith, Jeremy;Chen, Lin X.;Facchetti, Antonio;Marks, Tobin J.;
2:3:101 High-efficiency inverted solar cells based on a low bandgap polymer with excellent air stability
DOI:10.1016/j.solmat.2011.09.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:45 AU: Chu, Ta-Ya;Tsang, Sai-Wing;Zhou, Jiayun;Verly, Pierre G.;Lu, Jianping;Beaupre, Serge;Leclerc, Mario;Tao, Ye;
2:3:102 Solution-processed zinc oxide nanoparticles as interlayer materials for inverted organic solar cells
DOI:10.1016/j.solmat.2012.09.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:35 AU: Ibrahem, Mohammed Aziz;Wei, Hung-Yu;Tsai, Meng-Hung;Ho, Kuo-Chuan;Shyue, Jing-Jong;Chu, Chih Wie;
2:3:103 Using ultra-high molecular weight hydrophilic polymer as cathode interlayer for inverted polymer solar cells: Enhanced efficiency and excellent air-stability
DOI:10.1016/j.solmat.2014.01.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Cai, Ping;Zhong, Shu;Xu, Xiaofeng;Chen, Junwu;Chen, Wei;Huang, Fei;Ma, Yuguang;Cao, Yong;
2:3:104 Structure Tuning of Crown Ether Grafted Conjugated Polymers as the Electron Transport Layer in Bulk-Heterojunction Polymer Solar Cells for High Performance
DOI:10.1002/adfm.201401428 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Li, Yi-Lun;Cheng, Yu-Shan;Yeh, Po-Nan;Liao, Sih-Hao;Chen, Show-An;
2:3:105 Poly(ethylene glycol) modified [60]fullerene as electron buffer layer for high-performance polymer solar cells
DOI:10.1063/1.4801923 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Zhang, Zhi-Guo;Li, Hui;Qi, Zhe;Jin, Zhiwen;Liu, Guo;Hou, Jianhui;Li, Yongfang;Wang, Jizheng;
2:3:106 High-Efficiency Inverted Polymer Solar Cells with Double Interlayer
DOI:10.1021/am201537p JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:31 AU: Subbiah, Jegadesan;Amb, Chad M.;Irfan, Irfan;Gao, Yongli;Reynolds, John R.;So, Franky;
2:3:107 Solution-Processed Hybrid Cathode Interlayer for Inverted Organic Solar Cells
DOI:10.1021/am404053e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Wu, Yulei;Zhang, Wenjun;Li, Xiaodong;Min, Chao;Jiu, Tonggang;Zhu, Yuejin;Dai, Ning;Fang, Junfeng;
2:3:108 Self-Organized Hole Transport Layers Based on Polythiophene Diblock Copolymers for Inverted Organic Solar Cells with High Efficiency
DOI:10.1021/cm400297p JN:CHEMISTRY OF MATERIALS PY:2013 TC:21 AU: Yao, Kai;Chen, Lie;Chen, Xun;Chen, Yiwang;
2:3:109 Light-soaking issue in polymer solar cells: Photoinduced energy level alignment at the sol-gel processed metal oxide and indium tin oxide interface
DOI:10.1063/1.4728173 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:37 AU: Kim, Junghwan;Kim, Geunjin;Choi, Youna;Lee, Jongjin;Park, Sung Heum;Lee, Kwanghee;
2:3:110 Efficient inverted organic solar cells without an electron selective layer
DOI:10.1039/c0jm04269b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Wang, Jen-Chun;Lu, Cheng-Yueh;Hsu, Jui-Lin;Lee, Ming-Kun;Hong, Yun-Ru;Perng, Tsong-Pyng;Horng, Sheng-Fu;Meng, Hsin-Fei;
2:3:111 Enhanced photovoltaic performance of polymer solar cells by adding fullerene end-capped polyethylene glycol
DOI:10.1039/c0jm04559d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:47 AU: Tai, Qidong;Li, Jinhua;Liu, Zhike;Sun, Zhenhua;Zhao, Xingzhong;Yan, Feng;
2:3:112 Thermo-cleavable fullerene materials as buffer layers for efficient polymer solar cells
DOI:10.1039/c3ta11811h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Chen, Shan;Du, Xiaoyan;Ye, Gang;Cao, Jiamin;Sun, Hao;Xiao, Zuo;Ding, Liming;
2:3:113 A combination of Al-doped ZnO and a conjugated polyelectrolyte interlayer for small molecule solution-processed solar cells with an inverted structure
DOI:10.1039/c3ta12162c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:7 AU: Min, Jie;Zhang, Hong;Stubhan, Tobias;Luponosov, Yuriy N.;Kraft, Mario;Ponomarenko, Sergei A.;Ameri, Tayebeh;Scherf, Ullrich;Brabec, Christoph J.;
2:3:114 A solution-processed barium hydroxide modified aluminum doped zinc oxide layer for highly efficient inverted organic solar cells
DOI:10.1039/c4ta03421j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Zhang, Hong;Stubhan, Tobias;Li, Ning;Turbiez, Mathieu;Matt, Gebhard J.;Ameri, Tayebeh;Brabec, Christoph J.;
2:3:115 Conjugated polyelectrolytes: A new class of semiconducting material for organic electronic devices
DOI:10.1016/j.polymer.2013.07.015 JN:POLYMER PY:2013 TC:12 AU: Lee, Wonho;Seo, Jung Hwa;Woo, Han Young;
2:3:116 Spray-coated ZnO electron transport layer for air-stable inverted organic solar cells
DOI:10.1016/j.solmat.2011.09.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:34 AU: Kang, Yong-Jin;Lim, Kyounga;Jung, Sunghoon;Kim, Do-Geun;Kim, Jong-Kuk;Kim, Chang-Su;Kim, Soo H.;Kang, Jae-Wook;
2:3:117 Investigation of a Conjugated Polyelectrolyte Interlayer for Inverted Polymer:Fullerene Solar Cells
DOI:10.1002/aenm.201200967 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:32 AU: Xia, Ruidong;Leem, Dong-Seok;Kirchartz, Thomas;Spencer, Steve;Murphy, Craig;He, Zhicai;Wu, Hongbin;Su, Shijian;Cao, Yong;Kim, Ji Seon;deMello, John C.;Bradley, Donal D. C.;Nelson, Jenny;
2:3:118 Interplay of Optical, Morphological, and Electronic Effects of ZnO Optical Spacers in Highly Efficient Polymer Solar Cells
DOI:10.1002/aenm.201400805 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Ben Dkhil, Sadok;Duche, David;Gaceur, Meriem;Thakur, Anil K.;Aboura, Fatima Bencheikh;Escoubas, Ludovic;Simon, Jean-Jacques;Guerrero, Antonio;Bisquert, Juan;Garcia-Belmonte, Germa;Bao, Qinye;Fahlman, Mats;Videlot-Ackermann, Christine;Margeat, Olivier;Ackermann, Joerg;
2:3:119 Bandgap Tunable Zn1-xMgxO Thin Films as Highly Transparent Cathode Buffer Layers for High-Performance Inverted Polymer Solar Cells
DOI:10.1002/aenm.201301404 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Yin, Zhigang;Zheng, Qingdong;Chen, Shan-Ci;Cai, Dongdong;Zhou, Lingyu;Zhang, Jian;
2:3:120 Bulk Heterojunction Organic Photovoltaics Based on Carboxylated Polythiophenes and PCBM on Glass and Plastic Substrates
DOI:10.1002/adfm.201100049 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:20 AU: Worfolk, Brian J.;Rider, David A.;Elias, Anastasia L.;Thomas, Michael;Harris, Kenneth D.;Buriak, Jillian M.;
2:3:121 A futuristic approach towards interface layer modifications for improved efficiency in inverted organic solar cells
DOI:10.1063/1.4863434 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Tiwari, J. P.;Pillai, Sriraj;Parakh, Sonal;Ali, Farman;Sharma, Abhishek;Chand, Suresh;
2:3:122 Efficiency and Air-Stability Improvement of Flexible Inverted Polymer Solar Cells Using ZnO/Poly(ethylene glycol) Hybrids as Cathode Buffer Layers
DOI:10.1021/am4013038 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:22 AU: Hu, Ting;Li, Fan;Yuan, Kai;Chen, Yiwang;
2:3:123 Roles of Interfacial Modifiers in Hybrid Solar Cells: Inorganic/Polymer Bilayer vs Inorganic/Polymer:Fullerene Bulk Heterojunction
DOI:10.1021/am402684w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Eom, Seung Hun;Baek, Myung-Jin;Park, Hanok;Yan, Liang;Liu, Shubin;You, Wei;Lee, Soo-Hyoung;
2:3:124 Dye-Sensitized Nanoarrays with Discotic Liquid Crystals as Inter layer for High-Efficiency Inverted Polymer Solar Cells
DOI:10.1021/am505640t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Shi, Yueqin;Tan, Licheng;Chen, Yiwang;
2:3:125 Optimization of an inverted organic solar cell
DOI:10.1016/j.solmat.2010.02.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:55 AU: Zhao, D. W.;Tan, S. T.;Ke, L.;Liu, P.;Kyaw, A. K. K.;Sun, X. W.;Lo, G. Q.;Kwong, D. L.;
2:3:126 Spontaneous formation of nanoripples on the surface of ZnO thin films as hole-blocking layer of inverted organic solar cells
DOI:10.1016/j.solmat.2011.06.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:34 AU: Lim, Dong Chan;Shim, Won Hyun;Kim, Kwang-Dae;Seo, Hyun Ook;Lim, Jae-Hong;Jeong, Yongsoo;Kim, Young Dok;Lee, Kyu Hwan;
2:3:127 Computational comparison of conventional and inverted organic photovoltaic performance parameters with varying metal electrode surface workfunction
DOI:10.1016/j.solmat.2013.09.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Petoukhoff, Christopher E.;Vijapurapu, Divya K.;O'Carroll, Deirdre M.;
2:3:128 High Performance Organic Photovoltaic Cells Using Polymer-Hybridized ZnO Nanocrystals as a Cathode Interlayer
DOI:10.1002/aenm.201100154 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:42 AU: Jo, Sae Byeok;Lee, Ji Hwang;Sim, Myungsun;Kim, Min;Park, Jong Hwan;Choi, Yeong Suk;Kim, Yungi;Ihn, Soo-Ghang;Cho, Kilwon;
2:3:129 Improved Performance and Stability of Inverted Organic Solar Cells with Sol-Gel Processed, Amorphous Mixed Metal Oxide Electron Extraction Layers Comprising Alkaline Earth Metals
DOI:10.1002/aenm.201300308 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:15 AU: Pachoumi, Olympia;Li, Cheng;Vaynzof, Yana;Banger, Kulbinder K.;Sirringhaus, Henning;
2:3:130 Lending Triarylphosphine Oxide to Phenanthroline: a Facile Approach to High-Performance Organic Small-Molecule Cathode Interfacial Material for Organic Photovoltaics utilizing Air-Stable Cathodes
DOI:10.1002/adfm.201401685 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Tan, Wan-Yi;Wang, Rui;Li, Min;Liu, Gang;Chen, Ping;Li, Xin-Chen;Lu, Shun-Mian;Zhu, Hugh Lu;Peng, Qi-Ming;Zhu, Xu-Hui;Chen, Wei;Choy, Wallace C. H.;Li, Feng;Peng, Junbiao;Cao, Yong;
2:3:131 Enhancement of inverted polymer solar cells with solution-processed ZnO-TiOx composite as cathode buffer layer
DOI:10.1063/1.4722800 JN:APPLIED PHYSICS LETTERS PY:2012 TC:23 AU: Liu, Jian;Shao, Shuyan;Meng, Bin;Fang, Gang;Xie, Zhiyuan;Wang, Lixiang;Li, Xinglin;
2:3:132 Air-Stable Efficient Inverted Polymer Solar Cells Using Solution-Processed Nanocrystalline ZnO Interfacial Layer
DOI:10.1021/am303004r JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:23 AU: Tan, Mein Jin;Zhong, Shu;Li, Jun;Chen, Zhikuan;Chen, Wei;
2:3:133 Improve the Operational Stability of the Inverted Organic Solar Cells Using Bilayer Metal Oxide Structure
DOI:10.1021/am504654m JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Chang, Jingjing;Lin, Zhenhua;Jiang, Changyun;Zhang, Jie;Zhu, Chunxiang;Wu, Jishan;
2:3:134 Influence of the Ionic Functionalities of Polyfluorene Derivatives as a Cathode Interfacial Layer on Inverted Polymer Solar Cells
DOI:10.1021/am500708k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:13 AU: Kang, Rira;Oh, Seung-Hwan;Kim, Dong-Yu;
2:3:135 Toward high performance inverted polymer solar cells
DOI:10.1016/j.polymer.2012.09.023 JN:POLYMER PY:2012 TC:28 AU: Gong, Xiong;
2:3:136 Low work function metal modified ITO as cathode for inverted polymer solar cells
DOI:10.1016/j.solmat.2010.04.082 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:43 AU: Jiang, Chang Yun;Sun, Xiao Wei;Zhao, De Wei;Kyaw, Aung Ko Ko;Li, Yu Ning;
2:3:137 Performance enhancement of inverted polymer solar cells with fullerene ester derivant-modified ZnO film as cathode buffer layer
DOI:10.1016/j.solmat.2014.03.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Li, Pandeng;Li, Xiaofang;Sun, Chunming;Wang, Guojie;Li, Jun;Jiu, Tonggang;Fang, Junfeng;
2:3:138 Conductive Conjugated Polyelectrolyte as Hole-Transporting Layer for Organic Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201302845 JN:ADVANCED MATERIALS PY:2014 TC:37 AU: Zhou, Huiqiong;Zhang, Yuan;Mai, Cheng-Kang;Collins, Samuel D.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;Heeger, Alan J.;
2:3:139 Efficiency enhancement for bulk heterojunction photovoltaic cells via incorporation of alcohol soluble conjugated polymer interlayer
DOI:10.1063/1.4719522 JN:APPLIED PHYSICS LETTERS PY:2012 TC:20 AU: Chen, Yu;Jiang, Zhitao;Gao, Mei;Watkins, Scott E.;Lu, Ping;Wang, Haiqiao;Chen, Xiwen;
2:3:140 Efficient inverted polymer solar cells based on ultrathin aluminum interlayer modified aluminum-doped zinc oxide electrode
DOI:10.1063/1.4868101 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Shi, Ting;Zhu, Xiaoguang;Tu, Guoli;
2:3:141 Designed Bithiophene-Based Interfacial Layer for High-Efficiency Bulk-Heterojunction Organic Photovoltaic Cells. Importance of Interfacial Energy Level Matching
DOI:10.1021/am900634a JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:39 AU: Hains, Alexander W.;Ramanan, Charusheela;Irwin, Michael D.;Liu, Jun;Wasielewski, Michael R.;Marks, Tobin J.;
2:3:142 Electrostatic Layer-by-Layer Assembly of CdSe Nanorod/Polymer Nanocomposite Thin Films
DOI:10.1021/am900659v JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:31 AU: McClure, Sean A.;Worfolk, Brian J.;Rider, David A.;Tucker, Ryan T.;Fordyce, Jordan A. M.;Fleischauer, Michael D.;Harris, Ken D.;Brett, Michael J.;Buriak, Jillian M.;
2:3:143 Cross-Linked Perylene Diimide-Based n-Type Interfacial Layer for Inverted Organic Photovoltaic Devices
DOI:10.1021/am201027j JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:19 AU: Hains, Alexander W.;Chen, Hsiang-Yu;Reilly, Thomas H., III;Gregg, Brian A.;
2:3:144 Efficiency Enhancement of Polymer Solar Cells by Applying Poly(vinylpyrrolidone) as a Cathode Buffer Layer via Spin Coating or Self-Assembly
DOI:10.1021/am302317v JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:21 AU: Wang, Haitao;Zhang, Wenfeng;Xu, Chenhui;Bi, Xianghong;Chen, Boxue;Yang, Shangfeng;
2:3:145 Enhancing the Performance of Polymer Photovoltaic Cells by Using an Alcohol Soluble Fullerene Derivative as the Interfacial Layer
DOI:10.1021/am402157b JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Mei, Qiang;Li, Cuihong;Gong, Xue;Lu, Heng;Jin, Enquan;Du, Chun;Lu, Zhen;Jiang, Li;Meng, Xiangyue;Wang, Chunru;Bo, Zhishan;
2:3:146 "Supersaturated" Self-Assembled Charge-Selective Interfacial Layers for Organic Solar Cells
DOI:10.1021/ja508453n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Song, Charles Kiseok;Luck, Kyle A.;Zhou, Nanjia;Zeng, Li;Heitzer, Henry M.;Manley, Eric F.;Goldman, Samuel;Chen, Lin X.;Ratner, Mark A.;Bedzyk, Michael J.;Chang, Robert P. H.;Hersam, Mark C.;Marks, Tobin J.;
2:3:147 C-60:LiF Blocking Layer for Environmentally Stable Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201002738 JN:ADVANCED MATERIALS PY:2010 TC:30 AU: Gao, Dong;Helander, Michael G.;Wang, Zhi-Bin;Puzzo, Danny P.;Greiner, Mark T.;Lu, Zheng-Hong;
2:3:148 Conjugated Zwitterionic Polyelectrolytes and Their Neutral Precursor as Electron Injection Layer for High-Performance Polymer Light-Emitting Diodes
DOI:10.1002/adma.201004661 JN:ADVANCED MATERIALS PY:2011 TC:49 AU: Duan, Chunhui;Wang, Lei;Zhang, Kai;Guan, Xing;Huang, Fei;
2:3:149 Solution-Processed LiF-Doped ZnO Films for High Performance Low Temperature Field Effect Transistors and Inverted Solar Cells
DOI:10.1021/am4014488 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:18 AU: Chang, Jingjing;Lin, Zhenhua;Zhu, Chunxiang;Chi, Chunyan;Zhang, Jie;Wu, Jishan;
2:3:150 Highly Efficient Inverted Polymer Solar Cells Based on a Cross-linkable Water-/Alcohol-Soluble Conjugated Polymer Interlayer
DOI:10.1021/am501920z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:32 AU: Zhang, Kai;Zhong, Chengmei;Liu, Shengjian;Mu, Cheng;Li, Zhengke;Yan, He;Huang, Fei;Cao, Yong;
2:3:151 Synthesis and Properties of Two Cationic Narrow Band Gap Conjugated Polyelectrolytes
DOI:10.1021/ja400140d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:17 AU: Henson, Zachary B.;Zhang, Yuan;Thuc-Quyen Nguyen;Seo, Jung Hwa;Bazan, Guillermo C.;
2:3:152 A highly efficient transition metal oxide layer for hole extraction and transport in inverted polymer bulk heterojunction solar cells
DOI:10.1039/c3ta10863e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:12 AU: Lampande, Raju;Kim, Gyeong Woo;Boizot, Julien;Kim, Young Jae;Pode, Ramchandra;Kwon, Jang Hyuk;
2:3:153 Performance optimization of low-temperature-annealed solution-processable ZnO buffer layers for inverted polymer solar cells
DOI:10.1039/c3ta10637c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:27 AU: Park, Hye-Yun;Lim, Dongchan;Kim, Kwang-Dae;Jang, Sung-Yeon;
2:3:154 Pyridinium salt-based molecules as cathode interlayers for enhanced performance in polymer solar cells
DOI:10.1039/c3ta01226c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Ye, Hua;Hu, Xiaowen;Jiang, Zhixiong;Chen, Dongcheng;Liu, Xin;Nie, Han;Su, Shi-Jian;Gong, Xiong;Cao, Yong;
2:3:155 Effects of ultraviolet soaking on surface electronic structures of solution processed ZnO nanoparticle films in polymer solar cells
DOI:10.1039/c4ta02695k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Bao, Qinye;Liu, Xianjie;Xia, Yuxin;Gao, Feng;Kauffmann, Louis-Dominique;Margeat, Olivier;Ackermann, Jorg;Fahlman, Mats;
2:3:156 The effects of Ta2O5-ZnO films as cathodic buffer layers in inverted polymer solar cells
DOI:10.1039/c4ta01350f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Lan, Jo-Lin;Cherng, Sheng-Jye;Yang, Yi-Hsun;Zhang, Qifeng;Subramaniyan, Selvam;Ohuchi, Fumio S.;Jenekhe, Samson A.;Cao, Guozhong;
2:3:157 UV light protection through TiO2 blocking layers for inverted organic solar cells
DOI:10.1016/j.solmat.2011.08.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:31 AU: Sun, Haiyan;Weickert, Jonas;Hesse, Holger Christian;Schmidt-Mende, Lukas;
2:3:158 Influences of dopant concentration in sol-gel derived AZO layer on the performance of P3HT:PCBM based inverted solar cell
DOI:10.1016/j.solmat.2012.12.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:19 AU: Aprilia, Annisa;Wulandari, Priastuti;Suendo, Veinardi;Herman;Hidayat, Rahmat;Fujii, Akihiko;Ozaki, Masanori;
2:3:159 Investigation of the effect of conjugated oligoelectrolyte as a cathode buffer layer on the photovoltaic properties
DOI:10.1016/j.synthmet.2014.10.006 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Thu Trang Do;Hong, Hee Seob;Ha, Ye Eun;Lim, Gyeong Eun;Won, Yong Sun;Kim, Joo Hyun;
2:3:160 Improving Cathodes with a Polymer Interlayer in Reversed Organic Solar Cells
DOI:10.1002/aenm.201400643 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Tang, Zheng;Tress, Wolfgang;Bao, Qinye;Jafari, Mohammad J.;Bergqvist, Jonas;Ederth, Thomas;Andersson, Mats R.;Inganas, Olle;
2:3:161 Morphological Control for Highly Efficient Inverted Polymer Solar Cells Via the Backbone Design of Cathode Interlayer Materials
DOI:10.1002/aenm.201400359 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:21 AU: Zhang, Wenjun;Wu, Yulei;Bao, Qinye;Gao, Feng;Fang, Junfeng;
2:3:162 Enhanced Device Efficiency of Bilayered Inverted Organic Solar Cells Based on Photocurable P3HTs with a Light-Harvesting ZnO Nanorod Array
DOI:10.1002/aenm.201301338 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Kim, Sehwan;Koh, Joo Hwan;Yang, Xu;Chi, Won Seok;Park, Chihyun;Leem, Jung Woo;Kim, Byeonggwan;Seo, Seogjae;Kim, Yuna;Yu, Jae Su;Kim, Jong Hak;Kim, Eunkyoung;
2:3:163 All-Conjugated Triblock Polyelectrolytes
DOI:10.1002/adma.201202817 JN:ADVANCED MATERIALS PY:2012 TC:13 AU: Ying, Lei;Zalar, Peter;Collins, Samuel D.;Chen, Zhao;Mikhailovsky, Alexander A.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:3:164 Suppressed Charge Recombination in Inverted Organic Photovoltaics via Enhanced Charge Extraction by Using a Conductive Fullerene Electron Transport Layer
DOI:10.1002/adma.201402276 JN:ADVANCED MATERIALS PY:2014 TC:36 AU: Li, Chang-Zhi;Chang, Chih-Yu;Zang, Yue;Ju, Huan-Xin;Chueh, Chu-Chen;Liang, Po-Wei;Cho, Namchul;Ginger, David S.;Jen, Alex K. -Y.;
2:3:165 Enhancement of the Efficiency and Stability of Organic Photovoltaic Devices via the Addition of a Lithium-Neutralized Graphene Oxide Electron-Transporting Layer
DOI:10.1021/cm502826f JN:CHEMISTRY OF MATERIALS PY:2014 TC:20 AU: Kakavelakis, George;Konios, Dimitrios;Stratakis, Emmanuel;Kymakis, Emmanuel;
2:3:166 Dielectric Interface Effects on Surface Charge Accumulation and Collection towards High-Efficiency Organic Solar Cells
DOI:10.1063/1.4871466 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Hsiao, Yu-Che;Zang, Huidong;Ivanov, Ilia;Xu, Tao;Lu, Luyao;Yu, Luping;Hu, Bin;
2:3:167 Engineering the organic semiconductor-electrode interface in polymer solar cells
DOI:10.1039/c000718h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:34 AU: Gomez, Enrique D.;Loo, Yueh-Lin;
2:3:168 Nanostructured hybrid ZnO@CdS nanowalls grown in situ for inverted polymer solar cells
DOI:10.1039/c3tc32071e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:12 AU: Yuan, Kai;Chen, Lie;Li, Fan;Chen, Yiwang;
2:3:169 Enhancing the efficiency of opto-electronic devices by the cathode modification
DOI:10.1039/c3tc32430c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Ha, Ye Eun;Lim, Gyeong Eun;Jo, Mi Young;Park, Juyun;Kang, Yong-Cheol;Moon, Sang-Jin;Kim, Joo Hyun;
2:3:170 The effect of SrTiO3:ZnO as cathodic buffer layer for inverted polymer solar cells
DOI:10.1016/j.nanoen.2013.12.010 JN:NANO ENERGY PY:2014 TC:6 AU: Lan, Jo-Lin;Liang, Zhiqiang;Yang, Yi-Hsun;Ohuchi, Fumio S.;Jenekhe, Samson A.;Ciao, Guozhong;
2:3:171 A hybridized electron-selective layer using Sb-doped SnO2 nanowires for efficient inverted polymer solar cells
DOI:10.1016/j.solmat.2011.06.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:25 AU: Kim, Yong Seok;Yu, Byung-Kwan;Kim, Dong-Yu;Kim, Won Bae;
2:3:172 Effective light trapping enhanced near-UV/blue light absorption in inverted polymer solar cells via sol-gel textured Al-doped ZnO buffer layer
DOI:10.1016/j.solmat.2013.10.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Yu, Xuan;Yu, Xiaoming;Zhang, Jianjun;Hu, Ziyang;Zhao, Gengshen;Zhao, Ying;
2:3:173 Light-modulated TiOx Interlayer Dipole and Contact Activation in Organic Solar Cell Cathodes
DOI:10.1002/adfm.201401233 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Guerrero, Antonio;Chambon, Sylvain;Hirsch, Lionel;Garcia-Belmonte, Germa;
2:3:174 Multi-Charged Conjugated Polyelectrolytes as a Versatile Work Function Modifier for Organic Electronic Devices
DOI:10.1002/adfm.201301810 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:29 AU: Lee, Byoung Hoon;Jung, In Hwan;Woo, Han Young;Shim, Hong-Ku;Kim, Geunjin;Lee, Kwanghee;
2:3:175 In Situ Electrochemical Deposition and Doping of C-60 Films Applied to High-Performance Inverted Organic Photovoltaics
DOI:10.1002/adma.201202569 JN:ADVANCED MATERIALS PY:2012 TC:25 AU: Gu, Cheng;Zhang, Zhongbo;Sun, Shuheng;Pan, Yuyu;Zhong, Chengmei;Lv, Ying;Li, Mao;Ariga, Katsuhiko;Huang, Fei;Ma, Yuguang;
2:3:176 Solution-processed cross-linkable hole selective layer for polymer solar cells in the inverted structure
DOI:10.1063/1.3518074 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Sun, Yanming;Gong, Xiong;Hsu, Ben B. Y.;Yip, Hin-Lap;Jen, Alex K-Y.;Heeger, Alan J.;
2:3:177 Power losses in bilayer inverted small molecule organic solar cells
DOI:10.1063/1.4769440 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Trinh, Cong;Bakke, Jonathan R.;Brennan, Thomas P.;Bent, Stacey F.;Navarro, Francisco;Bartynski, Andrew;Thompson, Mark E.;
2:3:178 TiOx/Al bilayer as cathode buffer layer for inverted organic solar cell
DOI:10.1063/1.4826562 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Chang, Jingjing;Kam, Zhi Ming;Lin, Zhenhua;Zhu, Chunxiang;Zhang, Jie;Wu, Jishan;
2:3:179 Development of Inverted Organic Solar Cells with TiO2 Interface Layer by Using Low-Temperature Atomic Layer Deposition
DOI:10.1021/am302252p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:33 AU: Lin, Zhenhua;Jiang, Changyun;Zhu, Chunxiang;Zhang, Jie;
2:3:180 Conductive Water/Alcohol-Soluble Neutral Fullerene Derivative as an Interfacial Layer for Inverted Polymer Solar Cells with High Efficiency
DOI:10.1021/am503510z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Yi, Chao;Yue, Kan;Zhang, Wen-Bin;Lu, Xiaocun;Hou, Jianhui;Li, Yongfang;Huang, Lin;Newkome, George R.;Cheng, Stephen Z. D.;Gong, Xiong;
2:3:181 Organic Photovoltaic Cells with Stable Top Metal Electrodes Modified with Polyethylenimine
DOI:10.1021/am501236z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Khan, Talha M.;Zhou, Yinhua;Dindar, Amir;Shim, Jae Won;Fuentes-Hernandez, Canek;Kippelen, Bernard;
2:3:182 Design Considerations for Electrode Buffer Layer Materials in Polymer Solar Cells
DOI:10.1021/am502673e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Bilby, David;Frieberg, Bradley;Kramadhati, Shobhita;Green, Peter;Kim, Jinsang;
2:3:183 Influence of water-soluble polythiophene as an interfacial layer on the P3HT/PCBM bulk heterojunction organic photovoltaics
DOI:10.1039/c1jm12016f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Yao, Kai;Chen, Lie;Chen, Yiwang;Li, Fan;Wang, Peishan;
2:3:184 High performance polymer solar cells with a polar fullerene derivative as the cathode buffer layer
DOI:10.1039/c3ta12875j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:17 AU: Li, Xiaodong;Zhang, Wenjun;Wu, Yulei;Min, Chao;Fang, Junfeng;
2:3:185 A work-function tunable polyelectrolyte complex (PEI:PSS) as a cathode interfacial layer for inverted organic solar cells
DOI:10.1039/c4ta00289j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Lin, Zhenhua;Chang, Jingjing;Zhang, Jie;Jiang, Changyun;Wu, Jishan;Zhu, Chunxiang;
2:3:186 Facile preparation of TiOX film as an interface material for efficient inverted polymer solar cells
DOI:10.1039/c3ta13275g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Bao, Xichang;Sun, Liang;Shen, Wenfei;Yang, Chunpeng;Chen, Weichao;Yang, Renqiang;
2:3:187 Growth of vertically aligned ZnO nanowalls for inverted polymer solar cells
DOI:10.1016/j.solmat.2013.05.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:15 AU: Liang, Zhiqiang;Gao, Rui;Lan, Jo-Lin;Wiranwetchayan, Orawan;Zhang, Qifeng;Li, Chundong;Cao, Guozhong;
2:3:188 Increased performance of inverted organic photovoltaic cells using a cationically functionalized fullerene interfacial layer
DOI:10.1016/j.solmat.2014.03.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Weber, Christopher D.;Bradley, Colin;Walker, Ethan M.;Robinson, Stephen G.;Lonergan, Mark C.;
2:3:189 Toward High-Stability Inverted Polymer Solar Cells with an Electrodeposited ZnO Electron Transporting Layer
DOI:10.1002/aenm.201100632 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:22 AU: Sanchez, Sylvia;Berson, Solenn;Guillerez, Stephane;Levy-Clement, Claude;Ivanova, Valentina;
2:3:190 A Self-Doping, O2-Stable, n-Type Interfacial Layer for Organic Electronics
DOI:10.1002/aenm.201100446 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:13 AU: Reilly, Thomas H., III;Hains, Alexander W.;Chen, Hsiang-Yu;Gregg, Brian A.;
2:3:191 MoO3/poly(9,9-dioctylfluorene-co-N-[4-(3-methylpropyl)]-diphenylamine) double-interlayer effect on polymer solar cells
DOI:10.1063/1.3310013 JN:APPLIED PHYSICS LETTERS PY:2010 TC:30 AU: Subbiah, Jegadesan;Kim, Do Young;Hartel, Michael;So, Franky;
2:3:192 Minimizing interfacial losses in inverted organic solar cells comprising Al-doped ZnO
DOI:10.1063/1.4729861 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Gadisa, Abay;Liu, Yingchi;Samulski, Edward T.;Lopez, Rene;
2:3:193 Inverted organic solar cells based on aqueous processed ZnO interlayers at low temperature
DOI:10.1063/1.4719201 JN:APPLIED PHYSICS LETTERS PY:2012 TC:21 AU: Bai, Sai;Wu, Zhongwei;Xu, Xiaoli;Jin, Yizheng;Sun, Baoquan;Guo, Xiaojun;He, Shasha;Wang, Xin;Ye, Zhizhen;Wei, Huaixin;Han, Xiaoyuan;Ma, Wanli;
2:3:194 Solution-Processed Nanocrystalline TiO2 Buffer Layer Used for Improving the Performance of Organic Photovoltaics
DOI:10.1021/am101202k JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:21 AU: Salim, Teddy;Yin, Zongyou;Sun, Shuangyong;Huang, Xiao;Zhang, Hua;Lam, Yeng Ming;
2:3:195 Electrospun ZnO Nanowire Plantations in the Electron Transport Layer for High-Efficiency Inverted Organic Solar Cells
DOI:10.1021/am4013853 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Elumalai, Naveen Kumar;Jin, Tan Mein;Chellappan, Vijila;Jose, Rajan;Palaniswamy, Suresh Kumar;Jayaraman, Sundaramurthy;Raut, Hemant Kumar;Ramakrishna, Seeram;
2:3:196 Nonconjugated Anionic Polyelectrolyte as an Interfacial Layer for the Organic Optoelectronic Devices
DOI:10.1021/am400478b JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Lim, Gyeong Eun;Ha, Ye Eun;Jo, Mi Young;Park, Juyun;Kang, Yong-Cheol;Kim, Joo Hyun;
2:3:197 Physically Adsorbed Fullerene Layer on Positively Charged Sites on Zinc Oxide Cathode Affords Efficiency Enhancement in Inverted Polymer Solar Cell
DOI:10.1021/am401430h JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Cheng, Yu-Shan;Liao, Sih-Hao;Li, Yi-Lun;Chen, Show-An;
2:3:198 Towards an understanding of light activation processes in titanium oxide based inverted organic solar cells
DOI:10.1063/1.4764026 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:11 AU: Chambon, S.;Destouesse, E.;Pavageau, B.;Hirsch, L.;Wantz, G.;
2:3:199 Enhanced performance of polymer solar cells using solution-processed tetra-n-alkyl ammonium bromides as electron extraction layers
DOI:10.1039/c2ta00975g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:12 AU: Wu, Chen-Hao;Chin, Chih-Yun;Chen, Tsan-Yao;Hsieh, Sung-Nien;Lee, Chih-Hao;Guo, Tzung-Fang;Jen, Alex K. -Y.;Wen, Ten-Chin;
2:3:200 Porphyrin oriented self-assembled nanostructures for efficient exciton dissociation in high-performing organic photovoltaics
DOI:10.1039/c3ta13107f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:19 AU: Vasilopoulou, M.;Georgiadou, D. G.;Douvas, A. M.;Soultati, A.;Constantoudis, V.;Davazoglou, D.;Gardelis, S.;Palilis, L. C.;Fakis, M.;Kennou, S.;Lazarides, T.;Coutsolelos, A. G.;Argitis, P.;
2:3:201 High performance inverted organic solar cells with solution processed Ga-doped ZnO as an interfacial electron transport layer
DOI:10.1039/c3tc31650e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Thambidurai, M.;Kim, Jun Young;Song, Jiyun;Ko, Youngjun;Song, Hyung-jun;Kang, Chan-mo;Muthukumarasamy, N.;Velauthapillai, Dhayalan;Lee, Changhee;
2:3:202 Plasma treatment of ITO cathode to fabricate free electron selective layer in inverted polymer solar cells
DOI:10.1039/c4tc01777c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Zhang, Chunmei;Qi, Lei;Chen, Qiang;Lv, Longfeng;Ning, Yu;Hu, Yufeng;Hou, Yanbing;Teng, Feng;
2:3:203 Low temperature, solution-processed alumina for organic solar cells
DOI:10.1088/0957-4484/24/48/484010 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Peng, Jun;Sun, Qijun;Zhai, Zhichun;Yuan, Jianyu;Huang, Xiaodong;Jin, Zhiming;Li, Kunyang;Wang, Suidong;Wang, Haiqiao;Ma, Wanli;
2:3:204 Polyviologen derivatives as an interfacial layer in polymer solar cells
DOI:10.1016/j.solmat.2012.08.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:23 AU: Jo, Mi Young;Ha, Ye Eun;Kim, Joo Hyun;
2:3:205 Effect of ultraviolet-ozone on ITO/P3HT interface for PEDOT:PSS-free polymer solar cells
DOI:10.1016/j.solmat.2012.10.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Dong, Wan Jae;Jung, Gwan Ho;Kim, Soo Young;Lee, Jong-Lam;
2:3:206 Role of ZnO nanostructured layer spray deposited under an electric field in stability of inverted organic solar cells
DOI:10.1016/j.solmat.2014.03.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Chaturvedi, Neha;Swami, Sanjay Kumar;Kumar, Anuj;Dutta, Viresh;
2:3:207 Quinacridone-Based Electron Transport Layers for Enhanced Performance in Bulk-Heterojunction Solar Cells
DOI:10.1002/adfm.201101257 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:19 AU: Pho, Toan V.;Kim, Heejoo;Seo, Jung Hwa;Heeger, Alan J.;Wudl, Fred;
2:3:208 Photovoltaic Efficiency Enhancement by the Generation of an Embedded Silica-Like Passivation Layer along the P3HT/PCBM Interface Using an Asymmetric Block-Copolymer Additive
DOI:10.1002/adma.201201994 JN:ADVANCED MATERIALS PY:2012 TC:15 AU: Han, Mingu;Kim, Hyungsoo;Seo, Hyungtak;Ma, Biwu;Park, Ji-Woong;
2:3:209 Electronic Properties of Conjugated Polyelectrolyte/Single-Walled Carbon Nanotube Composites
DOI:10.1002/adma.201400612 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Li, Yao;Mai, Cheng-Kang;Hung Phan;Liu, Xiaofeng;Thuc-Quyen Nguyen;Bazan, Guillermo C.;Chan-Park, Mary B.;
2:3:210 High-efficiency inverted bulk heterojunction polymer solar cells with UV ozone-treated ultrathin aluminum interlayer
DOI:10.1063/1.3479916 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Zhang, Hongmei;Ouyang, Jianyong;
2:3:211 C-60 Fullerene Nanocolumns-Polythiophene Heterojunctions for Inverted Organic Photovoltaic Cells
DOI:10.1021/am200076m JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:17 AU: Thomas, Michael;Worfolk, Brian J.;Rider, David A.;Taschuk, Michael T.;Buriak, Jillian M.;Brett, Michael J.;
2:3:212 Vapor Coating Method Using Small-Molecule Organic Surface Modifiers to Replace N-Type Metal Oxide Layers in Inverted Polymer Solar Cells
DOI:10.1021/am500092a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Choi, Hyosung;Kim, Hak-Beom;Ko, Seo-Jin;Kim, Gi-Hwan;Kim, Jin Young;
2:3:213 Improving Efficiency by Hybrid TiO2 Nanorods with 1,10-Phenanthroline as A Cathode Buffer Layer for Inverted Organic Solar Cells
DOI:10.1021/am404423k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Sun, Chunming;Wu, Yulei;Zhang, Wenjun;Jiang, Nianquan;Jiu, Tonggang;Fang, Junfeng;
2:3:214 A Benzodithiophene-Based Novel Electron Transport Layer for a Highly Efficient Polymer Solar Cell
DOI:10.1021/am503419r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Kim, Hong Il;Thi Thu Trang Bui;Kim, Guan-Woo;Kang, Gyeongho;Shin, Won Suk;Park, Taiho;
2:3:215 Inverted Polymer Solar Cells with Sol-Gel Derived Cesium-Doped Zinc Oxide Thin Film as a Buffer Layer
DOI:10.1007/s13391-014-3374-5 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:1 AU: Ahmadi, Mehdi;Mirabbaszadeh, Kavoos;Salari, Saeid;Fatehy, Hamed;
2:3:216 Indium tin oxide modified with sodium compounds as cathode of inverted polymer solar cells
DOI:10.1039/c1jm12281a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Sun, Kuan;Zhang, Hongmei;Ouyang, Jianyong;
2:3:217 Hydrophilic poly(triphenylamines) with phosphonate groups on the side chains: synthesis and photovoltaic applications
DOI:10.1039/c1jm14970a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Xu, Xiaofeng;Zhu, Yongxiang;Zhang, Lianjie;Sun, Jiangman;Huang, Jun;Chen, Junwu;Cao, Yong;
2:3:218 High efficiency inverted polymer solar cells with room-temperature titanium oxide/polyethylenimine films as electron transport layers
DOI:10.1039/c4ta03838j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Yang, Dong;Fu, Ping;Zhang, Fujun;Wang, Nan;Zhang, Jian;Li, Can;
2:3:219 Phenanthrene-functionalized 3,6-dithiophen-2-yl-2,5-dihydropyrrolo[3,4-c]pyrrole-1,4-diones as donor molecules for solution-processed organic photovoltaic cells
DOI:10.1016/j.solmat.2011.05.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:19 AU: Wu, Zhonglian;Li, Aiyuan;Fan, Benhu;Xue, Feng;Adachi, Chihaya;Ouyang, Jianyong;
2:3:220 Effects of particle morphology of ZnO buffer layer on the performance of organic solar cell devices
DOI:10.1016/j.solmat.2013.01.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:17 AU: Mbule, P. S.;Kim, T. H.;Kim, B. S.;Swart, H. C.;Ntwaeaborwa, O. M.;
2:3:221 Efficiency boosting of inverted polymer solar cells with a polyvinylpyrrolidone-modified Al-doped ZnO electron transport layer
DOI:10.1016/j.solmat.2014.04.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Yu, Xuan;Yu, Xiaoming;Zhang, Jianjun;Zhao, Gengshen;Ni, Jian;Cai, Hongkun;Zhao, Ying;
2:3:222 Investigation into the effect of post-annealing on inverted polymer solar cells
DOI:10.1016/j.solmat.2013.08.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Kang, Rira;Oh, Seung-Hwan;Na, Seok-In;Kim, Tae-Soo;Kim, Dong-Yu;
2:3:223 Photovoltaic properties of low band gap polymer based on phenanthrene and diketopyrrolopyrrole
DOI:10.1016/j.synthmet.2013.05.022 JN:SYNTHETIC METALS PY:2013 TC:9 AU: Jo, Mi Young;Bae, Jun Huei;Lim, Gyeong Eun;Ha, Ye Eun;Katz, Howard E.;Kim, Joo Hyun;
2:3:224 Simple solution-processed titanium oxide electron transport layer for efficient inverted polymer solar cells
DOI:10.1016/j.tsf.2014.11.011 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Sun, Liang;Shen, Wenfei;Chen, Weichao;Bao, Xichang;Wang, Ning;Dou, Xiaowei;Han, Liangliang;Wen, Shuguang;
2:3:225 Hybrid Graphene-Metal Oxide Solution Processed Electron Transport Layers for Large Area High-Performance Organic Photovoltaics
DOI:10.1002/adma.201304780 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Beliatis, Michail J.;Gandhi, Keyur K.;Rozanski, Lynn J.;Rhodes, Rhys;McCafferty, Liam;Alenezi, Mohammad R.;Alshammari, Abdullah S.;Mills, Christopher A.;Jayawardena, K. D. G. Imalka;Henley, Simon J.;Silva, S. Ravi P.;
2:3:226 Efficient polymer solar cell employing an oxidized Ni capped Al:ZnO anode without the need of additional hole-transporting-layer
DOI:10.1063/1.3673843 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Chen, T. L.;Betancur, R.;Ghosh, D. S.;Martorell, Jordi;Pruneri, V.;
2:3:227 Thermal annealing influence on poly(3-hexyl-thiophene)/phenyl-C61-butyric acid methyl ester-based solar cells with anionic conjugated polyelectrolyte as cathode interface layer
DOI:10.1063/1.4759148 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Shi, Ting;Zhu, Xiaoguang;Yang, Dong;Xie, Yanhua;Zhang, Jian;Tu, Guoli;
2:3:228 Highly efficient inverted polymer solar cells with a solution-processable dendrimer as the electron-collection interlayer
DOI:10.1063/1.4794065 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Murugesan, Vajjiravel;Sun, Kuan;Ouyang, Jianyong;
2:3:229 Effects of cathode modification using spin-coated lithium acetate on the performances of polymer bulk-heterojunction solar cells
DOI:10.1063/1.4773570 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Jiang, Liang;Li, Aiyuan;Deng, Xianyu;Zheng, Shizhao;Wong, King-Young;
2:3:230 Role of Thin n-Type Metal-Oxide Interlayers in Inverted Organic Solar Cells
DOI:10.1021/am300549v JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:9 AU: Gadisa, Abay;Liu, Yingchi;Samulski, Edward T.;Lopez, Rene;
2:3:231 Efficient "Light-soaking"-free Inverted Organic Solar Cells with Aqueous Solution Processed Low-Temperature ZnO Electron Extraction Layers
DOI:10.1021/am404291p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Wei, Wei;Zhang, Chunfu;Chen, Dazheng;Wang, Zhizhe;Zhu, Chunxiang;Zhang, Jincheng;Lu, Xiaoli;Hao, Yue;
2:3:232 Disodium Edetate As a Promising Interfacial Material for Inverted Organic Solar Cells and the Device Performance Optimization
DOI:10.1021/am5044278 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Li, Xiaodong;Zhang, Wenjun;Wang, Xueyan;Gao, Feng;Fang, Junfeng;
2:3:233 Modification of the Active Layer/PEDOT:PSS Interface by Solvent Additives Resulting in Improvement of the Performance of Organic Solar Cells
DOI:10.1021/am503284b JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Synooka, Olesia;Kretschmer, Florian;Hager, Martin D.;Himmerlich, Marcel;Krischok, Stefan;Gehrig, Dominik;Laquai, Frederic;Schubert, Ulrich S.;Gobsch, Gerhard;Hoppe, Harald;
2:3:234 Low Temperature Aqueous Electrodeposited TiOx, Thin Films as Electron Extraction Layer for Efficient Inverted Organic Solar Cells
DOI:10.1021/am405193r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Wong, Kim Hai;Mason, Chad William;Devaraj, Sappani;Ouyang, Jianyong;Balaya, Palani;
2:3:235 Controlling Ion Motion in Polymer Light-Emitting Diodes Containing Conjugated Polyelectrolyte Electron Injection Layers
DOI:10.1021/ja106268w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:26 AU: Garcia, Andres;Bakus, Ronald C., II;Zalar, Peter;Hoven, Corey V.;Brzezinski, Jacek Z.;Nguyen, Thuc-Quyen;
2:3:236 Interface investigation of the alcohol-/water-soluble conjugated polymer PFN as cathode interfacial layer in organic solar cells
DOI:10.1063/1.4821223 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:10 AU: Zhong, Shu;Wang, Rui;Mao, Hong Ying;He, Zhicai;Wu, Hongbin;Chen, Wei;Cao, Yong;
2:3:237 Environmentally friendly biomaterials as an interfacial layer for highly efficient and air-stable inverted organic solar cells
DOI:10.1039/c4ta00152d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Nie, Riming;Li, Aiyuan;Deng, Xianyu;
2:3:238 Antireflection and band gap extension effects of ZnO nanocrystalline films grown on ITO-coated glasses by low temperature process
DOI:10.1016/j.mseb.2012.11.008 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:7 AU: Bao, Xichang;Yang, Yun;Yang, Ailing;Wang, Ning;Wang, Ting;Du, Zhengkun;Yang, Chunpeng;Wen, Shuguang;Yang, Renqiang;
2:3:239 Organic photovoltaics
DOI:10.1088/0957-4484/24/48/480201 JN:NANOTECHNOLOGY PY:2013 TC:0 AU: Demming, Anna;Krebs, Frederik C.;Chen, Hongzheng;
2:3:240 Influence of ZnO interlayer on the performance of inverted organic photovoltaic device
DOI:10.1016/j.solmat.2011.03.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:22 AU: Hu, Ziyang;Zhang, Jianjun;Liu, Yan;Hao, Zhihong;Zhang, Xiaodan;Zhao, Ying;
2:3:241 ITO-free inverted polymer solar cells with ZnO:Al cathodes and stable top anodes
DOI:10.1016/j.solmat.2011.10.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: De Sio, Antonietta;Chakanga, Kambulakwao;Sergeev, Oleg;von Maydell, Karsten;Parisi, Juergen;von Hauff, Elizabeth;
2:3:242 Inverted polymer solar cells including ZnO electron transport layer fabricated by facile spray pyrolysis
DOI:10.1016/j.solmat.2013.05.062 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:17 AU: Noh, Yong-Jin;Na, Seok-In;Kim, Seok-Soon;
2:3:243 Performance improvement of large-area roll-to-roll slot-die-coated inverted polymer solar cell by tailoring electron transport layer
DOI:10.1016/j.solmat.2014.07.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Cha, Hou-Chin;Huang, Yu-Ching;Hsu, Fan-Hsuan;Chuang, Chih-Min;Lu, De-Han;Chou, Cheng-Wei;Chen, Charn-Ying;Tsao, Cheng-Si;
2:3:244 High efficiency inverted polymer solar cells with the sol-gel derived vanadium oxide interlayer
DOI:10.1016/j.tsf.2012.03.118 JN:THIN SOLID FILMS PY:2012 TC:9 AU: Chang, Yi-Ming;Ding, Jau-Min;
2:3:245 In-Situ Switching from Barrier-Limited to Ohmic Anodes for Efficient Organic Optoelectronics
DOI:10.1002/adfm.201303426 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Tan, Zhi-Kuang;Vaynzof, Yana;Credgington, Dan;Li, Cheng;Casford, Mike T. L.;Sepe, Alessandro;Huettner, Sven;Nikolka, Mark;Paulus, Fabian;Yang, Le;Sirringhaus, Henning;Greenham, Neil C.;Friend, Richard H.;
2:3:246 Performance and stability studies of inverted polymer solar cells with TiO2 film as a buffer layer
DOI:10.1007/s00339-013-7626-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:6 AU: Peng, Ruixiang;Yang, Feng;Ouyang, Xinhua;Liu, Ying;Kim, Yong-Sang;Ge, Ziyi;
2:3:247 Effect of a symmetry breaking layer on the open circuit voltage of conventional bulk-heterojunction solar cells
DOI:10.1063/1.3664227 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Kim, Heejoo;Seo, Jung Hwa;Cho, Shinuk;
2:3:248 Efficient indium-tin-oxide free inverted organic solar cells based on aluminum-doped zinc oxide cathode and low-temperature aqueous solution processed zinc oxide electron extraction layer
DOI:10.1063/1.4884059 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Chen, Dazheng;Zhang, Chunfu;Wang, Zhizhe;Zhang, Jincheng;Tang, Shi;Wei, Wei;Sun, Li;Hao, Yue;
2:3:249 Effect of Nanoscale SubPc Interfacial Layer on the Performance of Inverted Polymer Solar Cells Based on P3HT/PC71BM
DOI:10.1021/am2009458 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:11 AU: Kim, Jung Yong;Noh, Seunguk;Nam, Young Min;Kim, Jun Young;Roh, Jeongkyun;Park, Myeongjin;Amsden, Jason J.;Yoon, Do Y.;Lee, Changhee;Jo, Won Ho;
2:3:250 Kelvin Probe Force Microscopic Imaging of the Energy Barrier and Energetically Favorable Offset of Interfaces in Double-Junction Organic Solar Cells
DOI:10.1021/am302235w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Siddiki, Mahbube K.;Venkatesan, Swaminathan;Galipeau, David;Qiao, Qiquan;
2:3:251 Systematic Investigation of Organic Photovoltaic Cell Charge Injection/Performance Modulation by Dipolar Organosilane Interfacial Layers
DOI:10.1021/am4030609 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Song, Charles Kiseok;White, Alicia C.;Zeng, Li;Leever, Benjamin J.;Clark, Michael D.;Emery, Jonathan D.;Lou, Sylvia J.;Timalsina, Amod;Chen, Lin X.;Bedzyk, Michael J.;Marks, Tobin J.;
2:3:252 Hole Injection/Transport Materials Derived from Heck and Sol-Gel Chemistry for Application in Solution-Processed Organic Electronic Devices
DOI:10.1021/ja1061517 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Lim, Younhee;Park, Young-Seo;Kang, Yerang;Jang, Do Young;Kim, Joo Hyun;Kim, Jang-Joo;Sellinger, Alan;Yoon, Do Y.;
2:3:253 High-efficiency polymer photovoltaic cells using a solution-processable insulating interfacial nanolayer: the role of the insulating nanolayer
DOI:10.1039/c2jm35016e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Lim, Kyung-Geun;Choi, Mi-Ri;Kim, Ho-Beom;Park, Jong Hyeok;Lee, Tae-Woo;
2:3:254 Enhancement of the power conversion efficiency in a polymer solar cell using a work-function-controlled TimSinOx interlayer
DOI:10.1039/c3ta14863g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Ihn, Soo-Ghang;Lim, Younhee;Yun, Sungyoung;Park, Insun;Park, Jong Hwan;Chung, Yeonji;Bulliard, Xavier;Chang, Jaejune;Choi, Hyeran;Park, Jong Hyeok;Choi, Yeong Suk;Park, Gyeong-Su;Chang, Hyuk;
2:3:255 Solution processed naphthalene diimide derivative as electron transport layers for enhanced brightness and efficient polymer light emitting diodes
DOI:10.1039/c3tc30175c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Rozanski, L. J.;Castaldelli, Evandro;Sam, F. L. M.;Mills, Christopher A.;Demets, Gregoire Jean-Francois;Silva, S. R. P.;
2:3:256 Effect of sol-gel derived ZnO annealing rate on light-trapping in inverted polymer solar cells
DOI:10.1016/j.matlet.2013.06.063 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Yu, Xuan;Yu, Xiaoming;Hu, Ziyang;Zhang, Jianjun;Zhao, Gengshen;Zhao, Ying;
2:3:257 Enhanced performance of inverted organic photovoltaic cells using CNTs-TiOX nanocomposites as electron injection layer
DOI:10.1088/0957-4484/24/35/355401 JN:NANOTECHNOLOGY PY:2013 TC:8 AU: Zhang, Hong;Xu, Meifeng;Cui, Rongli;Guo, Xihong;Yang, Shangyuan;Liao, Liangsheng;Jia, Quanjie;Chen, Yu;Dong, Jinquan;Sun, Baoyun;
2:3:258 Fe3O4 nanoparticles induced magnetic field effect on efficiency enhancement of P3HT:PCBM bulk heterojunction polymer solar cells
DOI:10.1016/j.solmat.2011.06.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:26 AU: Zhang, Wenfeng;Xu, Ying;Wang, Haitao;Xu, Chenhui;Yang, Shangfeng;
2:3:259 Effect of self-assembled monolayer treated ZnO as an electron transporting layer on the photovoltaic properties of inverted type polymer solar cells
DOI:10.1016/j.synthmet.2013.11.002 JN:SYNTHETIC METALS PY:2014 TC:10 AU: Ha, Ye Eun;Jo, Mi Young;Park, Juyun;Kang, Yong-Cheol;Moon, Sang-Jin;Kim, Joo Hyun;
2:3:260 Use of fluorine-doped tin oxide instead of indium tin oxide in highly efficient air-fabricated inverted polymer solar cells
DOI:10.1063/1.3374406 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Baek, Woon-Hyuk;Choi, Mijung;Yoon, Tae-Sik;Lee, Hyun Ho;Kim, Yong-Sang;
2:3:261 Biopolymer as an electron selective layer for inverted polymer solar cells
DOI:10.1063/1.4817931 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Tan, Mein Jin;Zhong, Shu;Wang, Rui;Zhang, Zhongxing;Chellappan, Vijila;Chen, Wei;
2:3:262 Efficient and ultraviolet durable inverted organic solar cells based on an aluminum-doped zinc oxide transparent cathode
DOI:10.1063/1.4816786 JN:APPLIED PHYSICS LETTERS PY:2013 TC:15 AU: Liu, Hanxiao;Wu, Zhenghui;Hu, Jianqiao;Song, Qunliang;Wu, Bo;Tam, Hoi Lam;Yang, Qingyi;Choi, Wing Hong;Zhu, Furong;
2:3:263 Dithiapyrannylidenes as Efficient Hole Collection Interfacial Layers in Organic Solar Cells
DOI:10.1021/am1005546 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:14 AU: Berny, Stephane;Tortech, Ludovic;Veber, Michelle;Fichou, Denis;
2:3:264 Application of non-metal doped titania for inverted polymer solar cells
DOI:10.1063/1.4770490 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Siuzdak, Katarzyna;Abbas, Mamatimin;Vignau, Laurence;Devynck, Melanie;Dubacheva, Galina V.;Lisowska-Oleksiak, Anna;
2:3:265 Significance of ions with an ordered arrangement for enhancing the electron injection/extraction in polymer optoelectronic devices
DOI:10.1039/c4tc00425f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wu, Chen-Hao;Chin, Chih-Yun;Chen, Tsan-Yao;Guo, Tzung-Fang;Lee, Chih-Hao;Lin, Tsang-Lang;Jen, Alex K. -Y.;Wen, Ten-Chin;
2:3:266 Tuning indium tin oxide work function with solution-processed alkali carbonate interfacial layers for high-efficiency inverted organic photovoltaic cells
DOI:10.1088/0957-4484/24/48/484011 JN:NANOTECHNOLOGY PY:2013 TC:5 AU: Chen, Fei;Chen, Qi;Mao, Lin;Wang, Yixin;Huang, Xun;Lu, Wei;Wang, Bing;Chen, Liwei;
2:3:267 Morphologic improvement of the PBDTTT-C and PC71BM blend film with mixed solvent for high-performance inverted polymer solar cells
DOI:10.1088/0957-4484/24/48/484009 JN:NANOTECHNOLOGY PY:2013 TC:5 AU: Chen, Hsin-Yi;Lin, Shang-Hong;Sun, Jen-Yu;Hsu, Chi-Hsing;Lan, Shiang;Lin, Ching-Fuh;
2:3:268 The effect of methanol treatment on the performance of polymer solar cells
DOI:10.1088/0957-4484/24/48/484003 JN:NANOTECHNOLOGY PY:2013 TC:10 AU: Zhang, Kai;Hu, Zhicheng;Duan, Chunhui;Ying, Lei;Huang, Fei;Cao, Yong;
2:3:269 Enhancement of short current density in polymer solar cells with phthalocyanine tin (IV) dichloride as interfacial layer
DOI:10.1016/j.solmat.2011.05.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:14 AU: Zuo, Lijian;Jiang, Xiaoxia;Xu, Mingsheng;Yang, Ligong;Nan, Yaxiong;Yan, Quanxiang;Chen, Hongzheng;
2:3:270 Inverted polymer solar cells with a boron-doped zinc oxide layer deposited by metal organic chemical vapor deposition
DOI:10.1016/j.solmat.2013.07.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Hu, Ziyang;Zhang, Jianjun;Zhu, Yuejin;
2:3:271 Role of zinc oxide thickness on the photovoltaic performance of laminated organic bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2013.03.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Sharma, Anirudh;Ionescu, Mihail;Andersson, Gunther G.;Lewis, David A.;
2:3:272 Solution processed n-type mixed metal oxide layer for electron extraction in inverted polymer solar cells
DOI:10.1016/j.solmat.2014.03.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Lampande, Raju;Kim, Gyeong Woo;Choe, Dong Cheol;Kong, Ji Hoon;Kwon, Jang Hyuk;
2:3:273 Improvement of organic solar cells with ammonium salt, tetrabutylamnrionium tetraphenylborate, as cathode buffer layer
DOI:10.1016/j.synthmet.2014.02.011 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Wang, Xitian;Qi, Boyuan;Li, Hui;Qi, Zhe;Wang, Jizheng;
2:3:274 The Effect of Organic and Metal Oxide Interfacial layers on the Performance of Inverted Organic Photovoltaics
DOI:10.1002/aenm.201200317 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:12 AU: Savva, Achilleas;Petraki, Foteini;Elefteriou, Polyvios;Sygellou, Lambrini;Voigt, Monika;Giannouli, Myrsini;Kennou, Stella;Nelson, Jenny;Bradley, Donal D. C.;Brabec, Christoph J.;Choulis, Stelios A.;
2:3:275 8.9% Single-Stack Inverted Polymer Solar Cells with Electron-Rich Polymer Nanolayer-Modified Inorganic Electron-Collecting Buffer Layers
DOI:10.1002/aenm.201301692 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:35 AU: Woo, Sungho;Kim, Wook Hyun;Kim, Hwajeong;Yi, Yeonjin;Lyu, Hong-Kun;Kim, Youngkyoo;
2:3:276 Thickness dependence of the MoO3 blocking layers on ZnO nanorod-inverted organic photovoltaic devices
DOI:10.1063/1.3554381 JN:APPLIED PHYSICS LETTERS PY:2011 TC:24 AU: Wang, Mingjun;Li, Yuan;Huang, Huihui;Peterson, Eric D.;Nie, Wanyi;Zhou, Wei;Zeng, Wei;Huang, Wenxiao;Fang, Guojia;Sun, Nanhai;Zhao, Xingzhong;Carroll, David L.;
2:3:277 Efficient inverted polymer solar cells with thermal-evaporated and solution-processed small molecular electron extraction layer
DOI:10.1063/1.4799833 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Sun, Fu-Zhou;Shi, Ai-Li;Xu, Zai-Quan;Wei, Huai-Xin;Li, Yan-Qing;Lee, Shuit-Tong;Tang, Jian-Xin;
2:3:278 A water-processable organic electron-selective layer for solution-processed inverted organic solar cells
DOI:10.1063/1.4864622 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Chen, Dongcheng;Zhou, Hu;Cai, Ping;Sun, Shi;Ye, Hua;Su, Shi-Jian;Cao, Yong;
2:3:279 A Strategic Buffer Layer of Polythiophene Enhances the Efficiency of Bulk Heterojunction Solar Cells
DOI:10.1021/am100076a JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:18 AU: Wei, Hung-Yu;Huang, Jen-Hsien;Ho, Kuo-Chuan;Chu, Chih-Wei;
2:3:280 Electron Transport in Acceptor-Sensitized Polymer-Oxide Solar Cells: The Importance of Surface Dipoles and Electron Cascade Effects
DOI:10.1021/am300282d JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:6 AU: Berhe, Seare A.;Zhou, Joy Y.;Haynes, Keith M.;Rodriguez, Marco T.;Youngblood, W. Justin;
2:3:281 Solution Processed Al-Doped ZnO Nanoparticles/TiOx Composite for Highly Efficient Inverted Organic Solar Cells
DOI:10.1021/am401798g JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Gadisa, Abay;Hairfield, Travis;Alibabaei, Leila;Donley, Carrie L.;Samulski, Edward T.;Lopez, Rene;
2:3:282 Highly Efficient, Solution Processed Electrofluorescent Small Molecule White Organic Light-Emitting Diodes with a Hybrid Electron Injection Layer
DOI:10.1021/am501207g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Jiang, Zhixiong;Zhong, Zhiming;Xue, Shanfeng;Zhou, Yan;Meng, Yanhong;Hu, Zhanhao;Ai, Na;Wang, Jianbin;Wang, Lei;Peng, Junbiao;Ma, Yuguang;Pei, Jian;Wang, Jian;Cao, Yong;
2:3:283 Room temperature ZnO growth by rf magnetron sputtering on top of photoactive P3HT: PCBM for organic solar cells
DOI:10.1039/c0jm02354j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Jouane, Y.;Colis, S.;Schmerber, G.;Kern, P.;Dinia, A.;Heiser, T.;Chapuis, Y. -A.;
2:3:284 All-solution-processed inverted polymer solar cells with low temperature, water-processable hybrid electron-collecting layers
DOI:10.1039/c2ta00693f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:5 AU: Park, Byoungchoo;Kim, Young Chan;Yun, Soo Hong;
2:3:285 Applications of ytterbium in inverted organic photovoltaic cells as high-performance and stable electron transport layers
DOI:10.1039/c4ta00181h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Kim, Gyu Min;Oh, Il Soo;Lee, Ae Na;Oh, Se Young;
2:3:286 Nb-TiO2/polymer hybrid solar cells with photovoltaic response under inert atmosphere conditions
DOI:10.1016/j.solmat.2010.03.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:22 AU: Lira-Cantu, Monica;Khoda Siddiki, Mahbube;Munoz-Rojas, David;Amade, Roger;Gonzalez-Pech, Natalia I.;
2:3:287 Optimisation of the sol-gel derived ZnO buffer layer for inverted structure bulk heterojunction organic solar cells using a low band gap polymer
DOI:10.1016/j.tsf.2014.07.026 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Lin, Rui;Miwa, Masahiro;Wright, Matthew;Uddin, Ashraf;
2:3:288 Optimized inverted polymer solar cells incorporating Cs2CO3-doped C60 as electron transport layer
DOI:10.1063/1.4807388 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Barbot, A.;Lucas, B.;Di Bin, C.;Ratier, B.;Aldissi, M.;
2:3:289 Solution Processed ZnO Hybrid Nanocomposite with Tailored Work Function for Improved Electron Transport Layer in Organic Photovoltaic Devices
DOI:10.1021/am402511t JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Lee, Yun-Ju;Wang, Jian;Cheng, Samuel R.;Hsu, Julia W. P.;
2:3:290 Highly Stable, Solution-Processable Phenothiazine Derivative as Hole Collection Material for Organic Solar Cells
DOI:10.1021/am5009503 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Huang, Jen-Hsien;Lee, Kuen-Chan;
2:3:291 Approaches Toward Efficient and Stable Electron Extraction Contact in Organic Photovoltaic Cells: Inspiration from Organic Light-Emitting Diodes
DOI:10.3365/eml.2010.03.041 JN:ELECTRONIC MATERIALS LETTERS PY:2010 TC:29 AU: Lee, Tae-Woo;Lim, Kyung-Guen;Kim, Dong-Hun;
2:3:292 Solution processable self-doped polyaniline as hole transport layer for inverted polymer solar cells
DOI:10.1039/c1jm12019k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Ke, Wen-Jie;Lin, Guan-Hong;Hsu, Chih-Ping;Chen, Chi-Min;Cheng, Yu-Shan;Jen, Tzu-Hao;Chen, Show-An;
2:3:293 Anionic conjugated polyelectrolyte-wetting properties with an emission layer and free ion migration when serving as a cathode interface layer in polymer light emitting diodes (PLEDs)
DOI:10.1039/c2jm32113k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Zhu, Xiaoguang;Xie, Yanhua;Li, Xian;Qiao, Xianfeng;Wang, Lei;Tu, Guoli;
2:3:294 Integration of light-harvesting complexes into the polymer bulk heterojunction P3HT/PCBM device for efficient photovoltaic cells
DOI:10.1039/c2jm16616j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Yao, Kai;Liu, Cheng;Chen, Yiwang;Chen, Lie;Li, Fan;Liu, Kun;Sun, Ruixue;Wang, Peishan;Yang, Chunhong;
2:3:295 Stamping Transfer of a Quantum Dot Interlayer for Organic Photovoltaic Cells
DOI:10.1021/la301477e JN:LANGMUIR PY:2012 TC:5 AU: Jeon, Ji Hye;Wang, Dong Hwan;Park, Hyunmin;Park, Jong Hyeok;Park, O. Ok;
2:3:296 Morphological and electrical effect of an ultrathin iridium oxide hole extraction layer on P3HT:PCBM bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2010.12.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:12 AU: Jung, Gwan Ho;Lim, Kyung-Geun;Lee, Tae-Woo;Lee, Jong-Lam;
2:3:297 Performance improvement of inverted organic solar cells by adding ultrathin Al2O3 as an electron selective layer and a plasma enhanced chemical vapor deposition of SiOx encapsulating layer
DOI:10.1016/j.tsf.2014.07.038 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Qi, Lei;Zhang, Chunmei;Chen, Qiang;
2:3:298 Self-Assembling Semiconducting Polymers-Rods and Gels from Electronic Materials
DOI:10.1021/nn304437k JN:ACS NANO PY:2013 TC:5 AU: Clark, Andrew P-Z.;Shi, Chenjun;Ng, Benny C.;Wilking, James N.;Ayzner, Alexander L.;Stieg, Adam Z.;Schwartz, Benjamin J.;Mason, Thomas G.;Rubin, Yves;Tolbert, Sarah H.;
2:3:299 Contact Doping with Sub-Monolayers of Strong Polyelectrolytes for Organic Photovoltaics
DOI:10.1002/aenm.201400439 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:6 AU: Mor, Gopal K.;Jones, David;Le, Thinh P.;Shang, Zhengrong;Weathers, Patrick J.;Woltermann, Megumi K. B.;Vakhshouri, Kiarash;Williams, Bryan P.;Tohran, Sarah A.;Saito, Tomonori;Verduzco, Rafael;Salleo, Alberto;Hickner, Michael A.;Gomez, Enrique D.;
2:3:300 Multifunctional SWCNT-ZnO Nanocomposites for Enhancing Performance and Stability of Organic Solar Cells
DOI:10.1002/adma.201003083 JN:ADVANCED MATERIALS PY:2011 TC:21 AU: Shim, Won Hyun;Park, Sun-Young;Park, Mi Yeong;Seo, Hyun Ook;Kim, Kwang-Dae;Kim, Young Tae;Kim, Yang Do;Kang, Jae-Wook;Lee, Kyu Hwan;Jeong, Yongsoo;Kim, Young Dok;Lim, Dong Chan;
2:3:301 Indium-free bottom electrodes for inverted organic solar cells with simplified cell architectures
DOI:10.1063/1.3610997 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Schmidt, H.;Winkler, T.;Baumann, I.;Schmale, S.;Fluegge, H.;Johannes, H-H.;Hamwi, S.;Rabe, T.;Riedl, T.;Kowalsky, W.;
2:3:302 Inverted organic solar cells comprising a solution-processed cesium fluoride interlayer
DOI:10.1063/1.3548860 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Reinhard, Manuel;Hanisch, Jonas;Zhang, Zhenhao;Ahlswede, Erik;Colsmann, Alexander;Lemmer, Uli;
2:3:303 Influence of surface roughness of aluminum-doped zinc oxide buffer layers on the performance of inverted organic solar cells
DOI:10.1063/1.3537961 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Cho, Sung-Woo;Kim, Young Tae;Shim, Won Hyun;Park, Sun-Young;Kim, Kwang-Dae;Seo, Hyun Ook;Dey, Nilay Kumar;Lim, Jae-Hong;Jeong, Yongsoo;Lee, Kyu Hwan;Kim, Young Dok;Lim, Dong Chan;
2:3:304 Polyvinylpyrrolidone-modified indium tin oxide as an electron-collecting electrode for inverted polymer solar cells
DOI:10.1063/1.4745772 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Shim, J. W.;Cheun, H.;Meyer, J.;Fuentes-Hernandez, C.;Dindar, A.;Zhou, Y. H.;Hwang, D. K.;Kahn, A.;Kippelen, B.;
2:3:305 Charge transport in flexible solar cells based on conjugated polymer and ZnO nanoparticulate thin films
DOI:10.1039/c0jm02184a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Liu, Jun-peng;Choy, Kwang-Leong;Hou, Xiang-hui;
2:3:306 Inverted polymer solar cells fabricated by a pre-metered coating process
DOI:10.1039/c2jm34918c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Jeon, Hong Goo;Cho, Chan Youn;Shin, Jung Chul;Park, Byoungchoo;
2:3:307 Influence of a polyelectrolyte based-fluorene interfacial layer on the performance of a polymer solar cell
DOI:10.1039/c3ta11972f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:3 AU: Yao, Shiyu;Li, Pengfei;Bian, Ji;Dong, Qingfeng;Im, Chan;Tian, Wenjing;
2:3:308 Efficient light-trapping in inverted polymer solar cells based on textured FTO transparent electrodes
DOI:10.1016/j.matlet.2014.05.064 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Yu, Xiaoming;Yu, Xuan;Zhang, Jianjun;Zhao, Ying;
2:3:309 Water-processable electron-collecting layers of a hybrid poly(ethylene oxide): Caesium carbonate composite for flexible inverted polymer solar cells
DOI:10.1016/j.solmat.2012.09.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Park, Byoungchoo;Shin, Jung Chul;Cho, Chan Youn;
2:3:310 Enhanced photovoltaic performance of inverted polymer solar cells by tuning the structures of titanium dioxide
DOI:10.1016/j.tsf.2013.07.041 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Peng, Ruixiang;Yang, Feng;Ouyang, Xinhua;Liu, Ying;Kim, Yong-Sang;Ge, Ziyi;
2:3:311 Dependence of the performance of inverted polymer solar cells on thickness of an electron selective ZnO layer deposited by magnetron sputtering
DOI:10.1016/j.tsf.2013.11.096 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Zhu, Feng;Chen, Xiaohong;Zhou, Lin;Zhou, Jianping;Yang, Jiaxiang;Huang, Sumei;Sun, Zhuo;
2:3:312 Effect of electron transport layer crystallinity on the transient characteristics of inverted organic solar cells
DOI:10.1063/1.3628319 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Kang, Yong-Jin;Kim, Chang Su;You, Dae Sung;Jung, Sung Hoon;Lim, Kyounga;Kim, Do-Geun;Kim, Jong-Kuk;Kim, Soo Hyung;Shin, Yu-Ri;Kwon, Se-Hun;Kang, Jae-Wook;
2:3:313 Ultrathin oxidized Ti to increase stability and smoothness of Al doped ZnO transparent conductors for high efficiency indium-free polymer solar cells
DOI:10.1063/1.4827877 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Formica, N.;Ghosh, D. S.;Martinez-Otero, A.;Chen, T. L.;Martorell, Jordi;Pruneri, V.;
2:3:314 Highly efficient inverted organic solar cells using amino acid modified indium tin oxide as cathode
DOI:10.1063/1.4870096 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Li, Aiyuan;Nie, Riming;Deng, Xianyu;Wei, Huaixin;Zheng, Shizhao;Li, Yanqing;Tang, Jianxin;Wong, King-Young;
2:3:315 Effects of thermal treatment and depth profiling analysis of solution processed bulk-heterojunction organic photovoltaic cells
DOI:10.1016/j.jcis.2014.09.005 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:1 AU: Mbule, Pontsho S.;Swart, Hendrik C.;Ntwaeaborwa, Odireleng M.;
2:3:316 Self-assembled tetraoctylammonium bromide as an electron-injection layer for cathode-independent high-efficiency polymer light-emitting diodes
DOI:10.1039/c1jm00045d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Hsieh, Sung-Nien;Hsiao, Shih-Wei;Chen, Tsan-Yao;Li, Chen-Yan;Lee, Chih-Hao;Guo, Tzung-Fang;Hsu, Yao-Jane;Lin, Tsang-Lang;Wei, Yen;Wen, Ten-Chin;
2:3:317 ZnO layers for opto-electronic applications from solution-based and low-temperature processing of an organometallic precursor
DOI:10.1039/c2jm34656g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Foong, Thelese Ru Bao;Singh, Samarendra Pratap;Sonar, Prashant;Ooi, Zi-En;Chan, Khai Leok;Dodabalapur, Ananth;
2:3:318 Solution phase n-doping of C-60 and PCBM using tetrabutylammonium fluoride
DOI:10.1039/c3ta14132b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Weber, C. D.;Bradley, C.;Lonergan, M. C.;
2:3:319 "Solar tree": Exploring new form factors of organic solar cells
DOI:10.1016/j.renene.2014.06.045 JN:RENEWABLE ENERGY PY:2014 TC:0 AU: Cao, Weiran;Li, Zhifeng;Yang, Yixing;Zheng, Ying;Yu, Weijie;Afzal, Rimza;Xue, Jiangeng;
2:3:320 Electrical properties of inverted poly(3-hexylthiophene): Methano-fullerene [6,6]-phenyl C-71-butyric acid methyl ester bulk hetero-junction solar cell with Cs2CO3 and MoO3 layers
DOI:10.1016/j.solmat.2011.07.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Lee, Yeon-Il;Youn, Jun-Ho;Ryu, Mi-Sun;Kim, Jungho;Moon, Hie-Tae;Jang, Jin;
2:3:321 The influence of wrinkled ZnO on inverted low bandgap thin film solar cells
DOI:10.1016/j.solmat.2012.01.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Chen, Chao-Shuo;Yang, Po-Ching;Shen, Yu-Min;Ma, Shou-Yuan;Shiu, Shu-Chia;Hung, Shih-Che;Lin, Shang-Hong;Lin, Ching-Fuh;
2:3:322 Effect of vertical morphology on the performance of silole-containing low-bandgap inverted polymer solar cells
DOI:10.1016/j.solmat.2011.09.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Subbiah, Jegadesan;Amb, Chad M.;Reynolds, John R.;So, Franky;
2:3:323 Annealing-free solution-processed tungsten oxide for inverted organic solar cells
DOI:10.1016/j.solmat.2013.12.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Guillain, Frederic;Tsikritzis, Dimitris;Skoulatakis, George;Kennou, Stella;Wantz, Guillaume;Vignau, Laurence;
2:3:324 Morphological evolution of the poly(3-hexylthiophene)/[6,6]-phenyl-C-61-butyric acid methyl ester, oxidation of the silver electrode, and their influences on the performance of inverted polymer solar cells with a sol-gel derived zinc oxide electron selective layer
DOI:10.1016/j.tsf.2010.04.010 JN:THIN SOLID FILMS PY:2010 TC:17 AU: Liu, Meng-Yueh;Chang, Chin-Hsiang;Chang, Chih-Hua;Tsai, Kao-Hua;Huang, Jing-Shun;Chou, Chen-Yu;Wang, Ing-Jye;Wang, Po-Sheng;Lee, Chun-Yu;Chao, Cha-Hsin;Yeh, Chin-Liang;Wu, Chih-I;Lin, Ching-Fuh;
2:3:325 Inverted organic solar cells comprising low-temperature-processed ZnO films
DOI:10.1007/s00339-014-8373-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Pradhan, Basudev;Albrecht, Steve;Stiller, Burkhard;Neher, Dieter;
2:3:326 Enhanced performance in polymer solar cells by the use of a halogenated indium tin oxide anode
DOI:10.1063/1.4790624 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zheng, Shizhao;Wong, King Y.;
2:3:327 Calcium chloride electron injection/extraction layers in organic electronic devices
DOI:10.1063/1.4863747 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Qu, Bo;Gao, Zhi;Yang, Hongsheng;Xiao, Lixin;Chen, Zhijian;Gong, Qihuang;
2:3:328 Surface Modification of a ZnO Electron-Collecting Layer Using Atomic Layer Deposition to Fabricate High-Performing Inverted Organic Photovoltaics
DOI:10.1021/am402403x JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Kim, Kwang-Dae;Lim, Dong Chan;Hu, Jinhee;Kwon, Jung-Dae;Jeong, Myung-Geun;Seo, Hyun Ook;Lee, Joo Yul;Jang, Ka-Young;Lim, Jae-Hong;Lee, Kyu Hwan;Jeong, Yongsoo;Kim, Young Dok;Cho, Shinuk;
2:3:329 Dependence of aluminum-doped zinc oxide work function on surface cleaning method as studied by ultraviolet and X-ray photoelectron spectroscopies
DOI:10.1016/j.apsusc.2010.11.084 JN:APPLIED SURFACE SCIENCE PY:2011 TC:16 AU: Wang, Weiyan;Feng, Quanyu;Jiang, Kemin;Huang, Jinhua;Zhang, Xianpeng;Song, Weijie;Tan, Ruiqin;
2:3:330 Operational Mechanism of Conjugated Polyelectrolytes
DOI:10.1021/ja502055x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Tordera, Daniel;Kuik, Martijn;Rengert, Zachary D.;Bandiello, Enrico;Boink, Henk J.;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:3:331 Indium tin oxide modified by titanium dioxide nanoparticles dispersed in poly(N-vinylpyrrolidone) for use as an electron-collecting layer in organic solar cells with an inverted structure
DOI:10.1557/jmr.2012.278 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:2 AU: Shim, Jae Won;Cheun, Hyeunseok;Dindar, Amir;Kim, Yunsang;Zhou, Yinhua;Fuentes-Hernandez, Canek;Hwang, Do-Kyung;Perry, Joseph W.;Kippelen, Bernard;
2:3:332 Polymer bulk heterojunction solar cells: function and utility of inserting a hole transport and electron blocking layer into the device structure
DOI:10.1039/c0jm02224a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Sun, Yanming;Wang, Mingfeng;Gong, Xiong;Seo, Jung Hwa;Hsu, Ben B. Y.;Wudl, Fred;Heeger, Alan J.;
2:3:333 Enhanced performance of polymer bulk heterojunction solar cells employing multifunctional iridium complexes
DOI:10.1039/c4tc01222d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Yun, Myoung Hee;Lee, Eung;Lee, Woochul;Choi, Hyosung;Lee, Bo Ram;Song, Myoung Hoon;Hong, Jong-In;Kwon, Tae-Hyuk;Kim, Jin Young;
2:3:334 Effects of a bathophenanthroline exciton blocking layer on thermal annealing-free bulk heterojunction solar cells
DOI:10.1016/j.synthmet.2013.04.007 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Zhao, Yanfei;Chen, Long;Li, Chen;Muellen, Klaus;
2:3:335 23% enhanced efficiency of polymer solar cells processed with 1-chloronaphthalene as the solvent additive
DOI:10.1016/j.synthmet.2012.12.016 JN:SYNTHETIC METALS PY:2013 TC:10 AU: Hu, Xiaowen;Wang, Ming;Huang, Fei;Gong, Xiong;Cao, Yong;
2:3:336 Switchable polarity in polymer solar cells using conjugated polyelectrolyte
DOI:10.1016/j.synthmet.2013.10.035 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Shin, Insoo;Lee, Jihbon;Oh, Seung-Hwan;Kang, Phil Hyun;Jung, Yun Kyung;Park, Sung Heum;
2:3:337 Efficient and stable, structurally inverted poly(3-hexylthiopen): [6,6]-phenyl-C61-butyric acid methyl ester heterojunction solar cells with fibrous like poly(3-hexylthiopen)
DOI:10.1016/j.tsf.2011.07.022 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Bandara, Jayasundera;Shankar, Karthik;Grimes, Craig A.;Thelakkat, Mukundan;
2:3:338 Optimization of antireflective zinc oxide nanorod arrays on seedless substrate for bulk-heterojunction organic solar cells
DOI:10.1063/1.4757997 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Choi, Hyung Woo;Lee, Kyu-Sung;Alford, T. L.;
2:3:339 Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors
DOI:10.1021/am501977w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Nie, Riming;Wang, Yangyang;Deng, Xianyu;
2:3:340 The influence of annealing atmosphere on the material properties of sol-gel derived SnO2:Sb films before and after annealing
DOI:10.1016/j.apsusc.2012.02.010 JN:APPLIED SURFACE SCIENCE PY:2012 TC:5 AU: Jeng, Jiann-Shing;
2:3:341 Role of self-assembled tetraoctylammonium bromide on various conjugated polymers in polymer light-emitting diodes
DOI:10.1039/c3tc31552e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Tsai, Kai-Wei;Guo, Tzung-Fang;Jen, Alex K. -Y.;Wen, Ten-Chin;
2:3:342 Self-assembled monolayer modified ITO in P3HT:PC61BM organic solar cells with improved efficiency
DOI:10.1016/j.solmat.2014.01.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Das, Sayantan;Joslin, Joseph;Alford, T. L.;
2:3:343 Synthesis, optical and electrochemical properties of in-situ thermally cross-linkable oligo(10H-alkylphenothiazine)
DOI:10.1016/j.synthmet.2011.11.012 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Jo, Mi Young;Park, Seong Soo;Kim, Joo Hyun;
2:3:344 High Efficiency of Poly(3-hexylthiophene)/[6,6]-phenyl C-61 Butyric Acid Methyl Ester Bulk Heterojunction Solar Cells through Precrystallining of Poly(3-hexylthiophene) Based Layer
DOI:10.1021/am401863r JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Chen, Lie;Wang, Peishan;Chen, Yiwang;
2:3:345 Effects of Solvent Type on Low-Temperature Sintering of Silver Oxide Paste to Form Electrically Conductive Silver Film
DOI:10.1007/s11664-011-1698-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:6 AU: Kim, Inyoung;Chun, Sangki;
2:3:346 Enhancing the hole injection ability of indium tin oxide via ammonium salts in polymer light-emitting diodes
DOI:10.1039/c2tc00231k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Tsai, Kai-Wei;Hsieh, Sung-Nien;Guo, Tzung-Fang;Hsu, Yao-Jane;Jen, Alex K. -Y.;Wen, Ten-Chin;
2:3:347 High-detectivity inverted near-infrared polymer photodetectors using cross-linkable conjugated polyfluorene as an electron extraction layer
DOI:10.1039/c4tc02021a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Hu, Xiaowen;Wang, Kai;Liu, Chang;Meng, Tianyu;Dong, Yang;Liu, Shengjian;Huang, Fei;Gong, Xiong;Cao, Yong;
2:3:348 Deposition of unhydrogenated amorphous carbon films by sublimation of C-60 fullerene in electron beam excited plasma
DOI:10.1016/j.matlet.2009.08.063 JN:MATERIALS LETTERS PY:2010 TC:1 AU: Taghavi, Hamed Vaez;Hirata, Atsushi;
2:3:349 Manufacture of light-trapping (LT) films by ultraviolet (UV) irradiation and their applications for polymer solar cells (PSCs)
DOI:10.1016/j.matlet.2011.09.030 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Lin, Jian-Shian;Chu, Wei-Ping;Juang, Fuh-Shyang;Chen, Nien-Po;Tsai, Yu-Sheng;Chen, Cheng-Chieh;Chen, Chen-Ming;Liu, Lung-Chang;
2:3:350 Effects of Cs-doping on morphological, optical and electrical properties of Bi2Te3 nanostructures
DOI:10.1016/j.matlet.2014.08.068 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Srivastava, Punita;Singh, Kedar;
2:3:351 Synthesis and Characterization of Thermally Cross-Linkable Oligophenothiazine
DOI:10.1080/15421406.2012.703446 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Jo, Mi Young;Kim, Joo Hyun;
2:3:352 Fluorinated Copper Phthalocyanine Nanowires for Enhancing Interfacial Electron Transport in Organic Solar Cells (vol 12, pg 6315, 2012)
DOI:10.1021/nl4002348 JN:NANO LETTERS PY:2013 TC:0 AU: Yoon, Seok Min;Lou, Sylvia J.;Loser, Stephen;Smith, Jeremy;Chen, Lin X.;Facchetti, Antonio;Marks, Tobin J.;
2:3:353 On stability of iodine doped TiO2 electrodes in pH varied aqueous electrolytes
DOI:10.1016/j.ssi.2010.09.040 JN:SOLID STATE IONICS PY:2011 TC:2 AU: Szybowska, Katarzyna;Lisowska-Oleksiak, Anna;
2:4:1:1 A Highly Efficient Universal Bipolar Host for Blue, Green, and Red Phosphorescent OLEDs
DOI:10.1002/adma.201000061 JN:ADVANCED MATERIALS PY:2010 TC:254 AU: Chou, Ho-Hsiu;Cheng, Chien-Hong;
2:4:1:2 High-Efficiency Blue and White Organic Light-Emitting Devices Incorporating a Blue Iridium Carbene Complex
DOI:10.1002/adma.201002254 JN:ADVANCED MATERIALS PY:2010 TC:216 AU: Sasabe, Hisahiro;Takamatsu, Jun-ichi;Motoyama, Takao;Watanabe, Soichi;Wagenblast, Gerhard;Langer, Nicolle;Molt, Oliver;Fuchs, Evelyn;Lennartz, Christian;Kido, Junji;
2:4:1:3 Bipolar Host Materials: A Chemical Approach for Highly Efficient Electrophosphorescent Devices
DOI:10.1002/adma.201101848 JN:ADVANCED MATERIALS PY:2011 TC:197 AU: Chaskar, Atul;Chen, Hsiao-Fan;Wong, Ken-Tsung;
2:4:1:4 External Quantum Efficiency Above 20% in Deep Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201004372 JN:ADVANCED MATERIALS PY:2011 TC:185 AU: Jeon, Soon Ok;Jang, Sang Eok;Son, Hyo Suk;Lee, Jun Yeob;
2:4:1:5 Development of high performance OLEDs for general lighting
DOI:10.1039/c2tc00584k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:107 AU: Sasabe, Hisahiro;Kido, Junji;
2:4:1:6 Organic Materials for Deep Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201200627 JN:ADVANCED MATERIALS PY:2012 TC:154 AU: Yook, Kyoung Soo;Lee, Jun Yeob;
2:4:1:7 Bipolar Tetraarylsilanes as Universal Hosts for Blue, Green, Orange, and White Electrophosphorescence with High Efficiency and Low Efficiency Roll-Off
DOI:10.1002/adfm.201002066 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:109 AU: Gong, Shaolong;Chen, Yonghua;Luo, Jiajia;Yang, Chuluo;Zhong, Cheng;Qin, Jingui;Ma, Dongge;
2:4:1:8 Multifunctional Materials in High-Performance OLEDs: Challenges for Solid-State Lighting
DOI:10.1021/cm1024052 JN:CHEMISTRY OF MATERIALS PY:2011 TC:169 AU: Sasabe, Hisahiro;Kido, Junji;
2:4:1:9 High-Performance Red, Green, and Blue Electroluminescent Devices Based on Blue Emitters with Small Singlet-Triplet Splitting and Ambipolar Transport Property
DOI:10.1002/adfm.201202981 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:51 AU: Wang, Kai;Zhao, Fangchao;Wang, Chenguang;Chen, Shanyong;Chen, Dong;Zhang, Hongyu;Liu, Yu;Ma, Dongge;Wang, Yue;
2:4:1:10 Constructing high-performance blue, yellow and red electroluminescent devices based on a class of multifunctional organic materials
DOI:10.1039/c3tc31271b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Chen, Shanyong;Wei, Jinbei;Wang, Kai;Wang, Chenguang;Chen, Dong;Liu, Yu;Wang, Yue;
2:4:1:11 New multifunctional phenanthroimidazole-phosphine oxide hybrids for high-performance red, green and blue electroluminescent devices
DOI:10.1039/c4tc00749b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Wang, Kai;Wang, Shipan;Wei, Jinbei;Chen, Shanyong;Liu, Dong;Liu, Yu;Wang, Yue;
2:4:1:12 RGB Phosphorescent Organic Light-Emitting Diodes by Using Host Materials with Heterocyclic Cores: Effect of Nitrogen Atom Orientations
DOI:10.1021/cm102975d JN:CHEMISTRY OF MATERIALS PY:2011 TC:102 AU: Su, Shi-Jian;Cai, Chao;Kido, Junji;
2:4:1:13 De Novo Design of Silicon-Bridged Molecule Towards a Bipolar Host: All-Phosphor White Organic Light-Emitting Devices Exhibiting High Efficiency and Low Efficiency Roll-Off
DOI:10.1002/adma.201002732 JN:ADVANCED MATERIALS PY:2010 TC:94 AU: Gong, Shaolong;Chen, Yonghua;Yang, Chuluo;Zhong, Cheng;Qin, Jingui;Ma, Dongge;
2:4:1:14 High-Efficiency Deep-Blue-Phosphorescent Organic Light-Emitting Diodes Using a Phosphine Oxide and a Phosphine Sulfide High-Triplet-Energy Host Material with Bipolar Charge-Transport Properties
DOI:10.1002/adma.200903321 JN:ADVANCED MATERIALS PY:2010 TC:104 AU: Jeon, Soon Ok;Yook, Kyoung Soo;Joo, Chul Woong;Lee, Jun Yeob;
2:4:1:15 A new benzimidazole/carbazole hybrid bipolar material for highly efficient deep-blue electrofluorescence, yellow-green electrophosphorescence, and two-color-based white OLEDs
DOI:10.1039/c0jm02143a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:96 AU: Hung, Wen-Yi;Chi, Liang-Chen;Chen, Wei-Jiun;Chen, You-Ming;Chou, Shu-Hua;Wong, Ken-Tsung;
2:4:1:16 Solution-Processable Hosts Constructed by Carbazole/PO Substituted Tetraphenylsilanes for Efficient Blue Electrophosphorescent Devices
DOI:10.1002/adfm.201401183 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Liu, He;Bai, Qing;Yao, Liang;Hu, Dehua;Tang, Xiangyang;Shen, Fangzhong;Zhang, Huanhuan;Gao, Yu;Lu, Ping;Yang, Bing;Ma, Yuguang;
2:4:1:17 Constructing Low-Triplet-Energy Hosts for Highly Efficient Blue PHOLEDs: Controlling Charge and Exciton Capture in Doping Systems
DOI:10.1021/cm403160p JN:CHEMISTRY OF MATERIALS PY:2013 TC:12 AU: Han, Chunmiao;Zhao, Fangchao;Zhang, Zhen;Zhu, Liping;Xu, Hui;Li, Jing;Ma, Dongge;Yan, Pengfei;
2:4:1:18 Multifunctional Triphenylamine/Oxadiazole Hybrid as Host and Exciton-Blocking Material: High Efficiency Green Phosphorescent OLEDs Using Easily Available and Common Materials
DOI:10.1002/adfm.201000669 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:86 AU: Tao, Youtian;Wang, Qiang;Yang, Chuluo;Zhong, Cheng;Qin, Jingui;Ma, Dongge;
2:4:1:19 Strategies to Design Bipolar Small Molecules for OLEDs: Donor-Acceptor Structure and Non-Donor-Acceptor Structure
DOI:10.1002/adma.201003816 JN:ADVANCED MATERIALS PY:2011 TC:101 AU: Duan, Lian;Qiao, Juan;Sun, Yongduo;Qiu, Yong;
2:4:1:20 A hybrid white organic light-emitting diode with above 20% external quantum efficiency and extremely low efficiency roll-off
DOI:10.1039/c4tc01149j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Sun, Ning;Wang, Qi;Zhao, Yongbiao;Yang, Dezhi;Zhao, Fangchao;Chen, Jiangshan;Ma, Dongge;
2:4:1:21 Design of star-shaped molecular architectures based on carbazole and phosphine oxide moieties: towards amorphous bipolar hosts with high triplet energy for efficient blue electrophosphorescent devices
DOI:10.1039/c0jm00846j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:77 AU: Ding, Junqiao;Wang, Qi;Zhao, Lei;Ma, Dongge;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:1:22 Phosphine oxide derivatives for organic light emitting diodes
DOI:10.1039/c1jm14832j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:67 AU: Jeon, Soon Ok;Lee, Jun Yeob;
2:4:1:23 Tuning the Optoelectronic Properties of Carbazole/Oxadiazole Hybrids through Linkage Modes: Hosts for Highly Efficient Green Electrophosphorescence
DOI:10.1002/adfm.200901615 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:104 AU: Tao, Youtian;Wang, Qiang;Yang, Chuluo;Zhong, Cheng;Zhang, Kai;Qin, Jingui;Ma, Dongge;
2:4:1:24 Molecular design of host materials based on triphenylamine/oxadiazole hybrids for excellent deep-red phosphorescent organic light-emitting diodes
DOI:10.1039/b920227g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:64 AU: Tao, Youtian;Wang, Qiang;Ao, Liang;Zhong, Cheng;Qin, Jingui;Yang, Chuluo;Ma, Dongge;
2:4:1:25 Short-Axis Substitution Approach Selectively Optimizes Electrical Properties of Dibenzothiophene-Based Phosphine Oxide Hosts
DOI:10.1021/ja308273y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:37 AU: Han, Chunmiao;Zhang, Zhenson;Xu, Hui;Yue, Shouzhen;Li, Jing;Yan, Pingrui;Deng, Zhaopeng;Zhao, Yi;Yan, Pengfei;Liu, Shiyong;
2:4:1:26 A versatile hybrid polyphenylsilane host for highly efficient solution-processed blue and deep blue electrophosphorescence
DOI:10.1039/c4tc01467g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Sun, Dianming;Zhou, Xiaokang;Li, Huihui;Sun, Xiaoli;Zheng, Yonghao;Ren, Zhongjie;Ma, Dongge;Bryce, Martin R.;Yan, Shouke;
2:4:1:27 Fluorene-Based Asymmetric Bipolar Universal Hosts for White Organic Light Emitting Devices
DOI:10.1002/adfm.201202889 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:44 AU: Mondal, Ejabul;Hung, Wen-Yi;Dai, Hung-Chi;Wong, Ken-Tsung;
2:4:1:28 Host and Dopant Materials for Idealized Deep-Red Organic Electrophosphorescence Devices
DOI:10.1002/adma.201100610 JN:ADVANCED MATERIALS PY:2011 TC:63 AU: Fan, Chun-Hsiang;Sun, Peipei;Su, Tsu-Hui;Cheng, Chien-Hong;
2:4:1:29 3,3 '-Bicarbazole-Based Host Materials for High-Efficiency Blue Phosphorescent OLEDs with Extremely Low Driving Voltage
DOI:10.1002/adma.201200848 JN:ADVANCED MATERIALS PY:2012 TC:66 AU: Sasabe, Hisahiro;Toyota, Naoki;Nakanishi, Hiromi;Ishizaka, Tasuku;Pu, Yong-Jin;Kido, Junji;
2:4:1:30 A dicarbazole-triazine hybrid bipolar host material for highly efficient green phosphorescent OLEDs
DOI:10.1039/c2jm14686j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:34 AU: Chang, Chih-Hao;Kuo, Ming-Cheng;Lin, Wei-Chieh;Chen, Yu-Ting;Wong, Ken-Tsung;Chou, Shu-Hua;Mondal, Ejabul;Kwong, Raymond C.;Xia, Sean;Nakagawa, Tetsuya;Adachi, Chihaya;
2:4:1:31 High-Power-Efficiency Blue Electrophosphorescence Enabled by the Synergistic Combination of Phosphine-Oxide-Based Host and Electron-Transporting Materials
DOI:10.1021/cm4037555 JN:CHEMISTRY OF MATERIALS PY:2014 TC:18 AU: Gong, Shaolong;Chang, Yi-Lu;Wu, Kailong;White, Robin;Lu, Zheng-Hong;Song, Datong;Yang, Chuluo;
2:4:1:32 Bipolar Phenanthroimidazole Derivatives Containing Bulky Polyaromatic Hydrocarbons for Nondoped Blue Electroluminescence Devices with High Efficiency and Low Efficiency Roll-Off
DOI:10.1021/cm4030414 JN:CHEMISTRY OF MATERIALS PY:2013 TC:27 AU: Yuan, Yi;Chen, Jia-Xiong;Lu, Feng;Tong, Qing-Xiao;Yang, Qing-Dan;Mo, Hin-Wai;Ng, Tsz-Wai;Wong, Fu-Lung;Guo, Zheng-Qing;Ye, Jun;Chen, Zhan;Zhang, Xiao-Hong;Lee, Chun-Sing;
2:4:1:33 Bipolar host materials for high efficiency phosphorescent organic light emitting diodes: tuning the HOMO/LUMO levels without reducing the triplet energy in a linear system
DOI:10.1039/c3tc31675k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Cui, Lin-Song;Liu, Yuan;Yuan, Xiao-Dong;Li, Qian;Jiang, Zuo-Quan;Liao, Liang-Sheng;
2:4:1:34 Carbazole-based coplanar molecule (CmInF) as a universal host for multi-color electrophosphorescent devices
DOI:10.1039/c1jm13794h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:49 AU: Ho, Cheuk-Lam;Chi, Liang-Chen;Hung, Wen-Yi;Chen, Wei-Jiun;Lin, Yu-Cheng;Wu, Hao;Mondal, Ejabul;Zhou, Gui-Jiang;Wong, Ken-Tsung;Wong, Wai-Yeung;
2:4:1:35 Systematic study of TCTA-based star-shaped host materials by optimizing ratio of carbazole/diphenylphosphine oxide: achieving both low efficiency roll-off and turn-on voltage for blue PHOLEDs
DOI:10.1039/c4tc00951g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Pan, Biao;Huang, Hong;Yang, Xiao;Jin, Jiangjiang;Zhuang, Shaoqing;Mu, Guangyuan;Wang, Lei;
2:4:1:36 Highly efficient orange and deep-red organic light emitting diodes with long operational lifetimes using carbazole-quinoline based bipolar host materials
DOI:10.1039/c4tc00523f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Chen, Chin-Hsien;Hsu, Lun-Chia;Rajamalli, P.;Chang, Yu-Wei;Wu, Fang-Iy;Liao, Chuang-Yi;Chiu, Ming-Jai;Chou, Pei-Yu;Huang, Min-Jie;Chu, Li-Kang;Cheng, Chien-Hong;
2:4:1:37 Nitrogen heterocycle-containing materials for highly efficient phosphorescent OLEDs with low operating voltage
DOI:10.1039/c4tc01941e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Chen, Dongcheng;Su, Shi-Jian;Cao, Yong;
2:4:1:38 Tuning Energy Levels of Electron-Transport Materials by Nitrogen Orientation for Electrophosphorescent Devices with an 'Ideal' Operating Voltage
DOI:10.1002/adma.200904249 JN:ADVANCED MATERIALS PY:2010 TC:63 AU: Su, Shi-Jian;Sasabe, Hisahiro;Pu, Yong-Jin;Nakayama, Ken-ichi;Kido, Junji;
2:4:1:39 A Single Phosphine Oxide Host for High-Efficiency White Organic Light-Emitting Diodes with Extremely Low Operating Voltages and Reduced Efficiency Roll-Off
DOI:10.1002/adma.201100322 JN:ADVANCED MATERIALS PY:2011 TC:61 AU: Han, Chunmiao;Xie, Guohua;Xu, Hui;Zhang, Zhensong;Xie, Linghai;Zhao, Yi;Liu, Shiyong;Huang, Wei;
2:4:1:40 New Host Material for High-Performance Blue Phosphorescent Organic Electroluminescent Devices
DOI:10.1002/adma.201200972 JN:ADVANCED MATERIALS PY:2012 TC:52 AU: Bin, Jong-Kwan;Cho, Nam-Sung;Hong, Jong-In;
2:4:1:41 Above 30% External Quantum Efficiency in Blue Phosphorescent Organic Light-Emitting Diodes Using Pyrido[2,3-b]indole Derivatives as Host Materials
DOI:10.1002/adma.201301091 JN:ADVANCED MATERIALS PY:2013 TC:73 AU: Lee, Chil Won;Lee, Jun Yeob;
2:4:1:42 Donor-Substituted 1,3,5-Triazines as Host Materials for Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/cm9033879 JN:CHEMISTRY OF MATERIALS PY:2010 TC:74 AU: Rothmann, Michael M.;Haneder, Stephan;Da Como, Enrico;Lennartz, Christian;Schildknecht, Christian;Strohriegl, Peter;
2:4:1:43 A Novel, Bipolar Polymeric Host for Highly Efficient Blue Electrophosphorescence: a Non-Conjugated Poly(aryl ether) Containing Triphenylphosphine Oxide Units in the Electron-Transporting Main Chain and Carbazole Units in Hole-Transporting Side Chains
DOI:10.1002/adma.201101074 JN:ADVANCED MATERIALS PY:2011 TC:45 AU: Shao, Shiyang;Ding, Junqiao;Ye, Tengling;Xie, Zhiyuan;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:1:44 Incorporation of a CN group into mCP: a new bipolar host material for highly efficient blue and white electrophosphorescent devices
DOI:10.1039/c2jm32717a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:32 AU: Lin, Ming-Shiang;Yang, Shang-Jung;Chang, Hong-Wei;Huang, Yi-Hsiang;Tsai, Yu-Tang;Wu, Chung-Chih;Chou, Shu-Hua;Mondal, Ejabul;Wong, Ken-Tsung;
2:4:1:45 Phenylcarbazole-dipyridyl triazole hybrid as bipolar host material for phosphorescent OLEDs
DOI:10.1039/c2jm15963e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Hung, Wen-Yi;Tu, Guan-Min;Chen, Shou-Wei;Chi, Yun;
2:4:1:46 Spiro-annulated triarylamine-based hosts incorporating dibenzothiophene for highly efficient single-emitting layer white phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc31336k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Dong, Shou-Cheng;Liu, Yuan;Li, Qian;Cui, Lin-Song;Chen, Hua;Jiang, Zuo-Quan;Liao, Liang-Sheng;
2:4:1:47 A simple carbazole-N-benzimidazole bipolar host material for highly efficient blue and single layer white phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc32388a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:34 AU: Pan, Biao;Wang, Bo;Wang, Yixing;Xu, Peng;Wang, Lei;Chen, Jiangshan;Ma, Dongge;
2:4:1:48 High Quantum Efficiency in Solution and Vacuum Processed Blue Phosphorescent Organic Light Emitting Diodes Using a Novel Benzofuropyridine-Based Bipolar Host Material
DOI:10.1002/adma.201203180 JN:ADVANCED MATERIALS PY:2013 TC:53 AU: Lee, Chil Won;Lee, Jun Yeob;
2:4:1:49 Solution-Processed Double-Silicon-Bridged Oxadiazole/Arylamine Hosts for High-Efficiency Blue Electrophosphorescence
DOI:10.1021/cm301032p JN:CHEMISTRY OF MATERIALS PY:2012 TC:25 AU: Gong, Shaolong;Fu, Qiang;Zeng, Weixuan;Zhong, Cheng;Yang, Chuluo;Ma, Dongge;Qin, Jingui;
2:4:1:50 Benzimidazole-carbazole-based bipolar hosts for high efficiency blue and white electrophosphorescence applications
DOI:10.1039/c2jm31765f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Huang, Hong;Yang, Xiao;Pan, Biao;Wang, Lei;Chen, Jiangshan;Ma, Dongge;Yang, Chuluo;
2:4:1:51 Low Driving Voltage, High Quantum Efficiency, High Power Efficiency, and Little Efficiency Roll-Off in Red, Green, and Deep-Blue Phosphorescent Organic Light-Emitting Diodes Using a High-Triplet-Energy Hole Transport Material
DOI:10.1002/adma.201102045 JN:ADVANCED MATERIALS PY:2011 TC:39 AU: Cho, Yong Joo;Lee, Jun Yeob;
2:4:1:52 N-Heterocyclic Carbazole-Based Hosts for Simplified Single-Layer Phosphorescent OLEDs with High Efficiencies
DOI:10.1002/adma.201200927 JN:ADVANCED MATERIALS PY:2012 TC:36 AU: Hudson, Zachary M.;Wang, Zhibin;Helander, Michael G.;Lu, Zheng-Hong;Wang, Suning;
2:4:1:53 A m-Terphenyl-Modifed Sulfone Derivative as a Host Material for High-Efficiency Blue and Green Phosphorescent OLEDs
DOI:10.1021/cm3006748 JN:CHEMISTRY OF MATERIALS PY:2012 TC:37 AU: Sasabe, Hisahiro;Seino, Yuki;Kimura, Masato;Kido, Junji;
2:4:1:54 A diarylborane-substituted carbazole as a universal bipolar host material for highly efficient electrophosphorescence devices
DOI:10.1039/c1jm13323c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:31 AU: Lin, Ming-Shiang;Chi, Liang-Chen;Chang, Hong-Wei;Huang, Yi-Hsiang;Tien, Kun-Cheng;Chen, Chung-Chia;Chang, Chih-Hao;Wu, Chung-Chih;Chaskar, Atul;Chou, Shu-Hua;Ting, Hao-Chun;Wong, Ken-Tsung;Liu, Yi-Hong;Chi, Yun;
2:4:1:55 A CBP derivative as bipolar host for performance enhancement in phosphorescent organic light-emitting diodes
DOI:10.1039/c2tc00305h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Zhang, Ting;Liang, Yunjing;Cheng, Jinling;Li, Jiuyan;
2:4:1:56 Improved host material for electrophosphorescence by positional engineering of spirobifluorene-carbazole hybrids
DOI:10.1039/c4tc01619j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Liu, Yuan;Cui, Lin-Song;Shi, Xiao-Bo;Li, Qian;Jiang, Zuo-Quan;Liao, Liang-Sheng;
2:4:1:57 Highly Efficient Red Phosphorescent Dopants in Organic Light-Emitting Devices
DOI:10.1002/adma.201100405 JN:ADVANCED MATERIALS PY:2011 TC:49 AU: Kim, Do Han;Cho, Nam Sung;Oh, Hyoung-Yun;Yang, Joong Hwan;Jeon, Woo Sik;Park, Jung Soo;Suh, Min Chul;Kwon, Fang Hyuk;
2:4:1:58 Ternary Ambipolar Phosphine Oxide Hosts Based on Indirect Linkage for Highly Efficient Blue Electrophosphorescence: Towards High Triplet Energy, Low Driving Voltage and Stable Efficiencies
DOI:10.1002/adma.201104214 JN:ADVANCED MATERIALS PY:2012 TC:55 AU: Yu, Donghui;Zhao, Fangchao;Han, Chunmiao;Xu, Hui;Li, Jing;Zhang, Zhen;Deng, Zhaopeng;Ma, Dongge;Yan, Pengfei;
2:4:1:59 Phosphine Oxide Derivatives as Hosts for Blue Phosphors: A Joint Theoretical and Experimental Study of Their Electronic Structure
DOI:10.1021/cm9029616 JN:CHEMISTRY OF MATERIALS PY:2010 TC:52 AU: Kim, Dongwook;Salman, Seyhan;Coropceanu, Veaceslav;Salomon, Eric;Padmaperuma, Asanga B.;Sapochak, Linda S.;Kahn, Antoine;Bredas, Jean-Luc;
2:4:1:60 Dibenzothiophene derivatives as host materials for high efficiency in deep blue phosphorescent organic light emitting diodes
DOI:10.1039/c1jm12421h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:36 AU: Jeong, Sook Hee;Lee, Jun Yeob;
2:4:1:61 Indolo[3,2-b]carbazole/benzimidazole hybrid bipolar host materials for highly efficient red, yellow, and green phosphorescent organic light emitting diodes
DOI:10.1039/c2jm30207a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Ting, Hao-Chun;Chen, You-Ming;You, Hong-Wei;Hung, Wen-Yi;Lin, Sheng-Hsun;Chaskar, Atul;Chou, Shu-Hua;Chi, Yun;Liu, Rai-Hsung;Wong, Ken-Tsung;
2:4:1:62 Simultaneous achievement of low roll-off and stable color in highly efficient single-emitting-layer phosphorescent white organic light-emitting
DOI:10.1039/c4tc00413b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Liu, Baiquan;Wang, Lei;Xu, Miao;Tao, Hong;Xia, Xingheng;Zou, Jianhua;Su, Yueju;Gao, Dongyu;Lan, Linfeng;Peng, Junbiao;
2:4:1:63 Highly Efficient Multifluorenyl Host Materials with Unsymmetrical Molecular Configurations and Localized Triplet States for Green and Red Phosphorescent Devices
DOI:10.1002/adma.201400710 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Han, Chunmiao;Zhu, Liping;Li, Jing;Zhao, Fangchao;Zhang, Zhen;Xu, Hui;Deng, Zhaopeng;Ma, Dongge;Yan, Pengfei;
2:4:1:64 Electronic Structure of Carbazole-Based Phosphine Oxides as Ambipolar Host Materials for Deep Blue Electrophosphorescence: A Density Functional Theory Study
DOI:10.1021/cm301416n JN:CHEMISTRY OF MATERIALS PY:2012 TC:21 AU: Kim, Dongwook;Zhu, Lingyun;Bredas, Jean-Luc;
2:4:1:65 Design of Efficient Am bipolar Host Materials for Organic Blue Electrophosphorescence: Theoretical Characterization of Hosts Based on Carbazole Derivatives
DOI:10.1021/ja207554h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:46 AU: Kim, Dongwook;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:4:1:66 High-performance blue and green electrophosphorescence achieved by using carbazole-containing bipolar tetraarylsilanes as host materials
DOI:10.1039/c1jm11208b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Gong, Shaolong;Chen, Yonghua;Zhang, Xin;Cai, Peijun;Zhong, Cheng;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:4:1:67 Phosphorescent OLEDs assembled using Os(II) phosphors and a bipolar host material consisting of both carbazole and dibenzophosphole oxide
DOI:10.1039/c2jm16674g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Lin, Cheng-Huei;Hsu, Che-Wei;Liao, Jia-Ling;Cheng, Yi-Ming;Chi, Yun;Lin, Tsung-Yi;Chung, Min-Wen;Chou, Pi-Tai;Lee, Gene-Hsiang;Chang, Chih-Hao;Shih, Chin-Yao;Ho, Chi-Lung;
2:4:1:68 Durene-decorated CBP derivatives as phosphorescent hosts and exciton-blocking materials for efficient blue OLEDs
DOI:10.1039/c2jm33636g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Deng, Lijun;Wang, Xinzeng;Zhang, Zhengchuan;Li, Jiuyan;
2:4:1:69 Extremely stable-color flexible white organic light-emitting diodes with efficiency exceeding 100 lm W-1
DOI:10.1039/c4tc01582g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Liu, Baiquan;Wang, Lei;Xu, Miao;Tao, Hong;Gao, Dongyu;Zou, Jianhua;Lan, Linfeng;Ning, Honglong;Peng, Junbiao;Cao, Yong;
2:4:1:70 Improved Efficiency in Blue Phosphorescent Organic Light-Emitting Devices Using Host Materials of Lower Triplet Energy than the Phosphorescent Blue Emitter
DOI:10.1002/adfm.201100586 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:46 AU: Swensen, James S.;Polikarpov, Evgueni;Von Ruden, Amber;Wang, Liang;Sapochak, Linda S.;Padmaperuma, Asanga B.;
2:4:1:71 Extremely Low Operating Voltage Green Phosphorescent Organic Light-Emitting Devices
DOI:10.1002/adfm.201301069 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:36 AU: Sasabe, Hisahiro;Nakanishi, Hiromi;Watanabe, Yuichiro;Yano, Shogo;Hirasawa, Masakatsu;Pu, Yong-Jin;Kido, Junji;
2:4:1:72 Pyridine-Containing Electron-Transport Materials for Highly Efficient Blue Phosphorescent OLEDs with Ultralow Operating Voltage and Reduced Efficiency Roll-Off
DOI:10.1002/adfm.201303785 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:22 AU: Ye, Hua;Chen, Dongcheng;Liu, Ming;Su, Shi-Jian;Wang, Yi-Fan;Lo, Chang-Cheng;Lien, A.;Kido, Junji;
2:4:1:73 A carbazole-phenylbenzimidazole hybrid bipolar universal host for high efficiency RGB and white PhOLEDs with high chromatic stability
DOI:10.1039/c1jm14029a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:22 AU: Hung, Wen-Yi;Chi, Liang-Chen;Chen, Wei-Jiun;Mondal, Ejabul;Chou, Shu-Hua;Wong, Ken-Tsung;Chi, Yun;
2:4:1:74 A bulky pyridinylfluorene-fuctionalizing approach to synthesize diarylfluorene-based bipolar host materials for efficient red, green, blue and white electrophosphorescent devices
DOI:10.1039/c3tc00875d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Zhao, Xiang-Hua;Zhang, Zhen-Song;Qian, Yan;Yi, Ming-Dong;Xie, Ling-Hai;Hu, Chao-Peng;Xie, Guo-Hua;Xu, Hui;Han, Chun-Miao;Zhao, Yi;Huang, Wei;
2:4:1:75 Tetraphenylsilane derivatives spiro-annulated by triphenylamine/carbazole with enhanced HOMO energy levels and glass transition temperatures without lowering triplet energy: host materials for efficient blue phosphorescent OLEDs
DOI:10.1039/c2tc00082b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Fan, Cong;Chen, Yonghua;Liu, Zhongyin;Jiang, Zuoquan;Zhong, Cheng;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:4:1:76 Harmonizing Triplet Level and Ambipolar Characteristics of Wide-Gap Phosphine Oxide Hosts toward Highly Efficient and Low Driving Voltage Blue and Green PHOLEDs: An Effective Strategy Based on Spiro-Systems
DOI:10.1021/cm201654c JN:CHEMISTRY OF MATERIALS PY:2011 TC:41 AU: Zhao, Jie;Xie, Guo-Hua;Yin, Cheng-Rong;Xie, Ling-Hai;Han, Chun-Miao;Chen, Run-Feng;Xu, Hui;Yi, Ming-Dong;Deng, Zhao-Peng;Chen, Shu-Fen;Zhao, Yi;Liu, Shi-Yong;Huang, Wei;
2:4:1:77 New Ambipolar Hosts Based on Carbazole and 4,5-Diazafluorene Units for Highly Efficient Blue Phosphorescent OLEDs with Low Efficiency Roll-Off
DOI:10.1021/cm2036647 JN:CHEMISTRY OF MATERIALS PY:2012 TC:38 AU: Zheng, Cai-Jun;Ye, Jun;Lo, Ming-Fai;Fung, Man-Keung;Ou, Xue-Mei;Zhang, Xiao-Hong;Lee, Chun-Sing;
2:4:1:78 Carbazole-benzimidazole hybrid bipolar host materials for highly efficient green and blue phosphorescent OLEDs
DOI:10.1039/c1jm12598b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:40 AU: Chen, You-Ming;Hung, Wen-Yi;You, Hong-Wei;Chaskar, Atul;Ting, Hao-Chun;Chen, Hsiao-Fan;Wong, Ken-Tsung;Liu, Yi-Hung;
2:4:1:79 Three-carbazole-armed host materials with various cores for RGB phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm14151e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:34 AU: Su, Shi-Jian;Cai, Chao;Kido, Junji;
2:4:1:80 Computational design of high triplet energy host materials for phosphorescent blue emitters
DOI:10.1039/c3tc30473f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Varathan, E.;Vijay, Dolly;Kumar, P. Shyam Vinod;Subramanian, V.;
2:4:1:81 A simple systematic design of phenylcarbazole derivatives for host materials to high-efficiency phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc30410h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:19 AU: Cui, Lin-Song;Dong, Shou-Cheng;Liu, Yuan;Li, Qian;Jiang, Zuo-Quan;Liao, Liang-Sheng;
2:4:1:82 Highly efficient green phosphorescent OLEDs based on a novel iridium complex
DOI:10.1039/c2tc00052k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:17 AU: Li, Hong-Yan;Zhou, Liang;Teng, Ming-Yu;Xu, Qiu-Lei;Lin, Chen;Zheng, You-Xuan;Zuo, Jing-Lin;Zhang, Hong-Jie;You, Xiao-Zeng;
2:4:1:83 Dimeric SFX host materials for red, green and blue phosphorescent organic light-emitting devices
DOI:10.1016/j.synthmet.2014.06.022 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Sun, Ming-Li;Yue, Shou-Zhen;Lin, Jun-Rui;Ou, Chang-Jin;Qian, Yan;Zhang, Yang;Li, Yan;Wei, Qi;Zhao, Yi;Xie, Ling-Hai;Huang, Wei;
2:4:1:84 Influence of Substituted Pyridine Rings on Physical Properties and Electron Mobilities of 2-Methylpyrimidine Skeleton-Based Electron Transporters
DOI:10.1002/adfm.201001252 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:37 AU: Sasabe, Hisahiro;Tanaka, Daisaku;Yokoyama, Daisuke;Chiba, Takayuki;Pu, Yong-Jin;Nakayama, Ken-ichi;Yokoyama, Masaaki;Kido, Junji;
2:4:1:85 Highly Efficient Simple-Structure Blue and All-Phosphor Warm-White Phosphorescent Organic Light-Emitting Diodes Enabled by Wide-Bandgap Tetraarylsilane-Based Functional Materials
DOI:10.1002/adfm.201400149 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:9 AU: Gong, Shaolong;Sun, Ning;Luo, Jiajia;Zhong, Cheng;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:4:1:86 Pyridoindole Derivative as Electron Transporting Host Material for Efficient Deep-blue Phosphorescent Organic Light-emitting Diodes
DOI:10.1002/adma.201001221 JN:ADVANCED MATERIALS PY:2010 TC:36 AU: Fukagawa, Hirohiko;Yokoyama, Norimasa;Irisa, Shiro;Tokito, Shizuo;
2:4:1:87 Simple CBP isomers with high triplet energies for highly efficient blue electrophosphorescence
DOI:10.1039/c1jm14903b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:37 AU: Gong, Shaolong;He, Xun;Chen, Yonghua;Jiang, Zuoquan;Zhong, Cheng;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:4:1:88 Carbazole-based polysiloxane hosts for highly efficient solution-processed blue electrophosphorescent devices
DOI:10.1039/c3tc31108b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Sun, Dianming;Fu, Qiang;Ren, Zhongjie;Li, Wei;Li, Huihui;Ma, Dongge;Yan, Shouke;
2:4:1:89 A host material consisting of a phosphinic amide directly linked donor-acceptor structure for efficient blue phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc00939d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:19 AU: Wada, Atsushi;Yasuda, Takuma;Zhang, Qisheng;Yang, Yu Seok;Takasu, Isao;Enomoto, Shintaro;Adachi, Chihaya;
2:4:1:90 A Highly Efficient, Blue-Phosphorescent Device Based on a Wide-Bandgap Host/FIrpic: Rational Design of the Carbazole and Phosphine Oxide Moieties on Tetraphenylsilane
DOI:10.1002/adfm.201103126 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:37 AU: Liu, He;Cheng, Gang;Hu, Dehua;Shen, Fangzhong;Lv, Ying;Sun, Guannan;Yang, Bing;Lu, Ping;Ma, Yuguang;
2:4:1:91 Engineering the Substitution Position of Diphenylphosphine Oxide at Carbazole for Thermal Stability and High External Quantum Efficiency Above 30% in Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adfm.201304072 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:23 AU: Kim, Mounggon;Lee, Jun Yeob;
2:4:1:92 Polymers with Carbazole-Oxadiazole Side Chains as Ambipolar Hosts for Phosphorescent Light-Emitting Diodes
DOI:10.1021/cm201562p JN:CHEMISTRY OF MATERIALS PY:2011 TC:35 AU: Zhang, Yadong;Zuniga, Carlos;Kim, Sung-Jin;Cai, Dengke;Barlow, Stephen;Salman, Seyhan;Coropceanu, Veaceslav;Bredas, Jean-Luc;Kippelen, Bernard;Marder, Seth;
2:4:1:93 Triazine Based Bipolar Host Materials for Blue Phosphorescent OLEDs
DOI:10.1021/cm4023216 JN:CHEMISTRY OF MATERIALS PY:2013 TC:16 AU: Wagner, Daniel;Hoffmann, Sebastian T.;Heinemeyer, Ute;Muenster, Ingo;Koehler, Anna;Strohriegl, Peter;
2:4:1:94 Construction of High Tg Bipolar Host Materials with Balanced Electron-Hole Mobility Based on 1,2,4-Thiadiazole for Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/cm403388s JN:CHEMISTRY OF MATERIALS PY:2014 TC:11 AU: Jin, Jiangjiang;Zhang, Wenzhi;Wang, Bo;Mu, Guanyuan;Xu, Peng;Wang, Lei;Huang, Hong;Chen, Jiangshan;Ma, Dongge;
2:4:1:95 Highly efficient fluorescent-phosphorescent triplet-harvesting hybrid organic light-emitting diodes
DOI:10.1063/1.3275053 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:45 AU: Kondakova, Marina E.;Deaton, Joseph C.;Pawlik, Thomas D.;Giesen, David J.;Kondakov, Denis Y.;Young, Ralph H.;Royster, Tommie L.;Comfort, Dustin L.;Shore, Joel D.;
2:4:1:96 Correlation of the substitution position of diphenylphosphine oxide on phenylcarbazole and device performances of blue phosphorescent organic light-emitting diodes
DOI:10.1039/c0jm03427d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:25 AU: Son, Hyo Suk;Seo, Chang Woo;Lee, Jun Yeob;
2:4:1:97 Highly efficient deep-red organic electrophosphorescent devices with excellent operational stability using bis(indoloquinoxalinyl) derivatives as the host materials
DOI:10.1039/c3tc30823e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Su, Tsu-Hui;Fan, Chun-Hsiang;Ou-Yang, Yu-Han;Hsu, Lun-Chia;Cheng, Chien-Hong;
2:4:1:98 Highly twisted biphenyl-linked carbazole-benzimidazole hybrid bipolar host materials for efficient PhOLEDs
DOI:10.1039/c4tc01463d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Cheng, Shuo-Hsien;Hung, Wen-Yi;Cheng, Ming-Hung;Chen, Hsiao-Fan;Chaskar, Atul;Lee, Gene-Hsiang;Chou, Shu-Hua;Wong, Ken-Tsung;
2:4:1:99 A star-shaped bipolar host material based on carbazole and dimesitylboron moieties for fabrication of highly efficient red, green and blue electrophosphorescent devices
DOI:10.1039/c3tc32236j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Shi, Heping;Xin, Dehua;Dong, Xiuqing;Dai, Jian-xin;Wu, Xiaohuan;Miao, Yanqin;Fang, Li;Wang, Hua;Choi, Martin M. F.;
2:4:1:100 High-Performance Blue Phosphorescent OLEDs Using Energy Transfer from Exciplex
DOI:10.1002/adma.201304253 JN:ADVANCED MATERIALS PY:2014 TC:33 AU: Seino, Yuki;Sasabe, Hisahiro;Pu, Yong-Jin;Kido, Junji;
2:4:1:101 High Quantum Efficiency Blue Phosphorescent Organic Light-Emitting Diodes Using 6-Position-Modified Benzofuro[2,3-b]pyridine Derivatives
DOI:10.1021/am303256c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Lee, Chil Won;Kim, Jung-Keun;Joo, Sung Hoon;Lee, Jun Yeob;
2:4:1:102 New Bipolar Host Materials for Realizing Blue Phosphorescent Organic Light-Emitting Diodes with High Efficiency at 1000 cd/m(2)
DOI:10.1021/am505049h JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Cho, Min Ju;Kim, Sun Jae;Yoon, Seung Hee;Shin, Jicheol;Hong, Tae Ryang;Kim, Hyung Jong;Son, Young Hoon;Kang, Ju Sik;Um, Hyun Ah;Lee, Tae Wan;Bin, Jong-Kwan;Lee, Bang Sook;Yang, Joong Hwan;Chae, Gee Sung;Kwon, Jang Hyuk;Choi, Dong Hoon;
2:4:1:103 Triptycene derivatives as high-T-g host materials for various electrophosphorescent devices
DOI:10.1039/b918188a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:29 AU: Chou, Ho-Hsiu;Shih, Hung-Hsin;Cheng, Chien-Hong;
2:4:1:104 Small single-triplet energy gap bipolar host materials for phosphorescent blue and white organic light emitting diodes
DOI:10.1039/c3tc30671b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:18 AU: Son, Young Hoon;Kim, Young Jae;Park, Mi Jin;Oh, Hyoung-Yun;Park, Jung Soo;Yang, Joong Hwan;Suh, Min Chul;Kwon, Jang Hyuk;
2:4:1:105 Highly efficient phosphorescent OLEDs with host-independent and concentration-insensitive properties based on a bipolar iridium complex
DOI:10.1039/c3tc00500c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:26 AU: Peng, Tai;Li, Guomeng;Ye, Kaiqi;Wang, Chenguang;Zhao, Shanshan;Liu, Yu;Hou, Zhaomin;Wang, Yue;
2:4:1:106 Evaluation of propylene-, meta-, and para-linked triazine and tert-butyltriphenylamine as bipolar hosts for phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc00588g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Wang, Qiang;Wallace, Jason U.;Lee, Thomas Y. -H.;Ou, Jane J.;Tsai, Yu-Tang;Huang, Yi-Hsiang;Wu, Chung-Chih;Rothberg, Lewis J.;Chen, Shaw H.;
2:4:1:107 New Iridium Dopants forg White Phosphorescent Devices: Enhancement of Efficiency and Color Stability by an Energy-Harvesting Layer
DOI:10.1021/am401108m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Chou, Ho-Hsiu;Li, Yi-Kai;Chen, Yu-Han;Chang, Ching-Chih;Liao, Chuang-Yi;Cheng, Chien-Hong;
2:4:1:108 Simple bipolar host materials incorporating CN group for highly efficient blue electrophosphorescence with slow efficiency roll-off
DOI:10.1039/c3tc31893a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Deng, Lijun;Li, Jiuyan;Wang, Ge-Xia;Wu, Li-Zhu;
2:4:1:109 Synthesis and characterization of novel topology-varied compounds based on fluorene and carbazole: Potential host materials for phosphorescent organic light-emitting diodes
DOI:10.1016/j.synthmet.2014.09.014 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Jiang, Hong-ji;Sun, Jian;Yuan, Kai;Zhang, Qing-wei;
2:4:1:110 Theoretical Investigation of Triscarbazole Derivatives As Host Materials for Blue Electrophosphorescence: Effects of Topology
DOI:10.1021/cm2022449 JN:CHEMISTRY OF MATERIALS PY:2011 TC:26 AU: Salman, Seyhan;Kim, Dongwook;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:4:1:111 Indolo Acridine-Based Hole-Transport Materials for Phosphorescent OLEDs with Over 20% External Quantum Efficiency in Deep Blue and Green
DOI:10.1021/cm201634w JN:CHEMISTRY OF MATERIALS PY:2011 TC:25 AU: Park, Min Su;Lee, Jun Yeob;
2:4:1:112 Bipolar Gold(III) Complexes for Solution-Processable Organic Light-Emitting Devices with a Small Efficiency Roll-Off
DOI:10.1021/ja510622x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Tang, Man-Chung;Tsang, Daniel Ping-Kuen;Wong, Yi-Chun;Chan, Mei-Yee;Wong, Keith Man-Chung;Yam, Vivian Wing-Wah;
2:4:1:113 Hybrid white organic light-emitting diodes with a double light-emitting layer structure for high color-rendering index
DOI:10.1063/1.4759045 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:16 AU: Zhao, Fangchao;Sun, Ning;Zhang, Hongmei;Chen, Jiangshan;Ma, Dongge;
2:4:1:114 Using a double-doping strategy to prepare a bilayer device architecture for high-efficiency red PhOLEDs
DOI:10.1039/c0jm02992k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Kao, Ming-Tzu;Hung, Wen-Yi;Tsai, Zhen-Han;You, Hong-Wei;Chen, Hsiao-Fan;Chi, Yun;Wong, Ken-Tsung;
2:4:1:115 A series of CBP-derivatives as host materials for blue phosphorescent organic light-emitting diodes
DOI:10.1039/c0jm03321a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:38 AU: Schroegel, Pamela;Tomkeviciene, Ausra;Strohriegl, Peter;Hoffmann, Sebastian T.;Koehler, Anna;Lennartz, Christian;
2:4:1:116 Peripheral modification of 1,3,5-triazine based electron-transporting host materials for sky blue, green, yellow, red, and white electrophosphorescent devices
DOI:10.1039/c2jm31904g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Chen, Hsiao-Fan;Wang, Ting-Chih;Lin, Shih-Wei;Hung, Wen-Yi;Dai, Hung-Chi;Chiu, Hao-Chih;Wong, Ken-Tsung;Ho, Meng-Huan;Cho, Ting-Yi;Chen, Chieh-Wei;Lee, Chung-Chun;
2:4:1:117 Controllably tunable phenanthroimidazole-carbazole hybrid bipolar host materials for efficient green electrophosphorescent devices
DOI:10.1039/c3tc30832d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Huang, Hong;Wang, Yixing;Wang, Bo;Zhuang, Shaoqing;Pan, Biao;Yang, Xiao;Wang, Lei;Yang, Chuluo;
2:4:1:118 A rational design of carbazole-based host materials with suitable spacer group towards highly-efficient blue phosphorescence
DOI:10.1039/c4tc00867g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Yuan, Xiao-Dong;Liang, Jian;He, Yun-Chu;Li, Qian;Zhong, Cheng;Jiang, Zuo-Quan;Liao, Liang-Sheng;
2:4:1:119 Low-Driving-Voltage Blue Phosphorescent Organic Light-Emitting Devices with External Quantum Efficiency of 30%
DOI:10.1002/adma.201401621 JN:ADVANCED MATERIALS PY:2014 TC:20 AU: Udagawa, Kazuo;Sasabe, Hisahiro;Cai, Cao;Kido, Junji;
2:4:1:120 A weak electron transporting material with high triplet energy and thermal stability via a super twisted structure for high efficient blue electrophosphorescent devices
DOI:10.1039/c1jm13488d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Xiao, Lixin;Qi, Boyuan;Xing, Xing;Zheng, Lingling;Kong, Sheng;Chen, Zhijian;Qu, Bo;Zhang, Lipei;Ji, Ziwu;Gong, Qihuang;
2:4:1:121 Novel electron-type host material for unilateral homogeneous phosphorescent organic light-emitting diodes with low efficiency roll-off
DOI:10.1039/c2jm33988a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Yang, Xiao;Huang, Hong;Pan, Biao;Zhuang, Shaoqing;Aldred, Matthew P.;Wang, Lei;Chen, Jiangshan;Ma, Dongge;
2:4:1:122 Fused indole derivatives as high triplet energy hole transport materials for deep blue phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm15204e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Park, Min Su;Choi, Dae Hyuk;Lee, Bum Sung;Lee, Jun Yeob;
2:4:1:123 Syntheses, photoluminescence and electroluminescence of four heteroleptic iridium complexes with 2-(5-phenyl-1,3,4-oxadiazol-2-yl)phenol derivatives as ancillary ligands
DOI:10.1039/c3tc31915f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Li, Hong-Yan;Li, Tian-Yi;Teng, Ming-Yu;Xu, Qiu-Lei;Zhang, Song;Jin, Yi-Ming;Liu, Xuan;Zheng, You-Xuan;Zuo, Jing-Lin;
2:4:1:124 Evaluation of various density functionals for predicting the electrophosphorescent host HOMO, LUMO and triplet energies
DOI:10.1016/j.synthmet.2014.05.015 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Ong, Bee Kian;Woon, Kai Lin;Ariffin, Azhar;
2:4:1:125 Controlling the Recombination Zone of White Organic Light-Emitting Diodes with Extremely Long Lifetimes
DOI:10.1002/adfm.201100943 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:27 AU: Duan, Lian;Zhang, Deqiang;Wu, Kongwu;Huang, Xiuqi;Wang, Liduo;Qiu, Yong;
2:4:1:126 Structure-Property Relationship of Pyridoindole-Type Host Materials for High-Efficiency Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/cm403750p JN:CHEMISTRY OF MATERIALS PY:2014 TC:23 AU: Lee, Clul Won;Lee, Jun Yeob;
2:4:1:127 Diarylmethylene-bridged triphenylamine derivatives encapsulated with fluorene: very high T(g) host materials for efficient blue and green phosphorescent OLEDs
DOI:10.1039/b927576b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:29 AU: Fan, Cong;Chen, Yonghua;Jiang, Zuoquan;Yang, Chuluo;Zhong, Cheng;Qin, Jingui;Ma, Dongge;
2:4:1:128 Temporal stability of blue phosphorescent organic light-emitting diodes affected by thermal annealing of emitting layers
DOI:10.1039/c2jm35050e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Lee, Thomas Y. -H.;Wang, Qiang;Wallace, Jason U.;Chen, Shaw H.;
2:4:1:129 Comparison of symmetric and asymmetric bipolar type high triplet energy host materials for deep blue phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm30742a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Jeon, Soon Ok;Lee, Jun Yeob;
2:4:1:130 Engineering of Interconnect Position of Bicarbazole for High External Quantum Efficiency in Green and Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/am502848c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Kim, Mounggon;Lee, Jun Yeob;
2:4:1:131 Properties of Fluorenyl Silanes in Organic Light Emitting Diodes
DOI:10.1021/cm903146x JN:CHEMISTRY OF MATERIALS PY:2010 TC:21 AU: Wei, Wei;Djurovich, Peter I.;Thompson, Mark E.;
2:4:1:132 Phosphorescent light-emitting diodes using triscarbazole/bis(oxadiazole) hosts: comparison of homopolymer blends and random and block copolymers
DOI:10.1039/c4tc01079e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: He, Xuyang;Cai, Dengke;Kang, Dun-Yen;Haske, Wojciech;Zhang, Yadong;Zuniga, Carlos A.;Wunsch, Benjamin H.;Barlow, Stephen;Leisen, Johannes;Bucknall, David;Kippelen, Bernard;Marder, Seth R.;
2:4:1:133 An indole derivative as a high triplet energy hole transport material for blue phosphorescent organic light-emitting diodes
DOI:10.1016/j.tsf.2013.09.084 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Park, Min Su;Lee, Jun Yeob;
2:4:1:134 Diphenylmethyl linked high-triplet-energy material as a host for deep-blue phosphorescent organic light-emitting diodes
DOI:10.1016/j.tsf.2013.01.103 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Lee, Chil Won;Gong, Myoung-Seon;Lee, Jun Yeob;
2:4:1:135 New carbazole-based host material for low-voltage and highly efficient red phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm15138c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Kwak, Jeonghun;Lyu, Yi-Yeol;Lee, Hyunkoo;Choi, Bonggoo;Char, Kookheon;Lee, Changhee;
2:4:1:136 High Efficiency Green and Blue Phosphorescent Organic Light-Emitting Diodes Using Pyrroloacridine Type Hole Transport Material
DOI:10.1080/15421406.2013.849485 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Park, Min Su;Lee, Jun Yeob;
2:4:1:137 Synthesis and their device performance of solution processable host materials based on carbazole derivatives
DOI:10.1016/j.synthmet.2012.09.001 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Moon, Byoung-Joon;Yook, Kyoung Soo;Lee, Jun Yeob;Hwang, Seok-Ho;
2:4:1:138 Synthesis of 3-substituted carbazole derivative as a host material for deep blue phosphorescent organic light-emitting diodes
DOI:10.1016/j.synthmet.2013.08.003 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Kim, Mounggon;Lee, Jun Yeob;
2:4:1:139 Highly efficient orange and red organic light-emitting diodes with iridium(III) complexes bearing benzothiazole cyclometallate ligands as emitters
DOI:10.1016/j.tsf.2012.11.029 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Li, Ming;Wang, Qi;Dai, Jun;Lu, Zhi-yun;Huang, Yan;Yu, Jun-sheng;Luo, Shuai;Su, Shi-jian;
2:4:1:140 Energy barrier, charge carrier balance, and performance improvement in organic light-emitting diodes
DOI:10.1063/1.3452344 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Benor, Amare;Takizawa, Shin-ya;Perez-Bolivar, C.;Anzenbacher, Pavel, Jr.;
2:4:1:141 Charge transport, carrier balance, and blue electrophosphorescence in diphenyl[4-(triphenylsilyl)phenyl]phosphine oxide devices
DOI:10.1063/1.3555335 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Mamada, Masashi;Ergun, Selin;Perez-Bolivar, Cesar;Anzenbacher, Pavel, Jr.;
2:4:1:142 High performance semitransparent phosphorescent white organic light emitting diodes with bi-directional and symmetrical illumination
DOI:10.1063/1.4802723 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Choi, Wing Hong;Tam, Hoi Lam;Zhu, Furong;Ma, Dongge;Sasabe, Hisahiro;Kido, Junji;
2:4:1:143 Phosphazene-Based Host Materials for the Use in Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/cm201940f JN:CHEMISTRY OF MATERIALS PY:2011 TC:21 AU: Schroegel, Pamela;Hoping, Matthias;Kowalsky, Wolfgang;Hunze, Arvid;Wagenblast, Gerhard;Lennartz, Christian;Strohriegl, Peter;
2:4:1:144 Spiro-configured bipolar hosts incorporating 4,5-diazafluroene as the electron transport moiety for highly efficient red and green phosphorescent OLEDs
DOI:10.1039/c2jm30749a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Chen, Hsiao-Fan;Wang, Ting-Chih;Hung, Wen-Yi;Chiu, Hao-Chih;Yun, Chi;Wong, Ken-Tsung;
2:4:1:145 High triplet energy host materials for blue phosphorescent organic light-emitting diodes derived from carbazole modified orthophenylene
DOI:10.1039/c4tc00857j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Lee, Dong Ryun;Lee, Chil Won;Lee, Jun Yeob;
2:4:1:146 Impact of linking arylene units off-axis on the photophysical properties of polyfluorenes
DOI:10.1016/j.synthmet.2013.12.017 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Kim, Eung-Gun;
2:4:1:147 High external quantum efficiency in deep blue phosphorescent organic light emitting diodes using a simple device structure
DOI:10.1016/j.tsf.2012.07.015 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Seo, Chang Woo;Lee, Jun Yeob;
2:4:1:148 Highly efficient white phosphorescent organic light emitting diodes using a mixed host structure in deep blue emitting layer
DOI:10.1016/j.tsf.2012.03.030 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Seo, Chang Woo;Lee, Jun Yeob;
2:4:1:149 Stereoselective Synthesis of Phosphoryl- Substituted Phenols
DOI:10.1002/adsc.201300913 JN:ADVANCED SYNTHESIS & CATALYSIS PY:2014 TC:7 AU: Xiong, Biquan;Li, Mei;Liu, Yanxi;Zhou, Yongbo;Zhao, Changqiu;Goto, Midori;Yin, Shuang-Feng;Han, Li-Biao;
2:4:1:150 Hybrid Heterocycle-Containing Electron-Transport Materials Synthesized by Regioselective Suzuki Cross-Coupling Reactions for Highly Efficient Phosphorescent OLEDs with Unprecedented Low Operating Voltage
DOI:10.1021/cm303075m JN:CHEMISTRY OF MATERIALS PY:2012 TC:15 AU: Liu, Ming;Su, Shi-Jian;Jung, Min-Cherl;Qi, Yabing;Zhao, Wei-Ming;Kido, Junji;
2:4:1:151 Fluorenobenzofuran as the core structure of high triplet energy host materials for green phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm30473b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Jeon, Soon Ok;Lee, Jun Yeob;
2:4:1:152 Red phosphorescent organic light-emitting diodes using pyridine based electron transport type triplet host materials
DOI:10.1016/j.matchemphys.2011.02.009 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:4 AU: Jeon, Soon Ok;Lee, Jun Yeob;
2:4:1:153 Correlation of charge trapping and charge transport properties of blue triplet emitters with device performances of blue phosphorescent organic light-emitting diodes
DOI:10.1016/j.synthmet.2013.05.027 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Park, Hyun Jin;Kim, Oh Young;Lee, Jun Yeob;
2:4:1:154 Effect of blue doping concentration on the light emission of two-color phosphorescent white organic light emitting diodes
DOI:10.1016/j.tsf.2011.12.064 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Seo, Chang Woo;Lee, Jun Yeob;
2:4:1:155 New sulfur-containing host materials for blue phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm34165d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Bin, Jong-Kwan;Yang, JoongHwan;Hong, Jong-In;
2:4:1:156 Low driving voltage and high power efficiency in blue phosphorescent organic light-emitting diodes using aromatic amine derivatives with diphenylsilyl linkage
DOI:10.1016/j.synthmet.2013.02.001 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Lee, Chil Won;Lee, Jun Yeob;
2:4:1:157 Influence of exciton lifetime on charge carrier dynamics in an organic heterostructure
DOI:10.1063/1.4795523 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Agrawal, Kanika L.;Sykes, Matthew E.;An, Kwang Hyup;Frieberg, Bradley;Green, P. F.;Shtein, Max;
2:4:1:158 Investigation of energy transfer mechanisms between two adjacent phosphorescent emission layers
DOI:10.1063/1.4724346 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Diez, Carola;Reusch, Thilo C. G.;Seidel, Stefan;Bruetting, Wolfgang;
2:4:1:159 High Efficient Green Phosphorescent OLED with Emission Layer of TPBI Selectively Doped with Ir(ppy)(3)
DOI:10.1080/15421406.2010.495915 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Jeong, Jin Cheol;Kim, Hyeong Seok;Jang, Ji Geun;
2:4:1:160 Homoleptic vs. Heteroleptic Orange Light-Emitting Iridium Complexes Chelated with Benzothiazole Derivatives
DOI:10.1080/15421406.2013.849434 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Lee, Hye Joo;Ha, Yunkyoung;
2:4:1:161 Dual Emission from Organic Light-Emitting Diodes Using Deep Red Novel Phosphorescent Iridium(III) Complexes
DOI:10.1080/15421406.2014.935972 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Lee, Sung-Nam;Shin, Dong-Myung;
2:4:1:162 Theoretical Design Study on the Electronic Structures and Phosphorescent Properties of Four Iridium(III) Complexes
DOI:10.1080/15421406.2013.858025 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Han, Deming;Shang, Xiaohong;Zhang, Gang;Zhao, Lihui;
2:4:1:163 Diphenylsilanes containing electronically isolated carbazolyl fragments as host materials for light emitting diodes
DOI:10.1016/j.synthmet.2010.11.003 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Zostautiene, R.;Grazulevicius, J. V.;Lai, Y. M.;Wang, W. B.;Jou, J. H.;Grigalevicius, S.;
2:4:1:164 Synthesis and photophysical properties of host materials with high triplet energy based on dibenzofuran and triphenylamine functionalities
DOI:10.1016/j.synthmet.2012.10.009 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Lee, Chil Won;Kim, Ji-Young;Gong, Myoung-Seon;Lee, Jun Yeob;
2:4:1:165 Highly efficient and color-stable white organic light-emitting diode based on a novel blue phosphorescent host
DOI:10.1016/j.synthmet.2013.11.010 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Wu, Qingyang;Chen, Yu;Xie, Guohua;Wu, Mingzhu;Wu, Yukun;Gou, Changhua;Guan, Xiaoliang;Zhang, Zhensong;Yue, Shouzhen;Yan, Pingrui;Qu, Dalong;Cao, Chong;Zhao, Yi;
2:4:1:166 High efficiency phosphorescent white organic light-emitting diodes using a spirofluorene based phosphine oxide host material
DOI:10.1016/j.tsf.2010.02.058 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Yook, Kyoung Soo;Jeon, Soon Ok;Joo, Chul Woong;Lee, Jun Yeob;
2:4:1:167 Thermally stable aromatic amine derivative with symmetrically substituted double spirobifluorene core as a hole transport material for green phosphorescent organic light-emitting diodes
DOI:10.1016/j.tsf.2012.08.034 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Cho, Yong Joo;Lee, Jun Yeob;
2:4:2:1 White Organic Light-Emitting Diodes
DOI:10.1002/adma.201002636 JN:ADVANCED MATERIALS PY:2011 TC:331 AU: Gather, Malte C.;Koehnen, Anne;Meerholz, Klaus;
2:4:2:2 High-Efficiency Single Emissive Layer White Organic Light-Emitting Diodes Based on Solution-Processed Dendritic Host and New Orange-Emitting Iridium Complex
DOI:10.1002/adma.201104758 JN:ADVANCED MATERIALS PY:2012 TC:135 AU: Zhang, Baohua;Tan, Guiping;Lam, Ching-Shan;Yao, Bing;Ho, Cheuk-Lam;Liu, Lihui;Xie, Zhiyuan;Wong, Wai-Yeung;Ding, Junqiao;Wang, Lixiang;
2:4:2:3 Simultaneous Optimization of Charge-Carrier Balance and Luminous Efficacy in Highly Efficient White Polymer Light-Emitting Devices
DOI:10.1002/adma.201101130 JN:ADVANCED MATERIALS PY:2011 TC:97 AU: Zou, Jianhua;Wu, Hao;Lam, Ching-Shan;Wang, Chuandao;Zhu, Jing;Zhong, Chengmei;Hu, Sujun;Ho, Cheuk-Lam;Zhou, Gui-Jiang;Wu, Hongbin;Choy, Wallace C. H.;Peng, Junbiao;Cao, Yong;Wong, Wai-Yeung;
2:4:2:4 Management of Singlet and Triplet Excitons in a Single Emission Layer: A Simple Approach for a High-Efficiency Fluorescence/Phosphorescence Hybrid White Organic Light-Emitting Device
DOI:10.1002/adma.201201124 JN:ADVANCED MATERIALS PY:2012 TC:70 AU: Ye, Jun;Zheng, Cai-Jun;Ou, Xue-Mei;Zhang, Xiao-Hong;Fung, Man-Keung;Lee, Chun-Sing;
2:4:2:5 Highly simplified phosphorescent organic light emitting diode with > 20% external quantum efficiency at > 10,000 cd/m(2)
DOI:10.1063/1.3532844 JN:APPLIED PHYSICS LETTERS PY:2011 TC:61 AU: Wang, Z. B.;Helander, M. G.;Qiu, J.;Puzzo, D. P.;Greiner, M. T.;Liu, Z. W.;Lu, Z. H.;
2:4:2:6 Mechanoluminescent and efficient white OLEDs for Pt(II) phosphors bearing spatially encumbered pyridinyl pyrazolate chelates
DOI:10.1039/c3tc31524j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:17 AU: Huang, Li-Min;Tu, Guan-Min;Chi, Yun;Hung, Wen-Yi;Song, Yo-Cheng;Tseng, Mei-Rurng;Chou, Pi-Tai;Lee, Gene-Hsiang;Wong, Ken-Tsung;Cheng, Shuo-Hsien;Tsai, Wan-Shan;
2:4:2:7 Exciton and Polaron Quenching in Doping-Free Phosphorescent Organic Light-Emitting Diodes from a Pt(II)-Based Fast Phosphor
DOI:10.1002/adfm.201300699 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:25 AU: Wang, Qi;Oswald, Iain W. H.;Perez, Michael R.;Jia, Huiping;Gnade, Bruce E.;Omary, Mohammad A.;
2:4:2:8 Highly Efficient Warm White Organic Light-Emitting Diodes by Triplet Exciton Conversion
DOI:10.1002/adfm.201201858 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:56 AU: Chang, Yi-Lu;Song, Yin;Wang, Zhibin;Helander, Michael G.;Qiu, Jacky;Chai, Lily;Liu, Zhiwei;Scholes, Gregory D.;Lu, Zhenghong;
2:4:2:9 Highly Efficient Green and Blue-Green Phosphorescent OLEDs Based on Iridium Complexes with the Tetraphenylimidodiphosphinate Ligand
DOI:10.1002/adma.201101792 JN:ADVANCED MATERIALS PY:2011 TC:94 AU: Zhu, Yu-Cheng;Zhou, Liang;Li, Hong-Yan;Xu, Qiu-Lei;Teng, Ming-Yu;Zheng, You-Xuan;Zuo, Jing-Lin;Zhang, Hong-Jie;You, Xiao-Zeng;
2:4:2:10 A Non-Doped Phosphorescent Organic Light-Emitting Device with Above 31% External Quantum Efficiency
DOI:10.1002/adma.201402947 JN:ADVANCED MATERIALS PY:2014 TC:17 AU: Wang, Qi;Oswald, Iain W. H.;Yang, Xiaolong;Zhou, Guijiang;Jia, Huiping;Qiao, Qiquan;Chen, Yonghua;Hoshikawa-Halbert, Jason;Gnade, Bruce E.;
2:4:2:11 Novel Blue Fluorophor with High Triplet Energy Level for High Performance Single-Emitting-Layer Fluorescence and Phosphorescence Hybrid White Organic Light-Emitting Diodes
DOI:10.1021/cm403318r JN:CHEMISTRY OF MATERIALS PY:2013 TC:21 AU: Liu, Xiao-Ke;Zheng, Cai-Jun;Lo, Ming-Fai;Xiao, Jing;Chen, Zhan;Liu, Chuan-Lin;Lee, Chun-Sing;Fung, Man-Keung;Zhang, Xiao-Hong;
2:4:2:12 Metallophosphors of platinum with distinct main-group elements: a versatile approach towards color tuning and white-light emission with superior efficiency/color quality/brightness trade-offs
DOI:10.1039/c0jm01159b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:116 AU: Zhou, Guijiang;Wang, Qi;Wang, Xingzhu;Ho, Cheuk-Lam;Wong, Wai-Yeung;Ma, Dongge;Wang, Lixiang;Lin, Zhenyang;
2:4:2:13 Iridium(III) complexes adopting 1,2-diphenyl-1H-benzoimidazole ligands for highly efficient organic light-emitting diodes with low efficiency roll-off and non-doped feature
DOI:10.1039/c3tc32092h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Cao, Hongtao;Sun, Haizhu;Yin, Yongming;Wen, Xuemei;Shan, Guogang;Su, Zhongmin;Zhong, Ronglin;Xie, Wenfa;Li, Peng;Zhu, Dongxia;
2:4:2:14 Os(II) Based Green to Red Phosphors: A Great Prospect for Solution-Processed, Highly Efficient Organic Light-Emitting Diodes
DOI:10.1002/adfm.201200718 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:46 AU: Du, Bo-Sian;Liao, Jia-Ling;Huang, Ming-Hong;Lin, Cheng-Huei;Lin, Hao-Wu;Chi, Yun;Pan, Hsiao-An;Fan, Gang-Lun;Wong, Ken-Tsung;Lee, Gene-Hsiang;Chou, Pi-Tai;
2:4:2:15 Wide-Range Color Tuning of Iridium Biscarbene Complexes from Blue to Red by Different N boolean AND N Ligands: an Alternative Route for Adjusting the Emission Colors
DOI:10.1002/adma.201102886 JN:ADVANCED MATERIALS PY:2011 TC:69 AU: Lu, Kun-Yi;Chou, Ho-Hsiu;Hsieh, Cheng-Han;Yang, Yu-Han Ou;Tsai, Huei-Ru;Tsai, Hsiu-Yun;Hsu, Lun-Chia;Chen, Chien-Yu;Chen, I-Chia;Cheng, Chien-Hong;
2:4:2:16 Novel Efficient Blue Fluorophors with Small Singlet-Triplet Splitting: Hosts for Highly Efficient Fluorescence and Phosphorescence Hybrid WOLEDs with Simplified Structure
DOI:10.1002/adma.201204724 JN:ADVANCED MATERIALS PY:2013 TC:51 AU: Zheng, Cai-Jun;Wang, Jing;Ye, Jun;Lo, Ming-Fai;Liu, Xiao-Ke;Fung, Man-Keung;Zhang, Xiao-Hong;Lee, Chun-Sing;
2:4:2:17 Blue-emitting Ir(III) phosphors with 2-pyridyl triazolate chromophores and fabrication of sky blue- and white-emitting OLEDs
DOI:10.1039/c3tc00919j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:19 AU: Chang, Chih-Hao;Ho, Chi-Lung;Chang, Yu-Shuo;Lien, I-Chun;Lin, Cheng-Huei;Yang, Ya-Wen;Liao, Jia-Ling;Chi, Yun;
2:4:2:18 Highly Efficient Greenish-Yellow Phosphorescent Organic Light-Emitting Diodes Based on Interzone Exciton Transfer
DOI:10.1002/adfm.201202944 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:14 AU: Chang, Yi-Lu;Kamino, Brett A.;Wang, Zhibin;Helander, Michael G.;Rao, Yingli;Chai, Lily;Wang, Suning;Bender, Timothy P.;Lu, Zheng-Hong;
2:4:2:19 High-Performance Hybrid White Organic Light-Emitting Devices without Interlayer between Fluorescent and Phosphorescent Emissive Regions
DOI:10.1002/adma.201304779 JN:ADVANCED MATERIALS PY:2014 TC:29 AU: Sun, Ning;Wang, Qi;Zhao, Yongbiao;Chen, Yonghua;Yang, Dezhi;Zhao, Fangchao;Chen, Jiangshan;Ma, Dongge;
2:4:2:20 White Organic Light-Emitting Diodes with Evenly Separated Red, Green, and Blue Colors for Efficiency/Color-Rendition Trade-Off Optimization
DOI:10.1002/adfm.201100895 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:67 AU: Chen, Shuming;Tan, Guiping;Wong, Wai-Yeung;Kwok, Hoi-Sing;
2:4:2:21 Os(II) metal phosphors bearing tridentate 2,6-di(pyrazol-3-yl)pyridine chelate: synthetic design, characterization and application in OLED fabrication
DOI:10.1039/c4tc00865k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Liao, Jia-Ling;Chi, Yun;Su, Yu-De;Huang, Hao-Xiang;Chang, Chih-Hao;Liu, Shih-Hung;Lee, Gene-Hsiang;Chou, Pi-Tai;
2:4:2:22 Doping-Free Organic Light-Emitting Diodes with Very High Power Efficiency, Simple Device Structure, and Superior Spectral Performance
DOI:10.1002/adfm.201400597 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:15 AU: Wang, Qi;Oswald, Iain W. H.;Perez, Michael R.;Jia, Huiping;Shahub, Ahmed A.;Qiao, Qiquan;Gnade, Bruce E.;Omary, Mohammad A.;
2:4:2:23 Thiazole-based metallophosphors of iridium with balanced carrier injection/transporting features and their two-colour WOLEDs fabricated by both vacuum deposition and solution processing-vacuum deposition hybrid strategy
DOI:10.1039/c2jm14712b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Yang, Xiaolong;Zhao, Yongbiao;Zhang, Xinwen;Li, Rui;Dang, Jingshuang;Li, Yan;Zhou, Guijiang;Wu, Zhaoxin;Ma, Dongge;Wong, Wai-Yeung;Zhao, Xiang;Ren, Aimin;Wang, Lixiang;Hou, Xun;
2:4:2:24 An orange iridium(III) complex with wide-bandwidth in electroluminescence for fabrication of high-quality white organic light-emitting diodes
DOI:10.1039/c3tc31365d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Cao, Hongtao;Shan, Guogang;Wen, Xuemei;Sun, Haizhu;Su, Zhongmin;Zhong, Ronglin;Xie, Wenfa;Li, Peng;Zhu, Dongxia;
2:4:2:25 Highly efficient greenish-blue platinum-based phosphorescent organic light-emitting diodes on a high triplet energy platform
DOI:10.1063/1.4875240 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Chang, Y. L.;Gong, S.;Wang, X.;White, R.;Yang, C.;Wang, S.;Lu, Z. H.;
2:4:2:26 New phosphorescent platinum(II) Schiff base complexes for PHOLED applications
DOI:10.1039/c2jm32266h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Zhang, Jie;Zhao, Fangchao;Zhu, Xunjin;Wong, Wai-Kwok;Ma, Dongge;Wong, Wai-Yeung;
2:4:2:27 Multifunctional carbazolocarbazoles as hole transporting and emitting host materials in red phosphorescent OLEDs
DOI:10.1039/c3tc30193a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Curiel, David;Mas-Montoya, Miriam;Chang, Chih-Hao;Chen, Pin-Yang;Tai, Cheng-Wei;Tarraga, Alberto;
2:4:2:28 Realization of high efficiency orange and white organic light emitting diodes by introducing an ultra-thin undoped orange emitting layer
DOI:10.1063/1.3654150 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Zhao, Yongbiao;Chen, Jiangshan;Ma, Dongge;
2:4:2:29 Using interlayer step-wise triplet transfer to achieve an efficient white organic light-emitting diode with high color-stability
DOI:10.1063/1.4876215 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Wang, Qi;Ma, Dongge;Leo, Karl;Ding, Junqiao;Wang, Lixiang;Qiao, Qiquan;Jia, Huiping;Gnade, Bruce E.;
2:4:2:30 Study of Hole-Injecting Properties in Efficient, Stable, and Simplified Phosphorescent Organic Light-Emitting Diodes by Impedance Spectroscopy
DOI:10.1021/am2013568 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Cai, S. D.;Gao, C. H.;Zhou, D. Y.;Gu, W.;Liao, L. S.;
2:4:2:31 Achieving Highly Efficient Simple-Emission Layer Fluorescence/Phosphorescence Hybrid White Organic Light-Emitting Devices via Effective Confinement of Triplets
DOI:10.1021/am502429e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Ye, Jun;Chen, Zhan;An, Feifei;Sun, Mingliang;Mo, Hin-Wai;Zhang, Xiaohong;Lee, Chun-Sing;
2:4:2:32 New oxazoline- and thiazoline-containing heteroleptic iridium(III) complexes for highly-efficient phosphorescent organic light-emitting devices (PhOLEDs): colour tuning by varying the electroluminescence bandwidth
DOI:10.1039/c3tc31463d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Chao, Kai;Shao, Kuizhan;Peng, Tai;Zhu, Dongxia;Wang, Yue;Liu, Yu;Su, Zhongmin;Bryce, Martin R.;
2:4:2:33 A promising phosphorescent heteroleptic iridium complex with carbazole-functionalized substituent: Synthesis, photophysical and electroluminescent performances
DOI:10.1016/j.optmat.2012.09.002 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Li, Xiao;Zang, Tienan;Yu, Lianshui;Zhang, Dongyu;Lu, Gonghao;Chi, Haijun;Xiao, Guoyong;Dong, Yan;Cui, Zheng;Zhang, Zhicliang;Hu, Zhizhi;
2:4:2:34 Efficient organic light-emitting devices with platinum-complex emissive layer
DOI:10.1063/1.3541447 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Yang, Xiaohui;Wu, Fang-Iy;Haverinen, Hanna;Li, Jian;Cheng, Chien-Hong;Jabbour, Ghassan E.;
2:4:2:35 Managing Charge Balance and Triplet Excitons to Achieve High-Power-Efficiency Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/am100495g JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:16 AU: Tao, Youtian;Wang, Qiang;Yang, Chuluo;Qin, Jingui;Ma, Dingge;
2:4:2:36 Exciton-Stimulated Molecular Transformation in Organic Light-Emitting Diodes
DOI:10.1002/adma.201402535 JN:ADVANCED MATERIALS PY:2014 TC:1 AU: Chang, Yi-Lu;Rao, Ying-Li;Gong, Shaolong;Ingram, Grayson L.;Wang, Suning;Lu, Zheng-Hong;
2:4:2:37 Ultrathin Nondoped Emissive Layers for Efficient and Simple Monochrome and White Organic Light-Emitting Diodes
DOI:10.1021/am3026097 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:21 AU: Zhao, Yongbiao;Chen, Jiangshan;Ma, Dongge;
2:4:2:38 Highly efficient iridium(III) phosphors with phenoxy-substituted ligands and their high-performance OLEDs
DOI:10.1039/c2tc00123c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:20 AU: Tan, Guiping;Chen, Shuming;Sun, Ning;Li, Yanhu;Fortin, Daniel;Wong, Wai-Yeung;Kwok, Hoi-Sing;Ma, Dongge;Wu, Hongbin;Wang, Lixiang;Harvey, Pierre D.;
2:4:2:39 Using an ultra-thin non-doped orange emission layer to realize high efficiency white organic light-emitting diodes with low efficiency roll-off
DOI:10.1063/1.4886179 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Zhu, Liping;Zhao, Yongbiao;Zhang, Hongmei;Chen, Jiangshan;Ma, Dongge;
2:4:2:40 Highly efficient phosphorescent blue and white organic light-emitting devices with simplified architectures
DOI:10.1016/j.tsf.2011.05.061 JN:THIN SOLID FILMS PY:2011 TC:10 AU: Chang, Chih-Hao;Ding, Yong-Shung;Hsieh, Po-Wei;Chang, Chien-Ping;Lin, Wei-Chieh;Chang, Hsin-Hua;
2:4:2:41 Effect of a Broad Recombination Zone with a Triple-Emitting Layer on the Efficiency of Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1007/s13391-014-4132-4 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:3 AU: Lee, Seok Jae;Koo, Ja Ryong;Lee, Ho Won;Lee, Song Eun;Yang, Hyung Jin;Yoon, Seung Soo;Park, Jaehoon;Kim, Young Kwan;
2:4:2:42 Oxadiazole based bipolar host materials employing planarized triarylamine donors for RGB PHOLEDs with low efficiency roll-off
DOI:10.1039/c3tc32338b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Kautny, Paul;Lumpi, Daniel;Wang, Yanping;Tissot, Antoine;Bintinger, Johannes;Horkel, Ernst;Stoeger, Berthold;Hametner, Christian;Hagemann, Hans;Ma, Dongge;Froehlich, Johannes;
2:4:2:43 Synthesis and characterization of white light-emitting polyfluorene-based copolymers containing new red iridium complex in the main chain
DOI:10.1016/j.synthmet.2013.04.029 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Cho, Woosum;Karthikeyan, N. S.;Kim, Siwon;Kim, Suhkmann;Gal, Yeong-Soon;Lee, Jae Wook;Jin, Sung-Ho;
2:4:2:44 Theoretical Studies on the Electronic Structures and Spectral Properties of Three Iridium(III) Complexes With Different N boolean AND N Ligands
DOI:10.1080/15421406.2013.766921 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Han, Deming;Zhang, Gang;Cai, Hongxing;Zhang, Xihe;Zhao, Lihui;
2:4:2:45 Efficiency improvement of solution processed red phosphorescent organic light-emitting diodes using optimized hole transport material
DOI:10.1016/j.optmat.2012.10.009 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Park, Juhyeon;Song, Myungkwan;Kim, Siwon;Kim, Suhkmann;Gal, Yeong-Soon;Jin, Sung-Ho;
2:4:2:46 Thermo- and radioluminescent polystyrene based plastic scintillators doped with phosphorescent iridium(III) complexes
DOI:10.1039/c4tc00772g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Sguerra, F.;Marion, R.;Bertrand, G. H. V.;Coulon, R.;Sauvageot, E.;Daniellou, R.;Renaud, J. -L.;Gaillard, S.;Hamel, M.;
2:4:2:47 Near-infrared electroluminescence from double-emission-layers devices based on Ytterbium (III) complexes
DOI:10.1016/j.tsf.2011.12.052 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Li, Zhefeng;Zhang, Hongjie;Yu, Jiangbo;
2:4:3:1 Solution processable small molecules for organic light-emitting diodes
DOI:10.1039/b926348a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:147 AU: Duan, Lian;Hou, Liudong;Lee, Tae-Woo;Qiao, Juan;Zhang, Deqiang;Dong, Guifang;Wang, Liduo;Qiu, Yong;
2:4:3:2 Small Molecule Host Materials for Solution Processed Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201306266 JN:ADVANCED MATERIALS PY:2014 TC:39 AU: Yook, Kyoung Soo;Lee, Jun Yeob;
2:4:3:3 Solution-Processed, Alkali Metal-Salt-Doped, Electron-Transport Layers for High-Performance Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adfm.201201366 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:31 AU: Earmme, Taeshik;Jenekhe, Samson A.;
2:4:3:4 Highly Efficient Deep-Blue Electrophosphorescence Enabled by Solution-Processed Bipolar Tetraarylsilane Host with Both a High Triplet Energy and a High-Lying HOMO Level
DOI:10.1002/adma.201102758 JN:ADVANCED MATERIALS PY:2011 TC:81 AU: Gong, Shaolong;Fu, Qiang;Wang, Qiang;Yang, Chuluo;Zhong, Cheng;Qin, Jingui;Ma, Dongge;
2:4:3:5 Solution-processable small molecules as efficient universal bipolar host for blue, green and red phosphorescent inverted OLEDs
DOI:10.1039/c2jm16463a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:44 AU: Chen, Jiangshan;Shi, Changsheng;Fu, Qiang;Zhao, Fangchao;Hu, Yue;Feng, Yuling;Ma, Dongge;
2:4:3:6 A solution-processable triphenylamine-fluorene host for exciplex based white phosphorescent organic light-emitting diodes
DOI:10.1039/c4tc01870b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Fan, Zhaokang;Li, Nengquan;Quan, Yiwu;Chen, Qingmin;Ye, Shanghui;Fan, Quli;Huang, Wei;Xu, Hui;
2:4:3:7 Solution-Processed Highly Efficient Blue Phosphorescent Polymer Light-Emitting Diodes Enabled by a New Electron Transport Material
DOI:10.1002/adma.201001585 JN:ADVANCED MATERIALS PY:2010 TC:63 AU: Earmme, Taeshik;Ahmed, Eilaf;Jenekhe, Samson A.;
2:4:3:8 High-performance multilayered phosphorescent OLEDs by solution-processed commercial electron-transport materials
DOI:10.1039/c2jm14347j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Earmme, Taeshik;Jenekhe, Samson A.;
2:4:3:9 Fabrication and Efficiency Improvement of Soluble Blue Phosphorescent Organic Light-Emitting Diodes Using a Multilayer Structure Based on an Alcohol-Soluble Blue Phosphorescent Emitting Layer
DOI:10.1002/adma.201002034 JN:ADVANCED MATERIALS PY:2010 TC:65 AU: Yook, Kyoung Soo;Jang, Sang Eok;Jeon, Soon Ok;Lee, Jun Yeob;
2:4:3:10 High-Efficiency Solution-Processed Small Molecule Electrophosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201101154 JN:ADVANCED MATERIALS PY:2011 TC:68 AU: Cai, Min;Xiao, Teng;Hellerich, Emily;Chen, Ying;Shinar, Ruth;Shinar, Joseph;
2:4:3:11 Phosphoryl/Sulfonyl-Substituted Iridium Complexes as Blue Phosphorescent Emitters for Single-Layer Blue and White Organic Light-Emitting Diodes by Solution Process
DOI:10.1021/cm302850w JN:CHEMISTRY OF MATERIALS PY:2012 TC:53 AU: Fan, Cong;Li, Yanhu;Yang, Chuluo;Wu, Hongbin;Qin, Jingui;Cao, Yong;
2:4:3:12 A bipolar host containing carbazole/dibenzothiophene for efficient solution-processed blue and white phosphorescent OLEDs
DOI:10.1039/c3tc31357c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Lin, Wei-Chieh;Huang, Wei-Ching;Huang, Ming-Hong;Fan, Chia-Chan;Lin, Hao-Wu;Chen, Li-Yin;Liu, Yen-Wei;Lin, Jin-Sheng;Chao, Teng-Chih;Tseng, Mei-Rurng;
2:4:3:13 New Solution-Processable Electron Transport Materials for Highly Efficient Blue Phosphorescent OLEDs
DOI:10.1002/adfm.201100848 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:43 AU: Ahmed, Eilaf;Earmme, Taeshik;Jenekhe, Samson A.;
2:4:3:14 High-efficiency blue organic light-emitting diodes using a 3,5-di(9H-carbazol-9-yl) tetraphenylsilane host via a solution-process
DOI:10.1039/c0jm01163k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:57 AU: Jou, Jwo-Huei;Wang, Wei-Ben;Chen, Sun-Zen;Shyue, Jing-Jong;Hsu, Mao-Feng;Lin, Cheng-Wei;Shen, Shih-Ming;Wang, Chun-Jan;Liu, Chi-Ping;Chen, Chin-Ti;Wu, Min-Fei;Liu, Shun-Wei;
2:4:3:15 Solution-Processible 2,2-Dimethyl-biphenyl Cored Carbazole Dendrimers as Universal Hosts for Efficient Blue, Green, and Red Phosphorescent OLEDs
DOI:10.1002/adfm.201302849 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:19 AU: Wang, Xingdong;Wang, Shumeng;Ma, Zhihua;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:3:16 Solution-Processed Solid Solution of a Novel Carbazole Derivative for High-Performance Blue Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201001392 JN:ADVANCED MATERIALS PY:2010 TC:59 AU: Ye, Shanghui;Liu, Yunqi;Chen, Jianming;Lu, Kun;Wu, Weiping;Du, Chunyan;Liu, Ying;Wu, Ti;Shuai, Zhigang;Yu, Gui;
2:4:3:17 Solution-processed bipolar small molecular host materials for single-layer blue phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc31641f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Lee, Yi-Ting;Chang, Yung-Ting;Lee, Meng-Ting;Chiang, Po-Hsuan;Chen, Chin-Ti;Chen, Chao-Tsen;
2:4:3:18 Solution-Processed Small Molecules As Mixed Host for Highly Efficient Blue and White Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/am301703a JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:30 AU: Fu, Qiang;Chen, Jiangshan;Shi, Changsheng;Ma, Dongge;
2:4:3:19 Highly efficient solution-processed green and red electrophosphorescent devices enabled by small-molecule bipolar host material
DOI:10.1039/c1jm10987a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Zhu, Minrong;Ye, Tengling;He, Xun;Cao, Xiaosong;Zhong, Cheng;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:4:3:20 High-triplet-energy tri-carbazole derivatives as host materials for efficient solution-processed blue phosphorescent devices
DOI:10.1039/c0jm03365k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:55 AU: Jiang, Wei;Duan, Lian;Qiao, Juan;Dong, Guifang;Zhang, Deqiang;Wang, Liduo;Qiu, Yong;
2:4:3:21 Self-host homoleptic green iridium dendrimers based on diphenylamine dendrons for highly efficient single-layer PhOLEDs
DOI:10.1039/c3tc32024c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Tian, Wenwen;Yi, Chang;Song, Bo;Qi, Qi;Jiang, Wei;Zheng, Yingping;Qi, Zhengjian;Sun, Yueming;
2:4:3:22 Solution-Processible Carbazole Dendrimers as Host Materials for Highly Efficient Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adfm.201201326 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:33 AU: Li, Jiuyan;Zhang, Ting;Liang, Yunjing;Yang, Ruixia;
2:4:3:23 Novel star-shaped host materials for highly efficient solution-processed phosphorescent organic light-emitting diodes
DOI:10.1039/c0jm00692k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:50 AU: Jiang, Wei;Duan, Lian;Qiao, Juan;Zhang, Deqiang;Dong, Guifang;Wang, Liduo;Qiu, Yong;
2:4:3:24 Efficient Blue-Light-Emitting Polymer Heterostructure Devices: The Fabrication of Multilayer Structures from Orthogonal Solvents
DOI:10.1002/adma.200903076 JN:ADVANCED MATERIALS PY:2010 TC:32 AU: Sax, Stefan;Rugen-Penkalla, Nicole;Neuhold, Alfred;Schuh, Sebastian;Zojer, Egbert;List, Emil J. W.;Muellen, Klaus;
2:4:3:25 High-Efficiency Small-Molecule-Based Organic Light Emitting Devices with Solution Processes and Oxadiazole-Based Electron Transport Materials
DOI:10.1021/am402504g JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Chang, Yung-Ting;Chang, Jan-Kai;Lee, Yi-Ting;Wang, Po-Sheng;Wu, Jhao-Lin;Hsu, Che-Chang;Wu, I-Wen;Tseng, Wei-Hsuan;Pi, Tun-Wen;Chen, Chin-Ti;Wu, Chih-I;
2:4:3:26 Star-shaped dendritic hosts based on carbazole moieties for highly efficient blue phosphorescent OLEDs
DOI:10.1039/c2jm31606d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Jiang, Wei;Ge, Zijian;Cai, Peiyuan;Huang, Bin;Dai, Yunqian;Sun, Yueming;Qiao, Juan;Wang, Liduo;Duan, Lian;Qiu, Yong;
2:4:3:27 Lithium Phenolate Complexes with a Pyridine-Containing Polymer for Solution-Processable Electron Injection Layers in PLEDs
DOI:10.1002/adfm.201401060 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Chiba, Takayuki;Pu, Yong-Jin;Takahashi, Shogo;Sasabe, Hisahiro;Kido, Junji;
2:4:3:28 High Efficiency in a Solution-Processed Thermally Activated Delayed-Fluorescence Device Using a Delayed-Fluorescence Emitting Material with Improved Solubility
DOI:10.1002/adma.201402188 JN:ADVANCED MATERIALS PY:2014 TC:12 AU: Cho, Yong Joo;Yook, Kyoung Soo;Lee, Jun Yeob;
2:4:3:29 Efficient Phosphorescent Polymer Yellow-Light-Emitting Diodes Based on Solution-Processed Small Molecular Electron Transporting Layer
DOI:10.1021/am1010018 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:17 AU: Ye, Tengling;Shao, Shiyang;Chen, Jiangshan;Wang, Lixiang;Ma, Dongge;
2:4:3:30 Effects of nanoscale surface modification and triplet energy shielding of a single layer solution processed blue phosphorescent organic light emitting diode by using Triton X-100
DOI:10.1016/j.synthmet.2013.03.024 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Yeoh, K. H.;Chua, C. L.;Woon, K. L.;
2:4:3:31 Furopyridine derivatives as host materials for solution processed blue phosphorescent organic light-emitting diodes
DOI:10.1016/j.tsf.2014.04.031 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Yook, Kyoung Soo;Lee, Jun Yeob;
2:4:3:32 Vinyl-type polynorbornene with 9,9 '-(1,1 '-biphenyl)-4,4 '-diylbis-9H-carbazole side groups as a host material for highly efficient green phosphorescent organic light-emitting diodes
DOI:10.1039/c0jm03755a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:25 AU: Park, Jun Ha;Yun, Changhun;Koh, Tae-Wook;Do, Youngkyu;Yoo, Seunghyup;Lee, Min Hyung;
2:4:3:33 Bright Blue Solution Processed Triple-Layer Polymer Light-Emitting Diodes Realized by Thermal Layer Stabilization and Orthogonal Solvents
DOI:10.1002/adfm.201300360 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:10 AU: Trattnig, Roman;Pevzner, Leonid;Jaeger, Monika;Schlesinger, Raphael;Nardi, Marco Vittorio;Ligorio, Giovanni;Christodoulou, Christos;Koch, Norbert;Baumgarten, Martin;Muellen, Klaus;List, Emil J. W.;
2:4:3:34 New sulfone-based electron-transport materials with high triplet energy for highly efficient blue phosphorescent organic light-emitting diodes
DOI:10.1039/c4tc01474j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Jeon, Soon Ok;Earmme, Taeshik;Jenekhe, Samson A.;
2:4:3:35 Solution processed multilayer deep blue and white phosphorescent organic light-emitting diodes using an alcohol soluble bipolar host and phosphorescent dopant materials
DOI:10.1039/c2jm31814h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Yook, Kyoung Soo;Lee, Jun Yeob;
2:4:3:36 Solution-processed small molecular electron transport layer for multilayer polymer light-emitting diodes
DOI:10.1016/j.synthmet.2010.12.021 JN:SYNTHETIC METALS PY:2011 TC:17 AU: Liu, Zong-You;Tseng, Shin-Rong;Chao, Yu-Chiang;Chen, Chun-Yu;Meng, Hsin-Fei;Horng, Sheng-Fu;Wu, Yu-Hsun;Chen, Su-Hua;
2:4:3:37 Instant Low-Temperature Cross-Linking of Poly(N-vinylcarbazole) for Solution-Processed Multilayer Blue Phosphorescent Organic Light-Emitting Devices
DOI:10.1002/adma.201402726 JN:ADVANCED MATERIALS PY:2014 TC:1 AU: Aizawa, Naoya;Pu, Yong-Jin;Chiba, Takayuki;Kawata, So;Sasabe, Hisahiro;Kido, Junji;
2:4:3:38 Highly efficient blue phosphorescent polymer light-emitting diodes by using interfacial modification
DOI:10.1063/1.3593380 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Li, Lu;Liu, Jun;Yu, Zhibin;Pei, Qibing;
2:4:3:39 Efficient solution-processed phosphor-sensitized single-emitting-layer white organic light-emitting devices: fabrication, characteristics, and transient analysis of energy transfer
DOI:10.1039/c0jm02987d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Hou, Liudong;Duan, Lian;Qiao, Juan;Zhang, Deqiang;Wang, Liduo;Cao, Yong;Qiu, Yong;
2:4:3:40 New host materials based on fluorene and benzimidazole units for efficient solution-processed green phosphorescent OLEDs
DOI:10.1016/j.optmat.2013.06.015 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Yang, Wen;Ban, Xinxin;Chen, Yuanshen;Xu, Huange;Huang, Bin;Jiang, Wei;Dai, Yunqian;Sun, Yueming;
2:4:3:41 Small molecule host system for solution-processed red phosphorescent OLEDs
DOI:10.1016/j.synthmet.2009.12.020 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Kim, Kyeong Heon;Lee, Jae Yeol;Park, Tae Jin;Jeon, Woo Sik;Kennedy, G. P.;Kwon, Jang Hyuk;
2:4:3:42 Small molecular host based on carbazole and m-terphenyl derivatives for efficient solution processed organic light-emitting diodes
DOI:10.1016/j.synthmet.2011.12.010 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Lin, Xu;Yagai, Shiki;Kitamura, Akihide;Hwang, Dong Ryeol;Park, Soo Young;Park, Young-Seo;Kim, Jang-Joo;Karatsu, Takashi;
2:4:3:43 Interfacial triplet confinement for achieving efficient solution-processed deep-blue and white electrophosphorescent devices with underestimated poly(N-vinylcarbazole) as the host
DOI:10.1039/c3tc30912f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Zhang, Baohua;Liu, Lihui;Tan, Guiping;Yao, Bing;Ho, Cheuk-Lam;Wang, Shumeng;Ding, Junqiao;Xie, Zhiyuan;Wong, Wai-Yeung;Wang, Lixiang;
2:4:3:44 Improved performance of solution-processable OLEDs by silyl substitution to phosphorescent iridium complexes
DOI:10.1016/j.synthmet.2012.08.011 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Lee, Jaemin;Park, Chan Hyuk;Kwon, Jiyoung;Yoon, Sung Cheol;Do, Lee-Mi;Lee, Changjin;
2:4:3:45 Multi-layered organic light-emitting diode fabrication using low molecular weight materials by electrospray method
DOI:10.1016/j.tsf.2013.07.083 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Koishikawa, Yasushi;Miyazaki, Hiroshi;Yahiro, Masayuki;Adachi, Chihaya;
2:4:3:46 Enhancing Shielding of Triplet Energy Transfer to Poly(p-phenylene)s from Phosphor Dopant by Addition of Branched Alcohol for Highly Efficient Electrophosphorescence
DOI:10.1021/am900878f JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:7 AU: Huang, Yu-Kai;Jen, Tzu-Hao;Chang, Yao-Tang;Yang, Neng-Jye;Lu, Hsin-Hung;Chen, Show-An;
2:4:4:1 Efficiency Roll-Off in Organic Light-Emitting Diodes
DOI:10.1002/adma.201301603 JN:ADVANCED MATERIALS PY:2013 TC:78 AU: Murawski, Caroline;Leo, Karl;Gather, Malte C.;
2:4:4:2 Correlation Between Triplet Triplet Annihilation and Electroluminescence Efficiency in Doped Fluorescent Organic Light-Emitting Devices
DOI:10.1002/adfm.200902329 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:69 AU: Luo, Yichun;Aziz, Hany;
2:4:4:3 Organic Light-Emitting Diodes with 30% External Quantum Efficiency Based on a Horizontally Oriented Emitter
DOI:10.1002/adfm.201300104 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:88 AU: Kim, Sei-Yong;Jeong, Won-Ik;Mayr, Christian;Park, Young-Seo;Kim, Kwon-Hyeon;Lee, Jeong-Hwan;Moon, Chang-Ki;Bruetting, Wolfgang;Kim, Jang-Joo;
2:4:4:4 Causes of efficiency roll-off in phosphorescent organic light emitting devices: Triplet-triplet annihilation versus triplet-polaron quenching
DOI:10.1063/1.3527085 JN:APPLIED PHYSICS LETTERS PY:2010 TC:44 AU: Song, Dandan;Zhao, Suling;Luo, Yichun;Aziz, Hany;
2:4:4:5 Exciplex-Forming Co-host for Organic Light-Emitting Diodes with Ultimate Efficiency
DOI:10.1002/adfm.201300547 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:74 AU: Park, Young-Seo;Lee, Sunghun;Kim, Kwon-Hyeon;Kim, Sei-Yong;Lee, Jeong-Hwan;Kim, Jang-Joo;
2:4:4:6 Triplets Contribute to Both an Increase and Loss in Fluorescent Yield in Organic Light Emitting Diodes
DOI:10.1103/PhysRevLett.108.267404 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:28 AU: Zhang, Yifan;Forrest, Stephen R.;
2:4:4:7 Low Roll-Off and High Efficiency Orange Organic Light Emitting Diodes with Controlled Co-Doping of Green and Red Phosphorescent Dopants in an Exciplex Forming Co-Host
DOI:10.1002/adfm.201300187 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:51 AU: Lee, Sunghun;Kim, Kwon-Hyeon;Limbach, Daniel;Park, Young-Seo;Kim, Jang-Joo;
2:4:4:8 Triplet dynamics in fluorescent polymer light-emitting diodes
DOI:10.1103/PhysRevB.85.045209 JN:PHYSICAL REVIEW B PY:2012 TC:23 AU: Wallikewitz, Bodo H.;Kabra, Dinesh;Gelinas, Simon;Friend, Richard H.;
2:4:4:9 Determination of molecular dipole orientation in doped fluorescent organic thin films by photoluminescence measurements
DOI:10.1063/1.3309705 JN:APPLIED PHYSICS LETTERS PY:2010 TC:45 AU: Frischeisen, Joerg;Yokoyama, Daisuke;Adachi, Chihaya;Bruetting, Wolfgang;
2:4:4:10 Storage of charge carriers on emitter molecules in organic light-emitting diodes
DOI:10.1103/PhysRevB.86.075204 JN:PHYSICAL REVIEW B PY:2012 TC:13 AU: Weichsel, Caroline;Burtone, Lorenzo;Reineke, Sebastian;Hintschich, Susanne I.;Gather, Malte C.;Leo, Karl;Luessem, Bjoern;
2:4:4:11 Blue Phosphorescent Organic Light-Emitting Diodes Using an Exciplex Forming Co-host with the External Quantum Efficiency of Theoretical Limit
DOI:10.1002/adma.201400955 JN:ADVANCED MATERIALS PY:2014 TC:26 AU: Shin, Hyun;Lee, Sunghun;Kim, Kwon-Hyeon;Moon, Chang-Ki;Yoo, Seung-Jun;Lee, Jeong-Hwan;Kim, Jang-Joo;
2:4:4:12 On the origin of the shift in color in white organic light-emitting diodes
DOI:10.1039/c3tc00766a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:18 AU: Chen, Shufen;Wu, Qiang;Kong, Min;Zhao, Xiaofei;Yu, Zhen;Jia, Pengpeng;Huang, Wei;
2:4:4:13 Langevin and Trap-Assisted Recombination in Phosphorescent Organic Light Emitting Diodes
DOI:10.1002/adfm.201303453 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:14 AU: Lee, Jeong-Hwan;Lee, Sunghun;Yoo, Seung-Jun;Kim, Kwon-Hyeon;Kim, Jang-Joo;
2:4:4:14 Optimizing the Charge Balance of Fluorescent Organic Light-Emitting Devices to Achieve High External Quantum Efficiency Beyond the Conventional Upper Limit
DOI:10.1002/adma.201104403 JN:ADVANCED MATERIALS PY:2012 TC:42 AU: Pu, Yong-Jin;Nakata, Go;Satoh, Fumiya;Sasabe, Hisahiro;Yokoyama, Daisuke;Kido, Junji;
2:4:4:15 A Fluorescent Organic Light-Emitting Diode with 30% External Quantum Efficiency
DOI:10.1002/adma.201401407 JN:ADVANCED MATERIALS PY:2014 TC:43 AU: Sun, Jin Won;Lee, Jeong-Hwan;Moon, Chang-Ki;Kim, Kwon-Hyeon;Shin, Hyun;Kim, Jang-Joo;
2:4:4:16 Modification of Exciton Lifetime by the Metal Cathode in Phosphorescent OLEDs, and Implications on Device Efficiency and Efficiency Roll-off Behavior
DOI:10.1002/adfm.201002585 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:26 AU: Song, Dandan;Zhao, Suling;Aziz, Hany;
2:4:4:17 Highly Efficient Organic Light-Emitting Diodes with Phosphorescent Emitters Having High Quantum Yield and Horizontal Orientation of Transition Dipole Moments
DOI:10.1002/adma.201305733 JN:ADVANCED MATERIALS PY:2014 TC:36 AU: Kim, Kwon-Hyeon;Moon, Chang-Ki;Lee, Jeong-Hwan;Kim, Sei-Yong;Kim, Jang-Joo;
2:4:4:18 Comparing the emissive dipole orientation of two similar phosphorescent green emitter molecules in highly efficient organic light-emitting diodes
DOI:10.1063/1.4773188 JN:APPLIED PHYSICS LETTERS PY:2012 TC:19 AU: Liehm, Philipp;Murawski, Caroline;Furno, Mauro;Luessem, Bjoern;Leo, Karl;Gather, Malte C.;
2:4:4:19 High-efficiency fluorescent organic light-emitting diodes enabled by triplet-triplet annihilation and horizontal emitter orientation
DOI:10.1063/1.4901341 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Mayr, Christian;Schmidt, Tobias D.;Bruetting, Wolfgang;
2:4:4:20 Evidence for non-isotropic emitter orientation in a red phosphorescent organic light-emitting diode and its implications for determining the emitter's radiative quantum efficiency
DOI:10.1063/1.3653475 JN:APPLIED PHYSICS LETTERS PY:2011 TC:20 AU: Schmidt, Tobias D.;Setz, Daniel S.;Flaemmich, Michael;Frischeisen, Joerg;Michaelis, Dirk;Krummacher, Benjamin C.;Danz, Norbert;Bruetting, Wolfgang;
2:4:4:21 Improved High-Brightness Efficiency of Phosphorescent Organic LEDs Comprising Emitter Molecules with Small Permanent Dipole Moments
DOI:10.1002/adma.201000529 JN:ADVANCED MATERIALS PY:2010 TC:27 AU: Reineke, Sebastian;Rosenow, Thomas C.;Luessem, Bjoern;Leo, Karl;
2:4:4:22 High-Efficiency Orange and Tandem White Organic Light-Emitting Diodes Using Phosphorescent Dyes with Horizontally Oriented Emitting Dipoles
DOI:10.1002/adma.201400330 JN:ADVANCED MATERIALS PY:2014 TC:16 AU: Lee, Sunghun;Shin, Hyun;Kim, Jang-Joo;
2:4:4:23 Dual efficiency enhancement by delayed fluorescence and dipole orientation in high-efficiency fluorescent organic light-emitting diodes
DOI:10.1063/1.3637608 JN:APPLIED PHYSICS LETTERS PY:2011 TC:26 AU: Yokoyama, Daisuke;Park, Youngil;Kim, Beomjin;Kim, Sookang;Pu, Yong-Jin;Kido, Junji;Park, Jongwook;
2:4:4:24 Comprehensive efficiency analysis of organic light-emitting diodes featuring emitter orientation and triplet-to-singlet up-conversion
DOI:10.1063/1.4819388 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Schmidt, Tobias D.;Setz, Daniel S.;Flaemmich, Michael;Frischeisen, Joerg;Michaelis, Dirk;Mayr, Christian;Rausch, Andreas F.;Wehlus, Thomas;Scholz, Bert J.;Reusch, Thilo C. G.;Danz, Norbert;Bruetting, Wolfgang;
2:4:4:25 Influence of Cavity Thickness and Emitter Orientation on the Efficiency Roll-Off of Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adfm.201302173 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:9 AU: Murawski, Caroline;Liehm, Philipp;Leo, Karl;Gather, Malte C.;
2:4:4:26 Low driving voltage simplified tandem organic light-emitting devices by using exciplex-forming hosts
DOI:10.1063/1.4897994 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Zhou, Dong-Ying;Cui, Lin-Song;Zhang, Ying-Jie;Liao, Liang-Sheng;Aziz, Hany;
2:4:4:27 Efficiency Enhancement of Organic Light-Emitting Diodes Incorporating a Highly Oriented Thermally Activated Delayed Fluorescence Emitter
DOI:10.1002/adfm.201400495 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:20 AU: Mayr, Christian;Lee, Sae Youn;Schmidt, Tobias D.;Yasuda, Takuma;Adachi, Chihaya;Bruetting, Wolfgang;
2:4:4:28 Extracting the emitter orientation in organic light-emitting diodes from external quantum efficiency measurements
DOI:10.1063/1.4891680 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Schmidt, Tobias D.;Reichardt, Lukas J.;Rausch, Andreas F.;Wehrmeister, Sebastian;Scholz, Bert J.;Mayr, Christian;Wehlus, Thomas;Mac Ciarnain, Rossa;Danz, Norbert;Reusch, Thilo C. G.;Bruetting, Wolfgang;
2:4:4:29 Probing triplet-triplet annihilation zone and determining triplet exciton diffusion length by using delayed electroluminescence
DOI:10.1063/1.3410678 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:16 AU: Luo, Yichun;Aziz, Hany;
2:4:4:30 Efficient triplet harvesting by fluorescent molecules through exciplexes for high efficiency organic light-emitting diodes
DOI:10.1063/1.4802716 JN:APPLIED PHYSICS LETTERS PY:2013 TC:12 AU: Park, Young-Seo;Kim, Kwon-Hyeon;Kim, Jang-Joo;
2:4:4:31 Correlating the transition dipole moment orientation of phosphorescent emitter molecules in OLEDs with basic material properties
DOI:10.1039/c4tc00997e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Graf, A.;Liehm, P.;Murawski, C.;Hofmann, S.;Leo, K.;Gather, M. C.;
2:4:4:32 High performance flexible top-emitting warm-white organic light-emitting devices and chromaticity shift mechanism
DOI:10.1063/1.4871405 JN:AIP ADVANCES PY:2014 TC:1 AU: Shi, Hongying;Deng, Lingling;Chen, Shufen;Xu, Ying;Zhao, Xiaofei;Cheng, Fan;Huang, Wei;
2:4:4:33 A white organic light-emitting diode with ultra-high color rendering index, high efficiency, and extremely low efficiency roll-off
DOI:10.1063/1.4890217 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Sun, Ning;Zhao, Yongbiao;Zhao, Fangchao;Chen, Yonghua;Yang, Dezhi;Chen, Jiangshan;Ma, Dongge;
2:4:4:34 Highly luminescent pi-conjugated dithienometalloles: photophysical properties and their application in organic light-emitting diodes
DOI:10.1039/c2jm33526c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Kondo, Ryosuke;Yasuda, Takuma;Yang, Yu Seok;Kim, Jun Yun;Adachi, Chihaya;
2:4:4:35 Phosphorescent organic light-emitting devices (PhOLEDs) based on heteroleptic bis-cyclometalated complexes using acetylacetonate as the ancillary ligand
DOI:10.1016/j.synthmet.2014.09.026 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Dumur, Frederic;Lepeltier, Marc;Siboni, Hossein Zamani;Gigmes, Didier;Aziz, Hany;
2:4:4:36 Organic light-emitting diodes under high currents explored by transient electroluminescence on the nanosecond scale
DOI:10.1103/PhysRevB.84.115208 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Kasemann, D.;Brueckner, R.;Froeb, H.;Leo, K.;
2:4:4:37 Temperature dependence of the exciton dynamics in DCM2:Alq3
DOI:10.1103/PhysRevB.90.085201 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Liu, Xiao;Zhang, Yifan;Forrest, Stephen R.;
2:4:4:38 Enhanced efficiency in high-brightness fluorescent organic light emitting diodes through triplet management
DOI:10.1063/1.3664771 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Zhang, Yifan;Slootsky, Michael;Forrest, Stephen R.;
2:4:4:39 High-efficiency fluorescent organic light-emitting diodes with MoO3 and PEDOT : PSS composition film as a hole injection layer
DOI:10.1039/c4tc01310g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Zhang, Hongmei;Fu, Qiang;Zeng, Wenjin;Ma, Dongge;
2:4:4:40 Detecting luminescence from triplet states of organic semiconductors at room temperatures using delayed electroluminescence spectroscopy
DOI:10.1063/1.4892920 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Qi;Aziz, Hany;
2:4:4:41 Triplets Contribute to Both an Increase and Loss in Fluorescent Yield in Organic Light Emitting Diodes (vol 108, 267404, 2012)
DOI:10.1103/PhysRevLett.113.189903 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Zhang, Yifan;Forrest, Stephen R.;
2:4:4:42 Recombination zone in white organic light emitting diodes with blue and orange emitting layers
DOI:10.1016/j.optmat.2012.03.005 JN:OPTICAL MATERIALS PY:2012 TC:2 AU: Tsuboi, Taiju;Kishimoto, Tadashi;Wako, Kazuhiro;Matsuda, Kuniharu;Iguchi, Hirofumi;
2:4:4:43 High performance inkjet printed phosphorescent organic light emitting diodes based on small molecules commonly used in vacuum processes
DOI:10.1016/j.tsf.2012.07.084 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Jung, Sung-Hoon;Kim, Jang-Joo;Kim, Hyong-Jun;
2:4:5:1 Thermally Activated Delayed Fluorescence Materials Towards the Breakthrough of Organoelectronics
DOI:10.1002/adma.201402532 JN:ADVANCED MATERIALS PY:2014 TC:22 AU: Tao, Ye;Yuan, Kai;Chen, Ting;Xu, Peng;Li, Huanhuan;Chen, Runfeng;Zheng, Chao;Zhang, Lei;Huang, Wei;
2:4:5:2 Efficient up-conversion of triplet excitons into a singlet state and its application for organic light emitting diodes
DOI:10.1063/1.3558906 JN:APPLIED PHYSICS LETTERS PY:2011 TC:105 AU: Endo, Ayataka;Sato, Keigo;Yoshimura, Kazuaki;Kai, Takahiro;Kawada, Atsushi;Miyazaki, Hiroshi;Adachi, Chihaya;
2:4:5:3 Design of Efficient Thermally Activated Delayed Fluorescence Materials for Pure Blue Organic Light Emitting Diodes
DOI:10.1021/ja306538w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:119 AU: Zhang, Qisheng;Li, Jie;Shizu, Katsuyuki;Huang, Shuping;Hirata, Shuzo;Miyazaki, Hiroshi;Adachi, Chihaya;
2:4:5:4 Towards High Efficiency and Low Roll-Off Orange Electrophosphorescent Devices by Fine Tuning Singlet and Triplet Energies of Bipolar Hosts Based on Indolocarbazole/1, 3, 5-Triazine Hybrids
DOI:10.1002/adfm.201303926 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:13 AU: Zhang, Dongdong;Duan, Lian;Li, Yilang;Li, Haoyuan;Bin, Zhengyang;Zhang, Deqiang;Qiao, Juan;Dong, Guifang;Wang, Liduo;Qiu, Yong;
2:4:5:5 High-efficiency organic light-emitting diodes utilizing thermally activated delayed fluorescence from triazine-based donor-acceptor hybrid molecules
DOI:10.1063/1.4749285 JN:APPLIED PHYSICS LETTERS PY:2012 TC:57 AU: Lee, Sae Youn;Yasuda, Takuma;Nomura, Hiroko;Adachi, Chihaya;
2:4:5:6 Triplet Harvesting with 100% Efficiency by Way of Thermally Activated Delayed Fluorescence in Charge Transfer OLED Emitters
DOI:10.1002/adma.201300753 JN:ADVANCED MATERIALS PY:2013 TC:88 AU: Dias, Fernando B.;Bourdakos, Konstantinos N.;Jankus, Vygintas;Moss, Kathryn C.;Kamtekar, Kiran T.;Bhalla, Vandana;Santos, Jose;Bryce, Martin R.;Monkman, Andrew P.;
2:4:5:7 Anthraquinone-Based Intramolecular Charge-Transfer Compounds: Computational Molecular Design, Thermally Activated Delayed Fluorescence, and Highly Efficient Red Electroluminescence
DOI:10.1021/ja510144h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Zhang, Qisheng;Kuwabara, Hirokazu;Potscavage, William J., Jr.;Huang, Shuping;Hatae, Yasuhiro;Shibata, Takumi;Adachi, Chihaya;
2:4:5:8 Deep Blue Exciplex Organic Light-Emitting Diodes with Enhanced Efficiency; P-type or E-type Triplet Conversion to Singlet Excitons?
DOI:10.1002/adma.201203615 JN:ADVANCED MATERIALS PY:2013 TC:38 AU: Jankus, Vygintas;Chiang, Chien-Jung;Dias, Fernando;Monkman, Andrew P.;
2:4:5:9 High-Efficiency Fluorescent Organic Light-Emitting Devices Using Sensitizing Hosts with a Small Singlet-Triplet Exchange Energy
DOI:10.1002/adma.201401476 JN:ADVANCED MATERIALS PY:2014 TC:27 AU: Zhang, Dongdong;Duan, Lian;Li, Chen;Li, Yilang;Li, Haoyuan;Zhang, Deqiang;Qiu, Yong;
2:4:5:10 Towards ideal electrophosphorescent devices with low dopant concentrations: the key role of triplet up-conversion
DOI:10.1039/c4tc01757a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Zhang, Dongdong;Duan, Lian;Zhang, Deqiang;Qiu, Yong;
2:4:5:11 Highly Efficient Organic Light-Emitting Diode Based on a Hidden Thermally Activated Delayed Fluorescence Channel in a Heptazine Derivative
DOI:10.1002/adma.201300575 JN:ADVANCED MATERIALS PY:2013 TC:59 AU: Li, Jie;Nakagawa, Tetsuya;MacDonald, James;Zhang, Qisheng;Nomura, Hiroko;Miyazaki, Hiroshi;Adachi, Chihaya;
2:4:5:12 High-efficiency deep-blue organic light-emitting diodes based on a thermally activated delayed fluorescence emitter
DOI:10.1039/c3tc31936a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:29 AU: Wu, Shuanghong;Aonuma, Masaki;Zhang, Qisheng;Huang, Shuping;Nakagawa, Tetsuya;Kuwabara, Kazuhiro;Adachi, Chihaya;
2:4:5:13 Highly efficient and color-stable hybrid warm white organic light-emitting diodes using a blue material with thermally activated delayed fluorescence
DOI:10.1039/c4tc01289e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:13 AU: Zhang, Dongdong;Duan, Lian;Li, Yilang;Zhang, Deqiang;Qiu, Yong;
2:4:5:14 A Twisting Donor-Acceptor Molecule with an Intercrossed Excited State for Highly Efficient, Deep-Blue Electroluminescence
DOI:10.1002/adfm.201200116 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:87 AU: Li, Weijun;Liu, Dandan;Shen, Fangzhong;Ma, Dongge;Wang, Zhiming;Feng, Tao;Xu, Yuanxiang;Yang, Bing;Ma, Yuguang;
2:4:5:15 Organic Luminescent Molecule with Energetically Equivalent Singlet and Triplet Excited States for Organic Light-Emitting Diodes
DOI:10.1103/PhysRevLett.110.247401 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:14 AU: Sato, Keigo;Shizu, Katsuyuki;Yoshimura, Kazuaki;Kawada, Atsushi;Miyazaki, Hiroshi;Adachi, Chihaya;
2:4:5:16 Novel Thermally Activated Delayed Fluorescence Materials-Thioxanthone Derivatives and Their Applications for Highly Efficient OLEDs
DOI:10.1002/adma.201401393 JN:ADVANCED MATERIALS PY:2014 TC:31 AU: Wang, Hui;Xie, Lisha;Peng, Qian;Meng, Lingqiang;Wang, Ying;Yi, Yuanping;Wang, Pengfei;
2:4:5:17 The contribution of triplet-triplet annihilation to the lifetime and efficiency of fluorescent polymer organic light emitting diodes
DOI:10.1063/1.3561430 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:30 AU: King, S. M.;Cass, M.;Pintani, M.;Coward, C.;Dias, F. B.;Monkman, A. P.;Roberts, M.;
2:4:5:18 Employing similar to 100% Excitons in OLEDs by Utilizing a Fluorescent Molecule with Hybridized Local and ChargeTransfer Excited State
DOI:10.1002/adfm.201301750 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:36 AU: Li, Weijun;Pan, Yuyu;Xiao, Ran;Peng, Qiming;Zhang, Shitong;Ma, Dongge;Li, Feng;Shen, Fangzhong;Wang, Yinghui;Yang, Bing;Ma, Yuguang;
2:4:5:19 Exciplex emission and decay of co-deposited 4,4 ',4 ''-tris[3-methylphenyl (phenyl)amino] triphenylamine: tris-[3-(3-pyridyl)mesityl]borane organic light-emitting devices with different electron transporting layer thicknesses
DOI:10.1063/1.4870492 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Huang, Qingyu;Zhao, Suling;Xu, Zheng;Fan, Xing;Shen, Chongyu;Yang, Qianqian;
2:4:5:20 Engineering of Mixed Host for High External Quantum Efficiency above 25% in Green Thermally Activated Delayed Fluorescence Device
DOI:10.1002/adfm.201303730 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:28 AU: Kim, Bo Seong;Lee, Jun Yeob;
2:4:5:21 Efficient organic light-emitting diodes through up-conversion from triplet to singlet excited states of exciplexes
DOI:10.1063/1.4737006 JN:APPLIED PHYSICS LETTERS PY:2012 TC:22 AU: Goushi, Kenichi;Adachi, Chihaya;
2:4:5:22 Highly Efficient Bilayer Interface Exciplex For Yellow Organic Light-Emitting Diode
DOI:10.1021/am402032z JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:25 AU: Hung, Wen-Yi;Fang, Guan-Cheng;Chang, Yuh-Chia;Kuo, Ting-Yi;Chou, Pi-Tai;Lin, Shih-Wei;Wong, Ken-Tsung;
2:4:5:23 Photophysical Investigation of the Thermally Activated Delayed Emission from Films of m-MTDATA: PBD Exciplex
DOI:10.1002/adfm.201303389 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:16 AU: Graves, David;Jankus, Vygintas;Dias, Fernando B.;Monkman, Andrew;
2:4:5:24 A Universal Host Material for High External Quantum Efficiency Close to 25% and Long Lifetime in Green Fluorescent and Phosphorescent OLEDs
DOI:10.1002/adma.201400347 JN:ADVANCED MATERIALS PY:2014 TC:32 AU: Cho, Yong Joo;Yook, Kyoung Soo;Lee, Jun Yeob;
2:4:5:25 Ultrahigh Efficiency Fluorescent Single and Bi-Layer Organic Light Emitting Diodes: The Key Role of Triplet Fusion
DOI:10.1002/adfm.201201750 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:34 AU: Chiang, Chien-Jung;Kimyonok, Alpay;Etherington, Marc K.;Griffiths, Gareth C.;Jankus, Vygintas;Turksoy, Figen;Monkman, Andy P.;
2:4:5:26 Highly Efficient TADF OLEDs: How the Emitter-Host Interaction Controls Both the Excited State Species and Electrical Properties of the Devices to Achieve Near 100% Triplet Harvesting and High Efficiency
DOI:10.1002/adfm.201400948 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:11 AU: Jankus, Vygintas;Data, Przemyslaw;Graves, David;McGuinness, Callum;Santos, Jose;Bryce, Martin R.;Dias, Fernando B.;Monkman, Andrew P.;
2:4:5:27 Phosphine Oxide Type Bipolar Host Material for High Quantum Efficiency in Thermally Activated Delayed Fluorescent Device
DOI:10.1021/am501301g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:14 AU: Kim, Bo Seong;Lee, Jun Yeob;
2:4:5:28 Above 20% External Quantum Efficiency in Thermally Activated Delayed Fluorescence Device Using Furodipyridine-Type Host Materials
DOI:10.1021/cm403358h JN:CHEMISTRY OF MATERIALS PY:2014 TC:31 AU: Im, Yirang;Lee, Jun Yeob;
2:4:5:29 High-efficiency white organic light-emitting diodes using thermally activated delayed fluorescence
DOI:10.1063/1.4882456 JN:APPLIED PHYSICS LETTERS PY:2014 TC:5 AU: Nishide, Jun-ichi;Nakanotani, Hajime;Hiraga, Yasuhide;Adachi, Chihaya;
2:4:5:30 Thermally activated delayed fluorescence from (3)n pi* to (1)n pi* up-conversion and its application to organic light-emitting diodes
DOI:10.1063/1.4887346 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Li, Jie;Zhang, Qisheng;Nomura, Hiroko;Miyazaki, Hiroshi;Adachi, Chihaya;
2:4:5:31 Efficient Triplet Application in Exciplex Delayed-Fluorescence OLEDs Using a Reverse Intersystem Crossing Mechanism Based on a Delta ES-T of around Zero
DOI:10.1021/am501164s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:17 AU: Zhang, Tianyou;Chu, Bei;Li, Wenlian;Su, Zisheng;Peng, Qi Ming;Zhao, Bo;Luo, Yongshi;Jin, Fangming;Yan, Xingwu;Gao, Yuan;Wu, Hairuo;Zhang, Feng;Fan, Di;Wang, Junbo;
2:4:5:32 Twisted Intramolecular Charge Transfer State for Long-Wavelength Thermally Activated Delayed Fluorescence
DOI:10.1021/cm402428a JN:CHEMISTRY OF MATERIALS PY:2013 TC:37 AU: Tanaka, Hiroyuki;Shizu, Katsuyuki;Nakanotani, Hajime;Adachi, Chihaya;
2:4:5:33 Oxadiazole- and triazole-based highly-efficient thermally activated delayed fluorescence emitters for organic light-emitting diodes
DOI:10.1039/c3tc30699b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:49 AU: Lee, Jiyoung;Shizu, Katsuyuki;Tanaka, Hiroyuki;Nomura, Hiroko;Yasuda, Takuma;Adachi, Chihaya;
2:4:5:34 Temperature dependence of photoluminescence properties in a thermally activated delayed fluorescence emitter
DOI:10.1063/1.4878397 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Niwa, Akitsugu;Kobayashi, Takashi;Nagase, Takashi;Goushi, Kenichi;Adachi, Chihaya;Naito, Hiroyoshi;
2:4:5:35 Direct observation of back energy transfer in blue phosphorescent materials for organic light emitting diodes by time-resolved optical waveguide spectroscopy
DOI:10.1063/1.4792838 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Hirayama, H.;Sugawara, Y.;Miyashita, Y.;Mitsuishi, M.;Miyashita, T.;
2:4:6:1 Recent Advances in White Organic Light-Emitting Materials and Devices (WOLEDs)
DOI:10.1002/adma.200902148 JN:ADVANCED MATERIALS PY:2010 TC:366 AU: Kamtekar, Kiran T.;Monkman, Andrew P.;Bryce, Martin R.;
2:4:6:2 White Polymer Light-Emitting Devices for Solid-State Lighting: Materials, Devices, and Recent Progress
DOI:10.1002/adma.201304784 JN:ADVANCED MATERIALS PY:2014 TC:44 AU: Ying, Lei;Ho, Cheuk-Lam;Wu, Hongbin;Cao, Yong;Wong, Wai-Yeung;
2:4:6:3 Is Poly(vinylcarbazole) a Good Host for Blue Phosphorescent Dopants in PLEDs? Dimer Formation and Their Effects on the Triplet Energy Level of Poly(N-vinylcarbazole) and Poly(N-Ethyl-2-Vinylcarbazole)
DOI:10.1002/adfm.201100732 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:38 AU: Jankus, Vygintas;Monkman, Andrew P.;
2:4:6:4 Cyclometalated Ir(III) Complexes for High-Efficiency Solution-Processable Blue PhOLEDs
DOI:10.1021/cm4010773 JN:CHEMISTRY OF MATERIALS PY:2013 TC:30 AU: Kozhevnikov, Valery N.;Zheng, Yonghao;Clough, Matthew;Al-Attar, Hameed A.;Griffiths, Gareth C.;Abdullah, Khalid;Raisys, Steponas;Jankus, Vygintas;Bryce, Martin R.;Monkman, Andrew P.;
2:4:6:5 High-Performance All-Polymer White-Light-Emitting Diodes Using Polyfluorene Containing Phosphonate Groups as an Efficient Electron-Injection Layer
DOI:10.1002/adfm.201000538 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:38 AU: Zhang, Baohua;Qin, Chuanjiang;Ding, Junqiao;Chen, Lei;Xie, Zhiyuan;Cheng, Yanxiang;Wang, Lixiang;
2:4:6:6 Highly Efficient, Solution-Processed, Single-Layer, Electrophosphorescent Diodes and the Effect of Molecular Dipole Moment
DOI:10.1002/adfm.201100324 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:38 AU: Al-Attar, Hameed A.;Griffiths, Gareth C.;Moore, Tom N.;Tavasli, Mustafa;Fox, Mark A.;Bryce, Martin R.;Monkman, Andrew P.;
2:4:6:7 Carbazole based polymers as hosts for blue iridium emitters: synthesis, photophysics and high efficiency PLEDs
DOI:10.1039/c3tc31441c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Stanislovaityte, Egle;Simokaitiene, Jurate;Raisys, Steponas;Al-Attar, Hameed;Grazulevicius, Juozas V.;Monkman, Andrew P.;Jankus, Vygintas;
2:4:6:8 Offsetting the problem of charge trapping in white polymer light-emitting diodes using a fluorenone-based luminogen
DOI:10.1039/c4tc01722f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Ananthakrishnan, Soundaram Jeevarathinam;Varathan, Elumalai;Somanathan, Narayanasastri;Subramanian, Venkatesan;Mandal, Asit Baran;Sudha, Janardanan D.;Ramakrishnan, Rajaraman;
2:4:6:9 A Series of Energy-Transfer Copolymers Derived from Fluorene and 4,7-Dithienylbenzotriazole for High Efficiency Yellow, Orange, and White Light-Emitting Diodes
DOI:10.1002/adfm.201100844 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:21 AU: Zhang, Lianjie;Hu, Sujun;Chen, Junwu;Chen, Zhenhui;Wu, Hongbin;Peng, Junbiao;Cao, Yong;
2:4:6:10 Colour tuning from green to red by substituent effects in phosphorescent tris-cyclometalated iridium(III) complexes of carbazole-based ligands: synthetic, photophysical, computational and high efficiency OLED studies
DOI:10.1039/c2jm15049b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:42 AU: Tavasli, Mustafa;Moore, Tom N.;Zheng, Yonghao;Bryce, Martin R.;Fox, Mark A.;Griffiths, Gareth C.;Jankus, Vygintas;Al-Attar, Hameed A.;Monkman, Andrew P.;
2:4:6:11 Phosphonate substituted 4,4 '-bis(N-carbazolyl)biphenyl with dominant electron injection/transport ability for tuning the single-layer device performance of self-host phosphorescent dendrimer
DOI:10.1039/c2jm35526d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Chen, Bo;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:6:12 Recent design tactics for high performance white polymer light-emitting diodes
DOI:10.1039/c3tc31953a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:35 AU: Yang, Xiaolong;Zhou, Guijiang;Wong, Wai-Yeung;
2:4:6:13 Improving the efficiency and spectral stability of white-emitting polycarbazoles by introducing a dibenzothiophene-S,S-dioxide unit into the backbone
DOI:10.1039/c4tc01089b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: He, Ruifeng;Xu, Jin;Xue, Yong;Chen, Dongcheng;Ying, Lei;Yang, Wei;Cao, Yong;
2:4:6:14 White Electroluminescence from Star-like Single Polymer Systems: 2,1,3-Benzothiadiazole Derivatives Dopant as Orange Cores and Polyfluorene Host as Six Blue Arms
DOI:10.1002/adma.201100297 JN:ADVANCED MATERIALS PY:2011 TC:24 AU: Chen, Lei;Li, Pengcheng;Cheng, Yanxiang;Xie, Zhiyuan;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:6:15 Dinuclear iridium(III) complexes of cyclometalated fluorenylpyridine ligands as phosphorescent dopants for efficient solution-processed OLEDs
DOI:10.1039/c2jm31143g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: M'hamedi, Ahmed;Batsanov, Andrei S.;Fox, Mark A.;Bryce, Martin R.;Abdullah, Khalid;Al-Attar, Hameed A.;Monkman, Andrew P.;
2:4:6:16 Solution-processable ambipolar host oligomers with high triplet energies for phosphorescent green emitters
DOI:10.1039/c1jm13781f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Pandya, Shashi U.;Al Attar, Hameed A.;Jankus, Vygintas;Zheng, Yonghao;Bryce, Martin R.;Monkman, Andrew P.;
2:4:6:17 Feel the Heat: Nonlinear Electrothermal Feedback in Organic LEDs
DOI:10.1002/adfm.201303066 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Fischer, Axel;Koprucki, Thomas;Gaertner, Klaus;Tietze, Max L.;Brueckner, Jacqueline;Luessem, Bjoern;Leo, Karl;Glitzky, Annegret;Scholz, Reinhard;
2:4:6:18 Efficient three-color white light-emitting diodes from a single polymer with PFN/Al bilayer cathode
DOI:10.1016/j.synthmet.2011.07.006 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Luo, Jie;Li, Xianzhen;Chen, Junwu;Huang, Fei;Cao, Yong;
2:4:6:19 High Stability White Organic Light-Emitting Diode (WOLED) Using Nano-Double-Ultra Thin Carrier Trapping Materials
DOI:10.1155/2014/173276 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Chen, Kan-Lin;
2:4:6:20 Binary solvent mixture-induced crystallization enhancement for a white emissive polyfluorene copolymer toward improving its electroluminescence
DOI:10.1016/j.polymer.2013.08.069 JN:POLYMER PY:2013 TC:4 AU: Liu, Lihui;Wu, Keqi;Ding, Junqiao;Zhang, Baohua;Xie, Zhiyuan;
2:4:7:1 Recent Progresses on Materials for Electrophosphorescent Organic Light-Emitting Devices
DOI:10.1002/adma.201003128 JN:ADVANCED MATERIALS PY:2011 TC:462 AU: Xiao, Lixin;Chen, Zhijian;Qu, Bo;Luo, Jiaxiu;Kong, Sheng;Gong, Qihuang;Kido, Junji;
2:4:7:2 High efficiency and low roll-off blue phosphorescent organic light-emitting devices using mixed host architecture
DOI:10.1063/1.3464969 JN:APPLIED PHYSICS LETTERS PY:2010 TC:48 AU: Chopra, Neetu;Swensen, James S.;Polikarpov, Evgueni;Cosimbescu, Lelia;So, Franky;Padmaperuma, Asanga B.;
2:4:7:3 Single-Doped White Organic Light-Emitting Device with an External Quantum Efficiency Over 20%
DOI:10.1002/adma.201204602 JN:ADVANCED MATERIALS PY:2013 TC:35 AU: Fleetham, Tyler;Ecton, Jeremy;Wang, Zixing;Bakken, Nathan;Li, Jian;
2:4:7:4 Tetradentate Platinum Complexes for Efficient and Stable Excimer-Based White OLEDs
DOI:10.1002/adfm.201401244 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Fleetham, Tyler;Huang, Liang;Li, Jian;
2:4:7:5 Highly Efficient and Stable Red Phosphorescent Organic Light-Emitting Diodes Using Platinum Complexes
DOI:10.1002/adma.201202167 JN:ADVANCED MATERIALS PY:2012 TC:34 AU: Fukagawa, Hirohiko;Shimizu, Takahisa;Hanashima, Hiromu;Osada, Yoshichika;Suzuki, Mitsunori;Fujikake, Hideo;
2:4:7:6 Triplet-Energy Control of Polycyclic Aromatic Hydrocarbons by BN Replacement: Development of Ambipolar Host Materials for Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/cm503102d JN:CHEMISTRY OF MATERIALS PY:2014 TC:12 AU: Hashimoto, Sigma;Ikuta, Toshiaki;Shiren, Kazushi;Nakatsuka, Soichiro;Ni, Jingping;Nakamura, Masaharu;Hatakeyama, Takuji;
2:4:7:7 Efficient "Pure" Blue OLEDs Employing Tetradentate Pt Complexes with a Narrow Spectral Bandwidth
DOI:10.1002/adma.201401759 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Fleetham, Tyler;Li, Guijie;Wen, Lele;Li, Jian;
2:4:7:8 Efficient and Stable White Organic Light-Emitting Diodes Employing a Single Emitter
DOI:10.1002/adma.201305507 JN:ADVANCED MATERIALS PY:2014 TC:25 AU: Li, Guijie;Fleetham, Tyler;Li, Jian;
2:4:7:9 Graded-host phosphorescent light-emitting diodes with high efficiency and reduced roll-off
DOI:10.1063/1.3701685 JN:AIP ADVANCES PY:2012 TC:6 AU: Liu, S. W.;Sun, X. W.;Demir, Hilmi Volkan;
2:4:7:10 Molecular design of hole-transporting material for efficient and stable green phosphorescent organic light-emitting diodes
DOI:10.1063/1.4824477 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Fukagawa, Hirohiko;Shimizu, Takahisa;Kiribayashi, Yukihiro;Osada, Yoshichika;Kamada, Taisuke;Yamamoto, Toshihiro;Shimidzu, Naoki;Kurita, Taiichiro;
2:4:7:11 Highly Efficient Electron-Transporting/Injecting and Thermally Stable Naphthyridines for Organic Electrophosphorescent Devices
DOI:10.1002/adfm.201202194 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:17 AU: Xiao, Lixin;Xing, Xing;Chen, Zhijian;Qu, Bo;Lan, Hsinglin;Gong, Qihuang;Kido, Junji;
2:4:7:12 Full phosphorescent white-light organic light-emitting diodes with improved color stability and efficiency by fine tuning primary emission contributions
DOI:10.1063/1.4865209 JN:AIP ADVANCES PY:2014 TC:3 AU: Hua, Wang;Du, Xiaogang;Su, Wenming;Lin, Wenjing;Zhang, Dongyu;
2:4:7:13 Employing exciton transfer molecules to increase the lifetime of phosphorescent red organic light emitting diodes
DOI:10.1063/1.3584033 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Lindla, Florian;Boesing, Manuel;van Gemmern, Philipp;Bertram, Dietrich;Keiper, Dietmar;Heuken, Michael;Kalisch, Holger;Jansen, Rolf H.;
2:4:7:14 Enhancing light out-coupling of organic light-emitting devices using indium tin oxide-free low-index transparent electrodes
DOI:10.1063/1.4876607 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Huang, Yi-Hsiang;Lu, Chun-Yang;Tsai, Shang-Ta;Tsai, Yu-Tang;Chen, Chien-Yu;Tsai, Wei-Lung;Lin, Chun-Yu;Chang, Hong-Wei;Lee, Wei-Kai;Jiao, Min;Wu, Chung-Chih;
2:4:7:15 Ladder polysilsesquioxane for wide-band semiconductors: synthesis, optical properties and doped electrophosphorescent device
DOI:10.1039/c1jm11087j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Ren, Zhongjie;Chen, Zhize;Fu, Wenxin;Zhang, Rongben;Shen, Fangzhong;Wang, Feng;Ma, Yuguang;Yan, Shouke;
2:4:7:16 Phosphorescent mechanism for single-dopant white OLED of FPt: electronic structure and electron exchange-induced energy transfer
DOI:10.1039/c3tc30692e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Han, Juan;Shen, Lin;Chen, Xuebo;Fang, Weihai;
2:4:7:17 Fabrication of organic electrochemiluminescence devices with pi-conjugated polymer materials
DOI:10.1039/c3tc30240g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Daimon, Tatsuya;Nihei, Eisuke;
2:4:7:18 Enhancing the Hole Injection and Transporting of Organic Light-Emitting Diodes by Utilizing Gradient Doping
DOI:10.1080/15421406.2012.752307 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Wang, Jing;Liu, Jun;Huang, Saijun;He, Gufeng;
2:4:7:19 Enhanced efficiency in mixed host red electrophosphorescence devices
DOI:10.1016/j.tsf.2011.03.008 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Su, Zisheng;Li, Wenlian;Chu, Bei;
2:4:7:20 Stabilization of N,N '-bis(3-methylphenyl)-N,N '-bis(phenyl)benzidine thin film morphology with UV light
DOI:10.1016/j.tsf.2014.03.081 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Tomovic, A. Z.;Markesevic, N.;Scarpellini, M.;Bovio, S.;Lucenti, E.;Milani, P.;Zikic, R.;Jovanovic, V. P.;Srdanov, V. I.;
2:4:8:1 Highly efficient blue organic light-emitting diode with an oligomeric host having high triplet-energy and high electron mobility
DOI:10.1039/c1jm10609k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:31 AU: Jou, Jwo-Huei;Wang, Wei-Ben;Shen, Shih-Ming;Kumar, Sudhir;Lai, I-Ming;Shyue, Jing-Jong;Lengvinaite, Simona;Zostautiene, Rasa;Grazulevicius, Juozas V.;Grigalevicius, Saulius;Chen, Sun-Zen;Wu, Chung-Chih;
2:4:8:2 High efficiency yellow organic light emitting diodes with a balanced carrier injection co-host structure
DOI:10.1039/c3tc30818a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Jou, Jwo-Huei;Yu, Hui-Huan;Lin, You-Xing;Tseng, Jing-Ru;Peng, Shiang-Hau;Jou, Yung-Cheng;Lin, Chun-Hao;Shen, Shih-Ming;Hsieh, Chun-Yu;Wei, Mao-Kuo;Lin, Di-Hong;Wang, Ching-Chiun;Chen, Chien-Chih;Tung, Fu-Ching;Chen, Szu-Hao;Wang, Yi-Shan;
2:4:8:3 Candle Light-Style Organic Light-Emitting Diodes
DOI:10.1002/adfm.201203209 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:23 AU: Jou, Jwo-Huei;Hsieh, Chun-Yu;Tseng, Jing-Ru;Peng, Shiang-Hau;Jou, Yung-Cheng;Hong, James H.;Shen, Shih-Ming;Tang, Ming-Chun;Chen, Pin-Chu;Lin, Chun-Hao;
2:4:8:4 High efficiency yellow organic light-emitting diodes with a solution-processed molecular host-based emissive layer
DOI:10.1039/c2tc00249c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Jou, Jwo-Huei;Peng, Shiang-Hau;Chiang, Cheng-I.;Chen, Yu-Lin;Lin, You-Xing;Jou, Yung-Cheng;Chen, Cheng-Hua;Li, Chieh-Ju;Wang, Wei-Ben;Shen, Shih-Ming;Chen, Sun-Zen;Wei, Mao-Kuo;Sun, Young-Shan;Hung, Hsiao-Wen;Liu, Ming-Chung;Lin, Yi-Ping;Li, Jung-Yu;Wang, Ching-Wu;
2:4:8:5 Optimization of yellow phosphorescent organic light-emitting devices based on triplet exciton diffusion length
DOI:10.1016/j.synthmet.2011.09.018 JN:SYNTHETIC METALS PY:2011 TC:12 AU: Zhao, Juan;Yu, Junsheng;Ma, Zhu;Li, Lu;Jiang, Yadong;
2:4:8:6 Highly efficient green organic light emitting diode with a novel solution processable iridium complex emitter
DOI:10.1039/c3tc30606b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Jou, Jwo-Huei;Li, Chieh-Ju;Shen, Shih-Ming;Peng, Shiang-Hau;Chen, Yu-Lin;Jou, Yung-Cheng;Hong, James H.;Chin, Chih-Lung;Shyue, Jing-Jong;Chen, Shih-Pu;Li, Jung-Yu;Wang, Po-Hung;Chen, Cheng-Chang;
2:4:8:7 Using light-emitting dyes as a co-host to markedly improve efficiency roll-off in phosphorescent yellow organic light emitting diodes
DOI:10.1039/c2tc00067a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:13 AU: Jou, Jwo-Huei;Chen, Cheng-Hua;Tseng, Jing-Ru;Peng, Shiang-Hau;Chen, Po-Wei;Chiang, Cheng-I.;Jou, Yung-Cheng;Hong, James H.;Wang, Ching-Chiun;Chen, Chien-Chih;Tung, Fu-Ching;Chen, Szu-Hao;Wang, Yi-Shan;Chin, Chih-Lung;
2:4:8:8 Wet-process feasible novel carbazole-type molecular host for high efficiency phosphorescent organic light emitting diodes
DOI:10.1039/c4tc01423e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Jou, Jwo-Huei;Kumar, Sudhir;Tavgeniene, Daiva;An, Chih-Chia;Fang, Po-Hsun;Zaleckas, Ernestas;Grazulevicius, Juozas V.;Grigalevicius, Saulius;
2:4:8:9 Highly efficient orange-red phosphorescent organic light-emitting diode using 2,7-bis(carbazo-9-yl)-9,9-ditolyfluorene as the host
DOI:10.1063/1.3374326 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Jou, Jwo-Huei;Shen, Shih-Ming;Chen, Szu-Hao;Wu, Ming-Hsuan;Wang, Wei-Ben;Wang, Hsi-Ching;Lin, Chuen-Ren;Chou, Yi-Chieh;Wu, Po-Hsien;Shyue, Jing-Jong;
2:4:8:10 The use of a polarity matching and high-energy exciton generating host in fabricating efficient purplish-blue OLEDs from a sky-blue emitter
DOI:10.1039/c2jm32216a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Jou, Jwo-Huei;Chen, Yu-Lin;Tseng, Jing-Ru;Wu, Ri-Zong;Shyue, Jing-Jong;Thomas, K. R. Justin;Kapoor, Neha;Chen, Chien-Tien;Lin, Yi-Ping;Wang, Po-Hung;Hung, Hsiao-Wen;Li, Jung-Yu;Chen, Shih-Pu;
2:4:8:11 High-efficiency, very-high color rendering white organic light-emitting diode with a high triplet interlayer
DOI:10.1039/c1jm13975d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Jou, Jwo-Huei;Chou, Yi-Chieh;Shen, Shih-Ming;Wu, Ming-Hsuan;Wu, Po-Shian;Lin, Chuen-Ren;Wu, Ri-Zhong;Chen, Szu-Hao;Wei, Mao-Kuo;Wang, Ching-Wu;
2:4:8:12 High efficiency low color-temperature organic light-emitting diodes with a blend interlayer
DOI:10.1039/c1jm12339d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Jou, Jwo-Huei;Chen, Szu-Hao;Shen, Shih-Ming;Jou, Yung-Cheng;Lin, Chun-Hao;Peng, Shiang-Hau;Hsia, Sheng-Po;Wang, Ching-Wu;Chen, Chien-Chih;Wang, Ching-Chiun;
2:4:8:13 Extraordinarily High Efficiency Improvement for OLEDs with High Surface-Charge Polymeric Nanodots
DOI:10.1021/nn100357m JN:ACS NANO PY:2010 TC:21 AU: Jou, Jwo-Huei;Wang, Wei-Ben;Hsu, Mao-Feng;Shyue, Jing-Jong;Chiu, Chuan-Huan;Lai, I-Ming;Chen, Sun-Zen;Wu, Po-Hsien;Chen, Cheng-Chung;Liu, Chi-Ping;Shen, Shih-Ming;
2:4:8:14 Nearly non-roll-off high efficiency fluorescent yellow organic light-emitting diodes
DOI:10.1039/c1jm12530c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Jou, Jwo-Huei;Wang, Yi-Shan;Lin, Chun-Hao;Shen, Shih-Ming;Chen, Pin-Chu;Tang, Ming-Chun;Wei, Yi;Tsai, Fang-Yuan;Chen, Chien-Tien;
2:4:8:15 Carbazole- and phenylindole-based new host materials for phosphorescent organic light emitting diodes
DOI:10.1016/j.optmat.2012.10.054 JN:OPTICAL MATERIALS PY:2013 TC:6 AU: Mazetyte, D.;Krucaite, G.;Grazulevicius, J. V.;Chiang, C. I.;Yang, F. C.;Jou, J. H.;Grigalevicius, S.;
2:4:8:16 Highly efficient orange-red organic light-emitting diode using double emissive layers with stepwise energy-level architecture
DOI:10.1039/c0jm02102d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Jou, Jwo-Huei;Wu, Po-Hsien;Lin, Chun-Hao;Wu, Ming-Hsuan;Chou, Yi-Chieh;Wang, Hsi-Ching;Shen, Shih-Ming;
2:4:8:17 High-efficiency flexible white organic light-emitting diodes
DOI:10.1039/c0jm01348j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:22 AU: Jou, Jwo-Huei;Wang, Chung-Pei;Wu, Ming-Hsuan;Lin, Hung-Wei;Pan, Han Chang;Liu, Bo-Heng;
2:4:8:18 Polyether containing N-[6-(N-carbazolyl)hexyl]carbazol-3-yl side chains and its model compound as components of organic light emitting diodes
DOI:10.1016/j.synthmet.2012.07.015 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Mazetyte, D.;Krucaite, G.;Simokaitiene, J.;Grazulevicius, J. V.;Chiang, C. I.;Yang, F. C.;Jou, J. H.;Grigalevicius, S.;
2:4:8:19 Electro-active oligomers containing pendent 3-phenylcarbazol-6-yl or 2-phenylfluoren-7-yl fragments as materials for OLEDs
DOI:10.1016/j.optmat.2014.09.008 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Krucaite, G.;Tavgeniene, D.;Sipaviciute, D.;Buika, G.;Grazulevicius, J. V.;Liu, L.;Zhang, B.;Xie, Z.;Grigalevicius, S.;
2:4:8:20 Polyethers containing 2-phenylindol-1-yl moieties as host materials for light emitting diodes
DOI:10.1016/j.synthmet.2010.06.025 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Lengvinaite, S.;Grazulevicius, J. V.;Grigalevicius, S.;Lai, Y. M.;Wang, W. B.;Jou, J. H.;
2:4:8:21 Effect of Fabrication Parameters on Three-Dimensional Nanostructures and Device Efficiency of Polymer Light-Emitting Diodes
DOI:10.1021/nn901593c JN:ACS NANO PY:2010 TC:17 AU: Yu, Bang-Ying;Liu, Chia-Yi;Lin, Wei-Chun;Wang, Wei-Ben;Lai, I-Ming;Chen, Sun-Zen;Lee, Szu-Hsian;Kuo, Che-Hung;Kao, Wei-Lun;You, Yun-Wen;Liu, Chi-Ping;Chang, Hsun-Yun;Jou, Jwo-Huei;Shyue, Jing-Jong;
2:4:8:22 Organic Electronics - From Materials to Applications
DOI:10.1002/adma.201002794 JN:ADVANCED MATERIALS PY:2010 TC:5 AU: McCulloch, Iain;
2:4:8:23 Electro-Active Oligomers Containing Pendent Carbazolyl or Indolyl Groups as Host Materials for OLEDs
DOI:10.1002/app.34206 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:1 AU: Zostautiene, R.;Mazetyte, D.;Grazulevicius, J. V.;Lai, Y. M.;Wang, W. B.;Jou, J. H.;Grigalevicius, S.;
2:4:9:1 Highly Efficient Orange and White Organic Light-Emitting Diodes Based on New Orange Iridium Complexes
DOI:10.1002/adma.201100302 JN:ADVANCED MATERIALS PY:2011 TC:97 AU: Wang, Renjie;Liu, Di;Ren, Huicai;Zhang, Ting;Yin, Hongming;Liu, Guangye;Li, Jiuyan;
2:4:9:2 Solution-processable iridium complexes for efficient orange-red and white organic light-emitting diodes
DOI:10.1039/c1jm13846d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:31 AU: Wang, Renjie;Liu, Di;Zhang, Run;Deng, Lijun;Li, Jiuyan;
2:4:9:3 Diphenylphosphorylpyridine-functionalized iridium complexes for high-efficiency monochromic and white organic light-emitting diodes
DOI:10.1039/c2jm32811a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Deng, Lijun;Zhang, Ting;Wang, Renjie;Li, Jiuyan;
2:4:9:4 Iridium complexes containing 2-aryl-benzothiazole ligands: color tuning and application in high-performance organic light-emitting diodes
DOI:10.1039/c3tc30586d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Li, Jiuyan;Wang, Renjie;Yang, Ruixia;Zhou, Wei;Wang, Xin;
2:4:9:5 Synthesis and Electrophosphorescence of Iridium Complexes Containing Benzothiazole-Based Ligands
DOI:10.1021/am400672y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Liu, Di;Ren, Huicai;Deng, Lijun;Zhang, Ting;
2:4:9:6 Homoleptic tris-cyclometalated iridium complexes with 2-phenylbenzothiazole ligands for highly efficient orange OLEDs
DOI:10.1039/c1jm10757g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Wang, Renjie;Liu, Di;Ren, Huicai;Zhang, Ting;Wang, Xinzeng;Li, Jiuyan;
2:4:9:7 Iridium(III) bis[2-(2-naphthyl)pyridine] (acetylacetonate)-based yellow and white phosphorescent organic light-emitting devices
DOI:10.1039/c0jm04174b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Lai, Shiu-Lun;Tao, Si-Lu;Chan, Mei-Yee;Lo, Ming-Fai;Ng, Tsz-Wai;Lee, Shuit-Tong;Zhao, Wei-Ming;Lee, Chun-Sing;
2:4:9:8 High Efficiency White Organic Light-Emitting Devices Incorporating Yellow Phosphorescent Platinum(II) Complex and Composite Blue Host
DOI:10.1002/adfm.201300281 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:26 AU: Lai, Shiu-Lun;Tong, Wai-Yip;Kui, Steven C. F.;Chan, Mei-Yee;Kwok, Chi-Chung;Che, Chi-Ming;
2:4:9:9 Obtaining highly efficient single-emissive-layer orange and two-element white organic light-emitting diodes by the solution process
DOI:10.1039/c4tc00052h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Wang, Jinshan;Xu, Xinjun;Tian, Yuan;Yao, Chuang;Li, Lidong;
2:4:9:10 A systematic identification of efficiency enrichment between thiazole and benzothiazole based yellow iridium(III) complexes
DOI:10.1039/c4tc01514b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Giridhar, Thota;Cho, Woosum;Kim, Young-Hoon;Han, Tae-Hee;Lee, Tae-Woo;Jin, Sung-Ho;
2:4:9:11 Novel Zn-II complexes of 2-(2-hydroxyphenyl)benzothiazoles ligands: electroluminescence and application as host materials for phosphorescent organic light-emitting diodes
DOI:10.1039/c2jm34599d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Wang, Renjie;Deng, Lijun;Fu, Min;Cheng, Jinling;Li, Jiuyan;
2:4:9:12 Synthesis, characterization, and application of a novel orange-red iridium(III) phosphor for solution-processed single emissive layer white organic light-emitting diodes
DOI:10.1016/j.synthmet.2014.08.015 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Wang, Jinshan;Xu, Xinjun;Tian, Yuan;Yao, Chuang;Li, Lidong;
2:4:9:13 Highly efficient solution-processed red organic light-emitting diodes with long-side-chained triplet emitter
DOI:10.1016/j.synthmet.2010.11.013 JN:SYNTHETIC METALS PY:2011 TC:12 AU: Chao, Yu-Chiang;Huang, Sheng-Yang;Chen, Chun-Yu;Chang, Yu-Fan;Meng, Hsin-Fei;Yen, Feng-Wen;Lin, I-Feng;Zan, Hsiao-Wen;Horng, Sheng-Fu;
2:4:9:14 Synthesis, photophysical and electroluminescent properties of novel iridium (III) complexes based on 5-methyl-2-phenylbenzo[d]oxazole derivatives
DOI:10.1016/j.optmat.2013.09.006 JN:OPTICAL MATERIALS PY:2013 TC:0 AU: Li, Xiao;Chi, Hai-Jun;Dong, Yan;Xiao, Guo-Yong;Lei, Peng;Zhang, Dong-Yu;Cui, Zheng;
2:4:9:15 Efficient hybrid white polymer light-emitting devices with electroluminescence covered the entire visible range and reduced efficiency roll-off
DOI:10.1063/1.3682526 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Hu, Sujun;Zhu, Minrong;Zou, Qinghua;Wu, Hongbin;Yang, Chuluo;Wong, Wai-Yeung;Yang, Wei;Peng, Junbiao;Cao, Yong;
2:4:9:16 The influence of the diphenylphosphoryl moiety on the phosphorescent properties of heteroleptic iridium(III) complexes and the OLED performance: a theoretical study
DOI:10.1039/c3tc31831a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:11 AU: Wang, Li;Wu, Yong;Shan, Guo-Gang;Geng, Yun;Zhang, Jian-Zhao;Wang, Dong-Mei;Yang, Guo-Chun;Su, Zhong-Min;
2:4:9:17 Distinguishing triplet energy transfer and trap-assisted recombination in multi-color organic light-emitting diode with an ultrathin phosphorescent emissive layer
DOI:10.1063/1.4869056 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Xue, Qin;Xie, Guohua;Liu, Shouyin;Chen, Ping;Zhao, Yi;Liu, Shiyong;
2:4:9:18 Synthesis and photophysical characterization of orange-emitting iridium(III) complexes containing benzothiazole ligand
DOI:10.1016/j.synthmet.2012.01.014 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Xiao, Guoyong;Li, Xiao;Chi, Haijun;Lu, Yunhua;Dong, Yan;Hu, Zhizhi;Yu, Jianglong;Kimura, Masaru;
2:4:10:1 High Efficiency Nondoped Deep-Blue Organic Light Emitting Devices Based on Imidazole-pi-triphenylamine Derivatives
DOI:10.1021/cm201789u JN:CHEMISTRY OF MATERIALS PY:2012 TC:78 AU: Zhang, Ying;Lai, Shiu-Lun;Tong, Qing-Xiao;Lo, Ming-Fai;Ng, Tsz-Wai;Chan, Mei-Yee;Wen, Zhi-Chun;He, Jun;Jeff, Kc-Sham;Tang, Xiang-Lin;Liu, Wei-Min;Ko, Chi-Chiu;Wang, Peng-Fei;Lee, Chun-Sing;
2:4:10:2 Carbazole/Sulfone Hybrid D-pi-A-Structured Bipolar Fluorophores for High-Efficiency Blue-Violet Electroluminescence
DOI:10.1021/cm400945h JN:CHEMISTRY OF MATERIALS PY:2013 TC:45 AU: Ye, Jun;Chen, Zhan;Fung, Man-Keung;Zheng, Caijun;Ou, Xuemei;Zhang, Xiaohong;Yuan, Yi;Lee, Chun-Sing;
2:4:10:3 Perfluorinated polymer with unexpectedly efficient deep blue electroluminescence for full-colour OLED displays and light therapy applications
DOI:10.1039/c3tc31139b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Giovanella, Umberto;Botta, Chiara;Galeotti, Francesco;Vercelli, Barbara;Battiato, Salvatore;Pasini, Mariacecilia;
2:4:10:4 Unexpected Propeller-Like Hexakis(fluoren-2-yl)benzene Cores for Six-Arm Star-Shaped Oligofluorenes: Highly Efficient Deep-Blue Fluorescent Emitters and Good Hole-Transporting Materials
DOI:10.1002/adfm.201202286 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:37 AU: Zou, Yang;Zou, Jianhua;Ye, Tengling;Li, Hao;Yang, Chuluo;Wu, Hongbin;Ma, Dongge;Qin, Jingui;Cao, Yong;
2:4:10:5 Efficient deep blue fluorescent polymer light-emitting diodes (PLEDs)
DOI:10.1039/c4tc00896k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Cook, Javan H.;Santos, Jose;Li, Haiying;Al-Attar, Hameed A.;Bryce, Martin R.;Monkman, Andrew P.;
2:4:10:6 Colour tuning of blue electroluminescence using bipolar carbazole-oxadiazole molecules in single-active-layer organic light emitting devices (OLEDs)
DOI:10.1039/c2jm31825c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:36 AU: Linton, Katharine E.;Fisher, Alison L.;Pearson, Christopher;Fox, Mark A.;Palsson, Lars-Olof;Bryce, Martin R.;Petty, Michael C.;
2:4:10:7 Red, Green, and Blue Light-Emitting Polyfluorenes Containing a Dibenzothiophene-S,S-Dioxide Unit and Efficient High-Color-Rendering-Index White-Light-Emitting Diodes Made Therefrom
DOI:10.1002/adfm.201203675 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:21 AU: Yu, Lei;Liu, Jie;Hu, Sujun;He, Ruifeng;Yang, Wei;Wu, Hongbin;Peng, Junbiao;Xia, Ruidong;Bradley, Donal D. C.;
2:4:10:8 Blue-Violet Electroluminescence from a Highly Fluorescent Purine
DOI:10.1021/cm100407n JN:CHEMISTRY OF MATERIALS PY:2010 TC:20 AU: Yang, Yixing;Cohn, Pamela;Dyer, Aubrey L.;Eom, Sang-Hyun;Reynolds, John R.;Castellano, Ronald K.;Xue, Jiangeng;
2:4:10:9 A white emitting poly(phenylenevinylene)
DOI:10.1016/j.polymer.2014.08.013 JN:POLYMER PY:2014 TC:0 AU: Martinelli, Carmela;Giovanella, Umberto;Cardone, Antonio;Destri, Silvia;Farinola, Gianluca M.;
2:4:10:10 Synthesis, photophysical and electroluminescent properties of phenanthroimidazole derivatives with terminal carbazole or pyrene
DOI:10.1016/j.synthmet.2014.04.004 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Peng, Jiang;Ye, Kaiqi;Zhang, Gonghe;Zhan, Yong;Jia, Junhui;Xue, Pengchong;Lu, Ran;
2:4:10:11 Novel violet emitting material synthesized by stepwise chemical reactions
DOI:10.1039/c4tc00456f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Tang, Xiangyang;Yao, Liang;Liu, He;Shen, Fangzhong;Zhang, Shitong;Zhang, Yunan;Zhang, Huanhuan;Lu, Ping;Ma, Yuguang;
2:4:10:12 Ultraviolet-violet electroluminescence from highly fluorescent purines
DOI:10.1039/c3tc00734k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Yang, Yixing;Cohn, Pamela;Eom, Sang-Hyun;Abboud, Khalil A.;Castellano, Ronald K.;Xue, Jiangeng;
2:4:10:13 Novel green light-emitting polyfluorenes containing dibenzothiophene-S,S-dioxide-arylamine derivatives
DOI:10.1016/j.polymer.2012.05.011 JN:POLYMER PY:2012 TC:10 AU: Xiao, Huiping;Yu, Lei;Li, Yanhu;Yang, Wen;Zhang, Bin;Yang, Wei;Wu, Hongbin;Cao, Yong;
2:4:10:14 New blue emitting indenopyrazine derivatives for OLEDs: Improving the EL properties through substitution effects by using terphenyl side group
DOI:10.1016/j.synthmet.2010.01.031 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Park, Youngil;Seok, Chang-Hun;Lee, Ji-Hoon;Park, Jongwook;
2:4:11:1 Materials and Devices toward Fully Solution Processable Organic Light-Emitting Diodes
DOI:10.1021/cm101937p JN:CHEMISTRY OF MATERIALS PY:2011 TC:126 AU: Zhong, Chengmei;Duan, Chunhui;Huang, Fei;Wu, Hongbin;Cao, Yong;
2:4:11:2 Approaches to Solution-Processed Multilayer Organic Light-Emitting Diodes Based on Cross-Linking
DOI:10.1021/cm102401k JN:CHEMISTRY OF MATERIALS PY:2011 TC:56 AU: Zuniga, Carlos A.;Barlow, Stephen;Marder, Seth R.;
2:4:11:3 Site Isolation in Phosphorescent Bichromophoric Block Copolymers Designed for White Electroluminescence
DOI:10.1002/adma.200901453 JN:ADVANCED MATERIALS PY:2010 TC:51 AU: Poulsen, Daniel A.;Kim, Bumjoon J.;Ma, Biwu;Zonte, C. Sebastian;Frechet, Jean M. J.;
2:4:11:4 Crosslinking Using Rapid Thermal Processing for the Fabrication of Efficient Solution-Processed Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201204518 JN:ADVANCED MATERIALS PY:2013 TC:21 AU: Zuniga, Carlos A.;Abdallah, Jassem;Haske, Wojciech;Zhang, Yadong;Coropceanu, Igor;Barlow, Stephen;Kippelen, Bernard;Marder, Seth R.;
2:4:11:5 Supramolecular Phosphorescent Polymer Iridium Complexes for High-Efficiency Organic Light-Emitting Diodes
DOI:10.1021/cm400333c JN:CHEMISTRY OF MATERIALS PY:2013 TC:15 AU: Liang, Ai-Hui;Zhang, Kai;Zhang, Jie;Huang, Fei;Zhu, Xu-Hui;Cao, Yong;
2:4:11:6 Facile Photo-Crosslinking of Azide-Containing Hole-Transporting Polymers for Highly Efficient, Solution-Processed, Multilayer Organic Light Emitting Devices
DOI:10.1002/adfm.201401958 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Park, Junwoo;Lee, Changyeon;Jung, Jihye;Kang, Hyunbum;Kim, Ki-Hyun;Ma, Biwu;Kim, Bumjoon J.;
2:4:11:7 Supramolecular light-emitting polymers for solution-processed optoelectronic devices
DOI:10.1039/c2jm31773g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Zhang, Jie;Zhang, Kai;Huang, Xuelong;Cai, Wanzhu;Zhou, Cheng;Liu, Shengjian;Huang, Fei;Cao, Yong;
2:4:11:8 Utilization of "thiol-ene" photo cross-linkable hole-transporting polymers for solution-processed multilayer organic light-emitting diodes
DOI:10.1039/c3tc32098g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Lee, Juwon;Han, Hyun;Lee, Jaemin;Yoon, Sung Cheol;Lee, Changjin;
2:4:11:9 Investigation of the Photocross-Linking Mechanism in Oxetane-Functionalized Semiconductors
DOI:10.1021/cm202327c JN:CHEMISTRY OF MATERIALS PY:2011 TC:12 AU: Feser, Stephan;Meerholz, Klaus;
2:4:11:10 Crosslinkable TAPC-Based Hole-Transport Materials for Solution-Processed Organic Light-Emitting Diodes with Reduced Efficiency Roll-Off
DOI:10.1002/adfm.201201197 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:33 AU: Liaptsis, Georgios;Meerholz, Klaus;
2:4:11:11 Toward inkjet printing of small molecule organic light emitting diodes
DOI:10.1016/j.tsf.2013.01.041 JN:THIN SOLID FILMS PY:2013 TC:10 AU: Gorter, H.;Coenen, M. J. J.;Slaats, M. W. L.;Ren, M.;Lu, W.;Kuijpers, C. J.;Groen, W. A.;
2:4:12:1 Highly Efficient and Robust Blue Phosphorescent Pt(II) Compounds with a Phenyl-1,2,3-triazolyl and a Pyridyl-1,2,4-triazolyl Chelate Core
DOI:10.1002/adfm.201402366 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Wang, Xiang;Gong, Shao-Long;Song, Datong;Lu, Zheng-Hong;Wang, Suning;
2:4:12:2 Pitfalls in measuring work function using photoelectron spectroscopy
DOI:10.1016/j.apsusc.2009.11.002 JN:APPLIED SURFACE SCIENCE PY:2010 TC:29 AU: Helander, M. G.;Greiner, M. T.;Wang, Z. B.;Lu, Z. H.;
2:4:12:3 Highly efficient and solution-processed iridium complex for single-layer yellow electrophosphorescent diodes
DOI:10.1039/c2jm34462a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Ouyang, Xinhua;Chen, Dongcheng;Zeng, Shuiming;Zhang, Xingye;Su, Shijian;Ge, Ziyi;
2:4:12:4 Novel heteroleptic iridium(III) complexes with a 2-(1H-pyrazol-5-yl)pyridine derivative containing a carbazole group as ancillary ligand: Synthesis and application for polymer light-emitting diodes
DOI:10.1016/j.synthmet.2013.11.020 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Tang, Huaijun;Wei, Liying;Wang, Jianbin;Li, Yanhu;Wu, Hongbin;Yang, Wei;Cao, Yong;
2:4:12:5 Bright Blue and White Electrophosphorescent Triarylboryl-Functionalized C boolean AND N-Chelate Pt(II) Compounds: Impact of Intramolecular Hydrogen Bonds and Ancillary Ligands
DOI:10.1002/adfm.201302871 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:16 AU: Wang, Xiang;Chang, Yi-Lu;Lu, Jia-Sheng;Zhang, T.;Lu, Zheng-Hong;Wang, Suning;
2:4:12:6 Pt(II) complex based phosphorescent organic light emitting diodes with external quantum efficiencies above 20%
DOI:10.1063/1.3593495 JN:APPLIED PHYSICS LETTERS PY:2011 TC:24 AU: Wang, Z. B.;Helander, M. G.;Hudson, Z. M.;Qiu, J.;Wang, S.;Lu, Z. H.;
2:4:12:7 Versatile phosphorescent color tuning of highly efficient borylated iridium(III) cyclometalates by manipulating the electron-accepting capacity of the dimesitylboron group
DOI:10.1039/c3tc30352g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Yang, Xiaolong;Sun, Ning;Dang, Jingshuang;Huang, Zuan;Yao, Chunliang;Xu, Xianbin;Ho, Cheuk-Lam;Zhou, Guijiang;Ma, Dongge;Zhao, Xiang;Wong, Wai-Yeung;
2:4:12:8 Enhancing Phosphorescence and Electrophosphorescence Efficiency of Cyclometalated Pt(II) Compounds with Triarylboron
DOI:10.1002/adfm.201000904 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:68 AU: Hudson, Zachary M.;Sun, Christina;Helander, Michael G.;Amarne, Hazem;Lu, Zheng-Hong;Wang, Suning;
2:4:12:9 Highly Efficient Blue Phosphorescence from Triarylboron-Functionalized Platinum(II) Complexes of N-Heterocyclic Carbenes
DOI:10.1021/ja3048656 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:55 AU: Hudson, Zachary M.;Sun, Christina;Helander, Michael G.;Chang, Yi-Lu;Lu, Zheng-Hong;Wang, Suning;
2:4:12:10 Highly efficient blue phosphorescent and electroluminescent Ir(III) compounds
DOI:10.1039/c2tc00270a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:17 AU: Kang, Youngjin;Chang, Yi-Lu;Lu, Jia-Sheng;Ko, Soo-Byung;Rao, Yingli;Varlan, Maria;Lu, Zheng-Hong;Wang, Suning;
2:4:12:11 Platinum Phosphors Containing an Aryl-modified beta-Diketonate: Unusual Effect of Molecular Packing on Photo- and Electroluminescence
DOI:10.1002/adfm.201100165 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:21 AU: Chen, Chin-Hsien;Wu, Fang-Iy;Tsai, Yin-Yen;Cheng, Chien-Hong;
2:4:12:12 Efficient light emitting devices based on phosphorescent partially doped emissive layers
DOI:10.1039/c3tc30721b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Yang, Xiaohui;Jabbour, Ghassan E.;
2:4:12:13 Guanidinate ligated iridium(III) complexes with various cyclometalated ligands: synthesis, structure, and highly efficient electrophosphorescent properties with a wide range of emission colours
DOI:10.1039/c2tc00242f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Rai, Virendra Kumar;Nishiura, Masayoshi;Takimoto, Masanori;Hou, Zhaomin;
2:4:12:14 A novel heteroleptic iridium complex with multifunctional ligands used for polymeric light-emitting diodes
DOI:10.1016/j.optmat.2011.03.034 JN:OPTICAL MATERIALS PY:2011 TC:6 AU: Tang, Huaijun;Li, Yanhu;Chen, Bing;Wu, Hongbin;Yang, Wei;Cao, Yong;
2:4:12:15 The effect of energy level offset between Ir dopant and carbazole hosts on the emission efficiency
DOI:10.1063/1.3462931 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Kwon, Soonnam;Wee, Kyung-Ryang;Kim, Jeong Won;Kang, Sang Ook;
2:4:13:1 Functional Ir-III Complexes and Their Applications
DOI:10.1002/adma.200903233 JN:ADVANCED MATERIALS PY:2010 TC:124 AU: Chen, Zhu-qi;Bian, Zu-qiang;Huang, Chun-hui;
2:4:13:2 Deep-Blue Phosphorescence from Perfluoro Carbonyl-Substituted Iridium Complexes
DOI:10.1021/ja4065188 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:25 AU: Lee, Sunghun;Kim, Seul-Ong;Shin, Hyun;Yun, Hui-Jun;Yang, Kiyull;Kwon, Soon-Ki;Kim, Jang-Joo;Kim, Yun-Hi;
2:4:13:3 A New Class of Sky-Blue-Emitting Ir(III) Phosphors Assembled Using Fluorine-Free Pyridyl Pyrimidine Cyclometalates: Application toward High-Performance Sky-Blue- and White-Emitting OLEDs
DOI:10.1021/am401694s JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:17 AU: Chang, Chih-Hao;Wu, Zih-Jyun;Chiu, Chuan-Hao;Liang, Yi-Hu;Tsai, Yu-Shan;Liao, Jia-Ling;Chi, Yun;Hsieh, Hsi-Ying;Kuo, Ting-Yi;Lee, Gene-Hsiang;Pan, Hsiao-An;Chou, Pi-Tai;Lin, Jin-Sheng;Tseng, Meu-Rurng;
2:4:13:4 Deep-Blue-Emitting Heteroleptic Iridium(III) Complexes Suited for Highly Efficient Phosphorescent OLEDs
DOI:10.1021/cm3010453 JN:CHEMISTRY OF MATERIALS PY:2012 TC:60 AU: Yang, Cheng-Han;Mauro, Matteo;Polo, Federico;Watanabe, Soichi;Muenster, Ingo;Froehlich, Roland;De Cola, Luisa;
2:4:13:5 High-performance pure blue phosphorescent OLED using a novel bis-heteroleptic iridium(III) complex with fluorinated bipyridyl ligands
DOI:10.1039/c2tc00836j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:48 AU: Kessler, Florian;Watanabe, Yuichiro;Sasabe, Hisahiro;Katagiri, Hiroshi;Nazeeruddin, Md. K.;Graetzel, Michael;Kido, Junji;
2:4:13:6 Phosphorescent platinum(II) complexes containing different beta-diketonate ligands: synthesis, tunable excited-state properties, and their application in bioimaging
DOI:10.1039/c1jm10718f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:25 AU: Mou, Xin;Wu, Yongquan;Liu, Shujuan;Shi, Mei;Liu, Xiangmei;Wang, Chuanming;Sun, Shi;Zhao, Qiang;Zhou, Xinhui;Huang, Wei;
2:4:13:7 Highly efficient blue and deep-blue emitting zwitterionic iridium(III) complexes: synthesis, photophysics and electroluminescence
DOI:10.1039/c3tc32181a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Darmawan, Noviyan;Yang, Cheng-Han;Mauro, Matteo;Froehlich, Roland;De Cola, Luisa;Chang, Chih-Hao;Wu, Zih-Jyun;Tai, Cheng-Wei;
2:4:13:8 Polymer nanoparticles with an embedded phosphorescent osmium(II) complex for cell imaging
DOI:10.1039/c0jm04235h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Yang, Tianshe;Xia, Ao;Liu, Qian;Shi, Mei;Wu, Huazhou;Xiong, Liqin;Huang, Chunhui;Li, Fuyou;
2:4:13:9 Fluorine-free blue phosphorescent emitters for efficient phosphorescent organic light emitting diodes
DOI:10.1039/c4tc00715h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Lee, Jieun;Oh, Hankook;Kim, Jinho;Park, Ki-Min;Yook, Kyoung Soo;Lee, Jun Yeob;Kang, Youngjin;
2:4:13:10 Blue and highly emitting [Ir(IV)] complexes by an efficient photoreaction of yellow luminescent [Ir(III)] complexes
DOI:10.1039/c4tc00278d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Marchi, Enrico;Locritani, Mirko;Baroncini, Massimo;Bergamini, Giacomo;Sinisi, Riccardo;Monari, Magda;Botta, Chiara;Mroz, Wojciech;Bandini, Marco;Ceroni, Paola;Balzani, Vincenzo;
2:4:13:11 White-light phosphorescence from binary coordination polymer nanoparticles
DOI:10.1016/j.matchemphys.2013.01.053 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:6 AU: Qin, Lijie;Zhu, Yachao;Yang, Hong;Ding, Liang;Sun, Feng;Shi, Mei;Yang, Shiping;
2:4:14:1 Phosphorescent organic light-emitting devices (PhOLEDs) based on 1-methyl-3-propyl-5-(2,4,5-trifluorophenyl)-1H-1,2,4-triazole as the cyclometalated ligand: Influence of the ancillary ligand on the emissive properties
DOI:10.1016/j.synthmet.2014.06.021 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Dumur, Frederic;Lepeltier, Marc;Siboni, Hossein Zamani;Xiao, Pu;Graff, Bernadette;Morlet-Savary, Fabrice;Lalevee, Jacques;Gigmes, Didier;Aziz, Hany;
2:4:14:2 Blue and blue-green PhOLEDs prepared with neutral heteroleptic iridium(III) complexes comprising substituted pyridine-1,2,4-triazoles as the ancillary ligands
DOI:10.1016/j.synthmet.2013.07.009 JN:SYNTHETIC METALS PY:2013 TC:14 AU: Dumur, Frederic;Lepeltier, Marc;Graff, Bernadette;Contal, Emmanuel;Wantz, Guillaume;Lalevee, Jacques;Mayer, Cedric R.;Bertin, Denis;Gigmes, Didier;
2:4:14:3 Pure red phosphorescent OLED (PhOLED) based on a cyclometalated iridium complex with a dibenzoylmethane (dbm) moiety as the ancillary ligand
DOI:10.1016/j.tsf.2014.04.096 JN:THIN SOLID FILMS PY:2014 TC:7 AU: Dumur, Frederic;Lepeltier, Marc;Siboni, Hossein Zamani;Xiao, Pu;Graff, Bernadette;Lalevee, Jacques;Gigmes, Didier;Aziz, Hany;
2:4:14:4 Zinc complexes in OLEDs: An overview
DOI:10.1016/j.synthmet.2014.06.018 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Dumur, Frederic;
2:4:14:5 Study of Ion-Paired Iridium Complexes (Soft Salts) and Their Application in Organic Light Emitting Diodes
DOI:10.1021/ja9097725 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:57 AU: Wu, Chao;Chen, Hsiao-Fan;Wong, Ken-Tsung;Thompson, Mark E.;
2:4:14:6 Highly efficient yellow and white phosphorescent organic light-emitting diodes using a benzothiazole-liganded new iridium complex
DOI:10.1016/j.synthmet.2012.06.009 JN:SYNTHETIC METALS PY:2012 TC:11 AU: Xu, Fei;Kwon, Ji-Young;Kim, Ji-Hoon;Kim, Hee Un;Lim, Jong Min;Cho, Hyunduck;Lee, Changhee;Lee, Jonghee;Lee, Jeong-Ik;Hwang, Do-Hoon;
2:4:14:7 Light-emitting electrochemical cells based on a solution-processed multilayered device and an anionic iridium (III) complex
DOI:10.1016/j.synthmet.2013.06.017 JN:SYNTHETIC METALS PY:2013 TC:6 AU: Dumur, Frederic;Yuskevitch, Yana;Wantz, Guillaume;Mayer, Cedric R.;Bertin, Denis;Gigmes, Didier;
2:4:14:8 Phosphorescent organic light-emitting diodes fabricated using iridium complexes with carbazole-based benzothiazole ligands
DOI:10.1016/j.synthmet.2013.06.023 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Xu, Fei;Kim, Ji-Hoon;Kim, Hee Un;Mi, Dongbo;Cho, Yong Joo;Lee, Jun Yeob;Yoon, Ung Chan;Hwang, Do-Hoon;
2:4:14:9 Facile synthesis and characterization of iridium(III) complexes containing an N-ethylcarbazole-thiazole main ligand using a tandem reaction for solution processed phosphorescent organic light-emitting diodes
DOI:10.1039/c3tc00323j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Giridhar, Thota;Cho, Woosum;Park, Juhyeon;Park, Jin-Su;Gal, Yeong-Soon;Kang, Sunwoo;Lee, Jin Yong;Jin, Sung-Ho;
2:4:14:10 Dithiolate-Appended Iridium(III) Complex with Dual Functions of Reducing and Capping Agent for the Design of Small-Sized Gold Nanoparticles
DOI:10.1021/ja111384m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:9 AU: Nasr, Gihane;Guerlin, Audrey;Dumur, Frederic;Baudron, Stephane A.;Dumas, Eddy;Miomandre, Fabien;Clavier, Gilles;Sliwa, Michel;Mayer, Cedric R.;
2:4:14:11 Synthesis, structure and photoluminescence properties of copper(II) and cobalt(III) complexes with pyridoxalaminoguanidine
DOI:10.1016/j.optmat.2013.08.023 JN:OPTICAL MATERIALS PY:2013 TC:0 AU: Jelic, Miodrag G.;Boukos, Nikos;Lalovic, Mirjana M.;Romcevic, Nebojsa Z.;Leovac, Vukadin M.;Hadzic, Branka B.;Balos, Sebastian S.;Jovanovic, Ljiljana S.;Slankamenac, Milos P.;Zivanov, Milos B.;Vojinovic-Jesic, Ljiljana S.;
2:4:14:12 Design of blue or yellow emitting devices controlled by the deposition process of a cationic iridium (III) complex
DOI:10.1016/j.synthmet.2011.06.038 JN:SYNTHETIC METALS PY:2011 TC:13 AU: Dumur, Frederic;Bertin, Denis;Mayer, Cedric R.;Guerlin, Audrey;Wantz, Guillaume;Nasr, Gihane;Dumas, Eddy;Miomandre, Fabien;Clavier, Gilles;Gigmes, Didier;
2:4:14:13 White electroluminescence from stacked organic light emitting diode
DOI:10.1016/j.synthmet.2010.01.016 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Tyagi, Priyanka;Srivastava, Ritu;Kumar, Arunandan;Rai, Virendra Kumar;Grover, Rakhi;Kamalasanan, M. N.;
2:4:14:14 Low-cost zinc complexes for white organic light-emitting devices
DOI:10.1016/j.tsf.2014.06.006 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Dumur, Frederic;Beouch, Layla;Tehfe, Mohamad-Ali;Contal, Emmanuel;Lepeltier, Marc;Wantz, Guillaume;Graff, Bernadette;Goubard, Fabrice;Mayer, Cedric R.;Lalevee, Jacques;Gigmes, Didier;
2:4:14:15 Enforced Effects of Side Group Substitution Position on Luminescence Properties; Synthesis of Bis(dipyrrinato)zinc Complex Derivatives
DOI:10.1080/15421406.2010.499327 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:4 AU: Lee, Sola;Seok, Chang-Hun;Park, Youngil;Lee, Areum;Jung, Dong Hyun;Choi, Seung-Hoon;Park, Jongwook;
2:4:14:16 Study on energy relation between blue and red emissive layer of organic light-emitting diodes by inserting spacer layer
DOI:10.1016/j.tsf.2010.07.012 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Zhang, Xiaobo;Wei, Fuxiang;Liu, Xiang;Zhu, Wenqing;Jiang, Xueyin;Zhang, Zhilin;
2:4:15:1 High colour rendering index and colour stable hybrid white efficient OLEDs with a double emitting layer structure using a single phosphorescence dopant of heteroleptic platinum complexes
DOI:10.1039/c4tc01791a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Poloek, Anurach;Lin, Chiao-Wen;Chen, Chin-Ti;Chen, Chao-Tsen;
2:4:15:2 Brightly Luminescent Pt(II) Pincer Complexes with a Sterically Demanding Carboranyl-Phenylpyridine Ligand: A New Material Class for Diverse Optoelectronic Applications
DOI:10.1021/ja503220w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Prokhorov, Anton M.;Hofbeck, Thomas;Czerwieniec, Rafal;Suleymanova, Alfiya F.;Kozhevnikov, Dmitry N.;Yersin, Hartmut;
2:4:15:3 Cyclometallated platinum(II) complexes of 1,3-di(2-pyridyl)benzenes: tuning excimer emission from red to near-infrared for NIR-OLEDs
DOI:10.1039/c1jm12716k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:37 AU: Rossi, Ester;Murphy, Lisa;Brothwood, Phillipa L.;Colombo, Alessia;Dragonetti, Claudia;Roberto, Dominique;Ugo, Renato;Cocchi, Massimo;Williams, J. A. Gareth;
2:4:15:4 High performance hybrid white and multi-colour electroluminescence from a new host material for a heteroleptic naphthyridinolate platinum complex dopant
DOI:10.1039/c3tc32394c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Poloek, Anurach;Chen, Chin-Ti;Chen, Chao-Tsen;
2:4:15:5 Cyclometallated platinum(II) complexes of 1,3-di(2-pyridyl) benzenes for solution-processable WOLEDs exploiting monomer and excimer phosphorescence
DOI:10.1039/c1jm10193e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:35 AU: Mroz, Wojciech;Botta, Chiara;Giovanella, Umberto;Rossi, Ester;Colombo, Alessia;Dragonetti, Claudia;Roberto, Dominique;Ugo, Renato;Valore, Adriana;Williams, J. A. Gareth;
2:4:15:6 Multifunctional electron-transporting indolizine derivatives for highly efficient blue fluorescence, orange phosphorescence host and two-color based white OLEDs
DOI:10.1039/c2jm14904d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:43 AU: Wan, Jing;Zheng, Cai-Jun;Fung, Man-Keung;Liu, Xiao-Ke;Lee, Chun-Sing;Zhang, Xiao-Hong;
2:4:15:7 Deep-red excimer emission from Ir doped organic light-emitting devices
DOI:10.1039/c3tc30452c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Gutierrez-Llorente, Araceli;Mroz, Marta M.;Cabanillas-Gonzalez, Juan;
2:4:15:8 Novel (NCN)-C-boolean AND-N-boolean AND-cyclometallated platinum complexes with acetylide co-ligands as efficient phosphors for OLEDs
DOI:10.1039/c2jm16592a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Rossi, Ester;Colombo, Alessia;Dragonetti, Claudia;Roberto, Dominique;Ugo, Renato;Valore, Adriana;Falciola, Luigi;Brulatti, Pierpaolo;Cocchi, Massimo;Williams, J. A. Gareth;
2:4:15:9 Tuning the colour and efficiency in OLEDs by using amorphous or polycrystalline emitting layers
DOI:10.1039/c2tc00448h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Brulatti, Pierpaolo;Fattori, Valeria;Muzzioli, Sara;Stagni, Stefano;Mazzeo, Paolo Pio;Braga, Dario;Maini, Lucia;Milita, Silvia;Cocchi, Massimo;
2:4:15:10 Platinum(II) complexes with cyclometallated 5-pi-delocalized-donor-1,3-di(2-pyridyl)benzene ligands as efficient phosphors for NIR-OLEDs
DOI:10.1039/c3tc32086c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Nisic, Filippo;Colombo, Alessia;Dragonetti, Claudia;Roberto, Dominique;Valore, Adriana;Malicka, Joanna M.;Cocchi, Massimo;Freeman, Gemma R.;Williams, J. A. Gareth;
2:4:16:1 Highly Efficient Blue Electrophosphorescent Polymers with Fluorinated Poly(arylene ether phosphine oxide) as Backbone
DOI:10.1021/ja305634j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:27 AU: Shao, Shiyang;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:2 Red-Emitting Polyfluorenes Grafted with Quinoline-Based Iridium Complex: "Simple Polymeric Chain, Unexpected High Efficiency"
DOI:10.1002/adfm.200901595 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:34 AU: Ma, Zhihua;Ding, Junqiao;Zhang, Baohua;Mei, Chongyu;Cheng, Yanxiang;Xie, Zhiyuan;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:3 Green Electrophosphorescent Polymers with Poly(3,6-Carbazole) as the Backbone: A Linear Structure Does Realize High Efficiency
DOI:10.1002/adma.201102140 JN:ADVANCED MATERIALS PY:2011 TC:22 AU: Ma, Zhihua;Chen, Lingcheng;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:4 White Electroluminescence from All-Phosphorescent Single Polymers on a Fluorinated Poly(arylene ether phosphine oxide) Backbone Simultaneously Grafted with Blue and Yellow Phosphors
DOI:10.1021/ja3101S8j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:20 AU: Shao, Shiyang;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:5 Synthesis and characterization of yellow-emitting electrophosphorescent polymers based on a fluorinated poly(arylene ether phosphine oxide) scaffold
DOI:10.1039/c2jm34421a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Shao, Shiyang;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:6 Novel phosphorescent polymers containing both ambipolar segments and functionalized Ir-III phosphorescent moieties: synthesis, photophysical, redox, and electrophosphorescence investigation
DOI:10.1039/c4tc01626b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Lian, Meng;Yu, Yue;Zhao, Jiang;Huang, Zuan;Yang, Xiaolong;Zhou, Guijiang;Wu, Zhaoxin;Wang, Dongdong;
2:4:16:7 Spiro-Linked Hyperbranched Architecture in Electrophosphorescent Conjugated Polymers for Tailoring Triplet Energy Back Transfer
DOI:10.1002/adma.201104544 JN:ADVANCED MATERIALS PY:2012 TC:6 AU: Shao, Shiyang;Ma, Zhihua;Ding, Junqiao;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:8 Synthesis and characterization of red light-emitting electrophosphorescent polymers with different triplet energy main chain
DOI:10.1016/j.polymer.2011.03.023 JN:POLYMER PY:2011 TC:16 AU: Ma, Zhihua;Ding, Junqiao;Cheng, Yanxiang;Xie, Zhiyuan;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:4:16:9 An ambipolar poly(meta-phenylene) copolymer with high triplet energy to host blue and green electrophosphorescence
DOI:10.1039/c1jm11212k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Liu, Jun;Li, Lu;Gong, Chaokun;Yu, Zhibin;Pei, Qibing;
2:4:16:10 D-A-based polyfluorene derivatives end-capped with cyclometalated iridium complexes by unconjugated linkage: Structure property relationships
DOI:10.1016/j.polymer.2011.07.058 JN:POLYMER PY:2011 TC:9 AU: Tan, Hua;Yu, Junting;Nie, Kaixuan;Chen, Jianhua;Deng, Xianping;Zhang, Zhiyong;Lei, Gangtie;Zhu, Meixiang;Liu, Yu;Zhu, Weiguo;
2:4:17:1 Controlling charge balance and exciton recombination by bipolar host in single-layer organic light-emitting diodes
DOI:10.1063/1.3457672 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:23 AU: Qiao, Xianfeng;Tao, Youtian;Wang, Qiang;Ma, Dongge;Yang, Chuluo;Wang, Lixiang;Qin, Jingui;Wang, Fosong;
2:4:17:2 Highly efficient single-layer organic light-emitting devices based on a bipolar pyrazine/carbazole hybrid host material
DOI:10.1039/c3tc32301c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:11 AU: Liu, Yuan;Cui, Lin-Song;Xu, Mei-Feng;Shi, Xiao-Bo;Zhou, Dong-Ying;Wang, Zhao-Kui;Jiang, Zuo-Quan;Liao, Liang-Sheng;
2:4:17:3 High-efficiency and low-efficiency-roll-off single-layer white organic light-emitting devices with a bipolar transport host
DOI:10.1063/1.4745507 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Yin, Yongming;Piao, Xuecheng;Li, Yang;Wang, Yan;Liu, Jian;Xu, Kai;Xie, Wenfa;
2:4:17:4 Bipolar cyano-substituted pyridine derivatives for applications in organic light-emitting devices
DOI:10.1039/c2jm00078d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: You, Juanjuan;Lai, Shiu-Lun;Liu, Weimin;Ng, Tsz-Wai;Wang, Pengfei;Lee, Chun-Sing;
2:4:17:5 Synthesis and characterization of phenanthroimidazole derivatives for applications in organic electroluminescent devices
DOI:10.1039/c1jm10326a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:28 AU: Zhang, Ying;Lai, Shiu-Lun;Tong, Qing-Xiao;Chan, Mei-Yee;Ng, Tsz-Wai;Wen, Zhi-Chun;Zhang, Guo-Qiang;Lee, Shuit-Tong;Kwong, Hoi-Lun;Lee, Chun-Sing;
2:4:17:6 Synthesis and properties of n-type triphenylpyridine derivatives and applications in deep-blue organic light-emitting devices as electron-transporting layer
DOI:10.1039/c1jm11898f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Li, Na;Lai, Shiu-Lun;Liu, Weimin;Wang, Pengfei;You, Juanjuan;Lee, Chun-Sing;Liu, Zengtao;
2:4:17:7 An efficient hole-transporting blue fluorophore 3,6-dipyrenyl-9-ethylcarbazole for undoped organic light-emitting devices
DOI:10.1016/j.synthmet.2011.12.030 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Tong, Qing-Xiao;Lai, Shiu-Lun;Lo, Ming-Fai;Chan, Mei-Yee;Ng, Tsz-Wai;Lee, Shuit-Tong;Tao, Si-Lu;Lee, Chun-Sing;
2:4:18:1 Highly efficient white organic electroluminescence device based on a phosphorescent orange material doped in a blue host emitter
DOI:10.1039/c0jm03645e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:46 AU: Peng, Tai;Yang, Yu;Bi, Hai;Liu, Yu;Hou, Zhaomin;Wang, Yue;
2:4:18:2 Low-voltage, high-efficiency nondoped phosphorescent organic light-emitting devices with double-quantum-well structure
DOI:10.1063/1.3581216 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Liu, Shumei;Li, Bin;Zhang, Liming;Yue, Shumei;
2:4:18:3 Substituent effect on the electroluminescence efficiency of amidinate-ligated bis(pyridylphenyl) iridium(III) complexes
DOI:10.1039/c3tc32553a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Rai, Virendra Kumar;Nishiura, Masayoshi;Takimoto, Masanori;Hou, Zhaomin;
2:4:18:4 Enhanced efficiency and reduced roll-off in nondoped phosphorescent organic light-emitting devices with triplet multiple quantum well structures
DOI:10.1063/1.3483131 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Liu, Shumei;Li, Bin;Zhang, Liming;Song, Hang;Jiang, Hong;
2:4:18:5 Electron mobility determination of efficient phosphorescent iridium complexes with tetraphenylimidodiphosphinate ligand via transient electroluminescence method
DOI:10.1063/1.3684971 JN:APPLIED PHYSICS LETTERS PY:2012 TC:13 AU: Teng, Ming-Yu;Zhang, Song;Jiang, Sheng-Wei;Yang, Xu;Lin, Chen;Zheng, You-Xuan;Wang, Leyong;Wu, Di;Zuo, Jing-Lin;You, Xiao-Zeng;
2:4:18:6 Solution processed multilayer polymer light-emitting diodes based on different molecular weight host
DOI:10.1063/1.3569831 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Al-Attar, Hameed A.;Monkman, Andrew P.;
2:4:18:7 An effective strategy for small molecular solution-processable iridium(III) complexes with ambipolar characteristics: towards efficient electrophosphorescence and reduced efficiency roll-off
DOI:10.1039/c1jm12114f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Cai, Jun-Xi;Ye, Teng-Ling;Fan, Xue-Feng;Han, Chun-Miao;Xu, Hui;Wang, Li-Li;Ma, Dong-Ge;Lin, Yang;Yan, Peng-Fei;
2:4:18:8 High efficient white organic light-emitting diodes based on triplet multiple quantum well structure
DOI:10.1063/1.4742739 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Zhao, Bo;Su, Zisheng;Li, Wenlian;Chu, Bei;Jin, Fangming;Yan, Xingwu;Zhang, Feng;Fan, Di;Zhang, Tianyou;Gao, Yuan;Wang, Junbo;
2:4:18:9 Pure White Organic Light-Emitting Diode with Lifetime Approaching the Longevity of Yellow Emitter
DOI:10.1021/am2006383 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:4 AU: Jou, Jwo-Huei;Shen, Shih-Ming;Tsai, Yung-Cheng;
2:4:18:10 Enhanced life time and suppressed efficiency roll-off in phosphorescent organic light-emitting diodes with multiple quantum well structures
DOI:10.1063/1.3679428 JN:AIP ADVANCES PY:2012 TC:8 AU: Koo, Ja-Ryong;Lee, Seok Jae;Hyung, Gun Woo;Im, Dong Whan;Yu, Han Sung;Park, Jung-Hwan;Lee, Kum Hee;Yoon, Seung Soo;Kim, Woo Young;Kim, Young Kwan;
2:4:18:11 Solution processed multilayer polymer light-emitting diodes based on different molecular weight host (vol 109, 074516, 2011)
DOI:10.1063/1.3615256 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Al-Attar, Hameed A.;Monkman, Andrew P.;
2:4:18:12 White Organic Light-Emitting Diode Using the Exciplex Between DNTPD and ET-137
DOI:10.1080/15421406.2012.689721 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Ji, Hyun Jin;Jang, Ji Geun;
2:4:19:1 Highly efficient, single-layer organic light-emitting devices based on a graded-composition emissive layer
DOI:10.1063/1.3481426 JN:APPLIED PHYSICS LETTERS PY:2010 TC:26 AU: Erickson, Nicholas C.;Holmes, Russell J.;
2:4:19:2 Investigating the Role of Emissive Layer Architecture on the Exciton Recombination Zone in Organic Light-Emitting Devices
DOI:10.1002/adfm.201300101 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:15 AU: Erickson, Nicholas C.;Holmes, Russell J.;
2:4:19:3 Engineering Efficiency Roll-Off in Organic Light-Emitting Devices
DOI:10.1002/adfm.201401009 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Erickson, Nicholas C.;Holmes, Russell J.;
2:4:19:4 Effects of mixed host spatial distribution on the efficiency of blue phosphorescent organic light-emitting diodes
DOI:10.1063/1.4739499 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Lee, Sangmin;Tang, Ching. W.;Rothberg, Lewis. J.;
2:4:19:5 Fabrication of a blue organic light-emitting diode with a novel thermal deposition boat
DOI:10.1116/1.3656392 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:6 AU: Lee, Sangmin;Tang, Ching W.;
2:4:19:6 Relating charge transport and performance in single-layer graded-composition organic light-emitting devices
DOI:10.1063/1.3653285 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Erickson, Nicholas C.;Holmes, Russell J.;
2:4:19:7 Highly efficient bilayer blue phosphorescent organic light-emitting devices
DOI:10.1016/j.synthmet.2009.12.027 JN:SYNTHETIC METALS PY:2010 TC:5 AU: Kim, Tae-Yong;Moon, Dae-Gyu;
2:4:19:8 Comparison of organic light emitting diodes with different mixed layer structures
DOI:10.1016/j.tsf.2014.04.042 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Kee, Y. Y.;Siew, W. O.;Yap, S. S.;Tou, T. Y.;
2:4:20:1 Very High Efficiency Orange-Red Light-Emitting Devices with Low Roll-Off at High Luminance Based on an Ideal Host-Guest System Consisting of Two Novel Phosphorescent Iridium Complexes with Bipolar Transport
DOI:10.1002/adfm.201402177 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Li, Guomeng;Zhu, Dongxia;Peng, Tai;Liu, Yu;Wang, Yue;Bryce, Martin R.;
2:4:20:2 Highly efficient single-layer white polymer light-emitting devices employing triphenylamine-based iridium dendritic complexes as orange emissive component
DOI:10.1039/c1jm13387j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:27 AU: Zhu, Minrong;Zou, Jianhua;Hu, Sujun;Li, Chen'ge;Yang, Chuluo;Wu, Hongbin;Qin, Jingui;Cao, Yong;
2:4:20:3 Tuning the energy levels and photophysical properties of triphenylamine-featured iridium(III) complexes: application in high performance polymer light-emitting diodes
DOI:10.1039/c2jm30928a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Zhu, Minrong;Li, Yanhu;Li, Chen'ge;Zhong, Cheng;Yang, Chuluo;Wu, Hongbin;Qin, Jingui;Cao, Yong;
2:4:20:4 Quantum chemical characterization and design of homoleptic Ir(III) complexes employing triphenylamine-featured thiazole-based ligand for efficient phosphors in OLEDs
DOI:10.1016/j.synthmet.2014.09.031 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Liu, Yuqi;Sun, Xiaobo;Wang, Ying;Wu, Zhijian;
2:4:20:5 Triphenylamine Dendronized Iridium(III) Complexes: Robust Synthesis, Highly Efficient Nondoped Orange Electrophosphorescence and the Structure-Property Relationship
DOI:10.1021/cm202732j JN:CHEMISTRY OF MATERIALS PY:2012 TC:24 AU: Zhu, Minrong;Zou, Jianhua;He, Xun;Yang, Chuluo;Wu, Hongbin;Zhong, Cheng;Qin, Jingui;Cao, Yong;
2:4:21:1 Organic light-emitting diodes for lighting: High color quality by controlling energy transfer processes in host-guest-systems
DOI:10.1063/1.3679549 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:19 AU: Weichsel, Caroline;Reineke, Sebastian;Furno, Mauro;Luesem, Bjoern;Leo, Karl;
2:4:21:2 Influence of the hole blocking layer on blue phosphorescent organic light-emitting devices using 3,6-di(9-carbazolyl)-9-(2-ethylhexyl)carbazole as host material
DOI:10.1063/1.3350890 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Seidler, Nico;Reineke, Sebastian;Walzer, Karsten;Luessem, Bjoern;Tomkeviciene, Ausra;Grazulevicius, Juozas V.;Leo, Karl;
2:4:21:3 Pure and Stable Top-Emitting White Organic Light-Emitting Diodes Utilizing Heterojunction Blue Emission Layers and Wide-Angle Interference
DOI:10.1021/am5006354 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Deng, Lingling;Shi, Hongying;Meng, Xue;Chen, Shufen;Zhou, Hongwei;Xu, Ying;Li, Xingao;Wang, Lianhui;Liu, Bin;Huang, Wei;
2:4:21:4 High-Performance, Phosphorescent, Top-Emitting Organic Light-Emitting Diodes with p-i-n Homojunctions
DOI:10.1002/adfm.201002229 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:15 AU: Wang, Qiang;Tao, Youtian;Qiao, Xianfeng;Chen, Jiangshan;Ma, Dongge;Yang, Chuluo;Qin, Jingui;
2:4:21:5 White top-emitting organic light-emitting diodes employing tandem structure
DOI:10.1063/1.4754828 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Wang, Qiang;Chen, Yonghua;Chen, Jiangshan;Ma, Dongge;
2:4:21:6 Influence of phosphorescent dopants in organic light-emitting diodes with an organic homojunction
DOI:10.1063/1.4772014 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Yun, Changhun;Lee, Jonghee;Lee, Jaehyun;Luessem, Bjoern;Ventsch, Fabian;Leo, Karl;Gather, Malte C.;
2:4:21:7 High efficient white organic light-emitting diodes with single emissive layer using phosphorescent red, green, and blue dopants
DOI:10.1063/1.4816038 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Kim, You-Hyun;Cheah, Kok Wai;Kim, Woo Young;
2:4:21:8 Characteristics of Solution-Processed Phosphorescent Organic Light-Emitting Diodes Utilizing Low Molecular Carbazole Derivative as a Host Material
DOI:10.1080/15421406.2013.808538 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Oda, Naoto;Kajii, Hirotake;Ohmori, Yutaka;
2:4:21:9 Energy structure and electro-optical properties of organic layers with carbazole derivative
DOI:10.1016/j.tsf.2013.12.031 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Pudzs, K.;Vembris, A.;Muzikante, I.;Grzibovskis, R.;Turovska, B.;Simokaitiene, J.;Grigalevicius, S.;Grazulevicius, J. V.;
2:4:22:1 Space charge induced electroluminescence spectra shift in organic light-emitting diodes
DOI:10.1063/1.4736589 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Xiao, J.;Zhu, H.;Wang, X. X.;Gao, X.;Yang, Z. H.;Zhang, X. H.;Wang, S. D.;
2:4:22:2 Highly efficient green and red phosphorescent OLEDs using novel bipolar blue fluorescent materials as hosts
DOI:10.1016/j.synthmet.2014.04.001 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Xiao, J.;Lu, Z. Y.;Liu, X. K.;Han, Y. F.;Zheng, L. R.;
2:4:22:3 Li(2)CO(3) as an n-type dopant on Alq(3)-based organic light emitting devices
DOI:10.1063/1.3585767 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:18 AU: Kao, Po-Ching;Lin, Jie-Han;Wang, Jing-Yuan;Yang, Cheng-Hsien;Chen, Sy-Hann;
2:4:22:4 Color-stable deep red-emitting OLEDs based on a soluble terpolyrner containing fluorene, thiophene and benzothiadiazole units
DOI:10.1016/j.synthmet.2012.06.021 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Qu, Bo;Feng, Limin;Yang, Hongsheng;Gao, Zhi;Gao, Chao;Chen, Zhijian;Xiao, Lixin;Gong, Qihuang;
2:4:22:5 Oxadiazole host for a phosphorescent organic light-emitting device
DOI:10.1063/1.3581071 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Chiu, Tien-Lung;Lee, Pei-Yu;Lee, Jiun-Haw;Hsiao, Chih-Hung;Leung, Man-Kit;Lee, Chung-Chieh;Chen, Chen-Yu;Yang, Chih-Chiang;
2:4:22:6 Optimizing hole-injection in organic electroluminescent devices by modifying CuPc/NPB interface
DOI:10.1016/j.synthmet.2011.06.010 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Jiang, Meng-Dan;Lee, Pei-Yu;Chiu, Tien-Lung;Lin, Hong-Cheu;Lee, Jiun-Haw;
2:4:22:7 Manufacture of brightness enhancement films (BEFs) by ultraviolet (UV) irradiation and their applications for organic light emitting diodes (OLEDs)
DOI:10.1016/j.synthmet.2010.05.009 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Lin, Jian-Shian;Lin, Shih-Hsun;Chen, Nien-Po;Ko, Cheng-Hao;Tsai, Zong-Sian;Juang, Fuh-Shyang;Chen, Chen-Ming;Liu, Lung-Chang;
2:4:22:8 A novel white organic electroluminescent device based on a thin LiF interlayer
DOI:10.1016/j.synthmet.2012.09.015 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Xiao, Jing;Deng, Zhenbo;
2:4:23:1 High-Efficiency Polymer Light-Emitting Devices with Robust Phosphorescent Platinum(II) Emitters Containing Tetradentate Dianionic O boolean AND N boolean AND C boolean AND N Ligands
DOI:10.1002/adma.201302408 JN:ADVANCED MATERIALS PY:2013 TC:18 AU: Cheng, Gang;Chow, Pui-Keong;Kui, Steven C. F.;Kwok, Chi-Chung;Che, Chi-Ming;
2:4:23:2 Color Tunable Organic Light-Emitting Devices with External Quantum Efficiency over 20%Based on Strongly Luminescent Gold( III)Complexes having Long- Lived Emissive Excited States
DOI:10.1002/adma.201304263 JN:ADVANCED MATERIALS PY:2014 TC:19 AU: Cheng, Gang;Chan, Kaai Tung;To, Wai-Pong;Che, Chi-Ming;
2:4:23:3 Luminescent Neutral Platinum Complexes Bearing an Asymmetric N boolean AND N boolean AND N Ligand for High-Performance Solution-Processed OLEDs
DOI:10.1002/adma.201202123 JN:ADVANCED MATERIALS PY:2013 TC:32 AU: Cebrian, Cristina;Mauro, Matteo;Kourkoulos, Dimitrios;Mercandelli, Pierluigi;Hertel, Dirk;Meerholz, Klaus;Strassert, Cristian A.;De Cola, Luisa;
2:4:23:4 Controlling Aggregation in Highly Emissive Pt(II) Complexes Bearing Tridentate Dianionic N boolean AND N boolean AND N Ligands. Synthesis, Photophysics, and Electroluminescence
DOI:10.1021/cm2010902 JN:CHEMISTRY OF MATERIALS PY:2011 TC:34 AU: Mydlak, Mathias;Mauro, Matteo;Polo, Federico;Felicetti, Michael;Leonhardt, Jens;Diener, Gerhard;De Cola, Luisa;Strassert, Cristian A.;
2:4:23:5 Enhancement of Phosphorescence and Unimolecular Behavior in the Solid State by Perfect Insulation of Platinum-Acetylide Polymers
DOI:10.1021/ja508636z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Masai, Hiroshi;Terao, Jun;Makuta, Satoshi;Tachibana, Yasuhiro;Fujihara, Tetsuaki;Tsuji, Yasushi;
2:4:23:6 Highly Phosphorescent Crystals of Vaulted trans-Bis(salicylaldiminato)platinum(II) Complexes
DOI:10.1021/ja110398p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:27 AU: Komiya, Naruyoshi;Okada, Minoru;Fukumoto, Kanako;Jomori, Daisuke;Naota, Takeshi;
2:4:23:7 High efficiency warm-white organic light emitting diodes from a single emitter in graded-doping device architecture
DOI:10.1063/1.3702452 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Bhansali, Unnat S.;Jia, Huiping;Oswald, Iain W. H.;Omary, Mohammad A.;Gnade, Bruce E.;
2:4:24:1 Engineering fused coumarin dyes: a molecular level understanding of aggregation quenching and tuning electroluminescence via alkyl chain substitution
DOI:10.1039/c4tc00807c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Kumar, Sunil;Singh, Punita;Srivastava, Ritu;Koner, Rik Rani;Pramanik, Avijit;Mathew, Jomon;Sinha, Sougata;Rawat, Madhu;Anand, R. S.;Ghosh, Subrata;
2:4:24:2 Intramolecular excimer emission as a blue light source in fluorescent organic light emitting diodes: a promising molecular design
DOI:10.1039/c2jm16774c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:32 AU: Thirion, Damien;Romain, Maxime;Rault-Berthelot, Joeelle;Poriel, Cyril;
2:4:24:3 Preface to the Chemistry of Materials Special Issue on pi-Functional Materials
DOI:10.1021/cm1034694 JN:CHEMISTRY OF MATERIALS PY:2011 TC:24 AU: Bredas, Jean-Luc;Marder, Seth R.;Reichmanis, Elsa;
2:4:24:4 Low driving voltage characteristics of triphenylene derivatives as electron transport materials in organic light-emitting diodes
DOI:10.1039/c2jm33669c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Togashi, Kazunori;Nomura, Shintaro;Yokoyama, Norimasa;Yasuda, Takuma;Adachi, Chihaya;
2:4:24:5 9,9 '-Spirobifluorene and 4-phenyl-9,9 '-spirobifluorene: pure hydrocarbon small molecules as hosts for efficient green and blue PhOLEDs
DOI:10.1039/c4tc00171k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:17 AU: Thiery, Sebastien;Tondelier, Denis;Declairieux, Celine;Seo, Gijun;Geffroy, Bernard;Jeannin, Olivier;Rault-Berthelot, Joelle;Metivier, Remi;Poriel, Cyril;
2:4:24:6 Non-aggregating solvatochromic bipolar benzo[f]quinolines and benzo[a] acridines for organic electronics
DOI:10.1039/c2jm31052j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Goel, Atul;Kumar, Vijay;Singh, Salil P.;Sharma, Ashutosh;Prakash, Sattey;Singh, Charan;Anand, R. S.;
2:4:25:1 Phenanthro[9,10-d]imidazole as a new building block for blue light emitting materials
DOI:10.1039/c1jm10321k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:61 AU: Wang, Zhiming;Lu, Ping;Chen, Shuming;Gao, Zhao;Shen, Fangzhong;Zhang, Wensi;Xu, Yuanxiang;Kwok, Hoi Sing;Ma, Yuguang;
2:4:25:2 Synthesis of Diimidazolylstilbenes as n-Type Blue Fluorophores: Alternative Dopant Materials for Highly Efficient Electroluminescent Devices
DOI:10.1002/adma.201202222 JN:ADVANCED MATERIALS PY:2012 TC:24 AU: Chou, Ho-Hsiu;Chen, Yi-Hsiang;Hsu, He-Pei;Chang, Wen-Hsin;Chen, Yu-Han;Cheng, Chien-Hong;
2:4:25:3 Low Dose Detection of gamma Radiation via Solvent Assisted Fluorescence Quenching
DOI:10.1021/ja500262n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Han, Ji-Min;Xu, Miao;Wang, Brian;Wu, Na;Yang, Xiaomei;Yang, Haori;Salter, Bill J.;Zang, Ling;
2:4:25:4 Highly efficient deep-blue OLED with an extraordinarily narrow FHWM of 35 nm and a y coordinate < 0.05 based on a fully twisting donor-acceptor molecule
DOI:10.1039/c4tc00487f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Li, Weijun;Yao, Liang;Liu, Haichao;Wang, Zhiming;Zhang, Shitong;Xiao, Ran;Zhang, Huanhuan;Lu, Ping;Yang, Bing;Ma, Yuguang;
2:4:26:1 High Efficiency Blue Organic LEDs Achieved By an Integrated Fluorescence-Interlayer-Phosphorescence Emission Architecture
DOI:10.1002/adfm.200901657 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:26 AU: Zheng, Tianhang;Choy, Wallace C. H.;
2:4:26:2 On the triplet distribution and its effect on an improved phosphorescent organic light-emitting diode
DOI:10.1063/1.4749278 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Liu, S. W.;Divayana, Y.;Abiyasa, A. P.;Tan, S. T.;Demir, H. V.;Sun, X. W.;
2:4:26:3 Electroluminescence of fluorescent-phosphorescent organic light-emitting diodes with regular, inverted, and symmetrical structures
DOI:10.1016/j.optmat.2014.06.029 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Yang, Su-Hua;Shih, Po-Jen;Wu, Wen-Jie;
2:4:26:4 Synthesis of all-deuterated tris(2-phenylpyridine) iridium for highly stable electrophosphorescence: the "deuterium effect"
DOI:10.1039/c3tc30547c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Wang, Ping;Wang, Fei-Fei;Chen, Yi;Niu, Qiang;Lu, Lei;Wang, Hong-Ming;Gao, Xi-Cun;Wei, Bin;Wu, Hong-Wei;Caic, Xin;Zou, De-Chun;
2:4:26:5 Efficient and color-stable white organic light-emitting diodes based on exciton management and phosphorescent sensitization
DOI:10.1016/j.synthmet.2013.03.022 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Meng, Ling-Chuan;Hou, Yan-Bing;Lou, Zhi-Dong;Teng, Feng;Yao, Xing;Liu, Xiao-Jun;Tang, Ai-Wei;Peng, Jun-Biao;
2:4:26:6 Identification of device degradation positions in multi-layered phosphorescent organic light emitting devices using water probes
DOI:10.1063/1.4711129 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Yamamoto, Hitoshi;Adachi, Chihaya;Weaver, Michael S.;Brown, Julie J.;
2:4:26:7 Enhanced color stability and improved performance in white organic light-emitting devices by utilizing a double-graded structure
DOI:10.1016/j.synthmet.2011.02.001 JN:SYNTHETIC METALS PY:2011 TC:9 AU: Lin, Hua-Ping;Zhou, Fan;Zhang, Xiao-Wen;Yu, Dong-Bin;Li, Jun;Zhang, Liang;Jiang, Xue-Yin;Zhang, Zhi-Lin;
2:4:26:8 Red organic light emitting devices with reduced efficiency roll-off behavior by using hybrid fluorescent/phosphorescent emission structure
DOI:10.1016/j.tsf.2010.09.010 JN:THIN SOLID FILMS PY:2010 TC:10 AU: Zheng, Tianhang;Choy, Wallace C. H.;
2:4:26:9 Enhanced Hybrid Blue Organic Light Emitting Diodes with a Multi-Emitting Layer Using Fluorescent and Phosphorescent Emitters
DOI:10.1080/15421406.2014.944345 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Lee, Song Eun;Lee, Ho Won;Lee, Dong Hyung;Yang, Hyung Jin;Lee, Seok Jae;Koo, Ja-Ryong;Kim, Hye Jeong;Yoon, Seung Soo;Kim, Young Kwan;
2:4:26:10 Effects of electron blocking and hole trapping of the red guest emitter materials on hybrid white organic light emitting diodes
DOI:10.1016/j.tsf.2013.04.128 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Hong, Lin-Ann;Vu, Hoang-Tuan;Juang, Fuh-Shyang;Lai, Yun-Jr;Yeh, Pei-Hsun;Tsai, Yu-Sheng;
2:4:27:1 Bis(carbazolyl) derivatives of pyrene and tetrahydropyrene: synthesis, structures, optical properties, electrochemistry, and electroluminescence
DOI:10.1039/c2tc00474g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:20 AU: Kaafarani, Bilal R.;El-Ballouli, Ala'a O.;Trattnig, Roman;Fonari, Alexandr;Sax, Stefan;Wex, Brigitte;Risko, Chad;Khnayzer, Rony S.;Barlow, Stephen;Patra, Digambara;Timofeeva, Tatiana V.;List, Emil J. W.;Bredas, Jean-Luc;Marder, Seth R.;
2:4:27:2 Pyrene based materials for exceptionally deep blue OLEDs
DOI:10.1039/c4tc01801j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Chercka, Dennis;Yoo, Seung-Jun;Baumgarten, Martin;Kim, Jang-Joo;Muellen, Klaus;
2:4:27:3 Hole-transporting thiophene-based hydrazones with reactive vinyl groups
DOI:10.1016/j.synthmet.2014.08.009 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Laurinaviciute, Rasa;Mimaite, Viktorija;Ostrauskaite, Jolita;Grazulevicius, Juozas Vidas;Jankauskas, Vygintas;
2:4:27:4 Experimental and Theoretical Studies of the Photophysical Properties of 2-and 2,7-Functionalized Pyrene Derivatives
DOI:10.1021/ja2006862 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:57 AU: Crawford, Andrew G.;Dwyer, Austin D.;Liu, Zhiqiang;Steffen, Andreas;Beeby, Andrew;Palsson, Lars-Olof;Tozer, David J.;Marder, Todd B.;
2:4:27:5 Hole-transporting phenothiazine-based hydrazones with reactive vinylbenzyl groups
DOI:10.1016/j.synthmet.2014.03.009 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Laurinaviciute, Rasa;Ostrauskaite, Jolita;Skuodis, Eigirdas;Grazulevicius, Juozas Vidas;Jankauskas, Vygintas;
2:4:27:6 Effect of linking topology on the properties of star-shaped derivatives of triazine and fluorene
DOI:10.1016/j.synthmet.2014.06.019 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Kukhta, Nadzeya A.;Simokaitiene, Jurate;Volyniuk, Dmytro;Ostrauskaite, Jolita;Grazulevicius, Juozas V.;Juska, Gytis;Jankauskas, Vygintas;
2:4:27:7 Electronic and Structural Effects of Stepwise Borylation and Quaternization on Borirene Aromaticity
DOI:10.1021/ja3110126 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Braunschweig, Holger;Damme, Alexander;Dewhurst, Rian D.;Ghosh, Sundargopal;Kramer, Thomas;Pfaffinger, Bernd;Radacki, Krzysztof;Vargas, Alfredo;
2:4:28:1 Synthesis and physical properties of meta-terphenyloxadiazole derivatives and their application as electron transporting materials for blue phosphorescent and fluorescent devices
DOI:10.1039/c2jm33376g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Wu, Cheng-An;Chou, Ho-Hsiu;Shih, Cheng-Hung;Wu, Fang-Iy;Cheng, Chien-Hong;Huang, Heh-Lung;Chao, Teng-Chih;Tseng, Mei-Rurng;
2:4:28:2 Emission zone control in blue organic electrophosphorescent devices through chemical modification of host materials
DOI:10.1063/1.3298556 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Polikarpov, Evgueni;Swensen, James S.;Cosimbescu, Lelia;Koech, Phillip K.;Rainbolt, James E.;Padmaperuma, Asanga B.;
2:4:28:3 Phosphine Oxide Based Electron Transporting and Hole Blocking Materials for Blue Electrophosphorescent Organic Light Emitting Devices
DOI:10.1021/cm1013653 JN:CHEMISTRY OF MATERIALS PY:2010 TC:15 AU: Von Ruden, Amber L.;Cosimbescu, Lelia;Polikarpov, Evgueni;Koech, Phillip K.;Swensen, James S.;Wang, Liang;Darsell, Jens T.;Padmaperuma, Asanga B.;
2:4:28:4 Mechanism for the direct electron injection from Al cathode to the phosphine oxide type electron transport layer
DOI:10.1063/1.3555443 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Jeon, Soon Ok;Yook, Kyoung Soo;Lee, Jun Yeob;Park, Soon Mi;Kim, Jeong Won;Kim, Ji-Hoon;Hong, Jong-Am;Park, Yongsup;
2:4:28:5 Bipyridyl-substituted benzo[1,2,3]triazoles as a thermally stable electron transporting material for organic light-emitting devices
DOI:10.1039/c1jm10901d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Ichikawa, Musubu;Mochizuki, Shunji;Jeon, Hyeon-Gu;Hayashi, Shuichi;Yokoyama, Norimasa;Taniguchi, Yoshio;
2:4:28:6 Benzene substituted with bipyridine and terpyridine as electron-transporting materials for organic light-emitting devices
DOI:10.1039/c2jm16274a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Ichikawa, Musubu;Yamamoto, Takayuki;Jeon, Hyeon-Gu;Kase, Kouki;Hayashi, Shuichi;Nagaoka, Makoto;Yokoyama, Norimasa;
2:4:28:7 High Mobility Electron Transport Material with Pyrene Moiety for Organic Light-Emitting Diodes (OLEDs)
DOI:10.1080/15421406.2011.599755 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Jeon, Woo Sik;Hyoung-Yun, Oh;Park, Jung Soo;Kwon, Jang Hyuk;
2:4:29:1 Engineering Blue Fluorescent Bulk Emitters for OLEDs: Triplet Harvesting by Green Phosphors
DOI:10.1021/cm500602y JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Hofmann, Simone;Hummert, Markus;Scholz, Reinhard;Luschtinetz, Regina;Murawski, Caroline;Will, Paul-Anton;Hintschich, Susanne I.;Alex, Joerg;Jankus, Vygintas;Monkman, Andrew P.;Luessem, Bjoern;Leo, Karl;Gather, Malte C.;
2:4:29:2 Measurement of triplet exciton diffusion in organic light-emitting diodes
DOI:10.1103/PhysRevB.81.245201 JN:PHYSICAL REVIEW B PY:2010 TC:19 AU: Wuensche, J.;Reineke, S.;Luessem, B.;Leo, K.;
2:4:29:3 White Organic Light-Emitting Diodes Based on Quench-Resistant Fluorescent Organophosphorus Dopants
DOI:10.1002/adfm.201102005 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:21 AU: Joly, Damien;Tondelier, Denis;Deborde, Valerie;Delaunay, Wylliam;Thomas, Anup;Bhanuprakash, Kotamarthi;Geffroy, Bernard;Hissler, Muriel;Reau, Regis;
2:4:29:4 White organic light-emitting diodes with an ultra-thin premixed emitting layer
DOI:10.1016/j.tsf.2013.06.054 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Jeon, T.;Geffroy, B.;Tondelier, D.;Bonnassieux, Y.;Forget, S.;Chenais, S.;Ishow, E.;
2:4:29:5 Red-emitting fluorescent organic light emitting diodes with low sensitivity to self-quenching
DOI:10.1063/1.3481460 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Forget, S.;Chenais, S.;Tondelier, D.;Geffroy, B.;Gozhyk, I.;Lebental, M.;Ishow, E.;
2:4:30:1 Continuous blade coating for multi-layer large-area organic light-emitting diode and solar cell
DOI:10.1063/1.3636398 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:25 AU: Chen, Chun-Yu;Chang, Hao-Wen;Chang, Yu-Fan;Chang, Bo-Jie;Lin, Yuan-Sheng;Jian, Pei-Siou;Yeh, Han-Cheng;Chien, Hung-Ta;Chen, En-Chen;Chao, Yu-Chiang;Meng, Hsin-Fei;Zan, Hsiao-Wen;Lin, Hao-Wu;Horng, Sheng-Fu;Cheng, Yen-Ju;Yen, Feng-Wen;Lin, I-Feng;Yang, Hsiu-Yuan;Huang, Kuo-Jui;Tseng, Mei-Rurng;
2:4:30:2 High quantum efficiency in simple blue phosphorescent organic light-emitting diodes without any electron injection layer
DOI:10.1016/j.tsf.2010.08.143 JN:THIN SOLID FILMS PY:2010 TC:19 AU: Jang, Sang Eok;Joo, Chul Woong;Lee, Jun Yeob;
2:4:30:3 Interface and thickness tuning for blade coated small-molecule organic light-emitting diodes with high power efficiency
DOI:10.1063/1.4821881 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Chang, Yu-Fan;Chiu, Yu-Chian;Chang, Hao-Wen;Wang, Yi-Siang;Shih, Yi-Lun;Wu, Chih-Hao;Liu, Yi-Lun;Lin, Yu-Sheng;Meng, Hsin-Fei;Chi, Yun;Huang, Heh-Lung;Tseng, Mei-Rurng;Lin, Hao-Wu;Zan, Hsiao-Wen;Horng, Sheng-Fu;Juang, Jenh-Yih;
2:4:30:4 Uniform dispersion of triplet emitters in multi-layer solution-processed organic light-emitting diodes
DOI:10.1016/j.synthmet.2010.09.015 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Huang, Sheng-Yang;Meng, Hsin-Fei;Huang, Heh-Lung;Chao, Teng-Chih;Tseng, Mei-Rurng;Chao, Yu-Chiang;Horng, Sheng-Fu;
2:4:30:5 General application of blade coating to small-molecule hosts for organic light-emitting diode
DOI:10.1016/j.synthmet.2014.07.003 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Chang, Hao-Wen;Lee, Yi-Ting;Tseng, Mei-Rurng;Jang, Meng-Hao;Yeh, Han-Cheng;Luo, Fang-Tsai;Meng, Hsin-Fei;Chen, Chin-Ti;Chi, Yun;Qiu, Yong;Duan, Lian;Lin, Hao-Wu;Horng, Sheng-Fu;Zan, Hsiao-Wen;
2:4:30:6 Transparent organic light-emitting diodes with LiF:Al composite cathodes
DOI:10.1016/j.tsf.2011.08.099 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Qu, Bo;Yang, Hongsheng;Chen, Zhijian;Xiao, Lixin;Gong, Qihuang;
2:4:31:1 A novel ambipolar polymer: from organic thin-film transistors to enhanced air-stable blue light emitting diodes
DOI:10.1039/c4tc00684d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Fallahi, Afsoon;Taromi, Faramarz Afshar;Mohebbi, Alireza;Yuen, Jonathan D.;Shahinpoor, Mohsen;
2:4:31:2 Critical Role of Triplet Exciton Interface Trap States in Bilayer Films of NPB and Ir(piq)(3)
DOI:10.1002/adfm.201002262 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:6 AU: Jankus, Vygintas;Winscom, Chris;Monkman, Andrew P.;
2:4:31:3 Organic light-emitting diodes with direct contact-printed red, green, blue, and white light-emitting layers
DOI:10.1063/1.4757279 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Chen, Sun-Zen;Peng, Shiang-Hau;Ting, Tzu-Yu;Wu, Po-Shien;Lin, Chun-Hao;Chang, Chin-Yeh;Shyue, Jing-Jong;Jou, Jwo-Huei;
2:4:32:1 The effect of carrier injection and transport of hosts on organic electrophosphorescent device
DOI:10.1016/j.synthmet.2012.01.023 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Xia, Hong;Zhang, Hao;Leng, Jiyan;Liu, Xiaoming;
2:4:32:2 Synthesis and characterization of red iridium(III) complexes containing phenothiazine-phenylquinoline based on main ligand for solution-processed phosphorescent organic light-emitting diodes
DOI:10.1016/j.synthmet.2010.11.019 JN:SYNTHETIC METALS PY:2011 TC:12 AU: Park, Jin Su;Song, Myungkwan;Gal, Yeong-Soon;Lee, Jae Wook;Jin, Sung-Ho;
2:4:32:3 Synthesis and electroluminescent properties of red emissive iridium(III) complexes with ester-substituted phenylquinoline ligands
DOI:10.1016/j.synthmet.2012.06.016 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Tong, Bihai;Mei, Qunbo;Chen, Dongyang;Lu, Mangeng;
2:4:32:4 A highly efficient red electrophosphorescent iridium(III) complex containing phenyl quinazoline ligand in polymer light-emitting diodes
DOI:10.1039/c2jm15160j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Mei, Qunbo;Wang, Lingxia;Guo, Yuanhui;Weng, Jiena;Yan, Fang;Tian, Bo;Tong, Bihai;
2:4:32:5 Synthesis, characterization and electroluminescence properties of iridium complexes based on pyridazine and phthalazine derivatives with C(N)over-cap=N structure
DOI:10.1016/j.synthmet.2010.07.035 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Fang, Yuan;Li, Yanhu;Wang, Shuanjin;Meng, Yuezhong;Peng, Junbiao;Wang, Biao;
2:4:32:6 Iridium(III) complexes with cyclometalated styrylbenzoimidazole ligands: Synthesis, electrochemistry and as highly efficient emitters for organic light-emitting diodes
DOI:10.1016/j.synthmet.2010.07.008 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Zhang, Guanghui;Wu, Fang-Iy;Jiang, Xiaoqing;Sun, Peipei;Cheng, Chien-Hong;
2:4:33:1 All fluorescent and high color rendering index white organic light-emitting devices with improved color stability at high brightness
DOI:10.1016/j.tsf.2011.10.148 JN:THIN SOLID FILMS PY:2012 TC:13 AU: Zhang, Shiming;Xie, Guohua;Xue, Qin;Zhang, Zhensong;Zhao, Li;Luo, Yang;Yue, Shouzhen;Zhao, Yi;Liu, Shiyong;
2:4:33:2 White organic light-emitting devices with a bipolar transport layer between blue fluorescent and yellow phosphor-sensitized-fluorescent emitting layers
DOI:10.1016/j.synthmet.2009.12.011 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Xue, Qin;Xie, Guohua;Chen, Ping;Lu, Jianhua;Zhang, Dandan;Tang, Yanna;Zhao, Yi;Hou, Jingying;Liu, Shiyong;
2:4:33:3 Color stable white polymer light-emitting diodes with single emission layer
DOI:10.1016/j.synthmet.2009.12.015 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Kim, Sun Hee;Jin, Youngeup;Yu, Jin Young;Kim, Jinwoo;Song, Suhee;Suh, Hongsuk;Lee, Kwanghee;
2:4:33:4 Investigation on spacers and structures: A simple but effective approach toward high-performance hybrid white organic light emitting diodes
DOI:10.1016/j.synthmet.2013.09.023 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Liu, Baiquan;Wang, Lei;Zou, Jianhua;Tao, Hong;Su, Yueju;Gao, Dongyu;Xu, Miao;Lan, Linfeng;Peng, Junbiao;
2:4:33:5 Enhancing Color Purity and Stable Efficiency of White Organic Light Diodes by Using Hole-Blocking Layer
DOI:10.1155/2014/915894 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Huang, Chien-Jung;Chen, Kan-Lin;Chou, Dei-Wei;Lee, Yu-Chen;Kang, Chih-Chieh;
2:4:33:6 Highly efficient blue phosphorescent organic light-emitting devices using simple structures with thin 1,1-bis[(di-4-tolyamino)phenyl]cyclohexane layers
DOI:10.1016/j.synthmet.2009.10.016 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Seo, Yu-Seok;Moon, Dae-Gyu;
2:4:33:7 White organic light-emitting diodes based on a yellow phosphorescence iridium complex and a high-efficiency blue fluorescence
DOI:10.1016/j.tsf.2013.04.036 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Zhang, Shiming;Liu, Ziyang;Wang, Xuehui;Yue, Shouzhen;Zhang, Zhensong;Wu, Qingyang;Xie, Guohua;Xue, Qin;Chen, Yu;Wang, Peng;Guo, Runda;Qu, Dalong;Zhao, Yi;Liu, Shiyong;
2:4:34:1 A Pyridine-Containing Anthracene Derivative with High Electron and Hole Mobilities for Highly Efficient and Stable Fluorescent Organic Light-Emitting Diodes
DOI:10.1002/adfm.201002691 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:40 AU: Sun, Yongduo;Duan, Lian;Zhang, Deqiang;Qiao, Juan;Dong, Guifang;Wang, Liduo;Qiu, Yong;
2:4:34:2 Rational Design of Chelated Aluminum Complexes toward Highly Efficient and Thermally Stable Electron-Transporting Materials
DOI:10.1021/cm5011604 JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Lin, Na;Qiao, Juan;Duan, Lian;Xue, Jie;Wang, Liduo;
2:4:35:1 Phosphorescent Ir(III) complexes bearing double benzyldiphenylphosphine cyclometalates; strategic synthesis, fundamental and integration for white OLED fabrication
DOI:10.1039/c0jm00653j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:47 AU: Hung, Jui-Yi;Lin, Chen-Huey;Chi, Yun;Chung, Min-Wen;Chen, Yi-Ju;Lee, Gene-Hsiang;Chou, Pi-Tai;Chen, Chung-Chia;Wu, Chung-Chih;
2:4:35:2 Theoretical study on photophysical properties of cyclometalated cationic iridium(III) complexes containing dipyrido[3,2-f:2 ',3 '-h]quinoxaline ligand
DOI:10.1016/j.synthmet.2012.06.005 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Su, Juanjuan;Sun, Xiaobo;Gahungu, Godefroid;Qu, Xiaochun;Liu, Yuqi;Wu, Zhijian;
2:4:35:3 Achieving the blue-light-emitting materials for benzothiazolate Zn(II) complexes by introducing different functional groups
DOI:10.1016/j.synthmet.2012.02.029 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Xu Huixia;Wang Hua;Yue Yan;Chen Liuqing;Hao Yuying;Xu Bingshe;
2:5:1 Small Molecule Solution-Processed Bulk Heterojunction Solar Cells
DOI:10.1021/cm102189g JN:CHEMISTRY OF MATERIALS PY:2011 TC:477 AU: Walker, Bright;Kim, Chunki;Nguyen, Thuc-Quyen;
2:5:2 A Naphthodithiophene-Diketopyrrolopyrrole Donor Molecule for Efficient Solution-Processed Solar Cells
DOI:10.1021/ja202791n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:274 AU: Loser, Stephen;Bruns, Carson J.;Miyauchi, Hiroyuki;Ortiz, Rocio Ponce;Facchetti, Antonio;Stupp, Samuel I.;Marks, Tobin J.;
2:5:3 Small Molecules Based on Benzo[1,2-b:4,5-b ']dithiophene Unit for High-Performance Solution-Processed Organic Solar Cells
DOI:10.1021/ja306865z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:226 AU: Zhou, Jiaoyan;Wan, Xiangjian;Liu, Yongsheng;Zuo, Yi;Li, Zhi;He, Guangrui;Long, Guankui;Ni, Wang;Li, Chenxi;Su, Xuncheng;Chen, Yongsheng;
2:5:4 Non-Basic High-Performance Molecules for Solution-Processed Organic Solar Cells
DOI:10.1002/adma.201201127 JN:ADVANCED MATERIALS PY:2012 TC:261 AU: van der Poll, Thomas S.;Love, John A.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:5:5 Solution-Processed and High-Performance Organic Solar Cells Using Small Molecules with a Benzodithiophene Unit
DOI:10.1021/ja403318y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:213 AU: Zhou, Jiaoyan;Zuo, Yi;Wan, Xiangjian;Long, Guankui;Zhang, Qian;Ni, Wang;Liu, Yongsheng;Li, Zhi;He, Guangrui;Li, Chenxi;Kan, Bin;Li, Miaomiao;Chen, Yongsheng;
2:5:6 A Solution-Processable Star-Shaped Molecule for High-Performance Organic Solar Cells
DOI:10.1002/adma.201004445 JN:ADVANCED MATERIALS PY:2011 TC:230 AU: Shang, Huixia;Fan, Haijun;Liu, Yao;Hu, Wenping;Li, Yongfang;Zhan, Xiaowei;
2:5:7 Efficient Small Molecule Bulk Heterojunction Solar Cells with High Fill Factors via Pyrene-Directed Molecular Self-Assembly
DOI:10.1002/adma.201103177 JN:ADVANCED MATERIALS PY:2011 TC:164 AU: Lee, Olivia P.;Yiu, Alan T.;Beaujuge, Pierre M.;Woo, Claire H.;Holcombe, Thomas W.;Millstone, Jill E.;Douglas, Jessica D.;Chen, Mark S.;Frechet, Jean M. J.;
2:5:8 Solution Processable Rhodanine-Based Small Molecule Organic Photovoltaic Cells with a Power Conversion Efficiency of 6.1%
DOI:10.1002/aenm.201100572 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:152 AU: Li, Zhi;He, Guangrui;Wan, Xiangjian;Liu, Yongsheng;Zhou, Jiaoyan;Long, Guankui;Zuo, Yi;Zhang, Mingtao;Chen, Yongsheng;
2:5:9 Solar Cell Efficiency, Self-Assembly, and Dipole-Dipole Interactions of Isomorphic Narrow-Band-Gap Molecules
DOI:10.1021/ja3050713 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:91 AU: Takacs, Christopher J.;Sun, Yanming;Welch, Gregory C. .;Perez, Louis A.;Liu, Xiaofeng;Wen, Wen;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:10 Efficient Solution-Processed Small-Molecule Solar Cells with Inverted Structure
DOI:10.1002/adma.201300295 JN:ADVANCED MATERIALS PY:2013 TC:175 AU: Kyaw, Aung Ko Ko;Wang, Dong Hwan;Gupta, Vinay;Zhang, Jie;Chand, Suresh;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:11 Spin-Coated Small Molecules for High Performance Solar Cells
DOI:10.1002/aenm.201100230 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:135 AU: Liu, Yongsheng;Wan, Xiangjian;Wang, Fei;Zhou, Jiaoyan;Long, Guankui;Tian, Jianguo;You, Jingbi;Yang, Yang;Chen, Yongsheng;
2:5:12 Solvent-Annealed Crystalline Squaraine: PC70BM (1:6) Solar Cells
DOI:10.1002/aenm.201100045 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:137 AU: Wei, Guodan;Wang, Siyi;Sun, Kai;Thompson, Mark E.;Forrest, Stephen R.;
2:5:13 A modular molecular framework for utility in small-molecule solution-processed organic photovoltaic devices
DOI:10.1039/c1jm11963j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:98 AU: Welch, Gregory C.;Perez, Louis A.;Hoven, Corey V.;Zhang, Yuan;Dang, Xuan-Dung;Sharenko, Alexander;Toney, Michael F.;Kramer, Edward J.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:5:14 Vacuum-Deposited Small-Molecule Organic Solar Cells with High Power Conversion Efficiencies by Judicious Molecular Design and Device Optimization
DOI:10.1021/ja301872s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:90 AU: Chen, Yi-Hong;Lin, Li-Yen;Lu, Chih-Wei;Lin, Francis;Huang, Zheng-Yu;Lin, Hao-Wu;Wang, Po-Han;Liu, Yi-Hung;Wong, Ken-Tsung;Wen, Jianguo;Miller, Dean J.;Darling, Seth B.;
2:5:15 A Planar Small Molecule with Dithienosilole Core for High Efficiency Solution-Processed Organic Photovoltaic Cells
DOI:10.1021/cm202588h JN:CHEMISTRY OF MATERIALS PY:2011 TC:120 AU: Zhou, Jiaoyan;Wan, Xiangjian;Liu, Yongsheng;Long, Guankui;Wang, Fei;Li, Zhi;Zuo, Yi;Li, Chenxi;Chen, Yongsheng;
2:5:16 Pyridalthiadiazole-Based Narrow Band Gap Chromophores
DOI:10.1021/ja209331y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:64 AU: Henson, Zachary B.;Welch, Gregory C.;van der Poll, Thomas;Bazan, Guillermo C.;
2:5:17 Dicyanovinyl-Substituted Oligothiophenes: Structure-Property Relationships and Application in Vacuum-Processed Small-Molecule Organic Solar Cells
DOI:10.1002/adfm.201001639 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:147 AU: Fitzner, Roland;Reinold, Egon;Mishra, Amaresh;Mena-Osteritz, Elena;Ziehlke, Hannah;Koerner, Christian;Leo, Karl;Riede, Moritz;Weil, Matthias;Tsaryova, Olga;Weiss, Andre;Uhrich, Christian;Pfeiffer, Martin;Baeuerle, Peter;
2:5:18 Improved Light Harvesting and Improved Efficiency by Insertion of an Optical Spacer (ZnO) in Solution-Processed Small-Molecule Solar Cells
DOI:10.1021/nl401758g JN:NANO LETTERS PY:2013 TC:165 AU: Kyaw, Aung Ko Ko;Wang, Dong Hwan;Wynands, David;Zhang, Jie;Thuc-Quyen Nguyen;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:19 Narrow-Band-Gap Conjugated Chromophores with Extended Molecular Lengths
DOI:10.1021/ja310483w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:52 AU: Liu, Xiaofeng;Su, Yanming;Perez, Louis A.;Wen, Wen;Toney, Michael F.;Heeger, Alan J.;Bazan, Guillermo C.;
2:5:20 Influence of the Position of the Side Chain on Crystallization and Solar Cell Performance of DPP-Based Small Molecules
DOI:10.1021/cm4034484 JN:CHEMISTRY OF MATERIALS PY:2014 TC:27 AU: Gevaerts, Veronique S.;Herzig, Eva M.;Kirkus, Mindaugas;Hendriks, Koen H.;Wienk, Martijn M.;Perlich, Jan;Mueller-Buschbaurn, Peter;Janssen, Rene A. J.;
2:5:21 Simple, Highly Efficient Vacuum-Processed Bulk Heterojunction Solar Cells Based on Merocyanine Dyes
DOI:10.1002/aenm.201100283 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:87 AU: Steinmann, Vera;Kronenberg, Nils M.;Lenze, Martin R.;Graf, Steven M.;Hertel, Dirk;Meerholz, Klaus;Buerckstuemmer, Hannah;Tulyakova, Elena V.;Wuerthner, Frank;
2:5:22 Marked Alkyl- vs Alkenyl-Substitutent Effects on Squaraine Dye Solid-State Structure, Carrier Mobility, and Bulk-Heterojunction Solar Cell Efficiency
DOI:10.1021/ja100520q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:110 AU: Bagnis, Diego;Beverina, Luca;Huang, Hui;Silvestri, Fabio;Yao, Yan;Yan, Henry;Pagani, Giorgio A.;Marks, Tobin J.;Facchetti, Antonio;
2:5:23 Impact of Regiochemistry and Isoelectronic Bridgehead Substitution on the Molecular Shape and Bulk Organization of Narrow Bandgap Chromophores
DOI:10.1021/ja310694t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:29 AU: Welch, Gregory C.;Bakus, Ronald C., II;Teat, Simon J.;Bazan, Guillermo C.;
2:5:24 High-Performance Solar Cells using a Solution-Processed Small Molecule Containing Benzodithiophene Unit
DOI:10.1002/adma.201102790 JN:ADVANCED MATERIALS PY:2011 TC:133 AU: Liu, Yongsheng;Wan, Xiangjian;Wang, Fei;Zhou, Jiaoyan;Long, Guankui;Tian, Jianguo;Chen, Yongsheng;
2:5:25 A Low-Energy-Gap Organic Dye for High-Performance Small-Molecule Organic Solar Cells
DOI:10.1021/ja205126t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:93 AU: Lin, Li-Yen;Chen, Yi-Hong;Huang, Zheng-Yu;Lin, Hao-Wu;Chou, Shu-Hua;Lin, Francis;Chen, Chang-Wen;Liu, Yi-Hung;Wong, Ken-Tsung;
2:5:26 Intensity Dependence of Current-Voltage Characteristics and Recombination in High-Efficiency Solution-Processed Small-Molecule Solar Cells
DOI:10.1021/nn401267s JN:ACS NANO PY:2013 TC:109 AU: Kyaw, Aung Ko Ko;Wang, Dong Hwan;Gupta, Vinay;Leong, Wei Lin;Ke, Lin;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:27 Self-Organizing Mesomorphic Diketopyrrolopyrrole Derivatives for Efficient Solution-Processed Organic Solar Cells
DOI:10.1021/cm401244x JN:CHEMISTRY OF MATERIALS PY:2013 TC:57 AU: Shin, Woong;Yasuda, Takuma;Watanabe, Go;Yang, Yu Seok;Adachi, Chihaya;
2:5:28 Correlation of pi-Conjugated Oligomer Structure with Film Morphology and Organic Solar Cell Performance
DOI:10.1021/ja302320c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:95 AU: Fitzner, Roland;Mena-Osteritz, Elena;Mishra, Amaresh;Schulz, Gisela;Reinold, Egon;Weil, Matthias;Koerner, Christian;Ziehlke, Hannah;Elschner, Chris;Leo, Karl;Riede, Moritz;Pfeiffer, Martin;Uhrich, Christian;Baeuerle, Peter;
2:5:29 Solution-Processed Squaraine Bulk Heterojunction Photovoltaic Cells
DOI:10.1021/nn100195j JN:ACS NANO PY:2010 TC:111 AU: Wei, Guodan;Wang, Siyi;Renshaw, Kyle;Thompson, Mark E.;Forrest, Stephen R.;
2:5:30 Design and Properties of Intermediate-Sized Narrow Band-Gap Conjugated Molecules Relevant to Solution-Processed Organic Solar Cells
DOI:10.1021/ja413144u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:9 AU: Liu, Xiaofeng;Sun, Yanming;Hsu, Ben B. Y.;Lorbach, Andreas;Qi, Li;Heeger, Alan J.;Bazan, Guillermo C.;
2:5:31 Efficient, Ordered Bulk Heterojunction Nanocrystalline Solar Cells by Annealing of Ultrathin Squaraine Thin Films
DOI:10.1021/nl1018194 JN:NANO LETTERS PY:2010 TC:87 AU: Wei, Guodan;Lunt, Richard R.;Sun, Kai;Wang, Siyi;Thompson, Mark E.;Forrest, Stephen R.;
2:5:32 Competitive Absorption and Inefficient Exciton Harvesting: Lessons Learned from Bulk Heterojunction Organic Photovoltaics Utilizing the Polymer Acceptor P(NDI2OD-T2)
DOI:10.1002/adfm.201401367 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:11 AU: Li, Zhi;Lin, Jason D. A.;Hung Phan;Sharenko, Alexander;Proctor, Christopher M.;Zalar, Peter;Chen, Zhihua;Facchetti, Antonio;Thuc-Quyen Nguyen;
2:5:33 Solution-Processed DPP-Based Small Molecule that Gives High Photovoltaic Efficiency with Judicious Device Optimization
DOI:10.1021/am302896u JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:89 AU: Huang, Jianhua;Zhan, Chuanlang;Zhang, Xin;Zhao, Yan;Lu, Zhenhuan;Jia, Hui;Jiang, Bo;Ye, Jian;Zhang, Shanlin;Tang, Ailing;Liu, Yunqi;Pei, Qibing;Yao, Jiannian;
2:5:34 A Solution-Processable Small Molecule Based on Benzodithiophene and Diketopyrrolopyrrole for High-Performance Organic Solar Cells
DOI:10.1002/aenm.201300181 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:76 AU: Lin, Yuze;Ma, Lanchao;Li, Yongfang;Liu, Yunqi;Zhu, Daoben;Zhan, Xiaowei;
2:5:35 Effects of Heteroatom Substitutions on the Crystal Structure, Film Formation, and Optoelectronic Properties of Diketopyrrolopyrrole-Based Materials
DOI:10.1002/adfm.201201599 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:69 AU: Liu, Jianhua;Walker, Bright;Tamayo, Arnold;Zhang, Yuan;Thuc-Quyen Nguyen;
2:5:36 Effect of Bridging Atom Identity on the Morphological Behavior of Solution-Processed Small Molecule Bulk Heterojunction Photovoltaics
DOI:10.1021/cm4001416 JN:CHEMISTRY OF MATERIALS PY:2013 TC:28 AU: Eisenmenger, Nancy D.;Su, Gregory M.;Welch, Gregory C.;Takacs, Christopher J.;Bazan, Guillermo C.;Kramer, Edward J.;Chabinyc, Michael L.;
2:5:37 Film Morphology of High Efficiency Solution-Processed Small-Molecule Solar Cells
DOI:10.1002/adfm.201300099 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:64 AU: Love, John A.;Proctor, Christopher M.;Liu, Jianhua;Takacs, Christopher J.;Sharenko, Alexander;van der Poll, Thomas S.;Heeger, Alan J.;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:5:38 Tailoring Porphyrin-Based Electron Accepting Materials for Organic Photovoltaics
DOI:10.1021/ja5097418 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Rawson, Jeff;Stuart, Andrew C.;You, Wei;Therien, Michael J.;
2:5:39 Silaindacenodithiophene-Based Molecular Donor: Morphological Features and Use in the Fabrication of Compositionally Tolerant, High-Efficiency Bulk Heterojunction Solar Cells
DOI:10.1021/ja412473p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:15 AU: Love, John A.;Nagao, Ikuhiro;Huang, Ye;Kuik, Martijn;Gupta, Vinay;Takacs, Christopher J.;Coughlin, Jessica E.;Qi, Li;van der Poll, Thomas S.;Kramer, Edward J.;Heeger, Alan J.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:5:40 Influence of Structural Variation on the Solid-State Properties of Diketopyrrolopyrrole-Based Oligophenylenethiophenes: Single-Crystal Structures, Thermal Properties, Optical Bandgaps, Energy Levels, Film Morphology, and Hole Mobility
DOI:10.1021/cm202852f JN:CHEMISTRY OF MATERIALS PY:2012 TC:48 AU: Kim, Chunki;Liu, Jianhua;Lin, Jason;Tamayo, Arnold B.;Walker, Bright;Wu, Guang;Thuc-Quyen Nguyen;
2:5:41 Synthesis and applications of novel low bandgap star-burst molecules containing a triphenylamine core and dialkylated diketopyrrolopyrrole arms for organic photovoltaics
DOI:10.1039/c2jm16760c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:43 AU: Sahu, Duryodhan;Tsai, Chia-Hua;Wei, Hung-Yu;Ho, Kuo-Chuan;Chang, Feng-Chih;Chu, Chih-Wei;
2:5:42 Pyridine-based electron transporting materials for highly efficient organic solar cells
DOI:10.1039/c2ta00253a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Lin, Hao-Wu;Lu, Chih-Wei;Lin, Li-Yen;Chen, Yi-Hong;Lin, Wei-Chieh;Wong, Ken-Tsung;Lin, Francis;
2:5:43 A bipolar small molecule based on indacenodithiophene and diketopyrrolopyrrole for solution processed organic solar cells
DOI:10.1039/c3ta13816j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:24 AU: Bai, Huitao;Cheng, Pei;Wang, Yifan;Ma, Lanchao;Li, Yongfang;Zhu, Daoben;Zhan, Xiaowei;
2:5:44 Effect of Charge Recombination on the Fill Factor of Small Molecule Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201100040 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:74 AU: Zhang, Yuan;Dang, Xuan-Dung;Kim, Chunki;Thuc-Quyen, Nguyen;
2:5:45 A Solution Processable D-A-D Molecule based on Thiazolothiazole for High Performance Organic Solar Cells
DOI:10.1002/aenm.201100505 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:67 AU: Shi, Qinqin;Cheng, Pei;Li, Yongfang;Zhan, Xiaowei;
2:5:46 Evaluation of Heterocycle-Modified Pentathiophene-Based Molecular Donor Materials for Solar Cells
DOI:10.1021/am5006223 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Yu, Qing-Cai;Fu, Wei-Fei;Wan, Jun-Hua;Wu, Xiao-Feng;Shi, Min-Min;Chen, Hong-Zheng;
2:5:47 Solution-Processable Organic Molecule Photovoltaic Materials with Bithienyl-benzodithiophene Central Unit and Indenedione End Groups
DOI:10.1021/cm400782q JN:CHEMISTRY OF MATERIALS PY:2013 TC:77 AU: Shen, Suling;Jiang, Pei;He, Chang;Zhang, Jing;Shen, Ping;Zhang, Yi;Yi, Yuanping;Zhang, Zhanjun;Li, Zhibo;Li, Yongfang;
2:5:48 Improvement of Interfacial Contacts for New Small-Molecule Bulk-Heterojunction Organic Photovoltaics
DOI:10.1002/adma.201200963 JN:ADVANCED MATERIALS PY:2012 TC:46 AU: Garcia, Andres;Welch, Gregory C.;Ratcliff, Erin L.;Ginley, David S.;Bazan, Guillermo C.;Olson, Dana C.;
2:5:49 Tailored merocyanine dyes for solution-processed BHJ solar cells
DOI:10.1039/b916181c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:75 AU: Buerckstuemmer, Hannah;Kronenberg, Nils Michael;Gsaenger, Marcel;Stolte, Matthias;Meerholz, Klaus;Wuerthner, Frank;
2:5:50 Merocyanine/C60 Planar Heterojunction Solar Cells: Effect of Dye Orientation on Exciton Dissociation and Solar Cell Performance
DOI:10.1002/adfm.201101697 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:45 AU: Ojala, Antti;Petersen, Andreas;Fuchs, Andreas;Lovrincic, Robert;Poelking, Carl;Trollmann, Jens;Hwang, Jaehyung;Lennartz, Christian;Reichelt, Helmut;Hoeffken, Hans Wolfgang;Pucci, Annemarie;Erk, Peter;Kirchartz, Thomas;Wuerthner, Frank;
2:5:51 Nongeminate Recombination and Charge Transport Limitations in Diketopyrrolopyrrole-Based Solution-Processed Small Molecule Solar Cells
DOI:10.1002/adfm.201202643 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:56 AU: Proctor, Christopher M.;Kim, Chunki;Neher, Dieter;Thuc-Quyen Nguyen;
2:5:52 Additive-Assisted Control over Phase-Separated Nanostructures by Manipulating Alkylthienyl Position at Donor Backbone for Solution-Processed, Non-Fullerene, All-Small-Molecule Solar Cells
DOI:10.1021/am406050j JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:17 AU: Huang, Jianhua;Wang, Xue;Zhang, Xin;Niu, Zhixiao;Lu, Zhenhuan;Jiang, Bo;Sun, Yuxi;Zhan, Chuanlang;Yao, Jiannian;
2:5:53 Impact of dye end groups on acceptor-donor-acceptor type molecules for solution-processed photovoltaic cells
DOI:10.1039/c2jm30194f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:36 AU: He, Guangrui;Li, Zhi;Wan, Xiangjian;Liu, Yongsheng;Zhou, Jiaoyan;Long, Guankui;Zhang, Mingtao;Chen, Yongsheng;
2:5:54 Efficient small molecule bulk heterojunction solar cells with high fill factors via introduction of pi-stacking moieties as end group
DOI:10.1039/c2ta00496h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:38 AU: He, Guangrui;Li, Zhi;Wan, Xiangjian;Zhou, Jiaoyan;Long, Guankui;Zhang, Shuzhong;Zhang, Mingtao;Chen, Yongsheng;
2:5:55 An A-D-A small molecule based on the 3,6-dithienylcarbazole electron donor (D) unit and nitrophenyl acrylonitrile electron acceptor (A) units for solution processed organic solar cells
DOI:10.1039/c2ta00749e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:14 AU: Singh, Manjeet;Kurchania, Rajnish;Mikroyannidis, J. A.;Sharma, S. S.;Sharma, G. D.;
2:5:56 Manipulation of the Open-Circuit Voltage of Organic Solar Cells by Desymmetrization of the Structure of Acceptor-Donor-Acceptor Molecules
DOI:10.1002/adfm.201101508 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:60 AU: Demeter, Dora;Rousseau, Theodulf;Leriche, Philippe;Cauchy, Thomas;Po, Riccardo;Roncali, Jean;
2:5:57 Solvent Additive Effects on Small Molecule Crystallization in Bulk Heterojunction Solar Cells Probed During Spin Casting
DOI:10.1002/adma.201302389 JN:ADVANCED MATERIALS PY:2013 TC:35 AU: Perez, Louis A.;Chou, Kang Wei;Love, John A.;van der Poll, Thomas S.;Smilgies, Detlef-M.;Nguyen, Thuc-Quyen;Kramer, Edward J.;Amassian, Aram;Bazan, Guillermo C.;
2:5:58 Dithienosilole-bridged small molecules with different alkyl group substituents for organic solar cells exhibiting high open-circuit voltage
DOI:10.1039/c3ta11257h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:24 AU: Ye, Dandan;Li, Xiaodong;Yan, Lei;Zhang, Wenjun;Hu, Zhao;Liang, Ying;Fang, Junfeng;Wong, Wai-Yeung;Wang, Xingzhu;
2:5:59 Understanding the Role of Thermal Processing in High Performance Solution Processed Small Molecule Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201200631 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:23 AU: Leong, Wei Lin;Welch, Gregory C.;Seifter, Jason;Seo, Jung Hwa;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:60 The Influence of Solubilizing Chain Stereochemistry on Small Molecule Photovoltaics
DOI:10.1002/adfm.201401030 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Zerdan, Raghida Bou;Shewmon, Nathan T.;Zhu, Yu;Mudrick, John P.;Chesney, Kyle J.;Xue, Jiangeng;Castellano, Ronald K.;
2:5:61 Molecular Materials for Organic Photovoltaics: Small is Beautiful
DOI:10.1002/adma.201305999 JN:ADVANCED MATERIALS PY:2014 TC:79 AU: Roncali, Jean;Leriche, Philippe;Blanchard, Philippe;
2:5:62 Effect of structure on the solubility and photovoltaic properties of bis-diketopyrrolopyrrole molecules
DOI:10.1039/c3ta13720a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:15 AU: Li, Weiwei;Kelchtermans, Mathias;Wienk, Martijn M.;Janssen, Rene A. J.;
2:5:63 Tri-Diketopyrrolopyrrole Molecular Donor Materials for High-Performance Solution-Processed Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201302007 JN:ADVANCED MATERIALS PY:2013 TC:33 AU: Liu, Jianhua;Sun, Yanming;Moonsin, Preecha;Kuik, Martijn;Proctor, Christopher M.;Lin, Jason;Hsu, Ben B.;Promarak, Vinich;Heeger, Alan J.;Thuc-Quyen Nguyen;
2:5:64 Solution-Processed Small Molecules Using Different Electron Linkers for High-Performance Solar Cells
DOI:10.1002/adma.201301716 JN:ADVANCED MATERIALS PY:2013 TC:53 AU: Liu, Yongsheng;Yang, Yang (Michael);Chen, Chun-Chao;Chen, Qi;Dou, Letian;Hong, Ziruo;Li, Gang;Yang, Yang;
2:5:65 Pyrene and Diketopyrrolopyrrole-Based Oligomers Synthesized via Direct Arylation for OSC Applications
DOI:10.1021/am500522x JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:14 AU: Liu, Shi-Yong;Liu, Wen-Qing;Xu, Jing-Qi;Fan, Cong-Cheng;Fu, Wei-Fei;Ling, Jun;Wu, Jun-Yong;Shi, Min-Min;Jen, Alex K. -Y.;Chen, Hong-Zheng;
2:5:66 Novel naphtho[1,2-b:5,6-b ']dithiophene core linear donor-pi-acceptor conjugated small molecules with thiophene-bridged bithiazole acceptor: design, synthesis, and their application in bulk heterojunction organic solar cells
DOI:10.1039/c2jm30934c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Dutta, Pranabesh;Yang, Wooseung;Lee, Woo-Hyung;Kang, In Nam;Lee, Soo-Hyoung;
2:5:67 Solution-processed indacenodithiophene-based small molecule for bulk heterojunction solar cells
DOI:10.1039/c3ta12229h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:17 AU: Yong, Weina;Zhang, Maojie;Xin, Xiaodong;Li, Zhaojun;Wu, Yue;Guo, Xia;Yang, Zhou;Hou, Jianhui;
2:5:68 Significant improvement of photovoltaic performance by embedding thiophene in solution-processed star-shaped TPA-DPP backbone
DOI:10.1039/c3ta10640c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:34 AU: Tang, Ailing;Li, Liangjie;Lu, Zhenhuan;Huang, Jianhua;Jia, Hui;Zhan, Chuanlang;Tan, Zhan'ao;Li, Yongfang;Yao, Jiannian;
2:5:69 One, two and three-branched triphenylamine-oligothiophene hybrids for solution-processed solar cells
DOI:10.1039/c3ta10205j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:26 AU: Lin, Yuze;Zhang, Zhi-Guo;Li, Yongfang;Zhu, Daoben;Zhan, Xiaowei;
2:5:70 Synthesis, optical and electrochemical properties of small molecules DMM-TPA[DTS(FBTTh3)(3)] and TPA[DTS(FBTTh3)(3)], and their application as donors for bulk heterojunction solar cells
DOI:10.1039/c4ta01768d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Cho, Nara;Paek, Sanghyun;Jeon, Jihye;Song, Kihyung;Sharma, G. D.;Ko, Jaejung;
2:5:71 A Systematic Approach to Solvent Selection Based on Cohesive Energy Densities in a Molecular Bulk Heterojunction System
DOI:10.1002/aenm.201000054 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:67 AU: Walker, Bright;Tamayo, Arnold;Duong, Duc T.;Dang, Xuang-Dung;Kim, Chunki;Granstrom, Jimmy;Nguyen, Thuc-Quyen;
2:5:72 Polydimethylsiloxane as a Macromolecular Additive for Enhanced Performance of Molecular Bulk Heterojunction Organic Solar Cells
DOI:10.1021/am2000328 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:65 AU: Graham, Kenneth R.;Mei, Jianguo;Stalder, Romain;Shim, Jae Won;Cheun, Hyeunseok;Steffy, Fred;So, Franky;Kippelen, Bernard;Reynolds, John R.;
2:5:73 Organic bulk heterojunction solar cells based on solution processable small molecules (A-pi-A) featuring 2-(4-nitrophenyl) acrylonitrile acceptors and phthalimide-based pi-linkers
DOI:10.1039/c2jm16915k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Sharma, G. D.;Mikroyannidis, J. A.;Kurchania, Rajnish;Thomas, K. R. Justin;
2:5:74 Unsymmetrical Triphenylamine-Oligothiophene Hybrid Conjugated Systems as Donor Materials for High-Voltage Solution-Processed Organic Solar Cells
DOI:10.1002/aenm.201100065 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:57 AU: Ripaud, Emilie;Rousseau, Theodulf;Leriche, Philippe;Roncali, Jean;
2:5:75 Solution-Processable Star-Shaped Molecules with Triphenylamine Core and Dicyanovinyl Endgroups for Organic Solar Cells
DOI:10.1021/cm102077j JN:CHEMISTRY OF MATERIALS PY:2011 TC:91 AU: Zhang, Jing;Deng, Dan;He, Chang;He, Youjun;Zhang, Maojie;Zhang, Zhi-Guo;Zhang, Zhanjun;Li, Yongfang;
2:5:76 Efficient solution processed bulk-heterojunction solar cells based a donor-acceptor oligothiophene
DOI:10.1039/b925048d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:70 AU: Liu, Yongsheng;Wan, Xiangjian;Yin, Bin;Zhou, Jiaoyan;Long, Guankui;Yin, Shougen;Chen, Yongsheng;
2:5:77 Thiophene-based conjugated oligomers for organic solar cells
DOI:10.1039/c1jm12801a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:76 AU: Zhang, Fan;Wu, Dongqing;Xu, Youyong;Feng, Xinliang;
2:5:78 Formation of interfacial traps upon surface protonation in small molecule solution processed bulk heterojunctions probed by photoelectron spectroscopy
DOI:10.1039/c3tc31064g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Ratcliff, Erin L.;Bakus, Ronald C., II;Welch, Gregory C.;van der Poll, Tom S.;Garcia, Andres;Cowan, Sarah R.;MacLeod, Bradley A.;Ginley, David S.;Bazan, Guillermo C.;Olson, Dana C.;
2:5:79 Interrelation between Crystal Packing and Small-Molecule Organic Solar Cell Performance
DOI:10.1002/adma.201104439 JN:ADVANCED MATERIALS PY:2012 TC:65 AU: Fitzner, Roland;Elschner, Chris;Weil, Matthias;Uhrich, Christian;Koerner, Christian;Riede, Moritz;Leo, Karl;Pfeiffer, Martin;Reinold, Egon;Mena-Osteritz, Elena;Baeuerle, Peter;
2:5:80 Mobility Guidelines for High Fill Factor Solution-Processed Small Molecule Solar Cells
DOI:10.1002/adma.201401725 JN:ADVANCED MATERIALS PY:2014 TC:20 AU: Proctor, Christopher M.;Love, John A.;Thuc-Quyen Nguyen;
2:5:81 Influence of intermolecular interactions of electron donating small molecules on their molecular packing and performance in organic electronic devices
DOI:10.1039/c3ta13266h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Kim, Ki-Hyun;Yu, Hojeong;Kang, Hyunbum;Kang, Dong Jin;Cho, Chul-Hee;Cho, Han-Hee;Oh, Joon Hak;Kim, Bumjoon J.;
2:5:82 Triindole-cored star-shaped molecules for organic solar cells
DOI:10.1039/c3ta11182b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:15 AU: Lu, Zhen;Li, Cuihong;Fang, Tao;Li, Guangwu;Bo, Zhishan;
2:5:83 Solution-processable small molecules based on thieno[3,4-c]pyrrole-4,6-dione for high-performance solar cells
DOI:10.1016/j.solmat.2011.12.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Lin, Yuze;Cheng, Pei;Liu, Yao;Zhao, Xingang;Li, Desheng;Tan, Jiahui;Hu, Wenping;Li, Yongfang;Zhan, Xiaowei;
2:5:84 Alkyl Chain Engineering of Solution-Processable Star-Shaped Molecules for High-Performance Organic Solar Cells
DOI:10.1002/aenm.201301234 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:30 AU: Min, Jie;Luponosov, Yuriy N.;Gerl, Andreas;Polinskaya, Marina S.;Peregudova, Svetlana M.;Dmitryakov, Petr V.;Bakirov, Artem V.;Shcherbina, Maxim A.;Chvalun, Sergei N.;Grigorian, Souren;Kaush-Busies, Nina;Ponomarenko, Sergei A.;Ameri, Tayebeh;Brabec, Christoph J.;
2:5:85 Effects of Stereoisomerism on the Crystallization Behavior and Optoelectrical Properties of Conjugated Molecules
DOI:10.1002/adma.201300255 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Liu, Jianhua;Zhang, Yuan;Phan, Hung;Sharenko, Alexander;Moonsin, Preecha;Walker, Bright;Promarak, Vinich;Thuc-Quyen Nguyen;
2:5:86 New Molecular Donors with Dithienopyrrole as the Electron-Donating Group for Efficient Small-Molecule Organic Solar Cells
DOI:10.1021/cm5018147 JN:CHEMISTRY OF MATERIALS PY:2014 TC:9 AU: Lu, Hung-I;Lu, Chih-Wei;Lee, Ying-Chi;Lin, Hao-Wu;Lin, Li-Yen;Lin, Francis;Chang, Jung-Hung;Wu, Chih-I;Wong, Ken-Tsung;
2:5:87 Formation of highly crystalline and texturized donor domains in DPP(TBFu)(2):PC71BM SM-BHJ devices via solvent vapour annealing: implications for device function
DOI:10.1039/c2jm31235b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Viterisi, Aurelien;Gispert-Guirado, Francesc;Ryan, James William;Palomares, Emilio;
2:5:88 Investigation of Quinquethiophene Derivatives with Different End Groups for High Open Circuit Voltage Solar Cells
DOI:10.1002/aenm.201300046 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:17 AU: Long, Guankui;Wan, Xiangjian;Kan, Bin;Liu, Yongsheng;He, Guangrui;Li, Zhi;Zhang, Yawei;Zhang, Yi;Zhang, Qian;Zhang, Mingtao;Chen, Yongsheng;
2:5:89 pi-Extended Narrow-Bandgap Diketopyrrolopyrrole-Based Oligomers for Solution-Processed Inverted Organic Solar Cells
DOI:10.1002/aenm.201400879 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:5 AU: Shin, Woong;Yasuda, Takuma;Hidaka, Yu;Watanabe, Go;Arai, Ryota;Nasu, Keiro;Yamaguchi, Takahiro;Murakami, Wakako;Makita, Kengo;Adachi, Chihaya;
2:5:90 The role of solvent vapor annealing in highly efficient air-processed small molecule solar cells
DOI:10.1039/c4ta01125b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:18 AU: Sun, Kuan;Xiao, Zeyun;Hanssen, Eric;Klein, Michael F. G.;Dam, Henk H.;Pfaff, Marina;Gerthsen, Dagmar;Wong, Wallace W. H.;Jones, David J.;
2:5:91 Synthesis and properties of low bandgap star molecules TPA-[DTS-PyBTTh3](3) and DMM-TPA[DTS-PyBTTh3](3) for solution-processed bulk heterojunction organic solar cells
DOI:10.1039/c4tc01495b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Lim, Kimin;Lee, Seung Yeon;Song, Kihyung;Sharma, G. D.;Ko, Jaejung;
2:5:92 A direct arylation-derived DPP-based small molecule for solution-processed organic solar cells
DOI:10.1088/0957-4484/25/1/014006 JN:NANOTECHNOLOGY PY:2014 TC:10 AU: Liu, Shi-Yong;Fu, Wei-Fei;Xu, Jing-Qi;Fan, Cong-Cheng;Jiang, Hao;Shi, Minmin;Li, Han-Ying;Chen, Jun-Wu;Cao, Yong;Chen, Hong-Zheng;
2:5:93 Small-Molecule Solar Cells with Fill Factors up to 0.75 via a Layer-by-Layer Solution Process
DOI:10.1002/aenm.201300626 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:24 AU: Lin, Yuze;Ma, Lanchao;Li, Yongfang;Liu, Yunqi;Zhu, Daoben;Zhan, Xiaowei;
2:5:94 Molecular-Shape-Controlled Photovoltaic Performance Probed via Soluble pi-Conjugated Arylacetylenic Semiconductors
DOI:10.1002/adma.201101700 JN:ADVANCED MATERIALS PY:2011 TC:33 AU: Seri, Mirko;Marrocchi, Assunta;Bagnis, Diego;Ponce, Rocio;Taticchi, Aldo;Marks, Tobin J.;Facchetti, Antonio;
2:5:95 The Role of Additive in Diketopyrrolopyrrole-Based Small Molecular Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201302848 JN:ADVANCED MATERIALS PY:2013 TC:23 AU: Wang, Hongyu;Liu, Feng;Bu, Laju;Gao, Jun;Wang, Cheng;Wei, Wei;Russell, Thomas P.;
2:5:96 Enhancing the Performance of Solution-Processed Bulk-Heterojunction Solar Cells Using Hydrogen-Bonding-Induced Self-Organization of Small Molecules
DOI:10.1021/am4042614 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Lam, Kwan Hang;Foong, Thelese Ru Bao;Ooi, Zi En;Zhang, Jie;Grimsdale, Andrew Clive;Lam, Yeng Ming;
2:5:97 N,N-Diarylanilinosquaraines and Their Application to Organic Photovoltaics
DOI:10.1021/cm2020803 JN:CHEMISTRY OF MATERIALS PY:2011 TC:53 AU: Wang, Siyi;Hall, Lincoln;Diev, Vyacheslav V.;Haiges, Ralf;Wei, Guodan;Xiao, Xin;Djurovich, Peter I.;Forrest, Stephen R.;Thompson, Mark E.;
2:5:98 High-Performance Solution-Processed Solar Cells and Ambipolar Behavior in Organic Field-Effect Transistors with Thienyl-BODIPY Scaffoldings
DOI:10.1021/ja3072513 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:69 AU: Bura, Thomas;Leclerc, Nicolas;Fall, Sadiara;Leveque, Patrick;Heiser, Thomas;Retailleau, Pascal;Rihn, Sandra;Mirloup, Antoine;Ziessel, Raymond;
2:5:99 Electron deficient diketopyrrolopyrrole dyes for organic electronics: synthesis by direct arylation, optoelectronic characterization, and charge carrier mobility
DOI:10.1039/c3ta14414c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:16 AU: Hendsbee, Arthur D.;Sun, Jon-Paul;Rutledge, Lesley R.;Hill, Ian G.;Welch, Gregory C.;
2:5:100 Indacenodithiophene core-based small molecules with tunable side chains for solution-processed bulk heterojunction solar cells
DOI:10.1039/c3ta14659f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Liu, Xin;Li, QingDuan;Li, Yunchuan;Gong, Xiong;Su, Shi-Jian;Cao, Yong;
2:5:101 Roll-coating fabrication of flexible large area small molecule solar cells with power conversion efficiency exceeding 1%
DOI:10.1039/c4ta04733h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Liu, Wenqing;Liu, Shiyong;Zawacka, Natalia K.;Andersen, Thomas R.;Cheng, Pei;Fu, Lei;Chen, Meirong;Fu, Weifei;Bundgaard, Eva;Jorgensen, Mikkel;Zhan, Xiaowei;Krebs, Frederik C.;Chen, Hongzheng;
2:5:102 Solution-processed, indacenodithiophene-based, small-molecule organic field-effect transistors and solar cells
DOI:10.1039/c4tc00721b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:12 AU: Liu, Deyu;Xiao, Manjun;Du, Zhengkun;Yan, Yan;Han, Liangliang;Roy, V. A. L.;Sun, Mingliang;Zhu, Weiguo;Lee, Chun Sing;Yang, Renqiang;
2:5:103 A high-performance solution-processed small molecule: alkylselenophene-substituted benzodithiophene organic solar cell
DOI:10.1039/c4tc00187g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Kim, Yu Jin;Baek, Jang Yeol;Ha, Jong-jin;Chung, Dae Sung;Kwon, Soon-Ki;Park, Chan Eon;Kim, Yun-Hi;
2:5:104 Arylamine-Based Squaraine Donors for Use in Organic Solar Cells
DOI:10.1021/nl2022515 JN:NANO LETTERS PY:2011 TC:48 AU: Wei, Guodan;Xiao, Xin;Wang, Siyi;Zimmerman, Jeramy D.;Sun, Kai;Diev, Vyacheslav V.;Thompson, Mark E.;Forrest, Stephen R.;
2:5:105 Nanoscopic Management of Molecular Packing and Orientation of Small Molecules by a Combination of Linear and Branched Alkyl Side Chains
DOI:10.1021/nn501133y JN:ACS NANO PY:2014 TC:8 AU: Jung, Minwoo;Yoon, Youngwoon;Park, Jae Hoon;Cha, Wonsuk;Kim, Ajeong;Kang, Jinback;Gautam, Sanjeev;Seo, Dongkyun;Cho, Jeong Ho;Kim, Hyunjung;Choi, Jong Yong;Chae, Keun Hwa;Kwak, Kyungwon;Son, Hae Jung;Ko, Min Jae;Kim, Honggon;Lee, Doh-Kwon;Kim, Jin Young;Choi, Dong Hoon;Kim, BongSoo;
2:5:106 Device Engineering for Highly Efficient Top-Illuminated Organic Solar Cells with Microcavity Structures
DOI:10.1002/adma.201200487 JN:ADVANCED MATERIALS PY:2012 TC:33 AU: Lin, Hao-Wu;Chiu, Si-Wen;Lin, Li-Yen;Hung, Zheng-Yu;Chen, Yi-Hong;Lin, Francis;Wong, Ken-Tsung;
2:5:107 Increase in internal quantum efficiency in small molecular oligothiophene: C-60 mixed heterojunction solar cells by substrate heating
DOI:10.1063/1.3475766 JN:APPLIED PHYSICS LETTERS PY:2010 TC:36 AU: Wynands, D.;Levichkova, M.;Leo, K.;Uhrich, C.;Schwartz, G.;Hildebrandt, D.;Pfeiffer, M.;Riede, M.;
2:5:108 An Easily Accessible Donor-pi-Acceptor-Conjugated Small Molecule from a 4,8-Dialkoxybenzo[1,2-b:4,5-b ']dithiophene Unit for Efficient Solution-Processed Organic Solar Cells
DOI:10.1021/am301841p JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:19 AU: Dutta, Pranabesh;Kim, Jeongseok;Eom, Seung Hun;Lee, Woo-Hyung;Kang, In Nam;Lee, Soo-Hyoung;
2:5:109 Symmetry and Coplanarity of Organic Molecules Affect their Packing and Photovoltaic Properties in Solution-Processed Solar Cells
DOI:10.1021/am501659u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Lan, Shang-Che;Raghunath, Putikam;Lu, Yueh-Hsin;Wang, Yi-Chien;Lin, Shu-Wei;Liu, Chih-Ming;Jiang, Jian-Ming;Lin, Ming-Chang;Wei, Kung-Hwa;
2:5:110 Acceptor-Donor-Acceptor Small Molecules Based on Indacenodithiophene for Efficient Organic Solar Cells
DOI:10.1021/am501316y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:19 AU: Bai, Huitao;Wang, Yifan;Cheng, Pei;Li, Yongfang;Zhu, Daoben;Zhan, Xiaowei;
2:5:111 Solution-Processable Crystalline Platinum-Acetylide Oligomers with Broadband Absorption for Photovoltaic Cells
DOI:10.1021/cm903329a JN:CHEMISTRY OF MATERIALS PY:2010 TC:60 AU: Zhao, Xiaoyong;Piliego, Claudia;Kim, BongSoo;Poulsen, Daniel A.;Ma, Biwu;Unruh, David A.;Frechet, Jean M. J.;
2:5:112 New X-shaped oligothiophenes for solution-processed solar cells
DOI:10.1039/c1jm10814j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Shang, Huixia;Fan, Haijun;Liu, Yao;Hu, Wenping;Li, Yongfang;Zhan, Xiaowei;
2:5:113 High efficiency solution-processed two-dimensional small molecule organic solar cells obtained via low-temperature thermal annealing
DOI:10.1039/c4ta03314k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:13 AU: Du, Zhengkun;Chen, Weichao;Chen, Yanhua;Qiao, Shanlin;Bao, Xichang;Wen, Shuguang;Sun, Mingliang;Han, Liangliang;Yang, Renqiang;
2:5:114 Effect of thermal annealing on active layer morphology and performance for small molecule bulk heterojunction organic solar cells
DOI:10.1039/c4tc00994k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Yi, Zuo;Ni, Wang;Zhang, Qian;Li, Miaomiao;Kan, Bin;Wan, Xiangjian;Chen, Yongsheng;
2:5:115 Enhanced Efficiency Parameters of Solution-Processable Small-Molecule Solar Cells Depending on ITO Sheet Resistance
DOI:10.1002/aenm.201300277 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:43 AU: Wang, Dong Hwan;Kyaw, Aung Ko Ko;Gupta, Vinay;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:116 Effects of Shortened Alkyl Chains on Solution-Processable Small Molecules with Oxo-Alkylated Nitrile End-Capped Acceptors for High-Performance Organic Solar Cells
DOI:10.1002/aenm.201400538 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:9 AU: Deng, Dan;Zhang, Yajie;Yuan, Liu;He, Chang;Lu, Kun;Wei, Zhixiang;
2:5:117 Structural modification of thieno[3,4-c]pyrrole-4,6-dione: structure-property relationships and application in solution-processed small-molecule organic solar cells
DOI:10.1039/c3ta10471k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Wang, Hong-Yu;Gao, Jun;Gu, Ling-Jie;Wan, Jun-Hua;Wei, Wei;Liu, Feng;
2:5:118 Power efficiency enhancement of solution-processed small-molecule solar cells based on squaraine via thermal annealing and solvent additive methods
DOI:10.1016/j.solmat.2012.11.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:12 AU: Guan, Zhiqiang;Yu, Junsheng;Huang, Jiang;Zhang, Lei;
2:5:119 Mapping Orientational Order in a Bulk Heterojunction Solar Cell with Polarization-Dependent Photoconductive Atomic Force Microscopy
DOI:10.1021/nn502277d JN:ACS NANO PY:2014 TC:4 AU: Takacs, Christopher J.;Collins, Samuel D.;Love, John A.;Mikhailovsky, Alexander A.;Wynands, David;Bazan, Guillermo C.;Thuc-Quyen Nguyen;Heeger, Alan J.;
2:5:120 C-H activation: making diketopyrrolopyrrole derivatives easily accessible
DOI:10.1039/c2ta01318e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:35 AU: Liu, Shi-Yong;Shi, Min-Min;Huang, Jia-Chi;Jin, Zheng-Neng;Hu, Xiao-Lian;Pan, Jun-Ying;Li, Han-Ying;Jen, Alex K. -Y.;Chen, Hong-Zheng;
2:5:121 Highly efficient organic solar cells using a solution-processed active layer with a small molecule donor and pristine fullerene
DOI:10.1039/c3ta15138g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Lin, Hao-Wu;Chang, Jung-Hao;Huang, Wei-Ching;Lin, Yu-Ting;Lin, Li-Yen;Lin, Francis;Wong, Ken-Tsung;Wang, Hsiao-Fang;Ho, Rong-Ming;Meng, Hsin-Fei;
2:5:122 Impact of fluorinated end groups on the properties of acceptor-donor acceptor type oligothiophenes for solution-processed photovoltaic cells
DOI:10.1039/c3tc31709a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: He, Guangrui;Wan, Xiangjian;Li, Zhi;Zhang, Qian;Long, Guankui;Liu, Yongsheng;Hou, Yanhui;Zhang, Mingtao;Chen, Yongsheng;
2:5:123 Synthesis and Structure-Property Correlations of Dicyanovinyl-Substituted Oligoselenophenes and their Application in Organic Solar Cells
DOI:10.1002/adfm.201201018 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:21 AU: Haid, Stefan;Mishra, Amaresh;Weil, Matthias;Uhrich, Christian;Pfeiffer, Martin;Baeuerle, Peter;
2:5:124 Direct Comparison of Highly Efficient Solution- and Vacuum-Processed Organic Solar Cells Based on Merocyanine Dyes
DOI:10.1002/adma.201000800 JN:ADVANCED MATERIALS PY:2010 TC:53 AU: Kronenberg, Nils M.;Steinmann, Vera;Buerckstuemmer, Hannah;Hwang, Jaehyung;Hertel, Dirk;Wuerthner, Frank;Meerholz, Klaus;
2:5:125 2-Alkyl-5-thienyl-Substituted Benzo[1,2-b:4,5-b ']dithiophene-Based Donor Molecules for Solution-Processed Organic Solar Cells
DOI:10.1021/am4021928 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:26 AU: Patra, Dhananjaya;Huang, Tzu-Yen;Chiang, Chao-Cheng;Maturana, Ramon Orlando Valencia;Pao, Chun-Wei;Ho, Kuo-Chuan;Wei, Kung-Hwa;Chu, Chih-Wei;
2:5:126 Star-Shaped D-A Small Molecules Based on Diketopyrrolopyrrole and Triphenylamine for Efficient Solution-Processed Organic Solar Cells
DOI:10.1021/am302623k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:35 AU: Pan, Jun-Ying;Zuo, Li-Jian;Hu, Xiao-Lian;Fu, Wei-Fei;Chen, Mei-Rong;Fu, Lei;Gu, Xiao;Shi, Hang-Qi;Shi, Min-Min;Li, Han-Ying;Chen, Hong-Zheng;
2:5:127 Solution-Processable Low-Molecular Weight Extended Arylacetylenes: Versatile p-Type Semiconductors for Field-Effect Transistors and Bulk Heterojunction Solar Cells
DOI:10.1021/ja910420t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:70 AU: Silvestri, Fabio;Marrocchi, Assunta;Seri, Mirko;Kim, Choongik;Marks, Tobin J.;Facchetti, Antonio;Taticchi, Aldo;
2:5:128 A diketopyrrolopyrrole molecule end-capped with a furan-2-carboxylate moiety: the planarity of molecular geometry and photovoltaic properties
DOI:10.1039/c3ta13534a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:16 AU: Fu, Lei;Fu, Weifei;Cheng, Pei;Xie, Zhixin;Fan, Congcheng;Shi, Minmin;Ling, Jun;Hou, Jianhui;Zhan, Xiaowei;Chen, Hongzheng;
2:5:129 Efficiency Improvement of Solution-Processed Dithienopyrrole-Based A-D-A Oligothiophene Bulk-Heterojunction Solar Cells by Solvent Vapor Annealing
DOI:10.1002/aenm.201400266 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:18 AU: Wessendorf, Cordula D.;Schulz, Gisela L.;Mishra, Amaresh;Kar, Prasenjit;Ata, Ibrahim;Weidelener, Martin;Urdanpilleta, Marta;Hanisch, Jonas;Mena-Osteritz, Elena;Linden, Mika;Ahlswede, Erik;Baeuerle, Peter;
2:5:130 Oligoselenophene Derivatives Functionalized with a Diketopyrrolopyrrole Core for Molecular Bulk Heterojunction Solar Cells
DOI:10.1021/am100920s JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:37 AU: Mazzio, Katherine A.;Yuan, Mingjian;Okamoto, Ken;Luscombe, Christine K.;
2:5:131 Small Molecules Based on Thieno[3,4-c]pyrrole-4,6-dione for High Open-Circuit Voltage (V-OC) Organic Photovoltaics: Effect of Different Positions of Alkyl Substitution on Molecular Packing and Photovoltaic Performance
DOI:10.1021/am505608s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Choi, Yoon Suk;Shin, Tae Joo;Jo, Won Ho;
2:5:132 NIR-Absorbing Merocyanine Dyes for BHJ Solar Cells
DOI:10.1021/cm502302s JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Zitzler-Kunkel, Andre;Lenze, Martin R.;Kronenberg, Nils M.;Krause, Ana-Maria;Stolte, Matthias;Meerholz, Klaus;Wuerthner, Frank;
2:5:133 Lewis Acid Adducts of Narrow Band Gap Conjugated Polymers
DOI:10.1021/ja110968m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:57 AU: Welch, Gregory C.;Bazan, Guillermo C.;
2:5:134 Tuning optical and electronic properties of star-shaped conjugated molecules with enlarged pi-delocalization for organic solar cell application
DOI:10.1039/c3ta11001j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:16 AU: Jiang, Youyu;Yu, Di;Lu, Luhua;Zhan, Chun;Wu, Di;You, Wei;Xie, Zhizhong;Xiao, Shengqiang;
2:5:135 An ester-functionalized diketopyrrolopyrrole molecule with appropriate energy levels for application in solution-processed organic solar cells
DOI:10.1039/c2ta00148a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:25 AU: Chen, Meirong;Fu, Weifei;Shi, Minmin;Hu, Xiaolian;Pan, Junying;Ling, Jun;Li, Hangying;Chen, Hongzheng;
2:5:136 Towards environmentally friendly processing of molecular semiconductors
DOI:10.1039/c3ta12690k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:11 AU: Henson, Zachary B.;Zalar, Peter;Chen, Xiaofen;Welch, Gregory C.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:5:137 Interpenetrating morphology based on highly crystalline small molecule and PCBM blends
DOI:10.1039/c4tc01451k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Liu, Feng;Zhang, Lei;Zhang, Yue;Mannsfeld, Stefan C. B.;Russell, Thomas P.;Briseno, Alejandro L.;
2:5:138 Quinacridone-Based Molecular Donors for Solution Processed Bulk-Heterojunction Organic Solar Cells
DOI:10.1021/am100523g JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:44 AU: Chen, John Jun-An;Chen, Teresa L.;Kim, BongSoo;Poulsen, Daniel A.;Mynar, Justin L.;Frechet, Jean M. J.;Ma, Biwu;
2:5:139 Unambiguous determination of molecular packing in crystalline donor domains of small molecule solution processed solar cell devices using routine X-ray diffraction techniques
DOI:10.1039/c3ta13116e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Viterisi, Aurelien;Montcada, Nuria F.;Kumar, Challuri Vijay;Gispert-Guirado, Francesc;Martin, Eddy;Escudero, Eduardo;Palomares, Emilio;
2:5:140 Ambient roll-to-roll fabrication of flexible solar cells based on small molecules
DOI:10.1039/c3tc31708k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:25 AU: Lin, Yuze;Dam, Henrik F.;Andersen, Thomas R.;Bundgaard, Eva;Fu, Weifei;Chen, Hongzheng;Krebs, Frederik C.;Zhan, Xiaowei;
2:5:141 Two-dimensional benzodithiophene and benzothiadiazole based solution-processed small molecular organic field-effect transistors & solar cells
DOI:10.1039/c4tc00086b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Chen, Yanhua;Yan, Yan;Du, Zhengkun;Bao, Xichang;Liu, Qian;Roy, V. A. L.;Sun, Mingliang;Yang, Renqiang;Lee, Chun Sing;
2:5:142 Interfacial layer for efficiency improvement of solution-processed small molecular solar cells
DOI:10.1016/j.solmat.2013.08.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Liu, Yang;Zhang, Fujun;Dai, Haidao;Tang, Weihua;Wang, Zixuan;Wang, Jian;Tang, Aiwei;Peng, Hongsheng;Xu, Zheng;Wang, Yongsheng;
2:5:143 Effects of Processing Conditions on the Recombination Reduction in Small Molecule Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201400438 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:7 AU: Zalar, Peter;Kuik, Martijn;Ran, Niva A.;Love, John A.;Thuc-Quyen Nguyen;
2:5:144 Chain Length Dependence of the Photovoltaic Properties of Monodisperse Donor-Acceptor Oligomers as Model Compounds of Polydisperse Low Band Gap Polymers
DOI:10.1002/adfm.201401945 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Zhou, Cheng;Liang, Yamin;Liu, Feng;Sun, Chen;Huang, Xuelong;Xie, Zengqi;Huang, Fei;Roncali, Jean;Russell, Thomas P.;Cao, Yong;
2:5:145 Interplay of Solvent Additive Concentration and Active Layer Thickness on the Performance of Small Molecule Solar Cells
DOI:10.1002/adma.201402403 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Love, John A.;Collins, Samuel D.;Nagao, Ikuhiro;Mukherjee, Subhrangsu;Ade, Harald;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:5:146 High-Molecular-Weight Insulating Polymers Can Improve the Performance of Molecular Solar Cells
DOI:10.1002/adma.201400497 JN:ADVANCED MATERIALS PY:2014 TC:10 AU: Huang, Ye;Wen, Wen;Mukherjee, Subhrangsu;Ade, Harald;Kramer, Edward J.;Bazan, Guillermo C.;
2:5:147 Microcavity-Embedded, Colour-Tuneable, Transparent Organic Solar Cells
DOI:10.1002/adma.201304658 JN:ADVANCED MATERIALS PY:2014 TC:10 AU: Chen, Yi-Hong;Chen, Chang-Wen;Huang, Zheng-Yu;Lin, Wei-Chieh;Lin, Li-Yen;Lin, Francis;Wong, Ken-Tsung;Lin, Hao-Wu;
2:5:148 Solution-processed bulk heterojunction organic solar cells based on an oligothiophene derivative
DOI:10.1063/1.3460911 JN:APPLIED PHYSICS LETTERS PY:2010 TC:37 AU: Yin, Bin;Yang, Liying;Liu, Yongsheng;Chen, Yongsheng;Qi, Qingjin;Zhang, Fengling;Yin, Shougen;
2:5:149 Tailor-Made Additives for Morphology Control in Molecular Bulk-Heterojunction Photovoltaics
DOI:10.1021/am301944g JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:21 AU: Graham, Kenneth R.;Stalder, Romain;Wieruszewski, Patrick M.;Patel, Dinesh G. (Dan);Salazar, Danielle H.;Reynolds, John R.;
2:5:150 Photocurrent Enhancement of BODIPY-Based Solution-Processed Small-Molecule Solar Cells by Dimerization via the Meso Position
DOI:10.1021/am506585u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Liu, Wenxu;Tang, Ailing;Chen, Jianwei;Wu, Yishi;Zhan, Chuanlang;Yao, Jiannian;
2:5:151 Correlation between morphology and performance of low bandgap oligothiophene:C60 mixed heterojunctions in organic solar cells
DOI:10.1063/1.3271407 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:35 AU: Wynands, D.;Levichkova, M.;Riede, M.;Pfeiffer, M.;Baeuerle, P.;Rentenberger, R.;Denner, P.;Leo, K.;
2:5:152 Small molecules based on 2,7-carbazole for efficient solution-processed organic solar cells
DOI:10.1039/c3ta11168g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:17 AU: Li, Pengcheng;Tong, Hui;Ding, Junqiao;Xie, Zhiyuan;Wang, Lixiang;
2:5:153 Solution-processed benzotrithiophene-based donor molecules for efficient bulk heterojunction solar cells
DOI:10.1039/c3ta11544e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:21 AU: Patra, Dhananjaya;Chiang, Chao-Cheng;Chen, Wei-An;Wei, Kung-Hwa;Wu, Meng-Chyi;Chu, Chih-Wei;
2:5:154 Consequences of hydrogen bonding on molecular organization and charge transport in molecular organic photovoltaic materials
DOI:10.1039/c3ta13529b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:14 AU: Schulze, Benjamin M.;Shewmon, Nathan T.;Zhang, Jing;Watkins, Davita L.;Mudrick, John P.;Cao, Weiran;Zerdan, Raghida Bou;Quartararo, Anthony J.;Ghiviriga, Ion;Xue, Jiangeng;Castellano, Ronald K.;
2:5:155 Insights into pi-Conjugated Small Molecule Neat Films and Blends As Determined Through Photoconductivity
DOI:10.1021/nn303724m JN:ACS NANO PY:2012 TC:25 AU: Jasieniak, Jacek J.;Hsu, Ben B. Y.;Takacs, Christopher J.;Welch, Gregory C.;Bazan, Guillermo C.;Moses, Daniel;Heeger, Alan J.;
2:5:156 Efficiency enhancement in small molecule bulk heterojunction organic solar cells via additive
DOI:10.1063/1.3491268 JN:APPLIED PHYSICS LETTERS PY:2010 TC:35 AU: Fan, Haijun;Shang, Huixia;Li, Yongfang;Zhan, Xiaowei;
2:5:157 Solution-Processed Organic Solar Cells from Dye Molecules: An Investigation of Diketopyrrolopyrrole:Vinazene Heterojunctions
DOI:10.1021/am201304e JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:26 AU: Walker, Bright;Han, Xu;Kim, Chunki;Sellinger, Alan;Thuc-Quyen Nguyen;
2:5:158 Design and synthesis of solution processable small molecules towards high photovoltaic performance
DOI:10.1039/c0jm02510k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:46 AU: Li, Zaifang;Dong, Qingfeng;Li, Yaowen;Xu, Bin;Deng, Meng;Pei, Jianing;Zhang, Jibo;Chen, Feipeng;Wen, Shanpeng;Gao, Yajun;Tian, Wenjing;
2:5:159 A non-fullerene acceptor with all "A" units realizing high open-circuit voltage solution-processed organic photovoltaics
DOI:10.1039/c3ta14396a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Chen, Lingcheng;Huang, Linquan;Yang, Dong;Ma, Shuying;Zhou, Xin;Zhang, Jian;Tu, Guoli;Li, Can;
2:5:160 Linkage effects of linear D-pi-A-pi-D type diketopyrrolopyrrole-triphenylamine based solution-processable organic small molecule photovoltaic materials
DOI:10.1039/c3tc32214a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Ji, Changyan;Yin, Lunxiang;Wang, Lihui;Jia, Tao;Meng, Shixiang;Sun, Yingji;Li, Yanqin;
2:5:161 Molecular engineering of Diketopyrrolopyrrole-based photosensitizer for solution processed small molecule bulk heterojunction solar cells
DOI:10.1016/j.solmat.2011.01.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:27 AU: Jeong, Ban-Seok;Choi, Hyunbong;Cho, Nara;Ko, Haye Min;Lim, Woocherl;Song, Kihyung;Lee, Jae Kwan;Ko, Jaejung;
2:5:162 Novel unsymmetrical push-pull squaraine chromophores for solution processed small molecule bulk heterojunction solar cells
DOI:10.1016/j.solmat.2011.10.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:27 AU: So, Seulgi;Choi, Hyunbong;Ko, Haye Min;Kim, Chulwoo;Paek, Sanghyun;Cho, Nara;Song, Kihyung;Lee, Jae Kwan;Ko, Jaejung;
2:5:163 Low HOMO isoindigo based small molecule for high open-circuit voltage 1.0V solution processed organic solar cells
DOI:10.1016/j.synthmet.2013.06.024 JN:SYNTHETIC METALS PY:2013 TC:14 AU: Liu, Qian;Du, Zhengkun;Chen, Weichao;Sun, Liang;Chen, Yanhua;Sun, Mingliang;Yang, Renqiang;
2:5:164 Single Material Solar Cells: the Next Frontier for Organic Photovoltaics?
DOI:10.1002/aenm.201000008 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:36 AU: Roncali, Jean;
2:5:165 Comparative Studies on Optical, Redox, and Photovoltaic Properties of a Series of D-A-D and Analogous D-A Chromophores
DOI:10.1002/adfm.201400455 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Zitzler-Kunkel, Andre;Lenze, Martin R.;Schnier, Tobias;Meerholz, Klaus;Wuerthner, Frank;
2:5:166 Photoresponse of Donor/Acceptor Blends in Organic Transistors: A Tool for Understanding Field-Assisted Charge Separation in Small Molecule Bulk Heterojunction Solar Cells
DOI:10.1021/am302833j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Zhang, Yuan;Liu, Jianhua;Thuc-Quyen Nguyen;
2:5:167 Structure-Property Relationship Study of Substitution Effects on Isoindigo-Based Model Compounds as Electron Donors in Organic Solar Cells
DOI:10.1021/am503812f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Ren, Yi;Hiszpanski, Anna M.;Whittaker-Brooks, Luisa;Loo, Yueh-Lin;
2:5:168 Comparative Study of Microscopic Charge Dynamics in Crystalline Acceptor-Substituted Oligothiophenes
DOI:10.1021/ja300851q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:26 AU: Schrader, Manuel;Fitzner, Roland;Hein, Moritz;Elschner, Chris;Baumeier, Bjoern;Leo, Karl;Riede, Moritz;Baeuerle, Peter;Andrienko, Denis;
2:5:169 Molecular engineering of push-pull chromophore for efficient bulk-heterojunction morphology in solution processed small molecule organic photovoltaics
DOI:10.1039/c1jm10667h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:41 AU: Ko, Haye Min;Choi, Hyunbong;Paek, Sanghyun;Kim, Kyungjun;Song, Kihyung;Lee, Jae Kwan;Ko, Jaejung;
2:5:170 Triisopropylsilylethynyl-functionalized dibenzo[def,mno]chrysene: a solution-processed small molecule for bulk heterojunction solar cells
DOI:10.1039/c2jm14998b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Zhang, Lei;Walker, Bright;Liu, Feng;Colella, Nicholas S.;Mannsfeld, Stefan C. B.;Watkins, James J.;Thuc-Quyen Nguyen;Briseno, Alejandro L.;
2:5:171 Push-pull organic semiconductors comprising of bis-dimethylfluorenyl amino benzo[b]thiophene donor and various acceptors for solution processed small molecule organic solar cells
DOI:10.1016/j.solmat.2012.03.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Kim, Jooyoung;Cho, Nara;Ko, Haye Min;Kim, Chulwoo;Lee, Jae Kwan;Ko, Jaejung;
2:5:172 Donor-acceptor small molecule with coplanar and rigid pi-bridge for efficient organic solar cells
DOI:10.1016/j.solmat.2012.10.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Chi, Liang-Chen;Chen, Hsiao-Fan;Hung, Wen-Yi;Hsu, Yu-Hsiang;Feng, Ping-Chi;Chou, Shu-Hua;Liu, Yi-Hung;Wong, Ken-Tsung;
2:5:173 Novel liquid crystalline oligomer with thiazolothiazole-acceptor for efficient BHJ small molecule organic solar cells
DOI:10.1016/j.synthmet.2013.11.012 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Nazim, M.;Ameen, Sadia;Akhtar, M. Shaheer;Seo, Hyung-Kee;Shin, Hyung Shik;
2:5:174 Synthesis and Characterization of Acceptor-Substituted Oligothiophenes for Solar Cell Applications
DOI:10.1002/aenm.201100026 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:21 AU: Mishra, Amaresh;Uhrich, Christian;Reinold, Egon;Pfeiffer, Martin;Baeuerle, Peter;
2:5:175 Dicyanovinylene-Substituted Selenophene-Thiophene Co-oligomers for Small-Molecule Organic Solar Cells
DOI:10.1021/cm201392c JN:CHEMISTRY OF MATERIALS PY:2011 TC:34 AU: Haid, Stefan;Mishra, Amaresh;Uhrich, Christian;Pfeiffer, Martin;Baeuerle, Peter;
2:5:176 lsoindigo-Containing Molecular Semiconductors: Effect of Backbone Extension on Molecular Organization and Organic Solar Cell Performance
DOI:10.1021/cm503312c JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Ren, Yi;Hailey, Anna K.;Hiszpanski, Anna M.;Loo, Yueh-Lin;
2:5:177 Low band gap conjugated small molecules containing benzobisthiadiazole and thienothiadiazole central units: synthesis and application for bulk heterojunction solar cells
DOI:10.1039/c0jm03436c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:31 AU: Mikroyannidis, J. A.;Tsagkournos, D. V.;Sharma, S. S.;Vijay, Y. K.;Sharma, G. D.;
2:5:178 Effects of oligothiophene pi-bridge length on physical and photovoltaic properties of star-shaped molecules for bulk heterojunction solar cells
DOI:10.1039/c4ta01933d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Min, Jie;Luponosov, Yuriy N.;Baran, Derya;Chvalun, Sergei N.;Shcherbina, Maxim A.;Bakirov, Artem V.;Dmitryakov, Petr V.;Peregudova, Svetlana M.;Kausch-Busies, Nina;Ponomarenko, Sergei A.;Ameri, Tayebeh;Brabec, Christoph J.;
2:5:179 Marked effects of indolyl vs. indolinyl substituent on solid-state structure, carrier mobility and photovoltaic efficiency of asymmetrical squaraine dyes
DOI:10.1039/c4ta03859b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Yang, Lin;Yang, Qianqian;Yang, Daobin;Luo, Qian;Zhu, Youqin;Huang, Yan;Zhao, Suling;Lu, Zhiyun;
2:5:180 A new class of three-dimensional, p-type, spirobifluorene-modified perylene diimide derivatives for small molecular-based bulk heterojunction organic photovoltaic devices
DOI:10.1039/c4tc01001a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Chan, Chin-Yiu;Wong, Yi-Chun;Wong, Hok-Lai;Chan, Mei-Yee;Yam, Vivian Wing-Wah;
2:5:181 A solution-processable D-A-D small molecule based on isoindigo for organic solar cells
DOI:10.1007/s10853-012-6831-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:16 AU: Yang, Miao;Chen, Xuewen;Zou, Yingping;Pan, Chunyue;Liu, Bo;Zhong, Hong;
2:5:182 Effect of alkyl chain length on the photovoltaic performance of oligothiophene-based small molecules
DOI:10.1016/j.solmat.2014.07.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Li, Zaifang;Bian, Ji;Wang, Yanling;Jiang, Fangyuan;Liang, Guijie;He, Ping;Hou, Qiufei;Tong, Jinhui;Liang, Ying;Zhong, Zhicheng;Zhou, Yinhua;Tian, Wenjing;
2:5:183 Facile synthesis of 1-(2,6-diisopropylphenyl)-2,5-di(2-thienyl)pyrrole-based narrow band gap small molecules for solar cell applications
DOI:10.1016/j.synthmet.2013.06.003 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Tamilavan, Vellaiappillai;Song, Myungkwan;Kang, Jae-Wook;Hyun, Myung Ho;
2:5:184 Theoretical investigation on the electronic and charge transport characteristics of push-pull molecules for organic photovoltaic cells
DOI:10.1016/j.synthmet.2014.04.022 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Lee, Hyunbok;Yi, Yeonjin;Cho, Sang Wan;Choi, Won Kook;
2:5:185 Near-infrared response thienoisoindigo-based small molecule for solution-processed bulk-heterojunction solar cells
DOI:10.1016/j.synthmet.2013.10.017 JN:SYNTHETIC METALS PY:2014 TC:6 AU: Chen, Yanhua;Du, Zhengkun;Chen, Weichao;Han, Liangliang;Liu, Qian;Sun, Mingliang;Yang, Renqiang;
2:5:186 Triazatruxene-Diketopyrrolopyrrole Dumbbell-Shaped Molecules as Photoactive Electron Donor for High-Efficiency Solution Processed Organic Solar Cells
DOI:10.1002/aenm.201300240 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:23 AU: Bura, Thomas;Leclerc, Nicolas;Bechara, Rony;Leveque, Patrick;Heiser, Thomas;Ziessel, Raymond;
2:5:187 Controlling Polarity of Organic Bulk Heterojunction Field-Effect Transistors via Solvent Additives
DOI:10.1021/am400546x JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Park, Jin Kuen;Walker, Bright;Seo, Jung Hwa;
2:5:188 Bulk Charge Carrier Transport in Push-Pull Type Organic Semiconductor
DOI:10.1021/am505572v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Karak, Supravat;Liu, Feng;Russell, Thomas P.;Duzhko, Volodimyr V.;
2:5:189 Monodispersed vs. polydispersed systems for bulk heterojunction solar cells: the case of dithienopyrrole/anthracene based materials
DOI:10.1039/c2jm33795a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Grisorio, Roberto;Allegretta, Giovanni;Suranna, Gian Paolo;Mastrorilli, Piero;Loiudice, Anna;Rizzo, Aurora;Mazzeo, Marco;Gigli, Giuseppe;
2:5:190 Indolocarbazoles end-capped with diketopyrrolopyrroles: impact of regioisomerism on the solid-state properties and the performance of solution-processed bulk heterojunction solar cells
DOI:10.1039/c3ta12579c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:4 AU: Lin, Xu;Tani, Yuki;Kanda, Ryo;Nakayama, Ken-ichi;Yagai, Shiki;
2:5:191 Molecular engineering of small molecules donor materials based on phenoxazine core unit for solution-processed organic solar cells
DOI:10.1039/c4ta02042a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Cheng, Ming;Yang, Xichuan;Chen, Cheng;Tan, Qin;Sun, Licheng;
2:5:192 Use of a commercially available nucleating agent to control the morphological development of solution-processed small molecule bulk heterojunction organic solar cells
DOI:10.1039/c4ta03469d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Sharenko, Alexander;Treat, Neil D.;Love, John A.;Toney, Michael F.;Stingelin, Natalie;Thuc-Quyen Nguyen;
2:5:193 A star-shaped D-pi-A small molecule based on a tris(2-methoxyphenyl)amine core for highly efficient solution-processed organic solar cells
DOI:10.1039/c4tc01277a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Min, Jie;Luponosov, Yuriy N.;Solodukhin, Alexander N.;Kausch-Busies, Nina;Ponomarenko, Sergei A.;Ameri, Tayebeh;Brabec, Christoph J.;
2:5:194 Synthesis of diketopyrrolopyrrole (DPP)-based small molecule donors containing thiophene or furan for photovoltaic applications
DOI:10.1016/j.matchemphys.2013.10.020 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:9 AU: Kim, Yujeong;Song, Chang Eun;Cho, Ara;Kim, Jungwoon;Eom, Yoonho;Ahn, Jongho;Moon, Sang-Jin;Lim, Eunhee;
2:5:195 Solvent-resistant small molecule solar cells by roll-to-roll fabrication via introduction of azide cross-linkable group
DOI:10.1016/j.synthmet.2014.06.023 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Chen, Mei-Rong;Fan, Cong-Cheng;Andersen, Thomas R.;Dam, Henrik F.;Fu, Wei-Fei;Lin, Yu-Ze;Bundgaard, Eva;Krebs, Frederik C.;Zhan, Xiao-Wei;Chen, Hong-Zheng;
2:5:196 Interface Design to Improve the Performance and Stability of Solution-Processed Small-Molecule Conventional Solar Cells
DOI:10.1002/aenm.201400816 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:11 AU: Min, Jie;Luponosov, Yuriy N.;Zhang, Zhi-Guo;Ponomarenko, Sergei A.;Ameri, Tayebeh;Li, Yongfang;Brabec, Christoph J.;
2:5:197 Tuning of the Photovoltaic Parameters of Molecular Donors by Covalent Bridging
DOI:10.1002/adfm.201300427 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:23 AU: Demeter, Dora;Jeux, Victorien;Leriche, Philippe;Blanchard, Philippe;Olivier, Yoann;Cornil, Jerome;Po, Riccardo;Roncali, Jean;
2:5:198 All-Organic and Fully-Printed Semitransparent Photodetectors Based on Narrow Bandgap Conjugated Molecules
DOI:10.1002/adma.201402918 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Pace, Giuseppina;Grimoldi, Andrea;Natali, Dario;Sampietro, Marco;Coughlin, Jessica E.;Bazan, Guillermo C.;Caironi, Mario;
2:5:199 Diketopyrrolopyrrole-Containing Oligothiophene-Fullerene Triads and Their Use in Organic Solar Cells
DOI:10.1021/am200145t JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:27 AU: Chen, Teresa L.;Zhang, Yue;Smith, Patrizia;Tamayo, Arnold;Liu, Yi;Ma, Biwu;
2:5:200 Morphological Effects on the Small-Molecule-Based Solution-Processed Organic Solar Cells
DOI:10.1021/am5027538 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Lee, Dong-Chan;Brownell, Lacie V.;Yan, Liang;You, Wei;
2:5:201 Topological Considerations for the Design of Molecular Donors with Multiple Absorbing Units
DOI:10.1021/ja501711m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Lai, Lai Fan;Love, John A.;Sharenko, Alexander;Coughlin, Jessica E.;Gupta, Vinay;Tretiak, Sergei;Thuc-Quyen Nguyen;Wong, Wai-Yeung;Bazan, Guillermo C.;
2:5:202 Solution processable donor-acceptor oligothiophenes for bulk-heterojunction solar cells
DOI:10.1039/b926203b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:34 AU: Zhang, Weifeng;Tse, Shing Chi;Lu, Jianping;Tao, Ye;Wong, Man Shing;
2:5:203 A triphenylamine-based four-armed molecule for solution-processed organic solar cells with high photo-voltage
DOI:10.1039/c3ta10401j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:7 AU: Hou, Qiong;Chen, Yiquan;Zhen, Hongyu;Ma, Zaifei;Hong, Wenbiao;Shi, Guang;Zhang, Fengling;
2:5:204 7-Azaisoindigo as a new electron deficient component of small molecule chromophores for organic solar cells
DOI:10.1039/c3ta14263a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Randell, Nicholas M.;Douglas, Amy F.;Kelly, Timothy L.;
2:5:205 Rational design and characterization of high-efficiency planar A-pi-D-pi-A type electron donors in small molecule organic solar cells: A quantum chemical approach
DOI:10.1016/j.matchemphys.2014.02.027 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:2 AU: Wang, Dongmei;Ding, Weilu;Geng, Zhiyuan;Wang, Li;Geng, Yun;Su, Zhongmin;Yu, Hailing;
2:5:206 Solution processable D-A-D molecules based on triphenylamine for efficient organic solar cells
DOI:10.1016/j.solmat.2009.11.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:47 AU: Shang, Huixia;Fan, Haijun;Shi, Qinqin;Li, Shuo;Li, Yongfang;Zhan, Xiaowei;
2:5:207 Novel symmetric squaraine chromophore containing triphenylamine for solution processed small molecule bulk heterojunction solar cells
DOI:10.1016/j.solmat.2011.07.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: So, Seulgi;Choi, Hyunbong;Kim, Chulwoo;Cho, Nara;Ko, Haye Min;Lee, Jae Kwan;Ko, Jaejung;
2:5:208 Soluble porphyrin donors for small molecule bulk heterojunction solar cells
DOI:10.1039/c2jm33956k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Hatano, Junichi;Obata, Naoki;Yamaguchi, Shigeru;Yasuda, Takeshi;Matsuo, Yutaka;
2:5:209 Synthesis and characterization of benzo- and naphtho[2,1-b:3,4-b '] dithiophene-containing oligomers for photovoltaic applications
DOI:10.1039/c4tc00335g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Loebert, Mirjam;Mishra, Amaresh;Uhrich, Christian;Pfeiffer, Martin;Baeuerle, Peter;
2:5:210 Chloroboron (III) subnaphthalocyanine as an electron donor in bulk heterojunction photovoltaic cells
DOI:10.1088/0957-4484/24/48/484007 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Chen, Guo;Sasabe, Hisahiro;Sano, Takeshi;Wang, Xiao-Feng;Hong, Ziruo;Kido, Junji;Yang, Yang;
2:5:211 Solution-processed small-molecule solar cells with 6.7% efficiency
DOI:10.1038/NMAT3160 JN:NATURE MATERIALS PY:2012 TC:740 AU: Sun, Yanming;Welch, Gregory C.;Leong, Wei Lin;Takacs, Christopher J.;Bazan, Guillermo C.;Heeger, Alan J.;
2:5:212 Solution-processable oligothiophenes with solubilizing beta-alkyl groups for organic photovoltaic cells
DOI:10.1016/j.solmat.2012.07.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Lim, Eunhee;Lee, Sungkoo;Lee, Kyeong K.;Kang, In-Nam;Moon, Sang-Jin;Kong, Ho-Youl;Katz, Howard E.;
2:5:213 Synthesis and photovoltaic characteristics of push-pull organic semiconductors containing an electron-rich dithienosilole bridge for solution-processed small-molecule organic solar cells
DOI:10.1016/j.solmat.2013.09.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Paek, Sanghyun;Lee, Jae Kwan;Ko, Jaejung;
2:5:214 Solution processable low bandgap small molecule donors with naphthalene end-groups for organic solar cells
DOI:10.1016/j.synthmet.2012.06.027 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Liu, Ying;Du, Xiaoyan;Xiao, Zuo;Cao, Jiamin;Tan, Songting;Zuo, Qiqun;Ding, Liming;
2:5:215 Solution-Processed Organic Solar Cells Based on Dialkylthiol-Substituted Benzodithiophene Unit with Efficiency near 10%
DOI:10.1021/ja509703k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Kan, Bin;Zhang, Qian;Li, Miaomiao;Wan, Xiangjian;Ni, Wang;Long, Guankui;Wang, Yunchuang;Yang, Xuan;Feng, Huanran;Chen, Yongsheng;
2:5:216 Planar, bulk and hybrid merocyanine/C-60 heterojunction devices: a case study on thin film morphology and photovoltaic performance
DOI:10.1039/c2jm14927c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Ojala, Antti;Buerckstuemmer, Hannah;Hwang, Jaehyung;Graf, Katja;von Vacano, Bernhard;Meerholz, Klaus;Erk, Peter;Wuerthner, Frank;
2:5:217 Efficient planar organic semiconductors containing fused triphenylamine for solution processed small molecule organic solar cells
DOI:10.1016/j.solmat.2013.03.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Do, Kwangsoek;Kim, Chulwoo;Song, Kihyung;Yun, Suk Jin;Lee, Jae Kwan;Ko, Jaejung;
2:5:218 A simple merocyanine tandem solar cell with extraordinarily high open-circuit voltage
DOI:10.1063/1.3657145 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Steinmann, V.;Kronenberg, N. M.;Lenze, M. R.;Graf, S. M.;Hertel, D.;Buerckstuemmer, H.;Wuerthner, F.;Meerholz, K.;
2:5:219 Efficient solution-processed small-molecule solar cells with titanium suboxide as an electric adhesive layer
DOI:10.1063/1.4880095 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Lee, Byoung Hoon;Coughlin, Jessica;Kim, Geunjin;Bazan, Guillermo C.;Lee, Kwanghee;
2:5:220 Novel Low Band Gap Small Molecule and Phenylenevinylene Copolymer with Cyanovinylene 4-Nitrophenyl Segments: Synthesis and Application for Efficient Bulk Heterojunction Solar Cells
DOI:10.1021/am9006897 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:34 AU: Mikroyannidis, John A.;Sharma, S. S.;Vijay, Y. K.;Sharma, G. D.;
2:5:221 Near-Infrared Azadipyrromethenes as Electron Donor for Efficient Planar Heterojunction Organic Solar Cells
DOI:10.1021/am201157d JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:28 AU: Leblebici, Sibel Y.;Catane, Luis;Barclay, David E.;Olson, Tara;Chen, Teresa L.;Ma, Biwu;
2:5:222 Solution-Processed Bulk-Heterojunction Solar Cells containing Self-Organized Disk-Shaped Donors
DOI:10.1021/am301905m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:17 AU: Takemoto, Keisuke;Karasawa, Masayoshi;Kimura, Mutsumi;
2:5:223 Phthalocyanine Blends Improve Bulk Heterojunction Solar Cells
DOI:10.1021/ja907851x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:51 AU: Varotto, Alessandro;Nam, Chang-Yong;Radivojevic, Ivana;Tome, Joao P. C.;Cavaleiro, Jose A. S.;Black, Charles T.;Drain, Charles Michael;
2:5:224 Donor-Acceptor-Donor Modular Small Organic Molecules Based on the Naphthalene Diimide Acceptor Unit for Solution-Processable Photovoltaic Devices
DOI:10.1007/s11664-014-3243-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:6 AU: Patil, Hemlata;Gupta, Akhil;Bilic, Ante;Jackson, Sam Leslie;Latham, Kay;Bhosale, Sheshanath V.;
2:5:225 A rational design strategy for donors in organic solar cells: the conjugated planar molecules possessing anisotropic multibranches and intramolecular charge transfer
DOI:10.1039/c1jm11423a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Yong, Xue;Zhang, Jingping;
2:5:226 Charge transport in amorphous and smectic mesophases of dicyanovinyl-substituted oligothiophenes
DOI:10.1039/c2jm34837c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Schrader, Manuel;Koerner, Christian;Elschner, Chris;Andrienko, Denis;
2:5:227 Diketopyrrolopyrrole-based Small Molecule for Application in Solution Processed Organic Solar Cells
DOI:10.1080/15421406.2014.933382 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Jo, Mi Young;Park, Jong Hyun;Lim, Gyeong Eun;Cho, Jeong Ho;Park, Seong Soo;Hong, Seong-Soo;Kim, Joo Hyun;
2:5:228 Solution-processed small molecular photocells with neat fullerene
DOI:10.1016/j.solmat.2014.07.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Tada, Kazuya;
2:5:229 Synthesis and characterizations of red/near-IR absorbing A-D-A-D-A-type oligothiophenes containing thienothiadiazole and thienopyrazine central units
DOI:10.1039/c2jm13285k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Steinberger, Simon;Mishra, Amaresh;Reinold, Egon;Mena-Osteritz, Elena;Mueller, Heiko;Uhrich, Christian;Pfeiffer, Martin;Baeuerle, Peter;
2:5:230 X-Shaped donor molecules based on benzo[2,1-b:3,4-b ']dithiophene as organic solar cell materials with PDIs as acceptors
DOI:10.1039/c3ta12421e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:4 AU: Bibi, Shamsa;Li, Ping;Zhang, Jingping;
2:5:231 Stepwise self-assembly to improve solar cell morphology
DOI:10.1039/c3ta12411h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:12 AU: Ruiz-Carretero, Amparo;Aytun, Taner;Bruns, Carson J.;Newcomb, Christina J.;Tsai, Wei-Wen;Stupp, Samuel I.;
2:5:232 Synthesis and characterization of a new solution-processable star-shaped small molecule based on 5,6-bis(n-octyloxy)-2,1,3-benzoselenadiazole for organic solar cells
DOI:10.1007/s10853-013-7376-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Guo, Xiuping;Xiao, Lu;Tang, Wanjun;Liu, Bo;Cui, Ruili;Zou, Yingping;
2:5:233 Regioregularity and properties of the poly(3-hexylthiophene) synthesized by palladium catalyzed direct C-H arylation polycondensation under different reaction conditions
DOI:10.1016/j.synthmet.2014.07.022 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Dou, Junyan;Chen, Zhouqun;Ma, Changqi;
2:5:234 Parallel Bulk-Heterojunction Solar Cell by Electrostatically Driven Phase Separation
DOI:10.1002/adma.201103167 JN:ADVANCED MATERIALS PY:2011 TC:18 AU: Ojala, Antti;Buerckstuemmer, Hannah;Stolte, Matthias;Sens, Ruediger;Reichelt, Helmut;Erk, Peter;Hwang, Jaehyung;Hertel, Dirk;Meerholz, Klaus;Wuerthner, Frank;
2:5:235 A Series of Squaraine Dyes: Effects of Side Chain and the Number of Hydroxyl Groups on Material Properties and Photovoltaic Performance
DOI:10.1021/cm4034929 JN:CHEMISTRY OF MATERIALS PY:2014 TC:20 AU: Chen, Guo;Sasabe, Hisahiro;Sasaki, Yusuke;Katagiri, Hiroshi;Wang, Xiao-Feng;Sano, Takeshi;Hong, Ziruo;Yang, Yang;Kido, Junji;
2:5:236 Synthesis, characterization, and photovoltaic properties of acceptor-donor-acceptor organic small molecules with different terminal electron-withdrawing groups
DOI:10.1007/s10853-014-8228-x JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Liu, Leijing;Li, Hui;Zhang, Xiaoyu;Wei, Yingjin;Li, Jiyang;Tian, Wenjing;
2:5:237 New diketopyrrolopyrrole based D-A-D pi-conjugated molecules: Synthesis, optical, electrochemical, morphological and photovoltaic properties
DOI:10.1016/j.matchemphys.2014.06.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Kozma, Erika;Kotowski, Dariusz;Galeotti, Francesco;Catellani, Marinella;Luzzati, Silvia;Bertini, Fabio;
2:5:238 New amorphous small molecules-Synthesis, characterization and their application in bulk heterojunction solar cells
DOI:10.1016/j.solmat.2011.03.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Li, Zaifang;Dong, Qingfeng;Xu, Bin;Li, Hui;Wen, Shanpeng;Pei, Jianing;Yao, Shiyu;Lu, Hongguang;Li, Pengfei;Tian, Wenjing;
2:5:239 Tricyanofuran-based donor-acceptor type chromophores for bulk heterojunction organic solar cells
DOI:10.1016/j.solmat.2011.09.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Cho, Min Ju;Seo, Jangwon;Oh, Heong Sub;Jee, Hongsub;Kim, Won Jin;Kim, Kyung Hwan;Hoang, Mai Ha;Choi, Dong Hoon;Prasad, Paras N.;
2:5:240 Electronic properties of small molecule-diketopyrrolopyrrole derivatives and a correlation with the open circuit voltage in organic solar cells
DOI:10.1016/j.synthmet.2012.02.026 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Seo, Jung Hwa;
2:5:241 A-D-A-type S, N-Heteropentacenes: Next-Generation Molecular Donor Materials for Efficient Vacuum-Processed Organic Solar Cells
DOI:10.1002/adma.201402448 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Mishra, Amaresh;Popovic, Dusko;Vogt, Astrid;Kast, Hannelore;Leitner, Tanja;Walzer, Karsten;Pfeiffer, Martin;Mena-Osteritz, Elena;Baeuerle, Peter;
2:5:242 The improved performance of solution-processed SQ:PC71BM photovoltaic devices via MoO3 as the anode modification layer
DOI:10.1016/j.apsusc.2013.08.020 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Yang, Qianqian;Yang, Daobin;Zhao, Suling;Huang, Yan;Xu, Zheng;Liu, Xiaodong;Gong, Wei;Fan, Xing;Huang, Qingyu;Xu, Xurong;
2:5:243 High-Performance Organic Solar Cells with Efficient Semiconducting Small Molecules Containing an Electron-Rich Benzodithiophene Derivative
DOI:10.1021/cm5004092 JN:CHEMISTRY OF MATERIALS PY:2014 TC:19 AU: Lim, Namwoo;Cho, Nara;Paek, Sanghyun;Kim, Chulwoo;Lee, Jae Kwan;Ko, Jaejung;
2:5:244 The Origin of Charge Localization Observed in Organic Photovoltaic Materials
DOI:10.1021/ja1066866 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:26 AU: Johns, James E.;Muller, Eric A.;Frechet, Jean M. J.;Harris, Charles B.;
2:5:245 Syntheses and Photovoltaic Properties of Octyl Cyanoacetate Terminated Small Molecules Based on Benzo[1,2-b:4,5-b']dithiophene for OPVs
DOI:10.1080/15421406.2014.937283 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Park, Min-Ah;Park, Sangman;Hong, Sung Kwon;Suh, Dong Hak;Lee, Changjin;Yoon, Sung Cheol;
2:5:246 Morphology and molecular orientation of ethyl-substituted dicyanovinyl-sexithiophene films for photovoltaic applications
DOI:10.1016/j.tsf.2012.10.069 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Hinrichs, Karsten;Levichkova, Marieta;Wynands, David;Walzer, Karsten;Eichhorn, Klaus J.;Baeuerle, Peter;Leo, Karl;Riede, Moritz;
2:5:247 Intraphase Microstructure-Understanding the Impact on Organic Solar Cell Performance
DOI:10.1002/adfm.201300726 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:4 AU: Scholes, Fiona H.;Ehlig, Tino;James, Michael;Lee, Kwan H.;Duffy, Noel;Scully, Andrew D.;Singh, T. Birenda;Winzenberg, Kevin N.;Kemppinen, Pete;Watkins, Scott E.;
2:5:248 Effect of Solvent and Subsequent Thermal Annealing on the Performance of Phenylenevinylene Copolymer:PCBM Solar Cells
DOI:10.1021/am900728f JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:20 AU: Sharma, G. D.;Suresh, P.;Sharma, S. S.;Vijay, Y. K.;Mikroyannidis, John A.;
2:5:249 Exciton Coupling Effects in Polymeric cis-Indolenine Squaraine Dyes
DOI:10.1021/cm301109u JN:CHEMISTRY OF MATERIALS PY:2012 TC:13 AU: Voelker, Sebastian F.;Lambert, Christoph;
2:5:250 Fluorenone core donor-acceptor-donor pi-conjugated molecules end-capped with dendritic oligo(thiophene)s: synthesis, liquid crystalline behaviour, and photovoltaic applications
DOI:10.1039/c0jm02437f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:28 AU: Lincker, Frederic;Heinrich, Benoit;De Bettignies, Remi;Rannou, Patrice;Pecaut, Jacques;Grevin, Benjamin;Pron, Adam;Donnio, Bertrand;Demadrille, Renaud;
2:5:251 Synthesis of a Low-Band-Gap Small Molecule Based on Acenaphthoquinoxaline for Efficient Bulk Heterojunction Solar Cells
DOI:10.1021/la1016966 JN:LANGMUIR PY:2010 TC:16 AU: Mikroyannidis, J. A.;Kabanakis, A. N.;Kumar, Anil;Sharma, S. S.;Vijay, Y. K.;Sharma, G. D.;
2:5:252 Solution-Processable Organic Photovoltaic Cell Based on the Oligothiophene with Solubilizing beta-alkyl Groups
DOI:10.1080/15421406.2014.944786 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Lim, Eunhee;
2:5:253 Two-dimensional extended pi-conjugated anthracene-based molecules bearing 4-ethynyl-7-(5-hexylthiophen-2-yl)benzo[c][1,2,5]thiadiazole at 2,6-and 9,10-substitution positions
DOI:10.1016/j.synthmet.2011.10.019 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Hur, Jung A.;Kim, Sun Jae;Kim, Kyung Hwan;Lee, Tae Wan;Kim, Kihyun;Shin, Jicheol;Hwang, Kyung Seok;Chin, Byung Doo;Choi, Dong Hoon;
2:5:254 Effect of film thickness, type of buffer layer, and substrate temperature on the morphology of dicyanovinyl-substituted sexithiophene films
DOI:10.1016/j.tsf.2011.10.022 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Levin, Alexandr A.;Levichkova, Marieta;Hildebrandt, Dirk;Klisch, Marina;Weiss, Andre;Wynands, David;Elschner, Chris;Pfeiffer, Martin;Leo, Karl;Riede, Moritz;
2:5:255 Synthesis, Spectroscopic Properties, and Photoconductivity of Black Absorbers Consisting of Pt(Bipyridine)(Dithiolate) Charge Transfer Complexes in the Presence and Absence of Nitrofluorenone Acceptors
DOI:10.1021/ja506583k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Browning, Charles;Hudson, Joshua M.;Reinheimer, Eric W.;Kuo, Fang-Ling;McDougald, Roy N., Jr.;Rabaa, Hassan;Pan, Hongjun;Bacsa, John;Wang, Xiaoping;Dunbar, Kim R.;Shepherd, Nigel D.;Omary, Mohammad A.;
2:5:256 A D-A-D swivel-cruciform oligothiophene based on 5,5 '-bibenzothiadiazole
DOI:10.1039/c2tc00303a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Wang, Haifeng;Fukumatsu, Takahiro;Liu, Yao;Hu, Wenping;Seki, Shu;Zhan, Xiaowei;
2:5:257 Novel solution processable small molecule containing new electron-withdrawing group and oligothiophene for photovoltaic applications
DOI:10.1016/j.solmat.2011.10.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Li, Zaifang;Dong, Qingfeng;Xu, Bin;Cheng, Weidong;Yao, Shiyu;Zhang, Xiaoyu;Wen, Shanpeng;Li, Hui;Dong, Yujie;Tian, Wenjing;
2:5:258 Synthesis of a perylene bisimide with acetonaphthopyrazine dicarbonitrile terminal moieties for photovoltaic applications
DOI:10.1016/j.synthmet.2010.02.003 JN:SYNTHETIC METALS PY:2010 TC:23 AU: Mikroyannidis, John A.;Suresh, P.;Sharma, G. D.;
2:5:259 Synthesis, characterization, and photovoltaic properties of diketopyrrolopyrrole-oligothiophene/fullerene dyads
DOI:10.1016/j.synthmet.2012.10.018 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Izawa, Seiichiro;Hashimoto, Kazuhito;Tajima, Keisuke;
2:5:260 Multifunctional quinoxaline containing small molecules with multiple electron-donating moieties: Solvatochromic and optoelectronic properties
DOI:10.1016/j.synthmet.2012.04.016 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Chang, Dong Wook;Ko, Seo-Jin;Kim, Jin Young;Dai, Liming;Baek, Jong-Beom;
2:5:261 A Vertically Integrated Solar-Powered Electrochromic Window for Energy Efficient Buildings
DOI:10.1002/adma.201401400 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Dyer, Aubrey L.;Bulloch, Rayford H.;Zhou, Yinhua;Kippelen, Bernard;Reynolds, John R.;Zhang, Fengling;
2:5:262 Increased Mobility Induced by Addition of a Lewis Acid to a Lewis Basic Conjugated Polymer
DOI:10.1002/adma.201303357 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Zalar, Peter;Kuik, Martijn;Henson, Zachary B.;Woellner, Cristiano;Zhang, Yuan;Sharenko, Alexander;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:5:263 Highly efficient organic multi-junction solar cells with a thiophene based donor material
DOI:10.1063/1.4893012 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Meerheim, Rico;Koerner, Christian;Leo, Karl;
2:5:264 Solution-Processed Photovoltaics with a 3,6-Bis(diarylamino)fluoren-9-ylidene Malononitrile
DOI:10.1021/am504933j JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Karak, Supravat;Homnick, Paul J.;Renna, Lawrence A.;Venkataraman, D.;Mague, Joel T.;Lahti, Paul M.;
2:5:265 Evaluation of bis-dicyanovinyl short-chain conjugated systems as donor materials for organic solar cells
DOI:10.1016/j.solmat.2010.08.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:12 AU: Yassin, Ali;Rousseau, Theodulf;Leriche, Philippe;Cravino, Antonio;Roncali, Jean;
2:5:266 Solution processable thin film organic photovoltaic cells based on far red sensitive soluble squaraine dyes
DOI:10.1016/j.tsf.2012.08.043 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Pandey, Shyam S.;Mizuno, Takafumi;Das, Sandeep Kumar;Ogomi, Yuhei;Hayase, Shuzi;
2:5:267 Ultrafast Exciton Population, Relaxation, and Decay Dynamics in Thin Oligothiophene Films
DOI:10.1103/PhysRevLett.109.207601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:4 AU: Varene, E.;Bogner, L.;Bronner, C.;Tegeder, P.;
2:5:268 A star-shaped molecule as hole transporting material in solution-processed thin-film transistors
DOI:10.1016/j.synthmet.2013.09.029 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Diallo, Abdou Karim;Metri, Noura;Brunel, Frederic;Sallenave, Xavier;Goubard, Fabrice;Margeat, Olivier;Ackermann, Jorg;Videlot-Ackermann, Christine;
2:5:269 Poly(p-phenylenevinylene) derivatives with conjugated thiophene side chains: Synthesis, photophysics and photovoltaics
DOI:10.1016/j.synthmet.2010.03.024 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Shen, Ping;Ding, Tianpeng;Huang, Hui;Zhao, Bin;Tan, Songting;
2:5:270 Insights into pi-Conjugated Small Molecule Neat Films and Blends As Determined Through Photoconductivity (vol 6, pg 8735, 2012)
DOI:10.1021/nn4001319 JN:ACS NANO PY:2013 TC:0 AU: Jasieniak, Jacek J.;Hsu, Ben B. Y.;Takacs, Christopher J.;Welch, Gregory C.;Bazan, Guillermo C.;Moses, Daniel;Heeger, Alan J.;
2:5:271 Squaraine-Doped Functional Nanoprobes: Lipophilically Protected Near-Infrared Fluorescence for Bioimaging
DOI:10.1002/adfm.201000650 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:5 AU: Lee, Yong-Deok;Lim, Chang-Keun;Kim, Sehoon;Kwon, Ick Chan;Kim, Jungahn;
2:5:272 Using an organic additive to manipulate sizes of perylene nanoparticles
DOI:10.1016/j.jcrysgro.2009.11.028 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:4 AU: Oliveira, Daniel;Baba, Koichi;Mori, Junichi;Miyashita, Yousuke;Kasai, Hitoshi;Oikawa, Hidetoshi;Nakanishi, Hachiro;
2:5:273 Static electric field enhanced recrystallization of copper phthalocyanine thin film during annealing
DOI:10.1016/j.jcrysgro.2013.05.040 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:2 AU: Parhi, Anukul Prasad;Iyer, S. Sundar Kumar;
2:5:274 Thermoresponsive fluorescent polymers based on a quaterthiophene-containing boron dipyrromethene (Bodipy) dyad dispersed in silicone rubber
DOI:10.1039/c0jm03351k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Benniston, Andrew C.;Copley, Graeme;Harriman, Anthony;Ryan, Ruth;
2:5:275 Tuning the solid state emission of meso-Me3SiC6H4 BODIPYs by tuning their solid state structure
DOI:10.1039/c3tc30632a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Swamy, Chinna Ayya P.;Mukherjee, Sanjoy;Thilagar, Pakkirisamy;
2:5:276 Synthesis and properties of low bandgap star molecules TPA-[DTS-PyBTTh3](3) and DMM-TPA[DTS-PyBTTh3](3) for solution-processed bulk heterojunction organic solar cells (vol 2, pg 8412, 2014)
DOI:10.1039/c4tc90131b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Lim, Kimin;Lee, Seung Yeon;Song, Kihyung;Sharma, G. D.;Ko, Jaejung;
2:5:277 A star-shaped D-pi-A small molecule based on a tris(2-methoxyphenyl)amine core for highly efficient solution-processed organic solar cells (vol 2, pg 7614, 2014)
DOI:10.1039/c4tc90117g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Min, Jie;Luponosov, Yuriy N.;Solodukhin, Alexander N.;Kausch-Busies, Nina;Ponomarenko, Sergei A.;Ameri, Tayebeh;Brabec, Christoph J.;
2:5:278 Synthesis and characterization of Y-shape electron donor-acceptor type organic dyes for dye-sensitized solar cells
DOI:10.1016/j.matchemphys.2013.01.044 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:2 AU: Im, Min Joung;Park, Juhyeon;Gal, Yeong-Soon;Moon, Jong Hun;Lee, Jin Yong;Jin, Sung-Ho;
2:5:279 Theoretical studies of electronic structure and hole drift mobility of host hole transporting material 4,4 '-N,N '-dicarbazol-biphenyl
DOI:10.1016/j.synthmet.2010.07.039 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Gao, Hong-Ze;
2:5:280 Electronic properties of small molecule-diketopyrrolopyrrole derivatives and a correlation with the open circuit voltage in organic solar cells (vol 162, pg 748, 2012)
DOI:10.1016/j.synthmet.2012.06.002 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Seo, Jung Hwa;
2:5:281 The synthesis and examination of spectral properties of some 2,2 '-bithienyl derivatives with carbonyl-containing substituents
DOI:10.1016/j.synthmet.2012.12.021 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Lukes, Vladimir;Danko, Martin;Andicsova, Anita;Hrdlovic, Pavol;Vegh, Daniel;
2:6:1 Scalable Coating and Properties of Transparent, Flexible, Silver Nanowire Electrodes
DOI:10.1021/nn1005232 JN:ACS NANO PY:2010 TC:598 AU: Hu, Liangbing;Kim, Han Sun;Lee, Jung-Yong;Peumans, Peter;Cui, Yi;
2:6:2 Emerging Transparent Electrodes Based on Thin Films of Carbon Nanotubes, Graphene, and Metallic Nanostructures
DOI:10.1002/adma.201003188 JN:ADVANCED MATERIALS PY:2011 TC:541 AU: Hecht, David S.;Hu, Liangbing;Irvin, Glen;
2:6:3 The Race To Replace Tin-Doped Indium Oxide: Which Material Will Win?
DOI:10.1021/nn901903b JN:ACS NANO PY:2010 TC:279 AU: Kumar, Akshay;Zhou, Chongwu;
2:6:4 Electrospun Metal Nanofiber Webs as High-Performance Transparent Electrode
DOI:10.1021/nl102725k JN:NANO LETTERS PY:2010 TC:241 AU: Wu, Hui;Hu, Liangbing;Rowell, Michael W.;Kong, Desheng;Cha, Judy J.;McDonough, James R.;Zhu, Jia;Yang, Yuan;McGehee, Michael D.;Cui, Yi;
2:6:5 Highly Flexible Silver Nanowire Electrodes for Shape-Memory Polymer Light-Emitting Diodes
DOI:10.1002/adma.201003398 JN:ADVANCED MATERIALS PY:2011 TC:201 AU: Yu, Zhibin;Zhang, Qingwu;Li, Lu;Chen, Qi;Niu, Xiaofan;Liu, Jun;Pei, Qibing;
2:6:6 Are There Fundamental Limitations on the Sheet Resistance and Transmittance of Thin Graphene Films?
DOI:10.1021/nn100343f JN:ACS NANO PY:2010 TC:177 AU: De, Sukanta;Coleman, Jonathan N.;
2:6:7 Smooth Nanowire/Polymer Composite Transparent Electrodes
DOI:10.1002/adma.201100566 JN:ADVANCED MATERIALS PY:2011 TC:194 AU: Gaynor, Whitney;Burkhard, George F.;McGehee, Michael D.;Peumans, Peter;
2:6:8 Efficient Organic Solar Cells with Solution-Processed Silver Nanowire Electrodes
DOI:10.1002/adma.201100871 JN:ADVANCED MATERIALS PY:2011 TC:168 AU: Leem, Dong-Seok;Edwards, Angharad;Faist, Mark;Nelson, Jenny;Bradley, Donal D. C.;de Mello, John C.;
2:6:9 The Growth Mechanism of Copper Nanowires and Their Properties in Flexible, Transparent Conducting Films
DOI:10.1002/adma.201000775 JN:ADVANCED MATERIALS PY:2010 TC:185 AU: Rathmell, Aaron R.;Bergin, Stephen M.;Hua, Yi-Lei;Li, Zhi-Yuan;Wiley, Benjamin J.;
2:6:10 A New Transparent Conductor: Silver Nanowire Film Buried at the Surface of a Transparent Polymer
DOI:10.1002/adma.201001811 JN:ADVANCED MATERIALS PY:2010 TC:163 AU: Zeng, Xiao-Yan;Zhang, Qi-Kai;Yu, Rong-Min;Lu, Can-Zhong;
2:6:11 Visibly Transparent Polymer Solar Cells Produced by Solution Processing
DOI:10.1021/nn3029327 JN:ACS NANO PY:2012 TC:148 AU: Chen, Chun-Chao;Dou, Letian;Zhu, Rui;Chung, Choong-Heui;Song, Tze-Bin;Zheng, Yue Bing;Hawks, Steve;Li, Gang;Weiss, Paul S.;Yang, Yang;
2:6:12 Flexible transparent conductive materials based on silver nanowire networks: a review
DOI:10.1088/0957-4484/24/45/452001 JN:NANOTECHNOLOGY PY:2013 TC:70 AU: Langley, Daniel;Giusti, Gael;Mayousse, Celine;Celle, Caroline;Bellet, Daniel;Simonato, Jean-Pierre;
2:6:13 Highly Stretchable and Highly Conductive Metal Electrode by Very Long Metal Nanowire Percolation Network
DOI:10.1002/adma.201200359 JN:ADVANCED MATERIALS PY:2012 TC:147 AU: Lee, Phillip;Lee, Jinhwan;Lee, Hyungman;Yeo, Junyeob;Hong, Sukjoon;Nam, Koo Hyun;Lee, Dongjin;Lee, Seung Seob;Ko, Seung Hwan;
2:6:14 Solution-Processed Flexible Polymer Solar Cells with Silver Nanowire Electrodes
DOI:10.1021/am2009585 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:128 AU: Yang, Liqiang;Zhang, Tim;Zhou, Huaxing;Price, Samuel C.;Wiley, Benjamin J.;You, Wei;
2:6:15 Fused Silver Nanowires with Metal Oxide Nanoparticles and Organic Polymers for Highly Transparent Conductors
DOI:10.1021/nn203576v JN:ACS NANO PY:2011 TC:121 AU: Zhu, Rui;Chung, Choong-Heui;Cha, Kitty C.;Yang, Wenbing;Zheng, Yue Bing;Zhou, Huanping;Song, Tze-Bin;Chen, Chun-Chao;Weiss, Paul S.;Li, Gang;Yang, Yang;
2:6:16 Metal Nanowire Networks: The Next Generation of Transparent Conductors
DOI:10.1002/adma.201402710 JN:ADVANCED MATERIALS PY:2014 TC:22 AU: Ye, Shengrong;Rathmell, Aaron R.;Chen, Zuofeng;Stewart, Ian E.;Wiley, Benjamin J.;
2:6:17 Fully Solution-Processed Inverted Polymer Solar Cells with Laminated Nanowire Electrodes
DOI:10.1021/nn900758e JN:ACS NANO PY:2010 TC:116 AU: Gaynor, Whitney;Lee, Jung-Yong;Peumans, Peter;
2:6:18 The Synthesis and Coating of Long, Thin Copper Nanowires to Make Flexible, Transparent Conducting Films on Plastic Substrates
DOI:10.1002/adma.201102284 JN:ADVANCED MATERIALS PY:2011 TC:115 AU: Rathmell, Aaron R.;Wiley, Benjamin J.;
2:6:19 Rational Design of Hybrid Graphene Films for High-Performance Transparent Electrodes
DOI:10.1021/nn201696g JN:ACS NANO PY:2011 TC:122 AU: Zhu, Yu;Sun, Zhengzong;Yan, Zheng;Jin, Zhong;Tour, James M.;
2:6:20 Silver Nanowire-Polymer Composite Electrodes for Efficient Polymer Solar Cells
DOI:10.1002/adma.201101992 JN:ADVANCED MATERIALS PY:2011 TC:92 AU: Yu, Zhibin;Li, Lu;Zhang, Qingwu;Hu, Weili;Pei, Qibing;
2:6:21 Flexible ITO-Free Polymer Solar Cells
DOI:10.1002/app.38854 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:51 AU: Angmo, Dechan;Krebs, Frederik C.;
2:6:22 Metal nanogrids, nanowires, and nanofibers for transparent electrodes
DOI:10.1557/mrs.2011.234 JN:MRS BULLETIN PY:2011 TC:115 AU: Hu, Liangbing;Wu, Hui;Cui, Yi;
2:6:23 Semitransparent Organic Photovoltaic Cells with Laminated Top Electrode
DOI:10.1021/nl903892x JN:NANO LETTERS PY:2010 TC:119 AU: Lee, Jung-Yong;Connor, Steve T.;Cui, Yi;Peumans, Peter;
2:6:24 Size Effects and the Problem with Percolation in Nanostructured Transparent Conductors
DOI:10.1021/nn1025803 JN:ACS NANO PY:2010 TC:97 AU: De, Sukanta;King, Paul J.;Lyons, Philip E.;Khan, Umar;Coleman, Jonathan N.;
2:6:25 Synthesis of Oxidation-Resistant Cupronickel Nanowires for Transparent Conducting Nanowire Networks
DOI:10.1021/nl301168r JN:NANO LETTERS PY:2012 TC:78 AU: Rathmell, Aaron R.;Minh Nguyen;Chi, Miaofang;Wiley, Benjamin J.;
2:6:26 Spray Deposition of Highly Transparent, Low-Resistance Networks of Silver Nanowires over Large Areas
DOI:10.1002/smll.201100647 JN:SMALL PY:2011 TC:103 AU: Scardaci, Vittorio;Coull, Richard;Lyons, Philip E.;Rickard, David;Coleman, Jonathan N.;
2:6:27 High-Performance, Transparent, and Stretchable Electrodes Using Graphene-Metal Nanowire Hybrid Structures
DOI:10.1021/nl401070p JN:NANO LETTERS PY:2013 TC:104 AU: Lee, Mi-Sun;Lee, Kyongsoo;Kim, So-Yun;Lee, Heejoo;Park, Jihun;Choi, Kwang-Hyuk;Kim, Han-Ki;Kim, Dae-Gon;Lee, Dae-Young;Nam, SungWoo;Park, Jang-Ung;
2:6:28 Large scale, highly conductive and patterned transparent films of silver nanowires on arbitrary substrates and their application in touch screens
DOI:10.1088/0957-4484/22/24/245201 JN:NANOTECHNOLOGY PY:2011 TC:118 AU: Madaria, Anuj R.;Kumar, Akshay;Zhou, Chongwu;
2:6:29 Highly Transparent Low Resistance ZnO/Ag Nanowire/ZnO Composite Electrode for Thin Film Solar Cells
DOI:10.1021/nn305491x JN:ACS NANO PY:2013 TC:81 AU: Kim, Areum;Won, Yulim;Woo, Kyoohee;Kim, Chul-Hong;Moon, Jooho;
2:6:30 Synthesis of Ultralong Copper Nanowires for High-Performance Transparent Electrodes
DOI:10.1021/ja3050184 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:66 AU: Zhang, Dieqing;Wang, Ranran;Wen, Meicheng;Weng, Ding;Cui, Xia;Sun, Jing;Li, Hexing;Lu, Yunfeng;
2:6:31 The effects of percolation in nanostructured transparent conductors
DOI:10.1557/mrs.2011.236 JN:MRS BULLETIN PY:2011 TC:54 AU: De, Sukanta;Coleman, Jonathan N.;
2:6:32 Transparent Conducting Silver Nanowire Networks
DOI:10.1021/nl301045a JN:NANO LETTERS PY:2012 TC:101 AU: van de Groep, Jorik;Spinelli, Pietpaolo;Polman, Albert;
2:6:33 Nanostructured Hybrid Transparent Conductive Films with Antibacterial Properties
DOI:10.1021/nn300852f JN:ACS NANO PY:2012 TC:48 AU: Kholmanov, Iskandar N.;Stoller, Meryl D.;Edgeworth, Jonathan;Lee, Wi Hyoung;Li, Huifeng;Lee, Jongho;Barnhart, Craig;Potts, Jeffrey R.;Piner, Richard;Akinwande, Deji;Barrick, Jeffrey E.;Ruoff, Rodney S.;
2:6:34 Silver Nanowire Percolation Network Soldered with Graphene Oxide at Room Temperature and Its Application for Fully Stretchable Polymer Light-Emitting Diodes
DOI:10.1021/nn405887k JN:ACS NANO PY:2014 TC:48 AU: Liang, Jiajie;Li, Lu;Tong, Kwing;Ren, Zhi;Hu, Wei;Niu, Xiaofan;Chen, Yongsheng;Pei, Qibing;
2:6:35 Reduced Graphene Oxide/Copper Nanowire Hybrid Films as High-Performance Transparent Electrodes
DOI:10.1021/nn3060175 JN:ACS NANO PY:2013 TC:49 AU: Kholmanov, Iskandar N.;Domingues, Sergio H.;Chou, Harry;Wang, Xiaohan;Tan, Cheng;Kim, Jin-Young;Li, Huifeng;Piner, Richard;Zarbin, Aldo J. G.;Ruoff, Rodney S.;
2:6:36 High fill factor polymer solar cells comprising a transparent, low temperature solution processed doped metal oxide/metal nanowire composite electrode
DOI:10.1016/j.solmat.2012.06.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:33 AU: Stubhan, Tobias;Krantz, Johannes;Li, Ning;Guo, Fei;Litzov, Ivan;Steidl, Matthias;Richter, Moses;Matt, Gebhard J.;Brabec, Christoph J.;
2:6:37 Room-Temperature Nanosoldering of a Very Long Metal Nanowire Network by Conducting-Polymer-Assisted Joining for a Flexible Touch-Panel Application
DOI:10.1002/adfm.201203802 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:67 AU: Lee, Jinhwan;Lee, Phillip;Lee, Ha Beom;Hong, Sukjoon;Lee, Inhwa;Yeo, Junyeob;Lee, Seung Seob;Kim, Taek-Soo;Lee, Dongjin;Ko, Seung Hwan;
2:6:38 Metal grid/conducting polymer hybrid transparent electrode for inverted polymer solar cells
DOI:10.1063/1.3394679 JN:APPLIED PHYSICS LETTERS PY:2010 TC:70 AU: Zou, Jingyu;Yip, Hin-Lap;Hau, Steven K.;Jen, Alex K. -Y.;
2:6:39 Insights on the working principles of flexible and efficient ITO-free organic solar cells based on solution processed Ag nanowire electrodes
DOI:10.1016/j.solmat.2012.03.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:39 AU: Ajuria, Jon;Ugarte, Irati;Cambarau, Werther;Etxebarria, Ikerne;Tena-Zaera, Ramon;Pacios, Roberto;
2:6:40 Spray Deposition of Silver Nanowire Electrodes for Semitransparent Solid-State Dye-Sensitized Solar Cells
DOI:10.1002/aenm.201300660 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:23 AU: Margulis, George Y.;Christoforo, M. Greyson;Lam, David;Beiley, Zach M.;Bowring, Andrea R.;Bailie, Colin D.;Salleo, Alberto;McGehee, Michael D.;
2:6:41 ITO-Free and Fully Solution-Processed Semitransparent Organic Solar Cells with High Fill Factors
DOI:10.1002/aenm.201300100 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:49 AU: Guo, Fei;Zhu, Xiangdong;Forberich, Karen;Krantz, Johannes;Stubhan, Tobias;Salinas, Michael;Halik, Marcus;Spallek, Stefanie;Butz, Benjamin;Spiecker, Erdmann;Ameri, Tayebeh;Li, Ning;Kubis, Peter;Guldi, Dirk M.;Matt, Gebhard J.;Brabec, Christoph J.;
2:6:42 Solution-Processed Metallic Nanowire Electrodes as Indium Tin Oxide Replacement for Thin-Film Solar Cells
DOI:10.1002/adfm.201100457 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:64 AU: Krantz, Johannes;Richter, Moses;Spallek, Stefanie;Spiecker, Erdmann;Brabec, Christoph J.;
2:6:43 Spray-Coated Silver Nanowires as Top Electrode Layer in Semitransparent P3HT:PCBM-Based Organic Solar Cell Devices
DOI:10.1002/adfm.201202523 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:47 AU: Krantz, Johannes;Stubhan, Tobias;Richter, Moses;Spallek, Stefanie;Litzov, Ivan;Matt, Gebhard J.;Spiecker, Erdmann;Brabec, Christoph J.;
2:6:44 Silver Nanowire Composite Window Layers for Fully Solution-Deposited Thin-Film Photovoltaic Devices
DOI:10.1002/adma.201201010 JN:ADVANCED MATERIALS PY:2012 TC:38 AU: Chung, Choong-Heui;Song, Tze-Bin;Bob, Brion;Zhu, Rui;Duan, Hsin-Sheng;Yang, Yang;
2:6:45 Efficient Polymer Solar Cells on Opaque Substrates with a Laminated PEDOT:PSS Top Electrode
DOI:10.1002/aenm.201201061 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:26 AU: Gupta, Dhritiman;Wienk, Martijn M.;Janssen, Rene A. J.;
2:6:46 Highly Efficient and Bendable Organic Solar Cells with Solution-Processed Silver Nanowire Electrodes
DOI:10.1002/adfm.201202646 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:75 AU: Song, Myungkwan;You, Dae Sung;Lim, Kyounga;Park, Sujin;Jung, Sunghoon;Kim, Chang Su;Kim, Dong-Ho;Kim, Do-Geun;Kim, Jongk-Kuk;Park, Juyun;Kang, Yong-Cheol;Heo, Jinhee;Jin, Sung-Ho;Park, Jong Hyun;Kang, Jae-Wook;
2:6:47 Semi-Transparent Polymer Solar Cells with Excellent Sub-Bandgap Transmission for Third Generation Photovoltaics
DOI:10.1002/adma.201301985 JN:ADVANCED MATERIALS PY:2013 TC:14 AU: Beiley, Zach M.;Christoforo, M. Greyson;Gratia, Paul;Bowring, Andrea R.;Eberspacher, Petra;Margulis, George Y.;Cabanetos, Clement;Beaujuge, Pierre M.;Salleo, Alberto;McGehee, Michael D.;
2:6:48 Ag-nanowire films coated with ZnO nanoparticles as a transparent electrode for solar cells
DOI:10.1063/1.3656973 JN:APPLIED PHYSICS LETTERS PY:2011 TC:39 AU: Morgenstern, Frederik S. F.;Kabra, Dinesh;Massip, Sylvain;Brenner, Thomas J. K.;Lyons, Philip E.;Coleman, Jonathan N.;Friend, Richard H.;
2:6:49 Reversibly Stretchable Transparent Conductive Coatings of Spray-Deposited Silver Nanowires
DOI:10.1021/am300058j JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:62 AU: Akter, Tahmina;Kim, Woo Soo;
2:6:50 Prospects for Nanowire-Doped Polycrystalline Graphene Films for Ultratransparent, Highly Conductive Electrodes
DOI:10.1021/nl203041n JN:NANO LETTERS PY:2011 TC:54 AU: Jeong, Changwook;Nair, Pradeep;Khan, Mohammad;Lundstrom, Mark;Alam, Muhammad A.;
2:6:51 Improvement of Transparent Conducting Nanotube Films by Addition of Small Quantities of Graphene
DOI:10.1021/nn100542z JN:ACS NANO PY:2010 TC:63 AU: King, Paul J.;Khan, Umar;Lotya, Mustafa;De, Sukanta;Coleman, Jonathan N.;
2:6:52 Flexible Transparent Conducting Hybrid Film Using a Surface-Embedded Copper Nanowire Network: A Highly Oxidation-Resistant Copper Nanowire Electrode for Flexible Optoelectronics
DOI:10.1021/nn504883m JN:ACS NANO PY:2014 TC:8 AU: Im, Hyeon-Gyun;Jung, Soo-Ho;Jin, Jungho;Lee, Dasom;Lee, Jaemin;Lee, Daewon;Lee, Jung-Yong;Kim, Il-Doo;Bae, Byeong-Soo;
2:6:53 Flexible and Transparent Metallic Grid Electrodes Prepared by Evaporative Assembly
DOI:10.1021/am502233y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Park, Jae Hoon;Lee, Dong Yun;Kim, Young-Hoon;Kim, Jung Kyu;Lee, Jung Heon;Park, Jong Hyeok;Lee, Tae-Woo;Cho, Jeong Ho;
2:6:54 The dependence of the optoelectrical properties of silver nanowire networks on nanowire length and diameter
DOI:10.1088/0957-4484/23/18/185201 JN:NANOTECHNOLOGY PY:2012 TC:31 AU: Sorel, Sophie;Lyons, Philip E.;De, Sukanta;Dickerson, Janet C.;Coleman, Jonathan N.;
2:6:55 Transparent Cu nanowire mesh electrode on flexible substrates fabricated by transfer printing and its application in organic solar cells
DOI:10.1016/j.solmat.2010.02.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:87 AU: Kang, Myung-Gyu;Park, Hui Joon;Ahn, Se Hyun;Guo, L. Jay;
2:6:56 High-Performance Carbon Nanotube Transparent Conductive Films by Scalable Dip Coating
DOI:10.1021/nn303201g JN:ACS NANO PY:2012 TC:59 AU: Mirri, Francesca;Ma, Anson W. K.;Hsu, Tienyi T.;Behabtu, Natnael;Eichmann, Shannon L.;Young, Colin C.;Tsentalovich, Dmitri E.;Pasquali, Matteo;
2:6:57 Selective Growth and Integration of Silver Nanoparticles on Silver Nanowires at Room Conditions for Transparent Nano-Network Electrode
DOI:10.1021/nn504969z JN:ACS NANO PY:2014 TC:7 AU: Lu, Haifei;Zhang, Di;Ren, Xingang;Liu, Jian;Choy, Wallace C. H.;
2:6:58 Highly Stretchable and Sensitive Strain Sensor Based on Silver Nanowire-Elastomer Nanocomposite
DOI:10.1021/nn501204t JN:ACS NANO PY:2014 TC:41 AU: Amjadi, Morteza;Pichitpajongkit, Aekachan;Lee, Sangjun;Ryu, Seunghwa;Park, Inkyu;
2:6:59 High conductivity transparent carbon nanotube films deposited from superacid
DOI:10.1088/0957-4484/22/7/075201 JN:NANOTECHNOLOGY PY:2011 TC:64 AU: Hecht, David S.;Heintz, Amy M.;Lee, Roland;Hu, Liangbing;Moore, Bryon;Cucksey, Chad;Risser, Steven;
2:6:60 High-Durable AgNi Nanomesh Film for a Transparent Conducting Electrode
DOI:10.1002/smll.201400911 JN:SMALL PY:2014 TC:6 AU: Kim, Han-Jung;Lee, Su-Han;Lee, Jihye;Lee, Eung-Sug;Choi, Jun-Hyuk;Jung, Jun-Ho;Jung, Joo-Yun;Choi, Dae-Geun;
2:6:61 Spin- and Spray-Deposited Single-Walled Carbon-Nanotube Electrodes for Organic Solar Cells
DOI:10.1002/adfm.200902369 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:73 AU: Kim, Sungsoo;Yim, Jonghyuk;Wang, Xuhua;Bradley, Donal D. C.;Lee, Soonil;deMello, John C.;
2:6:62 Full-Solution Processed Flexible Organic Solar Cells Using Low-Cost Printable Copper Electrodes
DOI:10.1002/adma.201403494 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Li, Kan;Zhen, Hongyu;Niu, Liyong;Fang, Xu;Zhang, Yaokang;Guo, Ruisheng;Yu, You;Yan, Feng;Li, Haifeng;Zheng, Zijian;
2:6:63 Hybrid Transparent Conductive Film on Flexible Glass Formed by Hot-Pressing Graphene on a Silver Nanowire Mesh
DOI:10.1021/am403440n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:16 AU: Chen, Tong Lai;Ghosh, Dhriti Sundar;Mkhitaryan, Vahagn;Pruneri, Valerio;
2:6:64 Highly Conductive and Flexible Silver Nanowire-Based Microelectrodes on Biocompatible Hydrogel
DOI:10.1021/am504462f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Ahn, Yumi;Lee, Hyungjin;Lee, Donghwa;Lee, Youngu;
2:6:65 Fabrication of silver nanowire transparent electrodes using electrohydrodynamic spray deposition for flexible organic solar cells
DOI:10.1039/c3ta13204h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:15 AU: Park, Sung-Eun;Kim, Sehwan;Lee, Dae-Young;Kim, Eunkyoung;Hwang, Jungho;
2:6:66 A highly conductive, flexible, transparent composite electrode based on the lamination of silver nanowires and polyvinyl alcohol
DOI:10.1039/c4tc01484g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: He, Xin;He, Ruihui;Liu, A'lei;Chen, Xiangyuan;Zhao, Zhilong;Feng, Sheng;Chen, Ning;Zhang, Mei;
2:6:67 Nanopatterned Metallic Films for Use As Transparent Conductive Electrodes in Optoelectronic Devices
DOI:10.1021/nl1011239 JN:NANO LETTERS PY:2010 TC:74 AU: Catrysse, Peter B.;Fan, Shanhui;
2:6:68 Mechanical integrity of flexible Ag nanowire network electrodes coated on colorless PI substrates for flexible organic solar cells
DOI:10.1016/j.solmat.2012.05.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:31 AU: Lim, Jong-Wook;Cho, Da-Young;Eun, Kyoungtae;Choa, Sung-Hoon;Na, Seok-In;Kim, Jihoon;Kim, Han-Ki;
2:6:69 Transparent Conductors from Layer-by-Layer Assembled SWNT Films: Importance of Mechanical Properties and a New Figure of Merit
DOI:10.1021/nn100026n JN:ACS NANO PY:2010 TC:67 AU: Shim, Bong Sup;Zhu, Jian;Jan, Edward;Critchley, Kevin;Kotov, Nicholas A.;
2:6:70 Integrating Simulations and Experiments To Predict Sheet Resistance and Optical Transmittance in Nanowire Films for Transparent Conductors
DOI:10.1021/nn403324t JN:ACS NANO PY:2013 TC:48 AU: Mutiso, Rose M.;Sherrott, Michelle C.;Rathmell, Aaron R.;Wiley, Benjamin J.;Winey, Karen I.;
2:6:71 Highly Robust Indium-Free Transparent Conductive Electrodes Based on Composites of Silver Nanowires and Conductive Metal Oxides
DOI:10.1002/adfm.201303108 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:21 AU: Zilberberg, Kirill;Gasse, Felix;Pagui, Richie;Polywka, Andreas;Behrendt, Andreas;Trost, Sara;Heiderhoff, Ralf;Goerrn, Patrick;Riedl, Thomas;
2:6:72 Rolling Silver Nanowire Electrodes: Simultaneously Addressing Adhesion, Roughness, and Conductivity
DOI:10.1021/am403986f JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:18 AU: Hauger, Tate C.;Al-Rafia, S. M. Ibrahim;Buriak, Jillian M.;
2:6:73 Real-time resistance, transmission and figure-of-merit analysis for transparent conductors under stretching-mode strain
DOI:10.1016/j.solmat.2014.02.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Hauger, T. C.;Zeberoff, A.;Worfolk, B. J.;Elias, A. L.;Harris, K. D.;
2:6:74 Efficient Welding of Silver Nanowire Networks without Post-Processing
DOI:10.1002/smll.201203142 JN:SMALL PY:2013 TC:37 AU: Lee, Jaemin;Lee, Inhwa;Kim, Taek-Soo;Lee, Jung-Yong;
2:6:75 Nonvacuum, Maskless Fabrication of a Flexible Metal Grid Transparent Conductor by Low-Temperature Selective Laser Sintering of Nanoparticle Ink
DOI:10.1021/nn400432z JN:ACS NANO PY:2013 TC:38 AU: Hong, Sukjoon;Yeo, Junyeob;Kim, Gunho;Kim, Dongkyu;Lee, Habeom;Kwon, Jinhyeong;Lee, Hyungman;Lee, Phillip;Ko, Seung Hwan;
2:6:76 Relationship between Material Properties and Transparent Heater Performance for Both Bulk-like and Percolative Nanostructured Networks
DOI:10.1021/nn500692d JN:ACS NANO PY:2014 TC:10 AU: Sorel, Sophie;Bellet, Daniel;Coleman, Jonathan N.;
2:6:77 Co-Percolating Graphene-Wrapped Silver Nanowire Network for High Performance, Highly Stable, Transparent Conducting Electrodes
DOI:10.1002/adfm.201300124 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:54 AU: Chen, Ruiyi;Das, Suprem R.;Jeong, Changwook;Khan, Mohammad Ryyan;Janes, David B.;Alam, Muhammad A.;
2:6:78 Silver Nanowires: From Scalable Synthesis to Recyclable Foldable Electronics
DOI:10.1002/adma.201100530 JN:ADVANCED MATERIALS PY:2011 TC:70 AU: Yang, Cheng;Gu, Hongwei;Lin, Wei;Yuen, Matthew M.;Wong, Ching Ping;Xiong, Mingyong;Gao, Bo;
2:6:79 High-Performance NiO/Ag/NiO Transparent Electrodes for Flexible Organic Photovoltaic Cells
DOI:10.1021/am504806k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Xue, Zhichao;Liu, Xingyuan;Zhang, Nan;Chen, Hong;Zheng, Xuanming;Wang, Haiyu;Guo, Xiaoyang;
2:6:80 Simple brush-painting of flexible and transparent Ag nanowire network electrodes as an alternative ITO anode for cost-efficient flexible organic solar cells
DOI:10.1016/j.solmat.2012.07.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:30 AU: Lim, Jong-Wook;Cho, Da-Young;Jihoon-Kim;Na, Seok-In;Kim, Han-Ki;
2:6:81 Fabrication of Highly Conductive and Transparent Thin Films from Single-Walled Carbon Nanotubes Using a New Non-ionic Surfactant via Spin Coating
DOI:10.1021/nn1009837 JN:ACS NANO PY:2010 TC:67 AU: Jo, Jea Woong;Jung, Jae Woong;Lee, Jea Uk;Jo, Won Ho;
2:6:82 ITO-Free and Flexible Organic Photovoltaic Device Based on High Transparent and Conductive Polyaniline/Carbon Nanotube Thin Films
DOI:10.1002/adfm.201201878 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:39 AU: Salvatierra, Rodrigo V.;Cava, Carlos E.;Roman, Lucimara S.;Zarbin, Aldo J. G.;
2:6:83 A New Architecture for Transparent Electrodes: Relieving the Trade-Off Between Electrical Conductivity and Optical Transmittance
DOI:10.1002/adma.201100419 JN:ADVANCED MATERIALS PY:2011 TC:49 AU: Kuang, Ping;Park, Joong-Mok;Leung, Wai;Mahadevapuram, Rakesh C.;Nalwa, Kanwar S.;Kim, Tae-Geun;Chaudhary, Sumit;Ho, Kai-Ming;Constant, Kristen;
2:6:84 A Healable, Semitransparent Silver Nanowire-Polymer Composite Conductor
DOI:10.1002/adma.201301069 JN:ADVANCED MATERIALS PY:2013 TC:20 AU: Gong, Chaokun;Liang, Jiajie;Hu, Wei;Niu, Xiaofan;Ma, Sungwon;Hahn, H. Thomas;Pei, Qibing;
2:6:85 Improved Thermal Oxidation Stability of Solution-Processable Silver Nanowire Transparent Electrode by Reduced Graphene Oxide
DOI:10.1021/am301913w JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:41 AU: Ahn, Yumi;Jeong, Youngjun;Lee, Youngu;
2:6:86 Percolation Effects in Supercapacitors with Thin, Transparent Carbon Nanotube Electrodes
DOI:10.1021/nn204734t JN:ACS NANO PY:2012 TC:28 AU: King, Paul J.;Higgins, Thomas M.;De, Sukanta;Nicoloso, Norbert;Coleman, Jonathan N.;
2:6:87 High-Performance Flexible Organic Light-Emitting Diodes Using Embedded Silver Network Transparent Electrodes
DOI:10.1021/nn506034g JN:ACS NANO PY:2014 TC:7 AU: Zhou, Lei;Xiang, Heng-Yang;Shen, Su;Li, Yan-Qing;De Chen, Jing-;Xie, Hao-Jun;Goldthorpe, Irene A.;Chen, Lin-Sen;Lee, Shuit-Tong;Tang, Jian-Xin;
2:6:88 Efficient Flexible Phosphorescent Polymer Light-Emitting Diodes Based on Silver Nanowire-Polymer Composite Electrode
DOI:10.1002/adma.201103180 JN:ADVANCED MATERIALS PY:2011 TC:49 AU: Li, Lu;Yu, Zhibin;Hu, Weili;Chang, Chia-hao;Chen, Qi;Pei, Qibing;
2:6:89 Very thin transparent, conductive carbon nanotube films on flexible substrates
DOI:10.1063/1.3462317 JN:APPLIED PHYSICS LETTERS PY:2010 TC:41 AU: Scardaci, Vittorio;Coull, Richard;Coleman, Jonathan N.;
2:6:90 Holistic Method for Evaluating Large Area Transparent Conducting Electrodes
DOI:10.1021/am302264a JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Gupta, Ritu;Kulkarni, Giridhar U.;
2:6:91 Spray Coating of Crack Templates for the Fabrication of Transparent Conductors and Heaters on Flat and Curved Surfaces
DOI:10.1021/am503154z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Gupta, Ritu;Rao, K. D. M.;Srivastava, Kartikeya;Kumar, Ankush;Kiruthika, S.;Kulkarni, Giridhar U.;
2:6:92 Highly reliable AgNW/PEDOT:PSS hybrid films: efficient methods for enhancing transparency and lowering resistance and haziness
DOI:10.1039/c4tc00686k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Kim, Seyul;Kim, So Yeon;Kim, Jeonghun;Kim, Jung Hyun;
2:6:93 Optimization of silver nanowire networks for polymer light emitting diode electrodes
DOI:10.1088/0957-4484/24/12/125202 JN:NANOTECHNOLOGY PY:2013 TC:28 AU: Coskun, Sahin;Ates, Elif Selen;Unalan, Husnu Emrah;
2:6:94 Brush painting of transparent PEDOT/Ag nanowire/PEDOT multilayer electrodes for flexible organic solar cells
DOI:10.1016/j.solmat.2013.02.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:33 AU: Lee, Ju-Hyun;Shin, Hyun-Su;Noh, Yong-Jin;Na, Seok-In;Kim, Han-Ki;
2:6:95 Solution-processed silver nanowires as a transparent conducting electrode for air-stable inverted organic solar cells
DOI:10.1016/j.tsf.2014.10.098 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Song, Myungkwan;Kim, Jong-Kuk;Yang, Shi-Young;Kang, Jae-Wook;
2:6:96 Woven Electrodes for Flexible Organic Photovoltaic Cells
DOI:10.1002/adma.201003391 JN:ADVANCED MATERIALS PY:2011 TC:37 AU: Kylberg, William;de Castro, Fernando Araujo;Chabrecek, Peter;Sonderegger, Uriel;Chu, Bryan Tsu-Te;Nueesch, Frank;Hany, Roland;
2:6:97 Rod-Coating: Towards Large-Area Fabrication of Uniform Reduced Graphene Oxide Films for Flexible Touch Screens
DOI:10.1002/adma.201200055 JN:ADVANCED MATERIALS PY:2012 TC:49 AU: Wang, Jie;Liang, Minghui;Fang, Yan;Qiu, Tengfei;Zhang, Jin;Zhi, Linjie;
2:6:98 Silver Nanowire/Optical Adhesive Coatings as Transparent Electrodes for Flexible Electronics
DOI:10.1021/am402847y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Miller, Michael S.;O'Kane, Jessica C.;Niec, Adrian;Carmichael, R. Stephen;Carmichael, Tricia Breen;
2:6:99 Electrolessly Deposited Electrospun Metal Nanowire Transparent Electrodes
DOI:10.1021/ja505741e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:7 AU: Hsu, Po-Chun;Kong, Desheng;Wang, Shuang;Wang, Haotian;Welch, Alex J.;Wu, Hui;Cui, Yi;
2:6:100 Transparent, flexible conducting graphene hybrid films with a subpercolating network of silver nanowires
DOI:10.1039/c3tc30178h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:27 AU: Liu, Yang;Chang, Quanhong;Huang, Lei;
2:6:101 Transferable self-welding silver nanowire network as high performance transparent flexible electrode
DOI:10.1088/0957-4484/24/33/335202 JN:NANOTECHNOLOGY PY:2013 TC:28 AU: Zhu, Siwei;Gao, Yuan;Hu, Bin;Li, Jia;Su, Jun;Fan, Zhiyong;Zhou, Jun;
2:6:102 Stretchable and Transparent Electrodes using Hybrid Structures of Graphene-Metal Nanotrough Networks with High Performances and Ultimate Uniformity
DOI:10.1021/nl502755y JN:NANO LETTERS PY:2014 TC:8 AU: An, Byeong Wan;Hyun, Byung Gwan;Kim, So-Yun;Kim, Minji;Lee, Mi-Sun;Lee, Kyongsoo;Koo, Jae Bon;Chu, Hye Yong;Bae, Byeong-Soo;Park, Jang-Ung;
2:6:103 Fully Solution-Processed Semitransparent Organic Solar Cells with a Silver Nanowire Cathode and a Conducting Polymer Anode
DOI:10.1021/nn406672n JN:ACS NANO PY:2014 TC:23 AU: Yim, Jong Hyuk;Joe, Sung-yoon;Pang, Christina;Lee, Kyung Moon;Jeong, Huiseong;Park, Ji-Yong;Ahn, Yeong Hwan;de Mello, John C.;Lee, Soonil;
2:6:104 Synergistically Enhanced Stability of Highly Flexible Silver Nanowire/Carbon Nanotube Hybrid Transparent Electrodes by Plasmonic Welding
DOI:10.1021/am502639n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Lee, Jongsoo;Woo, Ju Yeon;Kim, Ju Tae;Lee, Byung Yang;Han, Chang-Soo;
2:6:105 High-Quality Transparent Electrodes Spin-Cast from Preformed Antimony-Doped Tin Oxide Nanocrystals for Thin Film Optoelectronics
DOI:10.1021/cm4030149 JN:CHEMISTRY OF MATERIALS PY:2013 TC:13 AU: Luo, Li;Bozyigit, Deniz;Wood, Vanessa;Niederberger, Markus;
2:6:106 Strongly adhesive and flexible transparent silver nanowire conductive films fabricated with a high-intensity pulsed light technique
DOI:10.1039/c2jm35545k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:34 AU: Jiu, Jinting;Nogi, Masaya;Sugahara, Tohru;Tokuno, Takehiro;Araki, Teppei;Komoda, Natsuki;Suganuma, Katsuaki;Uchida, Hiroshi;Shinozaki, Kenji;
2:6:107 Large-scale fabrication of a continuous gold network for use as a transparent conductive electrode in photo-electronic devices
DOI:10.1088/0957-4484/23/42/425303 JN:NANOTECHNOLOGY PY:2012 TC:13 AU: Cheng, Ke;Cui, Zhonggang;Li, Qianqian;Wang, Shujie;Du, Zuliang;
2:6:108 Transparent conducting film composed of graphene and silver nanowire stacked layers
DOI:10.1016/j.synthmet.2013.04.025 JN:SYNTHETIC METALS PY:2013 TC:8 AU: Naito, Katsuyuki;Yoshinaga, Norihiro;Tsutsumi, Eishi;Akasaka, Yoshihiro;
2:6:109 Passivation Coating on Electrospun Copper Nanofibers for Stable Transparent Electrodes
DOI:10.1021/nn300844g JN:ACS NANO PY:2012 TC:40 AU: Hsu, Po-Chun;Wu, Hui;Carney, Thomas J.;McDowell, Matthew T.;Yang, Yuan;Garnett, Erik C.;Li, Michael;Hu, Liangbing;Cui, Yi;
2:6:110 Reconfigurable Topography for Rapid Solution Processing of Transparent Conductors
DOI:10.1002/adma.201302377 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Wu, Haosheng;Menon, Monisha;Gates, Evan;Balasubramanian, Aditya;Bettinger, Christopher J.;
2:6:111 On-Surface Formation of Metal Nanowire Transparent Top Electrodes on CdSe Nanowire Array-Based Photoconductive Devices
DOI:10.1021/am3004895 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:8 AU: Azulai, Daniel;Givan, Uri;Shpaisman, Nava;Belenkova, Tatyana Levi;Gilon, Hagit;Patolsky, Fernando;Markovich, Gil;
2:6:112 Highly Conductive and Flexible Paper of 1D Silver-Nanowire-Doped Graphene
DOI:10.1021/am302825w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:51 AU: Chen, Jian;Bi, Hui;Sun, Shengrui;Tang, Yufeng;Zhao, Wei;Lin, Tianquan;Wan, Dongyun;Huang, Fuqiang;Zhou, Xiaodong;Xie, Xiaoming;Jiang, Mianheng;
2:6:113 Fully Solution-Processing Route toward Highly Transparent Polymer Solar Cells
DOI:10.1021/am505347p JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:12 AU: Guo, Fei;Kubis, Peter;Stubhan, Tobias;Li, Ning;Baran, Derya;Przybilla, Thomas;Spiecker, Erdmann;Forberich, Karen;Brabec, Christoph J.;
2:6:114 Stable Charge-Transfer Doping of Transparent Single-Walled Carbon Nanotube Films
DOI:10.1021/cm101085p JN:CHEMISTRY OF MATERIALS PY:2010 TC:45 AU: Chandra, Bhupesh;Afzali, Ali;Khare, Neeraj;El-Ashry, Mostafa M.;Tulevski, George S.;
2:6:115 Large-Scale Flexible and Highly Conductive Carbon Transparent Electrodes via Roll-to-Roll Process and Its High Performance Lab-Scale Indium Tin Oxide-Free Polymer Solar Cells
DOI:10.1021/cm5033942 JN:CHEMISTRY OF MATERIALS PY:2014 TC:9 AU: Hu, Xiaotian;Chen, Lie;Zhang, Yong;Hu, Qiao;Yang, Junliang;Chen, Yiwang;
2:6:116 Improvements in purification of silver nanowires by decantation and fabrication of flexible transparent electrodes. Application to capacitive touch sensors
DOI:10.1088/0957-4484/24/21/215501 JN:NANOTECHNOLOGY PY:2013 TC:19 AU: Mayousse, Celine;Celle, Caroline;Moreau, Eleonore;Mainguet, Jean-Francois;Carella, Alexandre;Simonato, Jean-Pierre;
2:6:117 Superstable Transparent Conductive Cu@Cu4Ni Nanowire Elastomer Composites against Oxidation, Bending, Stretching, and Twisting for Flexible and Stretchable Optoelectronics
DOI:10.1021/nl502647k JN:NANO LETTERS PY:2014 TC:20 AU: Song, Jizhong;Li, Jianhai;Xu, Jiayue;Zeng, Haibo;
2:6:118 Roll-to-Roll Encapsulation of Metal Nanowires between Graphene and Plastic Substrate for High-Performance Flexible Transparent Electrodes
DOI:10.1021/acs.nanolett.5b01531 JN:NANO LETTERS PY:2015 TC:1 AU: Deng, Bing;Hsu, Po-Chun;Chen, Guanchu;Chandrashekar, B. N.;Liao, Lei;Ayitimuda, Zhawulie;Wu, Jinxiong;Guo, Yunfan;Lin, Li;Zhou, Yu;Aisijiang, Mahaya;Xie, Qin;Cui, Yi;Liu, Zhongfan;Peng, Hailin;
2:6:119 Personal Thermal Management by Metallic Nanowire-Coated Textile
DOI:10.1021/nl5036572 JN:NANO LETTERS PY:2015 TC:6 AU: Hsu, Po-Chun;Liu, Xiaoge;Liu, Chong;Xie, Xing;Lee, Hye Ryoung;Welch, Alex J.;Zhao, Tom;Cui, Yi;
2:6:120 Annealing-free fabrication of highly oxidation-resistive copper nanowire composite conductors for photovoltaics
DOI:10.1038/am.2014.36 JN:NPG ASIA MATERIALS PY:2014 TC:8 AU: Won, Yulim;Kim, Areum;Lee, Donggyu;Yang, Wooseok;Woo, Kyoohee;Jeong, Sunho;Moon, Jooho;
2:6:121 Electronically Monodisperse Single-Walled Carbon Nanotube Thin Films as Transparent Conducting Anodes in Organic Photovoltaic Devices
DOI:10.1002/aenm.201100274 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:27 AU: Tyler, Timothy P.;Brock, Ryan E.;Karmel, Hunter J.;Marks, Tobin J.;Hersam, Mark C.;
2:6:122 Ultraflexible Polymer Solar Cells Using Amorphous Zinc-Indium-Tin Oxide Transparent Electrodes
DOI:10.1002/adma.201302303 JN:ADVANCED MATERIALS PY:2014 TC:12 AU: Zhou, Nanjia;Buchholz, Donald B.;Zhu, Guang;Yu, Xinge;Lin, Hui;Facchetti, Antonio;Marks, Tobin J.;Chang, Robert P. H.;
2:6:123 Enhancing the optical transmittance by using circular silver nanowire networks
DOI:10.1063/1.4876676 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Xie, Shouyi;Ouyang, Zi;Stokes, Nicholas;Jia, Baohua;Gu, Min;
2:6:124 Controllable fabrication of a flexible transparent metallic grid conductor based on the coffee ring effect
DOI:10.1039/c4tc01908c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Zhang, Zhiliang;Zhu, Weiyue;
2:6:125 Large area solution processed transparent conducting electrode based on highly interconnected Cu wire network
DOI:10.1039/c3tc32167c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:16 AU: Kiruthika, S.;Gupta, Ritu;Rao, K. D. M.;Chakraborty, Swati;Padmavathy, Nagarajan;Kulkarni, Giridhar U.;
2:6:126 Flexible Transparent PES/Silver Nanowires/PET Sandwich-Structured Film for High-Efficiency Electromagnetic Interference Shielding
DOI:10.1021/la300720y JN:LANGMUIR PY:2012 TC:31 AU: Hu, Mingjun;Gao, Jiefeng;Dong, Yucheng;Li, Kai;Shan, Guangcun;Yang, Shiliu;Li, Robert Kwok-Yiu;
2:6:127 Highly conductive and stretchable Ag nanowire/carbon nanotube hybrid conductors
DOI:10.1088/0957-4484/25/28/285203 JN:NANOTECHNOLOGY PY:2014 TC:9 AU: Woo, Ju Yeon;Kim, Kyun Kyu;Lee, Jongsoo;Kim, Ju Tae;Han, Chang-Soo;
2:6:128 High-Throughput Arrays for Rapid Characterization of Solution-Processable Transparent Conducting Electrodes
DOI:10.1002/smll.201201330 JN:SMALL PY:2012 TC:1 AU: Kustra, Stephen;Wu, Haosheng;Basu, Saurav;Rohde, Gustavo K.;Bettinger, Christopher J.;
2:6:129 The Role of Cuprous Oxide Seeds in the One-Pot and Seeded Syntheses of Copper Nanowires
DOI:10.1002/smll.201303005 JN:SMALL PY:2014 TC:10 AU: Ye, Shengrong;Rathmell, Aaron R.;Ha, Yoon-Cheol;Wilson, Adria R.;Wiley, Benjamin J.;
2:6:130 ITO-Free, Small-Molecule Organic Solar Cells on Spray-Coated Copper-Nanowire-Based Transparent Electrodes
DOI:10.1002/aenm.201300737 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:11 AU: Sachse, Christoph;Weiss, Nelli;Gaponik, Nikolai;Mueller-Meskamp, Lars;Eychmueller, Alexander;Leo, Karl;
2:6:131 Novel Cu Nanowires/Graphene as the Back Contact for CdTe Solar Cells
DOI:10.1002/adfm.201102809 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:26 AU: Liang, Jun;Bi, Hui;Wan, Dongyun;Huang, Fuqiang;
2:6:132 Insulator-Conductor Type Transitions in Graphene-Modified Silver Nanowire Networks: A Route to Inexpensive Transparent Conductors
DOI:10.1002/adfm.201402547 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Jurewicz, Izabela;Fahimi, Azin;Lyons, Phillip E.;Smith, Ronan J.;Cann, Maria;Large, Matthew L.;Tian, Mingwen;Coleman, Jonathan N.;Dalton, Alan B.;
2:6:133 Ultrathin Hetero-Nanowire-Based Flexible Electronics with Tunable Conductivity
DOI:10.1002/adma.201301903 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Liu, Jian-Wei;Huang, Wei-Ran;Gong, Ming;Zhang, Meng;Wang, Jin-Long;Zheng, Jing;Yu, Shu-Hong;
2:6:134 Role of 1D Metallic Nanowires in Polydomain Graphene for Highly Transparent Conducting Films
DOI:10.1002/adma.201306234 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Choi, Hyung Ouk;Kim, Dae Woo;Kim, Seon Joon;Yang, Seung Bo;Jung, Hee-Tae;
2:6:135 Uniform Self-Forming Metallic Network as a High-Performance Transparent Conductive Electrode
DOI:10.1002/adma.201302950 JN:ADVANCED MATERIALS PY:2014 TC:19 AU: Han, Bing;Pei, Ke;Huang, Yuanlin;Zhang, Xiaojian;Rong, Qikun;Lin, Qinggeng;Guo, Yangfei;Sun, Tianyi;Guo, Chuanfei;Carnahan, David;Giersig, Michael;Wang, Yang;Gao, Jinwei;Ren, Zhifeng;Kempa, Krzysztof;
2:6:136 Carbon nanotube network electrodes enabling efficient organic solar cells without a hole transport layer
DOI:10.1063/1.3453445 JN:APPLIED PHYSICS LETTERS PY:2010 TC:36 AU: Barnes, Teresa M.;Bergeson, Jeremy D.;Tenent, Robert C.;Larsen, Brian A.;Teeter, Glenn;Jones, Kim M.;Blackburn, Jeffrey L.;van de Lagemaat, Jao;
2:6:137 High figure-of-merit ultrathin metal transparent electrodes incorporating a conductive grid
DOI:10.1063/1.3299259 JN:APPLIED PHYSICS LETTERS PY:2010 TC:40 AU: Ghosh, D. S.;Chen, T. L.;Pruneri, V.;
2:6:138 Flexible, transparent dielectric capacitors with nanostructured electrodes
DOI:10.1063/1.4750059 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Sorel, Sophie;Khan, Umar;Coleman, Jonathan N.;
2:6:139 Silver Nanowire Network Transparent Electrodes with Highly Enhanced Flexibility by Welding for Application in Flexible Organic Light-Emitting Diodes
DOI:10.1021/am5011354 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:16 AU: Cheong, Hahn-Gil;Triambulo, Ross. E.;Lee, Gun-Hwan;Yi, In-Sook;Park, Jin-Woo;
2:6:140 Copper nanowire based transparent conductive films with high stability and superior stretchability
DOI:10.1039/c4tc00375f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:12 AU: Cheng, Yin;Wang, Shouling;Wang, Ranran;Sun, Jing;Gao, Lian;
2:6:141 Flexible, Transparent, and Conductive Film Based on Random Networks of Ag Nanowires
DOI:10.1155/2013/456098 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:7 AU: Wang, Shunhua;Zhang, Xu;Zhao, Weiwei;
2:6:142 Low-Temperature Large-Scale Synthesis and Electrical Testing of Ultralong Copper Nanowires
DOI:10.1021/la101385e JN:LANGMUIR PY:2010 TC:56 AU: Mohl, Melinda;Pusztai, Peter;Kukovecz, Akos;Konya, Zoltan;Kukkola, Jarmo;Kordas, Krisztian;Vajtai, Robert;Ajayan, Pulickel M.;
2:6:143 Highly foldable transparent conductive films composed of silver nanowire junctions prepared by chemical metal reduction
DOI:10.1088/0957-4484/25/28/285601 JN:NANOTECHNOLOGY PY:2014 TC:4 AU: Chang, Yi-Ming;Yeh, Wen-Yung;Chen, Pin-Chu;
2:6:144 Forest of Gold Nanowires: A New Type of Nanocrystal Growth
DOI:10.1021/nn4001885 JN:ACS NANO PY:2013 TC:18 AU: He, Jiating;Wang, Yawen;Feng, Yuhua;Qi, Xiaoying;Zeng, Zhiyuan;Liu, Qing;Teo, Wei Shan;Gan, Chee Lip;Zhang, Hua;Chen, Hongyu;
2:6:145 Comparing the Fundamental Physics and Device Performance of Transparent, Conductive Nanostructured Networks with Conventional Transparent Conducting Oxides
DOI:10.1002/aenm.201100608 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:28 AU: Barnes, Teresa M.;Reese, Matthew O.;Bergeson, Jeremy D.;Larsen, Brian A.;Blackburn, Jeffrey L.;Beard, Matthew C.;Bult, Justin;van de Lagemaat, Jao;
2:6:146 Selective-Area Van der Waals Epitaxy of Topological Insulator Grid Nanostructures for Broadband Transparent Flexible Electrodes
DOI:10.1002/adma.201302661 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Guo, Yunfan;Aisijiang, Mahaya;Zhang, Kai;Jiang, Wei;Chen, Yulin;Zheng, Wenshan;Song, Zehao;Cao, Jie;Liu, Zhongfan;Peng, Hailin;
2:6:147 Color in the Corners: ITO-Free White OLEDs with Angular Color Stability
DOI:10.1002/adma.201300923 JN:ADVANCED MATERIALS PY:2013 TC:39 AU: Gaynor, Whitney;Hofmann, Simone;Christoforo, M. Greyson;Sachse, Christoph;Mehra, Saahil;Salleo, Alberto;McGehee, Michael D.;Gather, Malte C.;Luessem, Bjoern;Mueller-Meskamp, Lars;Peumans, Peter;Leo, Karl;
2:6:148 An Ultrathin, Smooth, and Low-Loss Al-Doped Ag Film and Its Application as a Transparent Electrode in Organic Photovoltaics
DOI:10.1002/adma.201306091 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Zhang, Cheng;Zhao, Dewei;Gu, Deen;Kim, Hyunsoo;Ling, Tao;Wu, Yi-Kuei Ryan;Guo, L. Jay;
2:6:149 Highly Transparent and Conductive Films of Densely Aligned Ultrathin Au Nanowire Monolayers
DOI:10.1021/nl3021522 JN:NANO LETTERS PY:2012 TC:25 AU: Sanchez-Iglesias, Ana;Rivas-Murias, Beatriz;Grzelczak, Marek;Perez-Juste, Jorge;Liz-Marzan, Luis M.;Rivadulla, Francisco;Correa-Duarte, Miguel A.;
2:6:150 Ag nanowire-embedded ITO films as a near-infrared transparent and flexible anode for flexible organic solar cells
DOI:10.1016/j.solmat.2012.12.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:24 AU: Choi, Kwang-Hyuk;Kim, Jihoon;Noh, Young-Jin;Na, Seok-In;Kim, Han-Ki;
2:6:151 A Tough and High-Performance Transparent Electrode from a Scalable and Transfer-Free Method
DOI:10.1021/nn500678b JN:ACS NANO PY:2014 TC:11 AU: He, Tianda;Xie, Aozhen;Reneker, Darrell H.;Zhu, Yu;
2:6:152 All-Solution-Processed Indium-Free Transparent Composite Electrodes based on Ag Nanowire and Metal Oxide for Thin- Film Solar Cells
DOI:10.1002/adfm.201303518 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:22 AU: Kim, Areum;Won, Yulim;Woo, Kyoohee;Jeong, Sunho;Moon, Jooho;
2:6:153 Ultrathin Transparent Conductive Polyimide Foil Embedding Silver Nanowires
DOI:10.1021/am505704e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Ghosh, Dhriti Sundar;Chen, Tong Lai;Mkhitaryan, Vahagn;Pruneri, Valerio;
2:6:154 UV induced formation of transparent Au-Ag nanowire mesh film for repairable OLED devices
DOI:10.1039/c2jm35291e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Belenkova, Tatyana Levi;Rimmerman, Dolev;Mentovich, Elad;Gilon, Hagit;Hendler, Netta;Richter, Shachar;Markovich, Gil;
2:6:155 Effects of TiO2 shells on optical and thermal properties of silver nanowires
DOI:10.1039/c2jm00010e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Ramasamy, Parthiban;Seo, Dong-Min;Kim, Sang-Ho;Kim, Jinkwon;
2:6:156 Facile synthesis of very-long silver nanowires for transparent electrodes
DOI:10.1039/c4ta00502c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:22 AU: Jiu, J.;Araki, T.;Wang, J.;Nogi, M.;Sugahara, T.;Nagao, S.;Koga, H.;Suganuma, K.;Nakazawa, E.;Hara, M.;Uchida, H.;Shinozaki, K.;
2:6:157 Self-Seeded Growth of Five-Fold Twinned Copper Nanowires: Mechanistic Study, Characterization and SERS Applications
DOI:10.1021/la4036198 JN:LANGMUIR PY:2014 TC:12 AU: Yang, Hong-Jie;He, Sheng-Yan;Tuan, Hsing-Yu;
2:6:158 Uniform and Ordered Copper Nanomeshes by Microsphere Lithography for Transparent Electrodes
DOI:10.1021/nl5003075 JN:NANO LETTERS PY:2014 TC:11 AU: Gao, Tongchuan;Wang, Baomin;Ding, Bo;Lee, Jung-kun;Leu, Paul W.;
2:6:159 Highly conductive flexible transparent electrodes fabricated by combining graphene films and inkjet-printed silver grids
DOI:10.1016/j.solmat.2014.01.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Kahng, Yung Ho;Kim, Min-Kang;Lee, Jong-Hoon;Kim, Yong Jae;Kim, Nara;Park, Dong-Won;Lee, Kwanghee;
2:6:160 Hybrid Films with Graphene Oxide and Metal Nanoparticles Could Now Replace Indium Tin Oxide
DOI:10.1021/nn302221q JN:ACS NANO PY:2012 TC:15 AU: Varela-Rizo, Helena;Martin-Gullon, Ignacio;Terrones, Mauricio;
2:6:161 Nanoscale Joule Heating and Electromigration Enhanced Ripening of Silver Nanowire Contacts
DOI:10.1021/nn4065567 JN:ACS NANO PY:2014 TC:21 AU: Song, Tze-Bin;Chen, Yu;Chung, Choong-Heui;Yang, Yang (Michael);Bob, Brion;Duan, Hsin-Sheng;Li, Gang;Tu, King-Ning;Huang, Yu;Yang, Yang;
2:6:162 Efficient Semi-Transparent Organic Solar Cells with Good Transparency Color Perception and Rendering Properties
DOI:10.1002/aenm.201000089 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:32 AU: Colsmann, Alexander;Puetz, Andreas;Bauer, Andreas;Hanisch, Jonas;Ahlswede, Erik;Lemmer, Uli;
2:6:163 Extremely Flexible Transparent Conducting Electrodes for Organic Devices
DOI:10.1002/aenm.201300474 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:12 AU: Jung, Sunghoon;Lee, Sunghun;Song, Myungkwan;Kim, Do-Geun;You, Dae Sung;Kim, Jong-Kuk;Kim, Chang Su;Kim, Tae-Min;Kim, Kwon-Hyeon;Kim, Jang-Joo;Kang, Jae-Wook;
2:6:164 Electrical Percolation Behavior in Silver Nanowire-Polystyrene Composites: Simulation and Experiment
DOI:10.1002/adfm.201000451 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:43 AU: White, Sadie I.;Mutiso, Rose M.;Vora, Patrick M.;Jahnke, David;Hsu, Sam;Kikkawa, James M.;Li, Ju;Fischer, John E.;Winey, Karen I.;
2:6:165 Uniformly Interconnected Silver-Nanowire Networks for Transparent Film Heaters
DOI:10.1002/adfm.201202013 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:55 AU: Kim, TaeYoung;Kim, Yeon Won;Lee, Ho Seok;Kim, Hyeongkeun;Yang, Woo Seok;Suh, Kwang S.;
2:6:166 Ag nanowire percolating network embedded in indium tin oxide nanoparticles for printable transparent conducting electrodes
DOI:10.1063/1.4866007 JN:APPLIED PHYSICS LETTERS PY:2014 TC:4 AU: Jeong, Jin-A;Kim, Han-Ki;
2:6:167 Site-Selective Growth of Patterned Silver Grid Networks as Flexible Transparent Conductive Film by Using Poly(dopamine) at Room Temperature
DOI:10.1021/am402900u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Jin, Yunxia;Cheng, Yuanrong;Deng, Dunying;Jiang, Chengjie;Qi, Tianke;Yang, Donglun;Xiao, Fei;
2:6:168 Thin-Film Copper Indium Gallium Selenide Solar Cell Based on Low-Temperature All-Printing Process
DOI:10.1021/am504509r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Singh, Manjeet;Jiu, Jinting;Sugahara, Tohru;Suganuma, Katsuaki;
2:6:169 A highly electrically conductive graphene-silver nanowire hybrid nanomaterial for transparent conductive films
DOI:10.1039/c4tc01217h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Hsiao, Sheng-Tsung;Tien, Hsi-Wen;Liao, Wei-Hao;Wang, Yu-Sheng;Li, Shin-Ming;MMa, Chen-Chi;Yu, Yi-Hsiuan;Chuang, Wen-Pin;
2:6:170 Silver nanowire transparent conducting paper-based electrode with high optical haze
DOI:10.1039/c3tc31726a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:23 AU: Preston, Colin;Fang, Zhiqiang;Murray, Joseph;Zhu, Hongli;Dai, Jiaqi;Munday, Jeremy N.;Hu, Liangbing;
2:6:171 Highly conductive and transparent Ag honeycomb mesh fabricated using a monolayer of polystyrene spheres
DOI:10.1088/0957-4484/24/23/235205 JN:NANOTECHNOLOGY PY:2013 TC:10 AU: Kwon, Namyong;Kim, Kyohyeok;Sung, Sihyun;Yi, Insook;Chung, Ilsub;
2:6:172 A highly stretchable, helical copper nanowire conductor exhibiting a stretchability of 700%
DOI:10.1038/am.2014.88 JN:NPG ASIA MATERIALS PY:2014 TC:4 AU: Won, Yulim;Kim, Areum;Yang, Wooseok;Jeong, Sunho;Moon, Jooho;
2:6:173 Nano-sized Ag-inserted amorphous ZnSnO3 multilayer electrodes for cost-efficient inverted organic solar cells
DOI:10.1016/j.solmat.2011.01.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:34 AU: Choi, Yoon-Young;Choi, Kwang-Hyuk;Lee, Hosun;Lee, Hosuk;Kang, Jae-Wook;Kim, Han-Ki;
2:6:174 Transparent conductive film with printable embedded patterns for organic solar cells
DOI:10.1016/j.solmat.2012.10.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:21 AU: Yu, Jong-Su;Jung, Gwan Ho;Jo, Jeongdai;Kim, Jung Su;Kim, Jun Woo;Kwak, Sun-Woo;Lee, Jong-Lam;Kim, Inyoung;Kim, Dojin;
2:6:175 Solution processed metallic nanowire based transparent electrode capped with a multifunctional layer
DOI:10.1063/1.4809670 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Ghosh, D. S.;Chen, T. L.;Mkhitaryan, V.;Formica, N.;Pruneri, V.;
2:6:176 Electrostatic Spray Deposition of Highly Transparent Silver Nanowire Electrode on Flexible Substrate
DOI:10.1021/am3023543 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:35 AU: Kim, Taegeon;Canlier, Ali;Kim, Geun Hong;Choi, Jaeho;Park, Minkyu;Han, Seung Min;
2:6:177 High Performance ZnO-SnO2:F Nanocomposite Transparent Electrodes for Energy Applications
DOI:10.1021/am5034473 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Giusti, Gael;Consonni, Vincent;Puyoo, Etienne;Bellet, Daniel;
2:6:178 Fabrication of Metallic Nanomesh: Pt Nano-Mesh as a Proof of Concept for Stretchable and Transparent Electrodes
DOI:10.1021/cm402085k JN:CHEMISTRY OF MATERIALS PY:2013 TC:14 AU: Jang, Ho Young;Lee, Seoung-Ki;Cho, Sang Hyun;Ahn, Jong-Hyun;Park, Sungho;
2:6:179 The optical and electrical properties of silver nanowire mesh films
DOI:10.1063/1.4812390 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:10 AU: Khanarian, G.;Joo, J.;Liu, X. -Q.;Eastman, P.;Werner, D.;O'Connell, K.;Trefonas, P.;
2:6:180 Preparation and optical properties of silver nanowires and silver-nanowire thin films
DOI:10.1016/j.jcis.2010.12.077 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:30 AU: Luu, Quocanh N.;Doorn, Joshua M.;Berry, Mary T.;Jiang, Chaoyang;Lin, Cuikun;May, P. Stanley;
2:6:181 Digital grayscale printing for patterned transparent conducting Ag electrodes and their applications in flexible electronics
DOI:10.1039/c3tc32229g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Gupta, Ritu;Hosel, Markus;Jensen, Jacob;Krebs, Frederik C.;Kulkarni, Giridhar U.;
2:6:182 Combining the silver nanowire bridging effect with chemical doping for highly improved conductivity of CVD-grown graphene films
DOI:10.1039/c4tc00606b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Choi, Hyung Ouk;Kim, Dae Woo;Kim, Seon Joon;Cho, Kyeong Min;Jung, Hee-Tae;
2:6:183 Flexible transparent conductive films on PET substrates with an AZO/AgNW/AZO sandwich structure
DOI:10.1039/c3tc32554g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Xu, Qingsong;Shen, Wenfeng;Huang, Qijin;Yang, Ye;Tan, Ruiqin;Zhu, Ke;Dai, Ning;Song, Weijie;
2:6:184 Figures of Merit for High-Performance Transparent Electrodes Using Dip-Coated Silver Nanowire Networks
DOI:10.1155/2012/286104 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:0 AU: Sepulveda-Mora, Sergio B.;Cloutier, Sylvain G.;
2:6:185 Transparent Electrodes Fabricated via the Self-Assembly of Silver Nanowires Using a Bubble Template
DOI:10.1021/la300961m JN:LANGMUIR PY:2012 TC:21 AU: Tokuno, Takehiro;Nogi, Masaya;Jiu, Jinting;Sugahara, Tohru;Suganuma, Katsuald;
2:6:186 Silver nanowire/polyaniline composite transparent electrode with improved surface properties
DOI:10.1016/j.materresbull.2014.05.031 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:4 AU: Kumar, A. B. V. Kiran;Jiang, Jianwei;Bae, Chang Wan;Seo, Dong Min;Piao, Longhai;Kim, Sang-Ho;
2:6:187 Graphene as an anti-permeation and protective layer for indium-free transparent electrodes
DOI:10.1088/0957-4484/23/39/395603 JN:NANOTECHNOLOGY PY:2012 TC:7 AU: Chen, T. L.;Ghosh, D. S.;Formica, N.;Pruneri, V.;
2:6:188 Silver nanowire networks: Physical properties and potential integration in solar cells
DOI:10.1016/j.solmat.2013.09.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:9 AU: Langley, D. P.;Giusti, G.;Lagrange, M.;Collins, R.;Jimenez, C.;Brechet, Y.;Bellet, D.;
2:6:189 Highly Reliable Ag Nanowire Flexible Transparent Electrode with Mechanically Welded Junctions
DOI:10.1002/smll.201303906 JN:SMALL PY:2014 TC:4 AU: Hwang, Byungil;Shin, Hae-A-Seul;Kim, Taegeon;Joo, Young-Chang;Han, Seung Min;
2:6:190 Transparent Ultrathin Oxygen- Doped Silver Electrodes for Flexible Organic Solar Cells
DOI:10.1002/adfm.201301359 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Wang, Wei;Song, Myungkwan;Bae, Tae-Sung;Park, Yeon Hyun;Kang, Yong-Cheol;Lee, Sang-Geul;Kim, Sei-Yong;Kim, Dong Ho;Lee, Sunghun;Min, Guanghui;Lee, Gun-Hwan;Kang, Jae-Wook;Yun, Jungheum;
2:6:191 Flexible, Transparent Contacts for Inorganic Nanostructures and Thin Films
DOI:10.1002/adma.201300927 JN:ADVANCED MATERIALS PY:2013 TC:1 AU: Turner-Evans, Daniel B.;Emmer, Hal;Chen, Christopher T.;Atwater, Harry A.;
2:6:192 Ultrafast room temperature wiping-rubbing fabrication of graphene nanosheets as flexible transparent conductive films with high surface stability
DOI:10.1063/1.4736576 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Yu, Yan;Jiang, Shenglin;Zhou, Wenli;Miao, Xiangshui;Zeng, Yike;Zhang, Guangzu;Zhang, Yangyang;Zhang, Qingfeng;Zhao, Han;
2:6:193 Wormlike Micelle Assisted Rod Coating: A General Method for Facile Fabrication of Large-Area Conductive Nanomaterial Thin Layer onto Flexible Plastics
DOI:10.1021/am201830t JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:9 AU: Xie, Jingyi;Wang, Huan;Bai, Huadong;Yang, Peng;Shi, Mengxue;Guo, Peng;Wang, Chen;Yang, Wantai;Song, Huaihe;
2:6:194 Effective Indium-Doped Zinc Oxide Buffer Layer on Silver Nanowires for Electrically Highly Stable, Flexible, Transparent, and Conductive Composite Electrodes
DOI:10.1021/am4025802 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Lee, Hyun Jun;Hwang, Ju Hyun;Choi, Kyung Bok;Jung, Sun-Gyu;Kim, Kyu Nyun;Shim, Yong Sub;Park, Cheol Hwee;Park, Young Wook;Ju, Byeong-Kwon;
2:6:195 Highly Bendable, Conductive, and Transparent Film by an Enhanced Adhesion of Silver Nanowires
DOI:10.1021/am402578d JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:16 AU: Li, Yang;Cui, Peng;Wang, Luyang;Lee, Hanleem;Lee, Keunsik;Lee, Hyoyoung;
2:6:196 Electron beam induced growth of silver nanowhiskers
DOI:10.1016/j.jcrysgro.2014.10.021 JN:JOURNAL OF CRYSTAL GROWTH PY:2015 TC:1 AU: Umalas, Madis;Vlassov, Sergei;Polyakov, Boris;Dorogin, Leonid M.;Saar, Rando;Kink, Ilmar;Lohmus, Ruenno;Lohmus, Ants;Romanov, Alexey E.;
2:6:197 Ultrathin and efficient flexible polymer photovoltaic cells based on stable indium-free multilayer transparent electrodes
DOI:10.1039/c2jm33594h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Guo, Xiaoyang;Lin, Jie;Chen, Hong;Zhang, Xin;Fan, Yi;Luo, Jinsong;Liu, Xingyuan;
2:6:198 Simple brush painted Ag nanowire network on graphene sheets for flexible organic solar cells
DOI:10.1116/1.4894375 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:4 AU: Seo, Ki-Won;Lee, Ju-Hyun;Cho, Nam Gwang;Kang, Seong Jun;Kim, Han-Ki;Na, Seok-In;Koo, Hyun-Woo;Kim, Tae-Woong;
2:6:199 Carbon nanotube transparent conducting films
DOI:10.1557/mrs.2011.213 JN:MRS BULLETIN PY:2011 TC:22 AU: Niu, Chunming;
2:6:200 Improved Electrical Conductivity of Graphene Films Integrated with Metal Nanowires
DOI:10.1021/n1302870x JN:NANO LETTERS PY:2012 TC:99 AU: Kholmanov, Iskandar N.;Magnuson, Carl W.;Aliev, Ali E.;Li, Huifeng;Zhang, Bin;Suk, Ji Won;Zhang, Li Li;Peng, Eric;Mousavi, S. Hossein;Khanikaev, Alexander B.;Piner, Richard;Shvets, Gennady;Ruoff, Rodney S.;
2:6:201 Manipulating Connectivity and Electrical Conductivity in Metallic Nanowire Networks
DOI:10.1021/nl303416h JN:NANO LETTERS PY:2012 TC:11 AU: Nirmalraj, Peter N.;Bellew, Allen T.;Bell, Alan P.;Fairfield, Jessamyn A.;McCarthy, Eoin K.;O'Kelly, Curtis;Pereira, Luiz F. C.;Sorel, Sophie;Morosan, Diana;Coleman, Jonathan N.;Ferreira, Mauro S.;Boland, John J.;
2:6:202 Real-Time Visualization of Diffusion-Controlled Nanowire Growth in Solution
DOI:10.1021/nl501762v JN:NANO LETTERS PY:2014 TC:3 AU: Ye, Shengrong;Chen, Zuofeng;Ha, Yoon-Cheol;Wiley, Benjamin J.;
2:6:203 Ag grid/ITO hybrid transparent electrodes prepared by inkjet printing
DOI:10.1016/j.solmat.2011.02.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:25 AU: Jeong, Jin-A.;Kim, Jihoon;Kim, Han-Ki;
2:6:204 Brush-painted flexible organic solar cells using highly transparent and flexible Ag nanowire network electrodes
DOI:10.1016/j.solmat.2013.11.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:13 AU: Kang, Sin-Bi;Noh, Yong-Jin;Na, Seok-In;Kim, Han-Ki;
2:6:205 Cost-effective ITO-free organic solar cells with silver nanowire-PEDOT: PSS composite electrodes via a one-step spray deposition method
DOI:10.1016/j.solmat.2013.09.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Noh, Yong-Jin;Kim, Seok-Soon;Kim, Tae-Wook;Na, Seok-In;
2:6:206 Facile Synthesis of Oxidation-Resistant Copper Nanowires toward Solution-Processable, Flexible, Foldable, and Free-Standing Electrodes
DOI:10.1002/smll.201401276 JN:SMALL PY:2014 TC:8 AU: Yin, Zhenxing;Lee, Chaedong;Cho, Sanghun;Yoo, Jeeyoung;Piao, Yuanzhe;Kim, Youn Sang;
2:6:207 Transparent conducting films based on graphene oxide/silver nanowire hybrids with high flexibility
DOI:10.1016/j.synthmet.2012.05.026 JN:SYNTHETIC METALS PY:2012 TC:16 AU: Yun, Young Soo;Kim, Do Hyeong;Kim, Bona;Park, Hyun Ho;Jin, Hyoung-Joon;
2:6:208 Durable transparent carbon nanotube films for flexible device components
DOI:10.1016/j.tsf.2010.07.026 JN:THIN SOLID FILMS PY:2010 TC:28 AU: Sierros, K. A.;Hecht, D. S.;Banerjee, D. A.;Morris, N. J.;Hu, L.;Irvin, G. C.;Lee, R. S.;Cairns, D. R.;
2:6:209 Inverted organic solar cells with polymer-modified fluorine-doped tin oxide as the electron-collecting electrode
DOI:10.1016/j.tsf.2013.05.059 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Zhou, Yinhua;Shim, Jae Won;Fuentes-Hernandez, Canek;Khan, Talha M.;Kippelen, Bernard;
2:6:210 Transparent Electrode with a Nanostructured Coating
DOI:10.1021/nn1033373 JN:ACS NANO PY:2011 TC:16 AU: Huang, Yan Y.;Terentjev, Eugene M.;
2:6:211 Combining Atomistic Simulation and X-ray Diffraction for the Characterization of Nanostructures: A Case Study on Fivefold Twinned Nanowires
DOI:10.1021/nn405941m JN:ACS NANO PY:2014 TC:4 AU: Niekiel, Florian;Bitzek, Erik;Spiecker, Erdmann;
2:6:212 Highly Stretchable, Sparse, Metallized Nanofiber Webs as Thin, Transferrable Transparent Conductors
DOI:10.1002/aenm.201300193 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:7 AU: Soltanian, Saeid;Rahmanian, Rowshan;Gholamkhass, Bobak;Kiasari, Nima Mohseni;Ko, Frank;Servati, Peyman;
2:6:213 TiN Nanofibers: A New Material with High Conductivity and Transmittance for Transparent Conductive Electrodes
DOI:10.1002/adfm.201200996 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:11 AU: Li, Heping;Pan, Wei;Zhang, Wei;Huang, Siya;Wu, Hui;
2:6:214 Fast Plasmonic Laser Nanowelding for a Cu-Nanowire Percolation Network for Flexible Transparent Conductors and Stretchable Electronics
DOI:10.1002/adma.201400474 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Han, Seungyong;Hong, Sukjoon;Ham, Jooyeun;Yeo, Junyeob;Lee, Jinhwan;Kang, Bongchul;Lee, Phillip;Kwon, Jinhyeong;Lee, Seung S.;Yang, Min-Yang;Ko, Seung Hwan;
2:6:215 High performance transparent conductor of graphene wrapped copper/nickel microgrids
DOI:10.1063/1.4903194 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wu, Wei;Tassi, Nancy G.;Walls, Dennis J.;Zhang, Lei;Willner, Bruce;
2:6:216 Electric Conductivity-Tunable Transparent Flexible Nanowire-Filled Polymer Composites: Orientation Control of Nanowires in a Magnetic Field
DOI:10.1021/am200260v JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:13 AU: Nagai, Takayuki;Aoki, Nobuyuki;Ochiai, Yuichi;Hoshino, Katsuyoshi;
2:6:217 Catalytic, Conductive, and Transparent Platinum Nanofiber Webs for FTO-Free Dye-Sensitized Solar Cells
DOI:10.1021/am400179j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:13 AU: Kim, Jongwook;Kang, Jonghyun;Jeong, Uiyoung;Kim, Heesuk;Lee, Hyunjung;
2:6:218 Low Reflectivity and High Flexibility of Tin-Doped Indium Oxide Nanofiber Transparent Electrodes
DOI:10.1021/ja109228e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:26 AU: Wu, Hui;Hu, Liangbing;Carney, Thomas;Ruan, Zhichao;Kong, Desheng;Yu, Zongfu;Yao, Yan;Cha, Judy J.;Zhu, Jia;Fan, Shanhui;Cui, Yi;
2:6:219 Facile preparation of transparent and conductive polymer films based on silver nanowire/polycarbonate nanocomposites
DOI:10.1088/0957-4484/24/27/275603 JN:NANOTECHNOLOGY PY:2013 TC:7 AU: Moreno, Ivan;Navascues, Nuria;Arruebo, Manuel;Irusta, Silvia;Santamaria, Jesus;
2:6:220 Mechanical integrity of flexible InZnO/Ag/InZnO multilayer electrodes grown by continuous roll-to-roll sputtering
DOI:10.1016/j.solmat.2011.08.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:23 AU: Choa, Sung-Hoon;Cho, Chung-Ki;Hwang, Woo-Jin;Eun, Kyung Tae;Kim, Han-Ki;
2:6:221 Efficient ITO-free polymer solar cells with pitch-converted carbon nanosheets as novel solution-processable transparent electrodes
DOI:10.1016/j.solmat.2013.03.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Na, Seok-In;Lee, Jae-Seon;Noh, Yong-Jin;Kim, Tae-Wook;Kim, Seok-Soon;Joh, Han-Ik;Lee, Sungho;
2:6:222 Reduced Graphene Oxide Nanoribbon Networks: A Novel Approach towards Scalable Fabrication of Transparent Conductive Films
DOI:10.1002/smll.201201918 JN:SMALL PY:2013 TC:9 AU: He, Haiyong;Li, Xianglong;Wang, Jie;Qiu, Tengfei;Fang, Yan;Song, Qi;Luo, Bin;Zhang, Xianfeng;Zhi, Linjie;
2:6:223 Effective Electrode Length Enhances Electrical Activation of Nanowire Networks: Experiment and Simulation
DOI:10.1021/nn5038515 JN:ACS NANO PY:2014 TC:5 AU: Fairfield, Jessamyn A.;Ritter, Carlos;Bellew, Allen T.;McCarthy, Eoin K.;Ferreira, Mauro S.;Boland, John J.;
2:6:224 Improved Operational Stability of Polymer Light-Emitting Diodes Based on Silver Nanowire Electrode Through Pre-Bias Conditioning Treatment
DOI:10.1002/adfm.201401197 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Lee, Yonghee;Suh, Minwon;Kim, Donghyuk;Lee, Dongchan;Chang, Hyein;Lee, Ho Seok;Kim, Yeon Won;Kim, TaeYoung;Suh, Kwang S.;Jeon, Duk Young;
2:6:225 Highly Transparent Au-Coated Ag Nanowire Transparent Electrode with Reduction in Haze
DOI:10.1021/am502632t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Kim, Taegeon;Canlier, Ali;Cho, Changsoon;Rozyyev, Vepa;Lee, Jung-Yong;Han, Seung Min;
2:6:226 Copper nanowire arrays for transparent electrodes
DOI:10.1063/1.4818498 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Gao, Tongchuan;Leu, Paul W.;
2:6:227 CNT/conducting polymer composite conductors impart high flexibility to textile electroluminescent devices
DOI:10.1039/c1jm14121j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Hu, Bin;Li, Dapeng;Manandharm, Prakash;Fan, Qinguo;Kasilingam, Dayalan;Calvert, Paul;
2:6:228 Electrical and optical properties of hybrid transparent electrodes that use metal grids and graphene films
DOI:10.1557/jmr.2012.399 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:4 AU: Ho, Xinning;Lu, Haijing;Liu, Wenjun;Tey, Ju Nie;Cheng, Chek Kweng;Kok, Eugene;Wei, Jun;
2:6:229 Silver nanowire based flexible electrodes with improved properties: High conductivity, transparency, adhesion and low haze
DOI:10.1016/j.materresbull.2013.04.035 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:17 AU: Kumar, A. B. V. Kiran;Bae, Chang Wan;Piao, Longhai;Kim, Sang-Ho;
2:6:230 Deformation-induced cold-welding for self-healing of super-durable flexible transparent electrodes
DOI:10.1016/j.nanoen.2014.05.011 JN:NANO ENERGY PY:2014 TC:4 AU: Guo, Chuan Fei;Lan, Yucheng;Sun, Tianyi;Ren, Zhifeng;
2:6:231 Self-limited plasmonic welding of silver nanowire junctions
DOI:10.1038/NMAT3238 JN:NATURE MATERIALS PY:2012 TC:186 AU: Garnett, Erik C.;Cai, Wenshan;Cha, Judy J.;Mahmood, Fakhruddin;Connor, Stephen T.;Christoforo, M. Greyson;Cui, Yi;McGehee, Michael D.;Brongersma, Mark L.;
2:6:232 Seed Concentration Control of Metal Nanowire Diameter
DOI:10.1021/nl302484n JN:NANO LETTERS PY:2012 TC:12 AU: Azulai, Daniel;Cohen, Elad;Markovich, Gil;
2:6:233 Roll-to-Roll Cohesive, Coated, Flexible, High-Efficiency Polymer Light-Emitting Diodes Utilizing ITO-Free Polymer Anodes
DOI:10.1002/smll.201300382 JN:SMALL PY:2013 TC:7 AU: Shin, Seongbeom;Yang, Minyang;Guo, L. Jay;Youn, Hongseok;
2:6:234 Films of Bare Single-Walled Carbon Nanotubes from Superacids with Tailored Electronic and Photoluminescence Properties
DOI:10.1021/nn302092b JN:ACS NANO PY:2012 TC:13 AU: Saha, Avishek;Ghosh, Saunab;Weisman, R. Bruce;Marti, Angel A.;
2:6:235 Enhancement of Electrical and Thermomechanical Properties of Silver Nanowire Composites by the Introduction of Nonconductive Nanoparticles: Experiment and Simulation
DOI:10.1021/nn305439t JN:ACS NANO PY:2013 TC:14 AU: Nam, Seungwoong;Cho, Hyun W.;Lim, Soonho;Kim, Daeheum;Kim, Heesuk;Sung, Bong J.;
2:6:236 Universal ultrafast sandpaper assisting rubbing method for room temperature fabrication of two-dimensional nanosheets directly on flexible polymer substrate
DOI:10.1063/1.4746755 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Yu, Yan;Jiang, Shenglin;Zhang, Guangzu;Zhou, Wenli;Miao, Xiangshui;Zeng, Yike;Wang, Jing;He, Jungang;Zhang, Ling;
2:6:237 A two-dimensional nanopatterned thin metallic transparent conductor with high transparency from the ultraviolet to the infrared
DOI:10.1063/1.4765341 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Du, Qing Guo;Sathiyamoorthy, Krishnan;Zhang, Li Ping;Demir, Hilmi Volkan;Kam, Chan Hin;Sun, Xiao Wei;
2:6:238 Electrical characterization of silver nanowire-graphene hybrid films from terahertz transmission and reflection measurements
DOI:10.1063/1.4889091 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Dadrasnia, Ehsan;Garet, Frederic;Lee, Dongmok;Coutaz, Jean-Louis;Baik, Seunghyun;Lamela, Horacio;
2:6:239 Realization of Metal-Insulator Transition and Oxidation in Silver Nanowire Percolating Networks by Terahertz Reflection Spectroscopy
DOI:10.1021/am404717j JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Tsai, Yao-Jiun;Chang, Chi-Ying;Lai, Yi-Chun;Yu, Pei-Chen;Ahn, Hyeyoung;
2:6:240 Improved performance of flexible amorphous silicon solar cells with silver nanowires
DOI:10.1063/1.4770480 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Chen, Y. R.;Li, Z. Q.;Chen, X. H.;Liu, C.;Ye, X. J.;Wang, Z. B.;Sun, Z.;Huang, S. M.;
2:6:241 Effects of size and interparticle interaction of silica nanoparticles on dispersion and electrical conductivity of silver/epoxy nanocomposites
DOI:10.1063/1.4871669 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Cho, Hyun Woo;Nam, Seungwoong;Lim, Soonho;Kim, Daeheum;Kim, Heesuk;Sung, Bong June;
2:6:242 Convenient synthesis of silver nanowires with adjustable diameters via a solvothermal method
DOI:10.1016/j.jcis.2009.12.055 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:32 AU: Chen, Dapeng;Qiao, Xueliang;Qiu, Xiaolin;Chen, Jianguo;Jiang, Renzhi;
2:6:243 Semi-transparent quantum-dot light emitting diodes with an inverted structure
DOI:10.1039/c3tc31932f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Kim, Hyo-Min;Yusoff, Abd Rashid bin Mohd;Kim, Tae-Woong;Seol, Young-Gog;Kim, Hyeong-Pil;Jang, Jin;
2:6:244 Conductive sol-gel films
DOI:10.1039/c3tc32462a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Vinogradov, Vladimir V.;Agafonov, Alexander;Avnir, David;
2:6:245 Transparent conducting films from NbSe3 nanowires
DOI:10.1088/0957-4484/22/28/285202 JN:NANOTECHNOLOGY PY:2011 TC:4 AU: De, Sukanta;Boland, Conor S.;King, Paul J.;Sorel, Sophie;Lotya, Mustafa;Patel, U.;Xiao, Z. L.;Coleman, Jonathan N.;
2:6:246 Spontaneous Formation of Periodic Nanostructures by Localized Dynamic Wrinkling
DOI:10.1021/nl102694a JN:NANO LETTERS PY:2010 TC:16 AU: Ahn, Se Hyun;Guo, L. Jay;
2:6:247 Electrical Breakdown of Nanowires
DOI:10.1021/nl202160c JN:NANO LETTERS PY:2011 TC:26 AU: Zhao, Jiong;Sun, Hongyu;Dai, Sheng;Wang, Yan;Zhu, Jing;
2:6:248 Investigations on reduced graphene oxide film embedded with silver nanowire as a transparent conducting electrode
DOI:10.1016/j.solmat.2014.05.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Meenakshi, P.;Karthick, R.;Selvaraj, M.;Ramu, S.;
2:6:249 Invisible Ag grid embedded with ITO nanoparticle layer as a transparent hybrid electrode
DOI:10.1016/j.solmat.2014.03.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Jeong, Jin-A;Kim, Han-Ki;Kim, Jihoon;
2:6:250 Rapid Patterning of Single-Wall Carbon Nanotubes by Interlayer Lithography
DOI:10.1002/smll.201000971 JN:SMALL PY:2010 TC:13 AU: Leem, Dong-Seok;Kim, Sungsoo;Kim, Ji Whan;Sohn, Jung Inn;Edwards, Angharad;Huang, Jingsong;Wang, Xuhua;Kim, Jang-Joo;Bradley, Donal D. C.;deMello, John C.;
2:6:251 Ag@Ni Core-Shell Nanowire Network for Robust Transparent Electrodes Against Oxidation and Sulfurization
DOI:10.1002/smll.201400992 JN:SMALL PY:2014 TC:5 AU: Eom, Hyeonjin;Lee, Jaemin;Pichitpajongkit, Aekachan;Amjadi, Morteza;Jeong, Jun-Ho;Lee, Eungsug;Lee, Jung-Yong;Park, Inkyu;
2:6:252 From percolating to dense random stick networks: Conductivity model investigation
DOI:10.1103/PhysRevB.86.134202 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Zezelj, Milan;Stankovic, Igor;
2:6:253 Ultrathin Cu-Ti bilayer transparent conductors with enhanced figure-of-merit and stability
DOI:10.1063/1.3341201 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Ghosh, D. S.;Chen, T. L.;Pruneri, V.;
2:6:254 Thermally Induced Percolational Transition and Thermal Stability of Silver Nanowire Networks Studied by THz Spectroscopy
DOI:10.1021/am5057618 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Chen, Jing-Zhi;Ahn, Hyeyoung;Yen, Shin-Chun;Tsai, Yao-Jiun;
2:6:255 Printing Holes by a Dewetting Solution Enables Formation of a Transparent Conductive Film
DOI:10.1021/am504106s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Layani, Michael;Berman, Ruth;Magdassi, Shlomo;
2:6:256 Transparency Enhancement for Photoinitiated Polymerization (UV Curing) through Magnetic Field Alignment in a Piezoresistive Metal/Polymer Composite
DOI:10.1021/am405625z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Knaapila, Matti;Hoyer, Henrik;Kjelstrup-Hansen, Jakob;Helgesen, Geir;
2:6:257 The influence of reagents on the preparation of Cu nanowires by tetradecylamine-assisted hydrothermal method
DOI:10.1007/s10853-013-7219-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:6 AU: Jia, Baorui;Qin, Mingli;Zhang, Zili;Chu, Aimin;Zhang, Lin;Liu, Ye;Qu, Xuanhui;
2:6:258 Ag nanowires: large-scale synthesis via a trace-salt-assisted solvothermal process and application in transparent electrodes
DOI:10.1007/s11051-013-1588-3 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:3 AU: Jiu, Jinting;Sugahara, Tohru;Nogi, Masaya;Suganuma, Katsuaki;
2:6:259 Study on Ag mesh/conductive oxide hybrid transparent electrode for film heaters
DOI:10.1088/0957-4484/25/26/265702 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Kwon, Namyong;Kim, Kyohyeok;Heo, Jinhee;Yi, Insook;Chung, Ilsub;
2:6:260 Highly Stretchable or Transparent Conductor Fabrication by a Hierarchical Multiscale Hybrid Nanocomposite
DOI:10.1002/adfm.201400972 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:14 AU: Lee, Phillip;Ham, Jooyeun;Lee, Jinhwan;Hong, Sukjoon;Han, Seungyong;Suh, Young Duk;Lee, Sang Eon;Yeo, Junyeob;Lee, Seung Seob;Lee, Dongjin;Ko, Seung Hwan;
2:6:261 Direct-write pulsed laser processed silver nanowire networks for transparent conducting electrodes
DOI:10.1007/s00339-012-6958-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:13 AU: Spechler, Joshua A.;Arnold, Craig B.;
2:6:262 Highly transparent and flexible InTiO/Ag nanowire/InTiO films for flexible organic solar cells
DOI:10.1063/1.4891194 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Seo, Ki-Won;Lee, Ju-Hyun;Kim, Hyo-Joong;Kim, Han-Ki;Na, Seok-In;
2:6:263 Al-doped ZnO/Ag grid hybrid transparent conductive electrodes fabricated using a low-temperature process
DOI:10.1016/j.jallcom.2014.06.168 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:2 AU: An, Ha-Rim;Oh, Sung-Tag;Kim, Chang Yeoul;Baek, Seong-Ho;Park, Il-Kyu;Ahn, Hyo-Jin;
2:6:264 A Facile Method for Preparing Transparent, Conductive, and Paper-Like Silver Nanowire Films
DOI:10.1155/2011/935218 JN:JOURNAL OF NANOMATERIALS PY:2011 TC:9 AU: Wang, Yajie;Feng, Tao;Wang, Kai;Qian, Min;Chen, Yiwei;Sun, Zhuo;
2:6:265 Direct printing of silver nanoparticles by an agarose stamp on planar and patterned substrates
DOI:10.1088/0957-4484/22/18/185303 JN:NANOTECHNOLOGY PY:2011 TC:5 AU: Kao, Yu-Chih;Hong, Franklin Chau-Nan;
2:6:266 Transparent Metallic Fractal Electrodes for Semiconductor Devices
DOI:10.1021/nl501738b JN:NANO LETTERS PY:2014 TC:4 AU: Afshinmanesh, Farzaneh;Curto, Alberto G.;Milaninia, Kaveh M.;van Hulst, Niek F.;Brongersma, Mark L.;
2:6:267 Uniformly connected conductive networks on cellulose nanofiber paper for transparent paper electronics
DOI:10.1038/am.2014.9 JN:NPG ASIA MATERIALS PY:2014 TC:15 AU: Koga, Hirotaka;Nogi, Masaya;Komoda, Natsuki;Thi Thi Nge;Sugahara, Tohru;Suganuma, Katsuaki;
2:6:268 Resistance and transparency tunable Ag-inserted transparent InZnO films for capacitive touch screen panels
DOI:10.1016/j.tsf.2013.10.007 JN:THIN SOLID FILMS PY:2013 TC:8 AU: Shin, Yong-Hee;Cho, Chung-Ki;Kim, Han-Ki;
2:6:269 Highly flexible and transparent InSnO/Ag nanowire/InSnO hybrid electrodes
DOI:10.1016/j.tsf.2013.10.028 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Kang, Sin-Bi;Kim, Han-Ki;
2:6:270 Highly Efficient Polymer Tandem Cells and Semitransparent Cells for Solar Energy
DOI:10.1002/aenm.201301645 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:15 AU: Chang, Chih-Yu;Zuo, Lijian;Yip, Hin-Lap;Li, Chang-Zhi;Li, Yongxi;Hsu, Chain-Shu;Cheng, Yen-Ju;Chen, Hongzheng;Jen, Alex K-Y.;
2:6:271 All-Solution-Processed Transparent Thin Film Transistor and Its Application to Liquid Crystals Driving
DOI:10.1002/adma.201300084 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Lee, Kwang-Ho;Kim, Sang-Mook;Jeong, Huisu;Pak, Yusin;Song, Hui;Park, Jeongpil;Lim, Keon-Hee;Kim, Jae-Hoon;Kim, Youn Sang;Ko, Heung Cho;Kwon, Il Keun;Jung, Gun-Young;
2:6:272 Transparency controllable silver-based electrode for flexible optoelectronics
DOI:10.1063/1.4793702 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Kim, Kisoo;Hong, Kihyon;Koo, Bonhyeong;Lee, Illhwan;Lee, Jong-Lam;
2:6:273 Terahertz time-domain measurement of non-Drude conductivity in silver nanowire thin films for transparent electrode applications
DOI:10.1063/1.4773179 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Kim, Jaeseok;Maeng, Inhee;Jung, Jongwook;Song, Hyunjoon;Son, Joo-Hiuk;Kim, Kilsuk;Lee, Jaeik;Kim, Chul-Hong;Chae, Geesung;Jun, Myungchul;Hwang, YongKee;Lee, Su Jeong;Myoung, Jae-Min;Choi, Hyunyong;
2:6:274 Applications of Silver Nanowires on Transparent Conducting Film and Electrode of Electrochemical Capacitor
DOI:10.1155/2014/193201 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Song, Yuan-Jun;Chen, Jing;Wu, Jing-Yuan;Zhang, Tong;
2:6:275 Flexible ZnSnO3/Ag/ZnSnO3 multilayer electrodes grown by roll-to-roll sputtering on flexible polyethersulfone substrates
DOI:10.1116/1.3632999 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2011 TC:9 AU: Choi, Yoon-Young;Kim, Han-Ki;Koo, Hyun-Woo;Kim, Tae-Woong;Lee, Sung-Nam;
2:6:276 Semitransparent, thin metal grid-based hybrid electrodes for polymer solar cells
DOI:10.1016/j.mssp.2014.02.042 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:2 AU: Yang, Kiyeul;Rahman, Mohammad Arifur;Jeong, Kyunghoon;Nam, Ho-Seok;Kim, Jiyoung;Lee, Jaegab;
2:6:277 Tailoring of silver wires and their performance as transparent conductive coatings
DOI:10.1088/0957-4484/21/21/215707 JN:NANOTECHNOLOGY PY:2010 TC:29 AU: Lu, Y. C.;Chou, K. S.;
2:6:278 Preparation of Flexible Organic Solar Cells with Highly Conductive and Transparent Metal-Oxide Multilayer Electrodes Based on Silver Oxide
DOI:10.1021/am401845n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Yun, Jungheum;Wang, Wei;Bae, Tae Sung;Park, Yeon Hyun;Kang, Yong-Cheol;Kim, Dong-Ho;Lee, Sunghun;Lee, Gun-Hwan;Song, Myungkwan;Kang, Jae-Wook;
2:6:279 Synthesis and application of Ag nanowires via a trace salt assisted hydrothermal process
DOI:10.1007/s11051-012-0975-5 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:2 AU: Jiu, Jinting;Tokuno, Takehiro;Nogi, Masaya;Suganuma, Katsuaki;
2:6:280 Flexible indium zinc oxide/Ag/indium zinc oxide multilayer electrode grown on polyethersulfone substrate by cost-efficient roll-to-roll sputtering for flexible organic photovoltaics
DOI:10.1116/1.3264464 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2010 TC:16 AU: Park, Yong-Seok;Kim, Han-Ki;
2:6:281 Reductive-Oxidation Electrogenerated Chemiluminescence (ECL) Generation at a Transparent Silver Nanowire Electrode
DOI:10.1021/la1049327 JN:LANGMUIR PY:2011 TC:11 AU: Zhu, Yan;Hill, Caleb M.;Pan, Shanlin;
2:6:282 Facile fabrication of transparent and conductive nanowire networks by wet chemical etching with an electrospun nanofiber mask template
DOI:10.1016/j.matlet.2013.10.054 JN:MATERIALS LETTERS PY:2014 TC:6 AU: Azuma, Keisuke;Sakajiri, Koichi;Matsumoto, Hidetoshi;Kang, Sungmin;Watanabe, Junji;Tokita, Masatoshi;
2:6:283 Structural dependence of silver nanowires on polyvinyl pyrrolidone (PVP) chain length
DOI:10.1088/0957-4484/25/49/495601 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Zeng, Xiping;Zhou, Bingpu;Gao, Yibo;Wang, Cong;Li, Shunbo;Yeung, Chau Yeung;Wen, WeiJia;
2:6:284 Copper Nanowires: A Substitute for Noble Metals to Enhance Photocatalytic H-2 Generation
DOI:10.1021/acs.nanolett.5b00082 JN:NANO LETTERS PY:2015 TC:0 AU: Xiao, Shuning;Liu, Peijue;Zhu, Wei;Li, Guisheng;Zhang, Dieqing;Li, Hexing;
2:6:285 Improvement of transparent conducting materials by metallic grids on transparent conductive oxides
DOI:10.1016/j.tsf.2013.08.016 JN:THIN SOLID FILMS PY:2014 TC:3 AU: van Deelen, J.;Klerk, L. A.;Barink, M.;Rendering, H.;Voorthuijzen, P.;Hovestad, A.;
2:6:286 Base and Acid Treatment of SWCNT-RNA Transparent Conductive Films
DOI:10.1021/nn101208m JN:ACS NANO PY:2010 TC:10 AU: Wang, Ranran;Sun, Jing;Gao, Lian;Zhang, Jing;
2:6:287 Ultraviolet Luminescent, High-Effective-Work-Function LaTiO3-Doped Indium Oxide and Its Effects in Organic Optoelectronics
DOI:10.1002/adma.200903987 JN:ADVANCED MATERIALS PY:2010 TC:7 AU: Wang, Ning;Liu, Xiaoxin;Liu, Xingyuan;
2:6:288 A Transparent Conductive Adhesive Laminate Electrode for High-Efficiency Organic-Inorganic Lead Halide Perovskite Solar Cells
DOI:10.1002/adma.201403939 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Bryant, Daniel;Greenwood, Peter;Troughton, Joel;Wijdekop, Maarten;Carnie, Mathew;Davies, Matthew;Wojciechowski, Konrad;Snaith, Henry J.;Watson, Trystan;Worsley, David;
2:6:289 Nitrate Ion Promoted Formation of Ag Nanowires in Polyol Processes: A New Nanowire Growth Mechanism
DOI:10.1021/la204002b JN:LANGMUIR PY:2012 TC:12 AU: Kuo, Chien Lin;Hwang, Kuo Chu;
2:6:290 Synthesis and characterization of ultra-long and pencil-like copper nanowires with a penta-twinned structure by hydrothermal method
DOI:10.1016/j.matlet.2014.08.033 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Jiang, Zhi;Tian, Yanhong;Ding, Su;
2:6:291 Roll-to-roll production of transparent conductive films using metallic grids
DOI:10.1557/mrs.2011.235 JN:MRS BULLETIN PY:2011 TC:14 AU: Woerle, Jasmin;Rost, Henning;
2:6:292 'Chrysanthemum petal' arrangements of silver nano wires
DOI:10.1088/0957-4484/25/48/485705 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Cui, Hui-Wang;Jiu, Jin-Ting;Sugahara, Tohru;Nagao, Shijo;Suganuma, Katsuaki;Uchida, Hiroshi;
2:6:293 Conductivity of transparent electrodes made from interacting nanotubes
DOI:10.1063/1.4858215 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Maillaud, Laurent;Zakri, Cecile;Ly, Isabelle;Penicaud, Alain;Poulin, Philippe;
2:6:294 Polycarbazole Nanocomposites with Conducting Metal Oxides for Transparent Electrode Applications
DOI:10.1021/am900684e JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:9 AU: Hoshino, Katsuyoshi;Yazawa, Naoki;Tanaka, Yoshiyasu;Chiba, Takeshi;Izumizawa, Takenori;Kubo, Minako;
2:6:295 Transparent, Conducting ATO Thin Films by Epoxide-Initiated Sol-Gel Chemistry: A Highly Versatile Route to Mixed-Metal Oxide Films
DOI:10.1021/am300143z JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:13 AU: Koebel, Matthias M.;Nadargi, Digambar Y.;Jimenez-Cadena, Giselle;Romanyuk, Yaroslav E.;
2:6:296 Numerical simulation of light propagation in silver nanowire films using time-harmonic inverse iterative method
DOI:10.1063/1.4801919 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Yan, Shuai;Krantz, Johannes;Forberich, Karen;Pflaum, Christoph;Brabec, Christoph J.;
2:6:297 Growth of Silver Nanoparticles by DCMagnetron Sputtering
DOI:10.1155/2012/963609 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:4 AU: Asanithi, P.;Chaiyakun, S.;Limsuwan, P.;
2:6:298 Oxidation behavior of copper nanoparticles at low temperature
DOI:10.1016/j.materresbull.2011.08.043 JN:MATERIALS RESEARCH BULLETIN PY:2011 TC:13 AU: Yabuki, Akihiro;Tanaka, Shuji;
2:6:299 On the behavior of Ag nanowires under high temperature: in situ characterization by aberration-corrected STEM
DOI:10.1039/c0jm02624g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Mayoral, Alvaro;Allard, Lawrence F.;Ferrer, Domingo;Esparza, Rodrigo;Jose-Yacaman, Miguel;
2:6:300 Oxidation kinetics of copper nanowires synthesized by AC electrodeposition of copper into porous aluminum oxide templates
DOI:10.1557/jmr.2012.168 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:2 AU: Luo, Xiaoxiong;Sundararaj, Uttandaraman;Luo, Jing-Li;
2:6:301 Glycerol and ethylene glycol co-mediated synthesis of uniform multiple crystalline silver nanowires
DOI:10.1016/j.matchemphys.2013.10.015 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:7 AU: Jia, Changchao;Yang, Ping;Zhang, Aiyu;
2:6:302 Transparent Nanowire Network Electrode for Textured Semiconductors
DOI:10.1002/smll.201201904 JN:SMALL PY:2013 TC:4 AU: Gao, Jinwei;Pei, Ke;Sun, Tianyi;Wang, Yaohui;Zhang, Linghai;Peng, Weijin;Lin, Qinggeng;Giersig, Michael;Kempa, Krzysztof;Ren, Zhifeng;Wang, Yang;
2:6:303 Aligned carbon nanotube webs as a replacement for indium tin oxide in organic solar cells
DOI:10.1016/j.tsf.2013.01.018 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Sears, Kallista;Fanchini, Giovanni;Watkins, Scott E.;Huynh, Chi P.;Hawkins, Stephen C.;
2:6:304 Effects of silica particles on the electrical percolation threshold and thermomechanical properties of epoxy/silver nanocomposites
DOI:10.1063/1.3615690 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Nam, Seungwoong;Cho, Hyun Woo;Kim, Taeho;Kim, Daeheum;Sung, Bong June;Lim, Soonho;Kim, Heesuk;
2:6:305 Multi-resonator structure based on continuous silver thin films for transparent conductors
DOI:10.1063/1.4893144 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Soltanmoradi, R.;Dyakov, S. A.;Wang, Q.;Qiu, M.;Yan, M.;
2:6:306 Thin films of carbon nanotubes via ultrasonic spraying of suspensions in N-methyl-2-pyrrolidone and N-cyclohexyl-2-pyrrolidone
DOI:10.1116/1.4861370 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:2 AU: Willey, Anthony D.;Holt, Josh M.;Larsen, Brian A.;Blackburn, Jeffrey L.;Liddiard, Steven;Abbott, Jonathan;Coffin, Mallorie;Vanfleet, Richard R.;Davis, Robert C.;
2:6:307 Controlling the Aspect Ratio of Silver Nanowires by Variation of Polyvinylpyrrolidone/AgNO3 Contents
DOI:10.1080/15421406.2012.701858 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Kim, Bona;Park, Hyun Ho;Choi, Youngeun;Kim, Do Hyeong;Yun, Young Soo;Jin, Hyoung-Joon;
2:6:308 Improved electrical conductivity of PEDOT-based electrode films hybridized with silver nanowires
DOI:10.1016/j.synthmet.2014.04.032 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Kim, Yoon-Soo;Chang, Min-Hwa;Lee, Eun-Jong;Ihm, Dae-Woo;Kim, Jin-Yeol;
2:6:309 Flexible Ag electrode for quantum dot light-emitting diode
DOI:10.1007/s00339-014-8708-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Chen, Jing;Pan, Jiangyong;Du Qingguo;Wei Lei;Qing Li;Jun Xia;Yan Tu;
2:6:310 Graphene growth process modeling: a physical-statistical approach
DOI:10.1007/s00339-014-8320-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Wu, Jian;Huang, Qiang;
2:6:311 Electrical characterization of silver nanowire-graphene hybrid films from terahertz transmission and reflection measurements (vol 105, 011101, 2014)
DOI:10.1063/1.4892482 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Dadrasnia, Ehsan;Garet, Frederic;Lee, Dongmok;Coutaz, Jean-Louis;Baik, Seunghyun;Lamela, Horacio;
2:6:312 Ag/GaN One Dimensional Photonic Crystal for Many Applications
DOI:10.1166/jctn.2012.2066 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2012 TC:1 AU: Aly, Arafa H.;Ismail, Mohamed;Abdel-Rahman, Ehab;
2:6:313 Large-Scale Synthesis of Silver Nanoparticles by Aqueous Reduction for Low-Temperature Sintering Bonding
DOI:10.1155/2014/594873 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Qiu Xiliang;Cao Yang;Lin Tiesong;He Peng;Wang Jun;Liu Ping;Gu Xiaolong;
2:6:314 Syntheses of micrometer-long Pt and Ag nanowires through SBA-15 templating
DOI:10.1007/s11051-012-1270-1 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:0 AU: Kim, Kyoung-Jae;Lee, Eun-Sun;Kwon, Y-U;
2:6:315 Extension of active region in crossbar-type polymer solar photovoltaics induced by highly conductive PEDOT:PSS buffer layer
DOI:10.1116/1.3437506 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:4 AU: Huang, Tsung-Syun;Huang, Chun-Yuan;Su, Yan-Kuin;Chen, Ying-Chih;Fang, Jiun-Shiang;Wen, Ten-Chin;
2:6:316 Fabrication of a seamless roll mold using inorganic electron beam resist with postexposure bake
DOI:10.1116/1.3656052 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:0 AU: Unno, Noriyuki;Taniguchi, Jun;Ishikawa, Kiyoshi;
2:6:317 One Nanometer Resolution Electrical Probe via Atomic Metal Filament Formation
DOI:10.1021/nl103603v JN:NANO LETTERS PY:2011 TC:9 AU: Hong, Seung Sae;Cha, Judy J.;Cui, Yi;
2:6:318 Uniform and Ordered Copper Nanomeshes by Microsphere Lithography for Transparent Electrodes (vol 14, pg 2105, 2014)
DOI:10.1021/nl501687p JN:NANO LETTERS PY:2014 TC:0 AU: Gao, Tongchuan;Wang, Baomin;Ding, Bo;Lee, Jung-kun;Leu, Paul W.;
2:6:319 Characteristics of sputtered ZnO films for buffer layer in inverted organic solar cells
DOI:10.1016/j.tsf.2013.06.045 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Lee, Jae-Hyeong;Hong, Byungyou;Park, Yong Seob;
2:6:320 Random networked multi-walled carbon nanotube film as an upper electrode for high-speed capacitive humidity sensors
DOI:10.1016/j.tsf.2013.04.087 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Hong, H. P.;Lee, M. J.;Jung, K. H.;Park, C. W.;Min, N. K.;
2:6:321 Effects of Ar ion beam treatment on properties of roll-to-roll sputtered Sn-doped In2O3 films on colorless polyimide substrate
DOI:10.1016/j.tsf.2013.11.054 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Shin, Yong-Hee;Kim, Han-Ki;
2:7:1 Role of the Charge Transfer State in Organic Donor-Acceptor Solar Cells
DOI:10.1002/adma.201000376 JN:ADVANCED MATERIALS PY:2010 TC:226 AU: Deibel, Carsten;Strobel, Thomas;Dyakonov, Vladimir;
2:7:2 Recombination in polymer-fullerene bulk heterojunction solar cells
DOI:10.1103/PhysRevB.82.245207 JN:PHYSICAL REVIEW B PY:2010 TC:134 AU: Cowan, Sarah R.;Roy, Anshuman;Heeger, Alan J.;
2:7:3 Interface state recombination in organic solar cells
DOI:10.1103/PhysRevB.81.205307 JN:PHYSICAL REVIEW B PY:2010 TC:147 AU: Street, R. A.;Schoendorf, M.;
2:7:4 Charge Generation and Recombination Dynamics in Poly(3-hexylthiophene)/Fullerene Blend Films with Different Regioregularities and Morphologies
DOI:10.1021/ja100302p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:218 AU: Guo, Jiamo;Ohkita, Hideo;Benten, Hiroaki;Ito, Shinzaburo;
2:7:5 Recombination via tail states in polythiophene: fullerene solar cells
DOI:10.1103/PhysRevB.83.115209 JN:PHYSICAL REVIEW B PY:2011 TC:105 AU: Kirchartz, Thomas;Pieters, Bart E.;Kirkpatrick, James;Rau, Uwe;Nelson, Jenny;
2:7:6 Materials Design Considerations for Charge Generation in Organic Solar Cells
DOI:10.1021/cm402403z JN:CHEMISTRY OF MATERIALS PY:2014 TC:57 AU: Dimitrov, Stoichko D.;Durrant, James R.;
2:7:7 Recombination Dynamics as a Key Determinant of Open Circuit Voltage in Organic Bulk Heterojunction Solar Cells: A Comparison of Four Different Donor Polymers
DOI:10.1002/adma.201002360 JN:ADVANCED MATERIALS PY:2010 TC:171 AU: Maurano, Andrea;Hamilton, Rick;Shuttle, Chris G.;Ballantyne, Amy M.;Nelson, Jenny;O'Regan, Brian;Zhang, Weimin;McCulloch, Iain;Azimi, Hamed;Morana, Mauro;Brabec, Christoph J.;Durrant, James R.;
2:7:8 Effect of Morphology on Ultrafast Free Carrier Generation in Polythiophene:Fullerene Organic Solar Cells
DOI:10.1021/ja105260d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:149 AU: Howard, Ian A.;Mauer, Ralf;Meister, Michael;Laquai, Frederic;
2:7:9 Morphology-Dependent Trap Formation in High Performance Polymer Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201100204 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:94 AU: Beiley, Zach M.;Hoke, Eric T.;Noriega, Rodrigo;Dacuna, Javier;Burkhard, George F.;Bartelt, Jonathan A.;Salleo, Alberto;Toney, Michael F.;McGehee, Michael D.;
2:7:10 Accounting for Interference, Scattering, and Electrode Absorption to Make Accurate Internal Quantum Efficiency Measurements in Organic and Other Thin Solar Cells
DOI:10.1002/adma.201000883 JN:ADVANCED MATERIALS PY:2010 TC:162 AU: Burkhard, George F.;Hoke, Eric T.;McGehee, Michael D.;
2:7:11 Relating the open-circuit voltage to interface molecular properties of donor:acceptor bulk heterojunction solar cells
DOI:10.1103/PhysRevB.81.125204 JN:PHYSICAL REVIEW B PY:2010 TC:106 AU: Vandewal, Koen;Tvingstedt, Kristofer;Gadisa, Abay;Inganas, Olle;Manca, Jean V.;
2:7:12 Charge Formation, Recombination, and Sweep-Out Dynamics in Organic Solar Cells
DOI:10.1002/adfm.201101632 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:108 AU: Cowan, Sarah R.;Banerji, Natalie;Leong, Wei Lin;Heeger, Alan J.;
2:7:13 Ultrafast Exciton Dissociation Followed by Nongeminate Charge Recombination in PCDTBT:PCBM Photovoltaic Blends
DOI:10.1021/ja201837e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:100 AU: Etzold, Fabian;Howard, Ian A.;Mauer, Ralf;Meister, Michael;Kim, Tae-Dong;Lee, Kwang-Sup;Baek, Nam Seob;Laquai, Frederic;
2:7:14 Charge Transfer State Versus Hot Exciton Dissociation in Polymer-Fullerene Blended Solar Cells
DOI:10.1021/ja1045742 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:146 AU: Lee, Jiye;Vandewal, Koen;Yost, Shane R.;Bahlke, Matthias E.;Goris, Ludwig;Baldo, Marc A.;Manca, Jean V.;Van Voorhis, Troy;
2:7:15 Quantification of Geminate and Non-Geminate Recombination Losses within a Solution-Processed Small-Molecule Bulk Heterojunction Solar Cell
DOI:10.1002/adma.201104738 JN:ADVANCED MATERIALS PY:2012 TC:75 AU: Credgington, Dan;Jamieson, Fiona C.;Walker, Bright;Thuc-Quyen Nguyen;Durrant, James R.;
2:7:16 Effect of Annealing on P3HT:PCBM Charge Transfer and Nanoscale Morphology Probed by Ultrafast Spectroscopy
DOI:10.1021/nl9038289 JN:NANO LETTERS PY:2010 TC:173 AU: Marsh, R. Alex;Hodgkiss, Justin M.;Albert-Seifried, Sebastian;Friend, Richard H.;
2:7:17 Recombination in Polymer:Fullerene Solar Cells with Open-Circuit Voltages Approaching and Exceeding 1.0 V
DOI:10.1002/aenm.201200474 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:73 AU: Hoke, Eric T.;Vandewal, Koen;Bartelt, Jonathan A.;Mateker, William R.;Douglas, Jessica D.;Noriega, Rodrigo;Graham, Kenneth R.;Frechet, Jean M. J.;Salleo, Alberto;McGehee, Michael D.;
2:7:18 Simultaneous determination of carrier lifetime and electron density-of-states in P3HT:PCBM organic solar cells under illumination by impedance spectroscopy
DOI:10.1016/j.solmat.2009.10.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:127 AU: Garcia-Belmonte, Germa;Boix, Pablo P.;Bisquert, Juan;Sessolo, Michele;Bolink, Henk J.;
2:7:19 Identifying a Threshold Impurity Level for Organic Solar Cells: Enhanced First-Order Recombination Via Well-Defined PC84BM Traps in Organic Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201100514 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:81 AU: Cowan, Sarah R.;Leong, Wei Lin;Banerji, Natalie;Dennler, Gilles;Heeger, Alan J.;
2:7:20 Improved Film Morphology Reduces Charge Carrier Recombination into the Triplet Excited State in a Small Bandgap Polymer-Fullerene Photovoltaic Cell
DOI:10.1002/adma.201001452 JN:ADVANCED MATERIALS PY:2010 TC:81 AU: Di Nuzzo, Daniele;Aguirre, Aranzazu;Shahid, Munazza;Gevaerts, Veronique S.;Meskers, Stefan C. J.;Janssen, Rene A. J.;
2:7:21 Open-circuit voltage in organic solar cells
DOI:10.1039/c2jm33719c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:70 AU: Qi, Boyuan;Wang, Jizheng;
2:7:22 The Effect of Solvent Additives on Morphology and Excited-State Dynamics in PCPDTBT:PCBM Photovoltaic Blends
DOI:10.1021/ja303154g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:85 AU: Etzold, Fabian;Howard, Ian A.;Forler, Nina;Cho, Don M.;Meister, Michael;Mangold, Hannah;Shu, Jie;Hansen, Michael Ryan;Muellen, Klaus;Laquai, Frederic;
2:7:23 Competition between the Charge Transfer State and the Singlet States of Donor or Acceptor Limiting the Efficiency in Polymer:Fullerene Solar Cells
DOI:10.1021/ja210029w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:63 AU: Faist, Mark A.;Kirchartz, Thomas;Gong, Wei;Ashraf, Raja Shahid;McCulloch, Iain;de Mello, John C.;Ekins-Daukes, Nicholas J.;Bradley, Donal D. C.;Nelson, Jenny;
2:7:24 Meaning of reaction orders in polymer: fullerene solar cells
DOI:10.1103/PhysRevB.86.165201 JN:PHYSICAL REVIEW B PY:2012 TC:25 AU: Kirchartz, Thomas;Nelson, Jenny;
2:7:25 Understanding the Reduced Efficiencies of Organic Solar Cells Employing Fullerene Multiadducts as Acceptors
DOI:10.1002/aenm.201200673 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:36 AU: Faist, Mark A.;Shoaee, Safa;Tuladhar, Sachetan;Dibb, George F. A.;Foster, Samuel;Gong, Wei;Kirchartz, Thomas;Bradley, Donal D. C.;Durrant, James R.;Nelson, Jenny;
2:7:26 Recombination Through Different Types of Localized States in Organic Solar Cells
DOI:10.1002/adfm.201200031 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:59 AU: Street, Robert A.;Krakaris, Alexa;Cowan, Sarah R.;
2:7:27 Transient photoconductivity in polymer bulk heterojunction solar cells: Competition between sweep-out and recombination
DOI:10.1103/PhysRevB.83.035205 JN:PHYSICAL REVIEW B PY:2011 TC:59 AU: Cowan, Sarah R.;Street, R. A.;Cho, Shinuk;Heeger, A. J.;
2:7:28 Relating Recombination, Density of States, and Device Performance in an Efficient Polymer: Fullerene Organic Solar Cell Blend
DOI:10.1002/aenm.201300194 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:28 AU: Hawks, Steven A.;Deledalle, Florent;Yao, Jizhong;Rebois, Dylan G.;Li, Gang;Nelson, Jenny;Yang, Yang;Kirchartz, Thomas;Durrant, James R.;
2:7:29 Photoinduced Charge Generation in a Molecular Bulk Heterojunction Material
DOI:10.1021/ja308949m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:47 AU: Kaake, Loren G.;Jasieniak, Jacek J.;Bakus, Ronald C., II;Welch, Gregory C.;Moses, Daniel;Bazan, Guillermo C.;Heeger, Alan J.;
2:7:30 Localized state distribution and its effect on recombination in organic solar cells
DOI:10.1103/PhysRevB.84.075208 JN:PHYSICAL REVIEW B PY:2011 TC:46 AU: Street, R. A.;
2:7:31 Photoconductivity measurements of the electronic structure of organic solar cells
DOI:10.1103/PhysRevB.83.165207 JN:PHYSICAL REVIEW B PY:2011 TC:55 AU: Street, R. A.;Song, K. W.;Northrup, J. E.;Cowan, S.;
2:7:32 Pathways to a New Efficiency Regime for Organic Solar Cells
DOI:10.1002/aenm.201200103 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:118 AU: Koster, L. Jan Anton;Shaheen, Sean E.;Hummelen, Jan C.;
2:7:33 Charge Photogeneration for a Series of Thiazolo-Thiazole Donor Polymers Blended with the Fullerene Electron Acceptors PCBM and ICBA
DOI:10.1002/adfm.201203148 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:52 AU: Shoaee, Safa;Subramaniyan, Selvam;Xin, Hao;Keiderling, Chaz;Tuladhar, Pabitra Shakya;Jamieson, Fiona;Jenekhe, Samson A.;Durrant, James R.;
2:7:34 Experimental test for geminate recombination applied to organic solar cells
DOI:10.1103/PhysRevB.82.121301 JN:PHYSICAL REVIEW B PY:2010 TC:72 AU: Street, R. A.;Cowan, Sarah;Heeger, A. J.;
2:7:35 Relationship between energetic disorder and open-circuit voltage in bulk heterojunction organic solar cells
DOI:10.1103/PhysRevB.84.075210 JN:PHYSICAL REVIEW B PY:2011 TC:60 AU: Blakesley, James C.;Neher, Dieter;
2:7:36 Comparison of the Operation of Polymer/Fullerene, Polymer/Polymer, and Polymer/Nanocrystal Solar Cells: A Transient Photocurrent and Photovoltage Study
DOI:10.1002/adfm.201002154 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:65 AU: Li, Zhe;Gao, Feng;Greenham, Neil C.;McNeill, Christopher R.;
2:7:37 Quantification of Quantum Efficiency and Energy Losses in Low Bandgap Polymer:Fullerene Solar Cells with High Open-Circuit Voltage
DOI:10.1002/adfm.201200608 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:45 AU: Vandewal, Koen;Ma, Zaifei;Bergqvist, Jonas;Tang, Zheng;Wang, Ergang;Henriksson, Patrik;Tvingstedt, Kristofer;Andersson, Mats R.;Zhang, Fengling;Inganas, Olle;
2:7:38 Open-circuit voltage limit caused by recombination through tail states in bulk heterojunction polymer-fullerene solar cells
DOI:10.1063/1.3358121 JN:APPLIED PHYSICS LETTERS PY:2010 TC:77 AU: Garcia-Belmonte, Germa;Bisquert, Juan;
2:7:39 Sub-picosecond delocalization in the excited state of conjugated homopolymers and donor-acceptor copolymers
DOI:10.1039/c3tc00005b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:35 AU: Banerji, Natalie;
2:7:40 Direct Measurement of Electric Field-Assisted Charge Separation in Polymer: Fullerene Photovoltaic Diodes
DOI:10.1002/adma.201001010 JN:ADVANCED MATERIALS PY:2010 TC:82 AU: Marsh, R. Alex;Hodgkiss, Justin M.;Friend, Richard H.;
2:7:41 Differential Resistance Analysis of Charge Carrier Losses in Organic Bulk Heterojunction Solar Cells: Observing the Transition from Bimolecular to Trap-Assisted Recombination and Quantifying the Order of Recombination
DOI:10.1002/aenm.201100196 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:65 AU: Leong, Wei Lin;Cowan, Sarah R.;Heeger, Alan J.;
2:7:42 Charge Density Dependent Nongeminate Recombination in Organic Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201103118 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:52 AU: Rauh, Daniel;Deibel, Carsten;Dyakonov, Vladimir;
2:7:43 25th Anniversary Article: Bulk Heterojunction Solar Cells: Understanding the Mechanism of Operation
DOI:10.1002/adma.201304373 JN:ADVANCED MATERIALS PY:2014 TC:166 AU: Heeger, Alan J.;
2:7:44 Ultrafast Hole-Transfer Dynamics in Polymer/PCBM Bulk Heterojunctions
DOI:10.1002/adfm.200902099 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:71 AU: Bakulin, Artem A.;Hummelen, Jan C.;Pshenichnikov, Maxim S.;van Loosdrecht, Paul H. M.;
2:7:45 Measurement of Charge-Density Dependence of Carrier Mobility in an Organic Semiconductor Blend
DOI:10.1002/adfm.200901734 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:76 AU: Shuttle, Christopher G.;Hamilton, Richard;Nelson, Jenny;O'Regan, Brian C.;Durrant, James R.;
2:7:46 Influence of the indium tin oxide/organic interface on open-circuit voltage, recombination, and cell degradation in organic small-molecule solar cells
DOI:10.1103/PhysRevB.83.165311 JN:PHYSICAL REVIEW B PY:2011 TC:32 AU: Schaefer, Stefan;Petersen, Andreas;Wagner, Thomas A.;Kniprath, Rolf;Lingenfelser, Dominic;Zen, Achmad;Kirchartz, Thomas;Zimmermann, Birger;Wuerfel, Uli;Feng, Xianjin;Mayer, Thomas;
2:7:47 Non-Geminate Recombination as the Primary Determinant of Open-Circuit Voltage in Polythiophene:Fullerene Blend Solar Cells: an Analysis of the Influence of Device Processing Conditions
DOI:10.1002/adfm.201100225 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:76 AU: Credgington, Dan;Hamilton, Rick;Atienzar, Pedro;Nelson, Jenny;Durrant, James R.;
2:7:48 Exciton Formation, Relaxation, and Decay in PCDTBT
DOI:10.1021/ja105290e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:78 AU: Banerji, Natalie;Cowan, Sarah;Leclerc, Mario;Vauthey, Eric;Heeger, Alan J.;
2:7:49 Optimum mobility, contact properties, and open-circuit voltage of organic solar cells: A drift-diffusion simulation study
DOI:10.1103/PhysRevB.85.155201 JN:PHYSICAL REVIEW B PY:2012 TC:34 AU: Tress, Wolfgang;Leo, Karl;Riede, Moritz;
2:7:50 The Impact of Polymer Regioregularity on Charge Transport and Efficiency of P3HT:PCBM Photovoltaic Devices
DOI:10.1002/adfm.201000320 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:91 AU: Mauer, Ralf;Kastler, Marcel;Laquai, Frederic;
2:7:51 Charge carrier photogeneration and decay dynamics in the poly(2,7-carbazole) copolymer PCDTBT and in bulk heterojunction composites with PC70BM
DOI:10.1103/PhysRevB.81.125210 JN:PHYSICAL REVIEW B PY:2010 TC:59 AU: Tong, Minghong;Coates, Nelson E.;Moses, Daniel;Heeger, Alan J.;Beaupre, Serge;Leclerc, Mario;
2:7:52 Charge Photogeneration in Neat Conjugated Polymers
DOI:10.1021/cm4027144 JN:CHEMISTRY OF MATERIALS PY:2014 TC:24 AU: Reid, Obadiah G.;Pensack, Ryan D.;Song, Yin;Scholes, Gregory D.;Rumbles, Garry;
2:7:53 Polymer Triplet Energy Levels Need Not Limit Photocurrent Collection in Organic Solar Cells
DOI:10.1021/ja306110b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:20 AU: Schlenker, Cody W.;Chen, Kung-Shih;Yip, Hin-Lap;Li, Chang-Zhi;Bradshaw, Liam R.;Ochsenbein, Stefan T.;Ding, Feizhi;Li, Xiaosong S.;Gamelin, Daniel R.;Jen, Alex K. -Y.;Ginger, David S.;
2:7:54 On the Energetic Dependence of Charge Separation in Low-Band-Gap Polymer/Fullerene Blends
DOI:10.1021/ja308177d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:51 AU: Dimitrov, Stoichko D.;Bakulin, Artem A.;Nielsen, Christian B.;Schroeder, Bob C.;Du, Junping;Bronstein, Hugo;McCulloch, Iain;Friend, Richard H.;Durrant, James R.;
2:7:55 Ultrafast Intramolecular Exciton Splitting Dynamics in Isolated Low-Band-Gap Polymers and Their Implication in Photovoltaic Materials Design
DOI:10.1021/ja209003y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:48 AU: Rolczynski, Brian S.;Szarko, Jodi M.;Son, Hae Jung;Liang, Yongye;Yu, Luping;Chen, Lin X.;
2:7:56 Molecular Understanding of the Open-Circuit Voltage of Polymer:Fullerene Solar Cells
DOI:10.1002/aenm.201100549 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:52 AU: Yamamoto, Shunsuke;Orimo, Akiko;Ohkita, Hideo;Benten, Hiroaki;Ito, Shinzaburo;
2:7:57 In Situ Characterization of Lifetime and Morphology in Operating Bulk Heterojunction Organic Photovoltaic Devices by Impedance Spectroscopy
DOI:10.1002/aenm.201100357 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:65 AU: Leever, Benjamin J.;Bailey, Christopher A.;Marks, Tobin J.;Hersam, Mark C.;Durstock, Michael F.;
2:7:58 Role of Structural Order and Excess Energy on Ultrafast Free Charge Generation in Hybrid Polythiophene/Si Photovoltaics Probed in Real Time by Near-Infrared Broadband Transient Absorption
DOI:10.1021/ja207887q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:41 AU: Herrmann, Daniel;Niesar, Sabrina;Scharsich, Christina;Koehler, Anna;Stutzmann, Martin;Riedle, Eberhard;
2:7:59 Quantifying Bimolecular Recombination Losses in Organic Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201004311 JN:ADVANCED MATERIALS PY:2011 TC:72 AU: Koster, L. Jan Anton;Kemerink, Martijn;Wienk, Martijn M.;Maturova, Klara;Janssen, Rene A. J.;
2:7:60 Photo annealing effect on p-doped inverted organic solar cell
DOI:10.1063/1.4883957 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Lafalce, Evan;Toglia, Patrick;Lewis, Jason E.;Jiang, Xiaomei;
2:7:61 Overcoming Geminate Recombination and Enhancing Extraction in Solution-Processed Small Molecule Solar Cells
DOI:10.1002/aenm.201400230 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:15 AU: Proctor, Christopher M.;Albrecht, Steve;Kuik, Martijn;Neher, Dieter;Thuc-Quyen Nguyen;
2:7:62 Open-Circuit Voltage and Effective Gap of Organic Solar Cells
DOI:10.1002/adfm.201301048 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:22 AU: Widmer, Johannes;Tietze, Max;Leo, Karl;Riede, Moritz;
2:7:63 Transient Photocurrent Response of Small-Molecule Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201305160 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Seifter, Jason;Sun, Yanming;Heeger, Alan J.;
2:7:64 Unequal Partnership: Asymmetric Roles of Polymeric Donor and Fullerene Acceptor in Generating Free Charge
DOI:10.1021/ja411859m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:30 AU: Savoie, Brett M.;Rao, Akshay;Bakulin, Artem A.;Gelinas, Simon;Movaghar, Bijan;Friend, Richard H.;Marks, Tobin J.;Ratner, Mark A.;
2:7:65 Influence of energetic disorder on electroluminescence emission in polymer:fullerene solar cells
DOI:10.1103/PhysRevB.86.024201 JN:PHYSICAL REVIEW B PY:2012 TC:13 AU: Gong, Wei;Faist, Mark A.;Ekins-Daukes, Nicholas John;Xu, Zheng;Bradley, Donal D. C.;Nelson, Jenny;Kirchartz, Thomas;
2:7:66 Charge Separation Pathways in a Highly Efficient Polymer: Fullerene Solar Cell Material
DOI:10.1021/ja410340g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:8 AU: Paraecattil, Arun Aby;Banerji, Natalie;
2:7:67 Charge carrier dynamics in organic semiconductors and their donor-acceptor composites: Numerical modeling of time-resolved photocurrent
DOI:10.1063/1.4820259 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Johnson, Brian;Kendrick, Mark J.;Ostroverkhova, Oksana;
2:7:68 Charge transfer state in highly efficient polymer-fullerene bulk heterojunction solar cells
DOI:10.1039/c2jm15027a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:49 AU: Piliego, Claudia;Loi, Maria Antonietta;
2:7:69 Photocurrent in bulk heterojunction solar cells
DOI:10.1103/PhysRevB.81.085203 JN:PHYSICAL REVIEW B PY:2010 TC:44 AU: Limpinsel, M.;Wagenpfahl, A.;Mingebach, M.;Deibel, C.;Dyakonov, V.;
2:7:70 Shockley equation parameters of P3HT:PCBM solar cells determined by transient techniques
DOI:10.1103/PhysRevB.86.115302 JN:PHYSICAL REVIEW B PY:2012 TC:21 AU: Foertig, A.;Rauh, J.;Dyakonov, V.;Deibel, C.;
2:7:71 Radiation induced recombination centers in organic solar cells
DOI:10.1103/PhysRevB.85.205211 JN:PHYSICAL REVIEW B PY:2012 TC:13 AU: Street, R. A.;Northrup, J. E.;Krusor, B. S.;
2:7:72 Interplay between Bimolecular Recombination and Carrier Transport Distances in Bulk Heterojunction Organic Solar Cells
DOI:10.1002/aenm.201100677 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:16 AU: Tumbleston, John R.;Liu, Yingchi;Samulski, Edward T.;Lopez, Rene;
2:7:73 Probing Charge Recombination Dynamics in Organic Photovoltaic Devices under Open-Circuit Conditions
DOI:10.1002/aenm.201400356 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Elliott, Lindsay C. C.;Basham, James I.;Pernstich, Kurt P.;Shrestha, Pragya R.;Richter, Lee J.;DeLongchamp, Dean M.;Gundlach, David J.;
2:7:74 Nongeminate and Geminate Recombination in PTB7: PCBM Solar Cells
DOI:10.1002/adfm.201302134 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:28 AU: Foertig, Alexander;Kniepert, Juliane;Gluecker, Markus;Brenner, Thomas;Dyakonov, Vladimir;Neher, Dieter;Deibel, Carsten;
2:7:75 Molecular Doping Enhances Photoconductivity in Polymer Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201302159 JN:ADVANCED MATERIALS PY:2013 TC:29 AU: Zhang, Yuan;Zhou, Huiqiong;Seifter, Jason;Ying, Lei;Mikhailovsky, Alexander;Heeger, Alan J.;Bazan, Guillermo C.;Nguyen, Thuc-Quyen;
2:7:76 Current-Voltage Characteristics of Bulk Heterojunction Organic Solar Cells: Connection Between Light and Dark Curves
DOI:10.1002/aenm.201100334 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:35 AU: Boix, Pablo P.;Guerrero, Antonio;Marchesi, Luis F.;Garcia-Belmonte, Germa;Bisquert, Juan;
2:7:77 Extracting Microscopic Device Parameters from Transient Photocurrent Measurements of P3HT:PCBM Solar Cells
DOI:10.1002/aenm.201100709 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:44 AU: MacKenzie, Roderick C. I.;Shuttle, Christopher G.;Chabinyc, Michael L.;Nelson, Jenny;
2:7:78 Electron Collection as a Limit to Polymer:PCBM Solar Cell Efficiency: Effect of Blend Microstructure on Carrier Mobility and Device Performance in PTB7:PCBM
DOI:10.1002/aenm.201400311 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:11 AU: Foster, Samuel;Deledalle, Florent;Mitani, Akiko;Kimura, Toshio;Kim, Ki-Beom;Okachi, Takayuki;Kirchartz, Thomas;Oguma, Jun;Miyake, Kunihito;Durrant, James R.;Doi, Shuji;Nelson, Jenny;
2:7:79 Time-of-Flight Studies of Electron-Collection Kinetics in Polymer:Fullerene Bulk-Heterojunction Solar Cells
DOI:10.1002/adfm.201100432 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:44 AU: Morfa, Anthony J.;Nardes, Alexandre M.;Shaheen, Sean E.;Kopidakis, Nikos;van de lagemaat, Jao;
2:7:80 Influence of Phase Segregation on Recombination Dynamics in Organic Bulk-Heterojunction Solar Cells
DOI:10.1002/adfm.201002358 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:50 AU: Baumann, Andreas;Savenije, Tom J.;Murthy, Dharmapura Hanumantharaya K.;Heeney, Martin;Dyakonov, Vladimir;Deibel, Carsten;
2:7:81 Mechanism for Efficient Photoinduced Charge Separation at Disordered Organic Heterointerfaces
DOI:10.1002/adfm.201200249 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:35 AU: van Eersel, Harm;Janssen, Rene A. J.;Kemerink, Martijn;
2:7:82 Exciton-Charge Annihilation in Organic Semiconductor Films
DOI:10.1002/adfm.201102433 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:39 AU: Hodgkiss, Justin M.;Albert-Seifried, Sebastian;Rao, Akshay;Barker, Alex J.;Campbell, Andrew R.;Marsh, R. Alex;Friend, Richard H.;
2:7:83 A New Approach for Probing the Mobility and Lifetime of Photogenerated Charge Carriers in Organic Solar Cells Under Real Operating Conditions
DOI:10.1002/adma.201200874 JN:ADVANCED MATERIALS PY:2012 TC:37 AU: Baumann, A.;Lorrmann, J.;Rauh, D.;Deibel, C.;Dyakonov, V.;
2:7:84 Generalized approach to the description of recombination kinetics in bulk heterojunction solar cells-extending from fully organic to hybrid solar cells
DOI:10.1063/1.4714902 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Conings, Bert;Baeten, Linny;Boyen, Hans-Gerd;Spoltore, Donato;D'Haen, Jan;Van Bael, Marlies K.;Manca, Jean V.;
2:7:85 The role of emissive charge transfer states in two polymer-fullerene organic photovoltaic blends: tuning charge photogeneration through the use of processing additives
DOI:10.1039/c4ta02244k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Clarke, Tracey M.;Peet, Jeff;Lungenschmied, Christoph;Drolet, Nicolas;Lu, Xinhui;Ocko, Benjamin M.;Mozer, Attila J.;Loi, Maria Antonietta;
2:7:86 Subnanosecond Geminate Charge Recombination in Polymer-Polymer Photovoltaic Devices
DOI:10.1103/PhysRevLett.104.177701 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:37 AU: Hodgkiss, Justin M.;Campbell, Andrew R.;Marsh, R. Alex;Rao, Akshay;Albert-Seifried, Sebastian;Friend, Richard H.;
2:7:87 Influence of Photon Excess Energy on Charge Carrier Dynamics in a Polymer-Fullerene Solar Cell
DOI:10.1002/aenm.201200030 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:34 AU: van der Hofstad, Tom G. J.;Di Nuzzo, Daniele;van den Berg, Mauricio;Janssen, Rene A. J.;Meskers, Stefan C. J.;
2:7:88 Correlating Emissive Non-Geminate Charge Recombination with Photocurrent Generation Efficiency in Polymer/Perylene Diimide Organic Photovoltaic Blend Films
DOI:10.1002/adfm.201102871 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:15 AU: Keivanidis, Panagiotis E.;Kamm, Valentin;Zhang, Weimin;Floudas, George;Laquai, Frederic;McCulloch, Iain;Bradley, Donal D. C.;Nelson, Jenny;
2:7:89 Bimodal Polarons and Hole Transport in Poly(3-hexylthiophene):Fullerene Blend Films
DOI:10.1021/ja9108787 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:57 AU: Guo, Jiamo;Ohkita, Hideo;Yokoya, Seiichirou;Benten, Hiroaki;Ito, Shinzaburo;
2:7:90 Acceptor Energy Level Control of Charge Photogeneration in Organic Donor/Acceptor Blends
DOI:10.1021/ja1042726 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:58 AU: Shoaee, Safa;Clarke, Tracey M.;Huang, Chun;Barlow, Stephen;Marder, Seth R.;Heeney, Martin;McCulloch, Iain;Durrant, James R.;
2:7:91 Relationship between Interchain Interaction, Exciton Delocalization, and Charge Separation in Low-Bandgap Copolymer Blends
DOI:10.1021/ja503465s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Guo, Zhi;Lee, Doyun;Schaller, Richard D.;Zuo, Xiaobing;Lee, Byeongdu;Luo, TengFei;Gao, Haifeng;Huang, Libai;
2:7:92 Transient photocurrent measurements of PCDTBT:PC(70)BM and PCPDTBT:PC(70)BM Solar Cells: Evidence for charge trapping in efficient polymer/fullerene blends
DOI:10.1063/1.3573394 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:37 AU: Li, Zhe;McNeill, Christopher R.;
2:7:93 Modeling and simulation of energetically disordered organic solar cells
DOI:10.1063/1.4901065 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Fallahpour, A. H.;Gagliardi, A.;Santoni, F.;Gentilini, D.;Zampetti, A.;Maur, M. Auf Der;Di Carlo, A.;
2:7:94 Optical studies of the charge transfer complex in polythiophene/fullerene blends for organic photovoltaic applications
DOI:10.1103/PhysRevB.82.075207 JN:PHYSICAL REVIEW B PY:2010 TC:47 AU: Drori, T.;Holt, J.;Vardeny, Z. V.;
2:7:95 Charge extraction and photocurrent in organic bulk heterojunction solar cells
DOI:10.1103/PhysRevB.85.045208 JN:PHYSICAL REVIEW B PY:2012 TC:16 AU: Petersen, Andreas;Kirchartz, Thomas;Wagner, Thomas A.;
2:7:96 Thermodynamic Efficiency Limit of Molecular Donor-Acceptor Solar Cells and its Application to Diindenoperylene/C60-Based Planar Heterojunction Devices
DOI:10.1002/aenm.201200077 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:27 AU: Gruber, Mark;Wagner, Julia;Klein, Konrad;Hoermann, Ulrich;Opitz, Andreas;Stutzmann, Martin;Bruetting, Wolfgang;
2:7:97 Origin of Reduced Bimolecular Recombination in Blends of Conjugated Polymers and Fullerenes
DOI:10.1002/adfm.201203852 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:25 AU: Murthy, D. H. K.;Melianas, Armantas;Tang, Zheng;Juska, Gytis;Arlauskas, Kestutis;Zhang, Fengling;Siebbeles, Laurens D. A.;Inganas, Olle;Savenije, Tom J.;
2:7:98 Advantage of suppressed non-Langevin recombination in low mobility organic solar cells
DOI:10.1063/1.4887316 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Stolterfoht, Martin;Philippa, Bronson;Armin, Ardalan;Pandey, Ajay K.;White, Ronald D.;Burn, Paul L.;Meredith, Paul;Pivrikas, Almantas;
2:7:99 Breakdown mechanisms and reverse current-voltage characteristics of organic bulk heterojunction solar cells and photodetectors
DOI:10.1063/1.4883501 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Li, Kejia;Li, Lijun;Khlyabich, Petr P.;Burkhart, Beate;Sun, Wenlu;Lu, Zhiwen;Thompson, Barry C.;Campbell, Joe C.;
2:7:100 Nongeminate recombination in neat P3HT and P3HT:PCBM blend films
DOI:10.1063/1.4870805 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Gorenflot, Julien;Heiber, Michael C.;Baumann, Andreas;Lorrmann, Jens;Gunz, Matthias;Kaempgen, Andreas;Dyakonov, Vladimir;Deibel, Carsten;
2:7:101 The influence of microstructure on charge separation dynamics in organic bulk heterojunction materials for solar cell applications
DOI:10.1039/c3ta15112c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Scarongella, M.;Paraecattil, A. A.;Buchaca-Domingo, E.;Douglas, J. D.;Beaupre, S.;McCarthy-Ward, T.;Heeney, M.;Moser, J. -E.;Leclerc, M.;Frechet, J. M. J.;Stingelin, N.;Banerji, N.;
2:7:102 Comment on "Interface state recombination in organic solar cells"
DOI:10.1103/PhysRevB.82.207301 JN:PHYSICAL REVIEW B PY:2010 TC:24 AU: Deibel, Carsten;Wagenpfahl, Alexander;
2:7:103 Low-Temperature Behaviour of Charge Transfer Excitons in Narrow-Bandgap Polymer-Based Bulk Heterojunctions
DOI:10.1002/aenm.201100083 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:44 AU: Jarzab, Dorota;Cordella, Fabrizio;Gao, Jio;Scharber, Markus;Egelhaaf, Hans-Joachim;Loi, Maria Antonietta;
2:7:104 Nongeminate Recombination in Planar and Bulk Heterojunction Organic Solar Cells
DOI:10.1002/aenm.201200718 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:24 AU: Foertig, Alexander;Wagenpfahl, Alexander;Gerbich, Thiemo;Cheyns, David;Dyakonov, Vladimir;Deibel, Carsten;
2:7:105 Deep Energetic Trap States in Organic Photovoltaic Devices
DOI:10.1002/aenm.201100541 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:20 AU: Shuttle, Christopher G.;Treat, Neil D.;Douglas, Jessica D.;Frechet, Jean M. J.;Chabinyc, Michael L.;
2:7:106 Simultaneous Open-Circuit Voltage Enhancement and Short-Circuit Current Loss in Polymer: Fullerene Solar Cells Correlated by Reduced Quantum Efficiency for Photoinduced Electron Transfer
DOI:10.1002/aenm.201200426 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:26 AU: Di Nuzzo, Daniele;Wetzelaer, Gert-Jan A. H.;Bouwer, Ricardo K. M.;Gevaerts, Veronique S.;Meskers, Stefan C. J.;Hummelen, Jan C.;Blom, Paul W. M.;Janssen, Rene A. J.;
2:7:107 Influence of Thermal Annealing on PCDTBT: PCBM Composition Profiles
DOI:10.1002/aenm.201300981 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Synooka, Olesia;Eberhardt, Kai-Rudi;Singh, Chetan Raj;Hermann, Felix;Ecke, Gernot;Ecker, Bernhard;von Hauff, Elizabeth;Gobsch, Gerhard;Hoppe, Harald;
2:7:108 Correlation between interface energetics and open circuit voltage in organic photovoltaic cells
DOI:10.1063/1.4769360 JN:APPLIED PHYSICS LETTERS PY:2012 TC:28 AU: Wilke, A.;Endres, J.;Hoermann, U.;Niederhausen, J.;Schlesinger, R.;Frisch, J.;Amsalem, P.;Wagner, J.;Gruber, M.;Opitz, A.;Vollmer, A.;Bruetting, W.;Kahn, A.;Koch, N.;
2:7:109 Dominating recombination mechanisms in organic solar cells based on ZnPc and C-60
DOI:10.1063/1.4802276 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Tress, Wolfgang;Leo, Karl;Riede, Moritz;
2:7:110 Carrier Lifetime Extension via the Incorporation of Robust Hole/Electron Blocking Layers in Bulk Heterojunction Polymer Solar Cells
DOI:10.1021/am404381e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Yoon, Youngwoon;Kim, Hyeong Jun;Cho, Chul-Hee;Kim, Seulki;Son, Hae Jung;Ko, Min-Jae;Kim, Honggon;Lee, Doh-Kwon;Kim, Jin Young;Lee, Wonmok;Kim, Bumjoon J.;Kim, BongSoo;
2:7:111 Charge Photogeneration in Donor-Acceptor Conjugated Materials: Influence of Excess Excitation Energy and Chain Length
DOI:10.1021/ja309252a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:16 AU: Tautz, Raphael;Da Como, Enrico;Wiebeler, Christian;Soavi, Giancarlo;Dumsch, Ines;Froehlich, Nils;Grancini, Giulia;Allard, Sybille;Scherf, Ullrich;Cerullo, Giulio;Schumacher, Stefan;Feldmann, Jochen;
2:7:112 Band tail recombination in polymer: fullerene organic solar cells
DOI:10.1063/1.4892869 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:5 AU: Hawks, Steven A.;Li, Gang;Yang, Yang;Street, Robert A.;
2:7:113 Polarization anisotropy of charge transfer absorption and emission of aligned polymer: fullerene blend films
DOI:10.1103/PhysRevB.86.035212 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Vandewal, Koen;Tvingstedt, Kristofer;Inganas, Olle;
2:7:114 Field-dependent exciton dissociation in organic heterojunction solar cells
DOI:10.1103/PhysRevB.85.245208 JN:PHYSICAL REVIEW B PY:2012 TC:11 AU: Petersen, Andreas;Ojala, Antti;Kirchartz, Thomas;Wagner, Thomas A.;Wuerthner, Frank;Rau, Uwe;
2:7:115 Photovoltaic Charge Generation in Organic Semiconductors Based on Long-Range Energy Transfer
DOI:10.1021/nn101106b JN:ACS NANO PY:2010 TC:50 AU: Coffey, David C.;Ferguson, Andrew J.;Kopidakis, Nikos;Rumbles, Garry;
2:7:116 Photodegradation in Encapsulated Silole-Based Polymer: PCBM Solar Cells Investigated using Transient Absorption Spectroscopy and Charge Extraction Measurements
DOI:10.1002/aenm.201300337 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:11 AU: Clarke, Tracey M.;Lungenschmied, Christoph;Peet, Jeff;Drolet, Nicolas;Sunahara, Kenji;Furube, Akihiro;Mozer, Attila J.;
2:7:117 Re-evaluating the Role of Sterics and Electronic Coupling in Determining the Open-Circuit Voltage of Organic Solar Cells
DOI:10.1002/adma.201301319 JN:ADVANCED MATERIALS PY:2013 TC:25 AU: Graham, Kenneth R.;Erwin, Patrick;Nordlund, Dennis;Vandewal, Koen;Li, Ruipeng;Ndjawa, Guy O. Ngongang;Hoke, Eric T.;Salleo, Alberto;Thompson, Mark E.;McGehee, Michael D.;Amassian, Aram;
2:7:118 Understanding the Charge-Transfer State and Singlet Exciton Emission from Solution-Processed Small-Molecule Organic Solar Cells
DOI:10.1002/adma.201402423 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Ran, Niva A.;Kuik, Martijn;Love, John A.;Proctor, Christopher M.;Nagao, Ikuhiro;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:7:119 Direct and charge transfer state mediated photogeneration in polymer-fullerene bulk heterojunction solar cells
DOI:10.1063/1.4711849 JN:APPLIED PHYSICS LETTERS PY:2012 TC:26 AU: Mingebach, M.;Walter, S.;Dyakonov, V.;Deibel, C.;
2:7:120 Effects of bulk and interfacial charge accumulation on fill factor in organic solar cells
DOI:10.1063/1.4805053 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Chen, Bingbing;Qiao, Xianfeng;Liu, Chih-Ming;Zhao, Chen;Chen, Hsiu-Cheng;Wei, Kung-Hwa;Hu, Bin;
2:7:121 Geminate Charge Recombination in Polymer/Fullerene Bulk Heterojunction Films and Implications for Solar Cell Function
DOI:10.1021/ja104786x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:57 AU: Pal, Suman Kalyan;Kesti, Tero;Maiti, Manisankar;Zhang, Fengling;Inganas, Olle;Hellstrom, Stefan;Andersson, Mats R.;Oswald, Frederic;Langa, Fernando;Osterman, Tomas;Pascher, Torbjorn;Yartsev, Arkady;Sundstrom, Villy;
2:7:122 Voltage-dependent photocurrent transients of PTB7:PC70BM solar cells: Experiment and numerical simulation
DOI:10.1063/1.4813612 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:12 AU: Li, Zhe;Lakhwani, Girish;Greenham, Neil C.;McNeill, Christopher R.;
2:7:123 Mobility relaxation and electron trapping in a donor/acceptor copolymer
DOI:10.1103/PhysRevB.87.024203 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Schubert, Marcel;Preis, Eduard;Blakesley, James C.;Pingel, Patrick;Scherf, Ullrich;Neher, Dieter;
2:7:124 Trap-Induced Losses in Hybrid Photovoltaics
DOI:10.1021/nn501185h JN:ACS NANO PY:2014 TC:14 AU: Gao, Feng;Li, Zhe;Wang, Jianpu;Rao, Akshay;Howard, Ian A.;Abrusci, Agnese;Massip, Sylvain;McNeill, Christopher R.;Greenham, Neil C.;
2:7:125 Predicting the J-V Curve in Organic Photovoltaics Using Impedance Spectroscopy
DOI:10.1002/aenm.201400499 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Basham, James I.;Jackson, Thomas N.;Gundlach, David J.;
2:7:126 On the Efficiency of Charge Transfer State Splitting in Polymer: Fullerene Solar Cells
DOI:10.1002/adma.201305283 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Albrecht, Steve;Vandewal, Koen;Tumbleston, John R.;Fischer, Florian S. U.;Douglas, Jessica D.;Frechet, Jean M. J.;Ludwigs, Sabine;Ade, Harald;Salleo, Alberto;Neher, Dieter;
2:7:127 Relation of open circuit voltage to charge carrier density in organic bulk heterojunction solar cells
DOI:10.1063/1.3566979 JN:APPLIED PHYSICS LETTERS PY:2011 TC:32 AU: Rauh, Daniel;Wagenpfahl, Alexander;Deibel, Carsten;Dyakonov, Vladimir;
2:7:128 Interpreting impedance spectra of organic photovoltaic cells-Extracting charge transit and recombination rates
DOI:10.1063/1.4896269 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Mullenbach, Tyler K.;Zou, Yunlong;Holst, James;Holmes, Russell J.;
2:7:129 Hot exciton dissociation in polymer solar cells
DOI:10.1038/NMAT3502 JN:NATURE MATERIALS PY:2013 TC:143 AU: Grancini, G.;Maiuri, M.;Fazzi, D.;Petrozza, A.;Egelhaaf, H-J.;Brida, D.;Cerullo, G.;Lanzani, G.;
2:7:130 Photainduced Carrier Generation and Decay Dynamics in Intercalated and Non-intercalated Polymer: Fullerene Bulk Heterojunctions
DOI:10.1021/nn201251v JN:ACS NANO PY:2011 TC:41 AU: Rance, William L.;Ferguson, Andrew J.;McCarthy-Ward, Thomas;Heeney, Martin;Ginley, David S.;Olson, Dana C.;Rumbles, Garry;Kopidakis, Nikos;
2:7:131 A Conclusive View on Charge Generation, Recombination, and Extraction in As-Prepared and Annealed P3HT:PCBM Blends: Combined Experimental and Simulation Work
DOI:10.1002/aenm.201301401 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:16 AU: Kniepert, Juliane;Lange, Ilja;van der Kaap, Niels J.;Koster, L. Jan Anton;Neher, Dieter;
2:7:132 Analysis of Charge Photogeneration as a Key Determinant of Photocurrent Density in Polymer: Fullerene Solar Cells
DOI:10.1002/adma.201002357 JN:ADVANCED MATERIALS PY:2010 TC:34 AU: Clarke, Tracey M.;Ballantyne, Amy;Shoaee, Safa;Soon, Ying W.;Duffy, Warren;Heeney, Martin;McCulloch, Iain;Nelson, Jenny;Durrant, James R.;
2:7:133 Direct Spectroscopic Evidence of Ultrafast Electron Transfer from a Low Band Gap Polymer to CdSe Quantum Dots in Hybrid Photovoltaic Thin Films
DOI:10.1021/ja406884h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Couderc, Elsa;Greaney, Matthew J.;Brutchey, Richard L.;Bradforth, Stephen E.;
2:7:134 Qualitative Analysis of Bulk-Heterojunction Solar Cells without Device Fabrication: An Elegant and Contactless Method
DOI:10.1021/ja503134j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Baran, Derya;Li, Ning;Breton, Anne-Catherine;Osvet, Andres;Ameri, Tayebeh;Leclerc, Mario;Brabec, Christoph J.;
2:7:135 Intensity and wavelength dependence of bimolecular recombination in P3HT:PCBM solar cells: A white-light biased external quantum efficiency study
DOI:10.1063/1.4801920 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:20 AU: Cowan, Sarah R.;Wang, Jian;Yi, Juan;Lee, Yun-Ju;Olson, Dana C.;Hsu, Julia W. P.;
2:7:136 Modeling the influence of doping on the performance of bulk heterojunction organic solar cells: One-dimensional effective semiconductor versus two-dimensional donor/acceptor model
DOI:10.1103/PhysRevB.86.075315 JN:PHYSICAL REVIEW B PY:2012 TC:13 AU: Stelzl, Felix Florian;Wuerfel, Uli;
2:7:137 Role of the effective mass and interfacial dipoles on exciton dissociation in organic donor-acceptor solar cells
DOI:10.1103/PhysRevB.87.155205 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Schwarz, Christian;Tscheuschner, Steffen;Frisch, Johannes;Winkler, Stefanie;Koch, Norbert;Baessler, Heinz;Koehler, Anna;
2:7:138 Intensity-Modulated Scanning Kelvin Probe Microscopy for Probing Recombination in Organic Photovoltaics
DOI:10.1021/nn5045867 JN:ACS NANO PY:2014 TC:2 AU: Shao, Guozheng;Glaz, Micah S.;Ma, Fei;Ju, Huanxin;Ginger, David S.;
2:7:139 Intra-Molecular Donor-Acceptor Interaction Effects on Charge Dissociation, Charge Transport, and Charge Collection in Bulk-Heterojunction Organic Solar Cells
DOI:10.1002/aenm.201100304 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:27 AU: Zang, Huidong;Liang, Yongye;Yu, Luping;Hu, Bin;
2:7:140 Quantifying Loss Mechanisms in Polymer:Fullerene Photovoltaic Devices
DOI:10.1002/aenm.201200073 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:10 AU: Gao, Feng;Wang, Jianpu;Blakesley, James C.;Hwang, Inchan;Li, Zhe;Greenham, Neil C.;
2:7:141 Manifestation of Carrier Relaxation Through the Manifold of Localized States in PCDTBT:PC60BM Bulk Heterojunction Material: The Role of PC84BM Traps on the Carrier Transport
DOI:10.1002/adma.201104192 JN:ADVANCED MATERIALS PY:2012 TC:10 AU: Leong, Wei Lin;Hernandez-Sosa, Gerardo;Cowan, Sarah R.;Moses, Daniel;Heeger, Alan J.;
2:7:142 Polymer defect states modulate open-circuit voltage in bulk-heterojunction solar cells
DOI:10.1063/1.4841475 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Ripolles, Teresa S.;Guerrero, Antonio;Garcia-Belmonte, Germa;
2:7:143 Electronic Energy Transfer and Quantum-Coherence in pi-Conjugated Polymers
DOI:10.1021/cm102360x JN:CHEMISTRY OF MATERIALS PY:2011 TC:94 AU: Hwang, Inchan;Scholes, Gregory D.;
2:7:144 Effect of PCBM on the Photodegradation Kinetics of Polymers for Organic Photovoltaics
DOI:10.1021/cm302623p JN:CHEMISTRY OF MATERIALS PY:2012 TC:23 AU: Distler, Andreas;Kutka, Peter;Sauermann, Tobias;Egelhaaf, Hans-Joachim;Guldi, Dirk M.;Di Nuzzo, Daniele;Meskers, Stefan C. J.;Janssen, Rene A. J.;
2:7:145 Carrier recombination losses in inverted polymer: Fullerene solar cells with ZnO hole-blocking layer from transient photovoltage and impedance spectroscopy techniques
DOI:10.1063/1.3561437 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:28 AU: Boix, Pablo P.;Ajuria, Jon;Pacios, Roberto;Garcia-Belmonte, Germa;
2:7:146 Shockley-Read-Hall recombination in P3HT:PCBM solar cells as observed under ultralow light intensities
DOI:10.1063/1.3549820 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:22 AU: Tzabari, Lior;Tessler, Nir;
2:7:147 Charge carrier transport and contact selectivity limit the operation of PTB7-based organic solar cells of varying active layer thickness
DOI:10.1039/c3ta12358h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:24 AU: Guerrero, Antonio;Montcada, Nuria F.;Ajuria, Jon;Etxebarria, Ikerne;Pacios, Roberto;Garcia-Belmonte, Germa;Palomares, Emilio;
2:7:148 Reduced Charge Transfer Exciton Recombination in Organic Semiconductor Heterojunctions by Molecular Doping
DOI:10.1103/PhysRevLett.107.127402 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:27 AU: Deschler, Felix;Da Como, Enrico;Limmer, Thomas;Tautz, Raphael;Godde, Tillmann;Bayer, Manfred;von Hauff, Elizabeth;Yilmaz, Seyfullah;Allard, Sybille;Scherf, Ullrich;Feldmann, Jochen;
2:7:149 Effect of Charge Trapping on Geminate Recombination and Polymer Solar Cell Performance
DOI:10.1021/nl100080r JN:NANO LETTERS PY:2010 TC:53 AU: Groves, Chris;Blakesley, James C.;Greenham, Neil C.;
2:7:150 Reply to "Comment on 'Interface state recombination in organic solar cells' "
DOI:10.1103/PhysRevB.82.207302 JN:PHYSICAL REVIEW B PY:2010 TC:20 AU: Street, R. A.;
2:7:151 Triplet Formation in Fullerene Multi-Adduct Blends for Organic Solar Cells and Its Influence on Device Performance
DOI:10.1002/adfm.201000477 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:32 AU: Dyer-Smith, Clare;Reynolds, Luke X.;Bruno, Annalisa;Bradley, Donal D. C.;Haque, Saif A.;Nelson, Jenny;
2:7:152 Correlation between charge transfer exciton recombination and photocurrent in polymer/fullerene solar cells
DOI:10.1063/1.3462298 JN:APPLIED PHYSICS LETTERS PY:2010 TC:33 AU: Hallermann, Markus;Da Como, Enrico;Feldmann, Jochen;Izquierdo, Marta;Filippone, Salvatore;Martin, Nazario;Juechter, Sabrina;von Hauff, Elizabeth;
2:7:153 Mechanism of Recombination Losses in Bulk Heterojunction P3HT: PCBM Solar Cells Studied Using Intensity Modulated Photocurrent Spectroscopy
DOI:10.1021/am100998t JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:13 AU: Byers, Joshua C.;Ballantyne, Scott;Rodionov, Konstantin;Mann, Alex;Semenikhin, O. A.;
2:7:154 Triplet Exciton Generation in Bulk-Heterojunction Solar Cells Based on Endohedral Fullerenes
DOI:10.1021/ja2025432 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:26 AU: Liedtke, Moritz;Sperlich, Andreas;Kraus, Hannes;Baumann, Andreas;Deibel, Carsten;Wirix, Maarten J. M.;Loos, Joachim;Cardona, Claudia M.;Dyakonov, Vladimir;
2:7:155 Spectral Dependence of the Internal Quantum Efficiency of Organic Solar Cells: Effect of Charge Generation Pathways
DOI:10.1021/ja505330x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Armin, Ardalan;Kassal, Ivan;Shaw, Paul E.;Hambsch, Mike;Stolterfoht, Martin;Lyons, Dani M.;Li, Jun;Sho, Zugui;Burn, Paul L.;Meredith, Paul;
2:7:156 Relation between charge carrier mobility and lifetime in organic photovoltaics
DOI:10.1063/1.4829456 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Vijila, Chellappan;Singh, Samarendra P.;Williams, Evan;Sonar, Prashant;Pivrikas, Almantas;Philippa, Bronson;White, Ronald;Kumar, Elumalai Naveen;Sandhya, S. Gomathy;Gorelik, Sergey;Hobley, Jonathan;Furube, Akihiro;Matsuzaki, Hiroyuki;Katoh, Ryuzi;
2:7:157 Effect of copper metalation of tetrabenzoporphyrin donor material on organic solar cell performance
DOI:10.1039/c4ta01068j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Guide, Michele;Lin, Jason D. A.;Proctor, Christopher M.;Chen, Jingrun;Garcia-Cervera, Carlos;Thuc-Quyen Nguyen;
2:7:158 Charge transfer relaxation in donor-acceptor type conjugated materials
DOI:10.1039/c3tc00829k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Scarongella, Mariateresa;Laktionov, Andrey;Rothlisberger, Ursula;Banerji, Natalie;
2:7:159 Charge Separation in Semicrystalline Polymeric Semiconductors by Photoexcitation: Is the Mechanism Intrinsic or Extrinsic?
DOI:10.1103/PhysRevLett.106.197401 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:44 AU: Paquin, Francis;Latini, Gianluca;Sakowicz, Maciej;Karsenti, Paul-Ludovic;Wang, Linjun;Beljonne, David;Stingelin, Natalie;Silva, Carlos;
2:7:160 Temperature dependence of open-circuit voltage in organic solar cells from generation-recombination kinetic balance
DOI:10.1016/j.solmat.2010.07.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:28 AU: Garcia-Belmonte, Germa;
2:7:161 Temperature dependence of open-circuit voltage and recombination processes in polymer-fullerene based solar cells
DOI:10.1016/j.solmat.2011.03.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:28 AU: Thakur, Anil K.;Wantz, Guillaume;Garcia-Belmonte, Germa;Bisquert, Juan;Hirsch, Lionel;
2:7:162 Ultrafast spectroscopic investigation of a fullerene poly(3-hexylthiophene) dyad
DOI:10.1103/PhysRevB.84.075206 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Banerji, Natalie;Seifter, Jason;Wang, Mingfeng;Vauthey, Eric;Wudl, Fred;Heeger, Alan J.;
2:7:163 The Crucial Influence of Fullerene Phases on Photogeneration in Organic Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201400922 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Zusan, Andreas;Vandewal, Koen;Allendorf, Benedikt;Hansen, Nis Hauke;Pflaum, Jens;Salleo, Alberto;Dyakonov, Vladimir;Deibel, Carsten;
2:7:164 Balanced Carrier Mobilities: Not a Necessary Condition for High-Efficiency Thin Organic Solar Cells as Determined by MIS- CELIV
DOI:10.1002/aenm.201300954 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:14 AU: Armin, Ardalan;Juska, Gytis;Ullah, Mujeeb;Velusamy, Marappan;Burn, Paul L.;Meredith, Paul;Pivrikas, Almantas;
2:7:165 Evaluation of Built-In Potential and Loss Mechanisms at Contacts in Organic Solar Cells: Device Model Parameterization, Validation, and Prediction
DOI:10.1002/aenm.201200972 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Liu, Bo;Png, Rui-Qi;Tan, Jun-Kai;Ho, Peter K. H.;
2:7:166 Does Conjugation Help Exciton Dissociation? A Study on Poly(p-phenylene)s in Planar Heterojunctions with C60 or TNF
DOI:10.1002/adma.201104063 JN:ADVANCED MATERIALS PY:2012 TC:25 AU: Schwarz, Christian;Baessler, Heinz;Bauer, Irene;Koenen, Jan-Moritz;Preis, Eduard;Scherf, Ullrich;Koehler, Anna;
2:7:167 Universal Formation of Compositionally Graded Bulk Heterojunction for Efficiency Enhancement in Organic Photovoltaics
DOI:10.1002/adma.201305196 JN:ADVANCED MATERIALS PY:2014 TC:23 AU: Xiao, Zhengguo;Yuan, Yongbo;Yang, Bin;VanDerslice, Jeremy;Chen, Jihua;Dyck, Ondrej;Duscher, Gerd;Huang, Jinsong;
2:7:168 Photo-induced changes in fundamental properties of organic solar cells
DOI:10.1063/1.4711806 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Bhattacharya, J.;Mayer, R. W.;Samiee, M.;Dalal, V. L.;
2:7:169 Photocurrent in bulk heterojunction solar cells with similar electron and hole mean free path
DOI:10.1063/1.4834955 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Coutinho, Douglas Jose;Faria, Roberto Mendonca;
2:7:170 Polymer/cathode interface barrier limiting the open circuit voltage in polymer:fullerene organic bulk heterojunction solar cells: A quantitative analysis
DOI:10.1063/1.4863755 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Nolasco, J. C.;Ramos-Ortiz, G.;Maldonado, J. L.;Barbosa-Garcia, O.;Ecker, B.;von Hauff, E.;
2:7:171 Charge Carrier Dynamics of Vapor-Deposited Small-Molecule/Fullerene Organic Solar Cells
DOI:10.1021/ja403056y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:3 AU: Chang, Angela Y.;Chen, Yi-Hong;Lin, Hao-Wu;Lin, Li-Yen;Wong, Ken-Tsung;Schaller, Richard D.;
2:7:172 Distance Distributions of Photogenerated Charge Pairs in Organic Photovoltaic Cells
DOI:10.1021/ja505380j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Barker, Alex J.;Chen, Kai;Hodgkiss, Justin M.;
2:7:173 Temperature dependence of exciton and charge carrier dynamics in organic thin films
DOI:10.1103/PhysRevB.84.235209 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Platt, A. D.;Kendrick, M. J.;Loth, M.;Anthony, J. E.;Ostroverkhova, O.;
2:7:174 Evidence for space-charge-limited conduction in organic photovoltaic cells at open-circuit conditions
DOI:10.1103/PhysRevB.87.085207 JN:PHYSICAL REVIEW B PY:2013 TC:6 AU: Di Nuzzo, Daniele;van Reenen, Stephan;Janssen, Rene A. J.;Kemerink, Martijn;Meskers, Stefan C. J.;
2:7:175 Spontaneous Charge Transfer and Dipole Formation at the Interface Between P3HT and PCBM
DOI:10.1002/aenm.201100074 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:28 AU: Aarnio, Harri;Sehati, Parisa;Braun, Slawomir;Nyman, Mathias;de Jong, Michel P.;Fahlman, Mats;Osterbacka, Ronald;
2:7:176 Advanced Heterojunction Structure of Polymer Photovoltaic Cell Generating High Photocurrent with Internal Quantum Efficiency Approaching 100%
DOI:10.1002/aenm.201300245 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:11 AU: Park, Hui Joon;Lee, Jae Yong;Lee, Taehwa;Guo, L. Jay;
2:7:177 Effects of Impurities on Operational Mechanism of Organic Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201203786 JN:ADVANCED MATERIALS PY:2013 TC:16 AU: Kaake, Loren;Dang, Xuan-Dung;Leong, Wei Lin;Zhang, Yuan;Heeger, Alan;Thuc-Quyen Nguyen;
2:7:178 Dielectric Effect on the Photovoltage Loss in Organic Photovoltaic Cells
DOI:10.1002/adma.201401987 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Chen, Song;Tsang, Sai-Wing;Lai, Tzung-Han;Reynolds, John R.;So, Franky;
2:7:179 Increased Open-Circuit Voltage of Organic Solar Cells by Reduced Donor-Acceptor Interface Area
DOI:10.1002/adma.201400114 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Vandewal, Koen;Widmer, Johannes;Heumueller, Thomas;Brabec, Christoph J.;McGehee, Michael D.;Leo, Karl;Riede, Moritz;Salleo, Alberto;
2:7:180 Enhanced performance of polymer: fullerene bulk heterojunction solar cells upon graphene addition
DOI:10.1063/1.4893777 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Robaeys, Pieter;Bonaccorso, Francesco;Bourgeois, Emilie;D'Haen, Jan;Dierckx, Wouter;Dexters, Wim;Spoltore, Donato;Drijkoningen, Jeroen;Liesenborgs, Jori;Lombardo, Antonio;Ferrari, Andrea C.;Van Reeth, Frank;Haenen, Ken;Manca, Jean V.;Nesladek, Milos;
2:7:181 Charge carrier extraction by linearly increasing voltage: Analytic framework and ambipolar transients
DOI:10.1063/1.3516392 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:25 AU: Lorrmann, J.;Badada, B. H.;Inganas, O.;Dyakonov, V.;Deibel, C.;
2:7:182 Relation between charge carrier density and lifetime in polymer-fullerene solar cells
DOI:10.1063/1.4746787 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Thakur, Anil K.;Baboz, Henri;Wantz, Guillaume;Hodgkiss, Justin;Hirsch, Lionel;
2:7:183 Empirically based device modeling of bulk heterojunction organic photovoltaics
DOI:10.1063/1.4801662 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:10 AU: Pierre, Adrien;Lu, Shaofeng;Howard, Ian A.;Facchetti, Antonio;Arias, Ana Claudia;
2:7:184 Oxygen doping-induced photogeneration loss in P3HT:PCBM solar cells
DOI:10.1016/j.solmat.2012.01.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:37 AU: Guerrero, Antonio;Boix, Pablo P.;Marchesi, Luis F.;Ripolles-Sanchis, Teresa;Pereira, Ernesto C.;Garcia-Belmonte, Germa;
2:7:185 Organic bulk heterojunction solar cells enhanced by spin interaction
DOI:10.1016/j.synthmet.2012.12.035 JN:SYNTHETIC METALS PY:2013 TC:6 AU: Zhang, Ye;Gautam, Bhoj R.;Basel, Tek P.;Mascaro, Debra J.;Vardeny, Z. Valy;
2:7:186 Theory of Stark spectroscopy transients from thin film organic semiconducting devices
DOI:10.1103/PhysRevB.89.195307 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: MacKenzie, Roderick C. I.;Goeritz, Anna;Greedy, Steve;von Hauff, Elizabeth;Nelson, Jenny;
2:7:187 Material Crystallinity as a Determinant of Triplet Dynamics and Oxygen Quenching in Donor Polymers for Organic Photovoltaic Devices
DOI:10.1002/adfm.201302612 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Soon, Ying W.;Shoaee, Safa;Ashraf, Raja Shahid;Bronstein, Hugo;Schroeder, Bob C.;Zhang, Weimin;Fei, Zhuping;Heeney, Martin;McCulloch, Iain;Durrant, James R.;
2:7:188 Compensating Poly(3-hexylthiophene) Reveals Its Doping Density and Its Strong Exciton Quenching by Free Carriers
DOI:10.1002/adma.201201157 JN:ADVANCED MATERIALS PY:2012 TC:30 AU: Liang, Ziqi;Gregg, Brian A.;
2:7:189 Energy Level Alignment and Sub-Bandgap Charge Generation in Polymer:Fullerene Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201204495 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Tsang, Sai-Wing;Chen, Song;So, Franky;
2:7:190 Growth rate dependent trap density in polythiophene-fullerene solar cells and its implications
DOI:10.1063/1.3560483 JN:APPLIED PHYSICS LETTERS PY:2011 TC:20 AU: Nalwa, Kanwar S.;Mahadevapuram, Rakesh C.;Chaudhary, Sumit;
2:7:191 Broadband Ultrafast Photoluminescence Spectroscopy Resolves Charge Photogeneration via De localized Hot Excitons in Polymer:Fullerene Photovoltaic Blends
DOI:10.1021/ja408235h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:16 AU: Chen, Kai;Barker, Alex J.;Reish, Matthew E.;Gordon, Keith C.;Hodgkiss, Justin M.;
2:7:192 On the identification of deeper defect levels in organic photovoltaic devices
DOI:10.1063/1.4818324 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:12 AU: Carr, John A.;Chaudhary, Sumit;
2:7:193 Open-circuit voltage of organic photovoltaics: Implications of the generalized Einstein relation for disordered semiconductors
DOI:10.1016/j.solmat.2011.08.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Manor, Assaf;Katz, Eugene A.;
2:7:194 Two-step charge photogeneration dynamics in polymer/fullerene blends for photovoltaic applications
DOI:10.1103/PhysRevB.85.205206 JN:PHYSICAL REVIEW B PY:2012 TC:19 AU: Singh, Sanjeev;Pandit, Bill;Basel, Tek P.;Li, Sergey;Laird, Darin;Vardeny, Z. Valy;
2:7:195 Significantly Reduced Bimolecular Recombination in a Novel Silole-Based Polymer: Fullerene Blend
DOI:10.1002/aenm.201100390 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:32 AU: Clarke, Tracey M.;Rodovsky, Deanna B.;Herzing, Andrew A.;Peet, Jeff;Dennler, Gilles;DeLongchamp, Dean;Lungenschmied, Christoph;Mozer, Attila J.;
2:7:196 Excitation Dynamics in Low Band Gap Donor-Acceptor Copolymers and Blends
DOI:10.1002/aenm.201200304 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:14 AU: Gieseking, Bjoern;Jaeck, Berthold;Preis, Eduard;Jung, Stefan;Forster, Michael;Scherf, Ullrich;Deibel, Carsten;Dyakonov, Vladimir;
2:7:197 Doping-Induced Screening of the Built-in-Field in Organic Solar Cells: Effect on Charge Transport and Recombination
DOI:10.1002/aenm.201200581 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:17 AU: Armin, Ardalan;Juska, Gytis;Philippa, Bronson W.;Burn, Paul L.;Meredith, Paul;White, Ronald D.;Pivrikas, Almantas;
2:7:198 Nanosecond Intersystem Crossing Times in Fullerene Acceptors: Implications for Organic Photovoltaic Diodes
DOI:10.1002/adma.201400846 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Chow, Philip C. Y.;Albert-Seifried, Sebastian;Gelinas, Simon;Friend, Richard H.;
2:7:199 Enhanced dissociation of charge-transfer states in narrow band gap polymer:fullerene solar cells processed with 1,8-octanedithiol
DOI:10.1063/1.3435468 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Moet, D. J. D.;Lenes, M.;Morana, M.;Azimi, H.;Brabec, C. J.;Blom, P. W. M.;
2:7:200 Hopping photoconductivity in an exponential density of states
DOI:10.1063/1.4750239 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Iacchetti, A.;Natali, D.;Binda, M.;Beverina, L.;Sampietro, M.;
2:7:201 Kinetics of light induced defect creation in organic solar cells
DOI:10.1063/1.4789993 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Street, R. A.;Davies, D. M.;
2:7:202 Measurement of defect densities and Urbach energies of tail states in PTB7 solar cells
DOI:10.1063/1.4896782 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Samiee, Mehran;Joshi, Pranav;Aidarkhanov, Damir;Dalal, Vikram;
2:7:203 Charge Recombination and Exciton Annihilation Reactions in Conjugated Polymer Blends
DOI:10.1021/ja908046h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:27 AU: Howard, Ian A.;Hodgkiss, Justin M.;Zhang, Xinping;Kirov, Kiril R.;Bronstein, Hugo A.;Williams, Charlotte K.;Friend, Richard H.;Westenhoff, Sebastian;Greenham, Neil C.;
2:7:204 An Order-Disorder Transition in the Conjugated Polymer MEH-PPV
DOI:10.1021/ja302408a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:26 AU: Koehler, Anna;Hoffmann, Sebastian T.;Baessler, Heinz;
2:7:205 Ultrafast Charge Separation in Organic Photovoltaics Enhanced by Charge Delocalization and Vibronically Hot Exciton Dissociation
DOI:10.1021/ja4093874 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:24 AU: Tamura, Hiroyuki;Burghardt, Irene;
2:7:206 Quantitative Bimolecular Recombination in Organic Photovoltaics through Triplet Exciton Formation
DOI:10.1021/ja410092n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Chow, Philip C. Y.;Gelinas, Simon;Rao, Akshay;Friend, Richard H.;
2:7:207 Ultrafast transient spectroscopy of nano-domains of polymer/fullerene blend for organic photovoltaic applications
DOI:10.1063/1.4769211 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Singh, Sanjeev;Pandit, Bill;Hukic-Markosian, Golda;Basel, Tek P.;Vardeny, Z. Valy;Li, Sergey;Laird, Darin;
2:7:208 Extraction of photogenerated charge carriers by linearly increasing voltage in the case of Langevin recombination
DOI:10.1103/PhysRevB.84.155202 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Juska, G.;Nekrasas, N.;Valentinavicius, V.;Meredith, P.;Pivrikas, A.;
2:7:209 Effect of doping on performance of organic solar cells
DOI:10.1103/PhysRevB.84.205318 JN:PHYSICAL REVIEW B PY:2011 TC:14 AU: Trukhanov, V. A.;Bruevich, V. V.;Paraschuk, D. Yu.;
2:7:210 Influence of injected charge carriers on photocurrents in polymer solar cells
DOI:10.1103/PhysRevB.85.125203 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Wehenkel, Dominique J.;Koster, L. Jan Anton;Wienk, Martijn M.;Janssen, Rene A. J.;
2:7:211 Correlation of open-circuit voltage and energy levels in zinc-phthalocyanine: C-60 bulk heterojunction solar cells with varied mixing ratio
DOI:10.1103/PhysRevB.88.085119 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Tietze, Max L.;Tress, Wolfgang;Pfuetzner, Steffen;Schuenemann, Christoph;Burtone, Lorenzo;Riede, Moritz;Leo, Karl;Vandewal, Koen;Olthof, Selina;Schulz, Philip;Kahn, Antoine;
2:7:212 Electronic Trap States in Methanofullerenes
DOI:10.1002/aenm.201100175 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:23 AU: Schafferhans, Julia;Deibel, Carsten;Dyakonov, Vladimir;
2:7:213 Correlation of Absorption Profile and Fill Factor in Organic Solar Cells: The Role of Mobility Imbalance
DOI:10.1002/aenm.201200835 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:13 AU: Tress, Wolfgang;Merten, Andre;Furno, Mauro;Hein, Moritz;Leo, Karl;Riede, Moritz;
2:7:214 Effect of Polymer Crystallinity in P3HT:PCBM Solar Cells on Band Gap Trap States and Apparent Recombination Order
DOI:10.1002/aenm.201200674 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:15 AU: Spoltore, Donato;Oosterbaan, Wibren D.;Khelifi, Samira;Clifford, John N.;Viterisi, Aurelien;Palomares, Emilio;Burgelman, Marc;Lutsen, Laurence;Vanderzande, Dirk;Manca, Jean;
2:7:215 Nonequilibrium Charge Dynamics in Organic Solar Cells
DOI:10.1002/aenm.201301743 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Howard, Ian A.;Etzold, Fabian;Laquai, Frederic;Kemerink, Martijn;
2:7:216 Dispersion-Dominated Photocurrent in Polymer: Fullerene Solar Cells
DOI:10.1002/adfm.201400404 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Melianas, Armantas;Pranculis, Vytenis;Devizis, Andrius;Gulbinas, Vidmantas;Inganas, Olle;Kemerink, Martijn;
2:7:217 Order of decay of mobile charge carriers in P3HT:PCBM solar cells
DOI:10.1063/1.4816720 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Deibel, Carsten;Rauh, Daniel;Foertig, Alexander;
2:7:218 Effect of temperature on carrier formation efficiency in organic photovoltaic cells
DOI:10.1063/1.4892611 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Moritomo, Yutaka;Yonezawa, Kouhei;Yasuda, Takeshi;
2:7:219 Enhanced charge photogeneration promoted by crystallinity in small-molecule donor-acceptor bulk heterojunctions
DOI:10.1063/1.4891758 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Paudel, Keshab;Johnson, Brian;Thieme, Mattson;Haley, Michael M.;Payne, Marcia M.;Anthony, John E.;Ostroverkhova, Oksana;
2:7:220 Enhancing the Tunability of the Open-Circuit Voltage of Hybrid Photovoltaics with Mixed Molecular Monolayers
DOI:10.1021/am4056134 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Barnea-Nehoshtan, Lee;Nayak, Pabitra K.;Shu, Andrew;Bendikov, Tatyana;Kahn, Antoine;Cahen, David;
2:7:221 Polarization Imaging of Emissive Charge Transfer States in Polymer/Fullerene Blends
DOI:10.1021/cm502503f JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Camacho, Rafael;Meyer, Matthias;Vandewal, Koen;Tang, Zheng;Inganas, Olle;Scheblykin, Ivan G.;
2:7:222 Recombination lifetime of free polarons in polymer/fullerene bulk heterojunction solar cells
DOI:10.1063/1.3680879 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:10 AU: Li, Kejia;Li, Lijun;Campbell, Joe C.;
2:7:223 Unified electronic charge transport model for organic solar cells
DOI:10.1063/1.4813099 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Mottaghian, Seyyed Sadegh;Biesecker, Matt;Bayat, Khadijeh;Baroughi, Mahdi Farrokh;
2:7:224 Dispersive transport in the temperature dependent transient photoresponse of organic photodiodes and solar cells
DOI:10.1063/1.4810897 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Christ, Nico;Kettlitz, Siegfried;Mescher, Jan;Valouch, Sebastian;Lemmer, Uli;
2:7:225 Effect of doping on the short-circuit current and open-circuit voltage of polymer solar cells
DOI:10.1063/1.4898692 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zhao, Yong;Liang, Chunjun;Sun, Mengjie;Liu, Qian;Zhang, Fujun;Li, Dan;He, Zhiqun;
2:7:226 In Situ Optical Measurement of Charge Transport Dynamics in Organic Photovoltaics
DOI:10.1021/nl503687u JN:NANO LETTERS PY:2015 TC:0 AU: Chow, Philip C. Y.;Bayliss, Sam L.;Lakhwani, Girish;Greenham, Neil C.;Friend, Richard H.;
2:7:227 Theory of bulk electron-hole recombination in a medium with energetic disorder
DOI:10.1103/PhysRevB.82.085201 JN:PHYSICAL REVIEW B PY:2010 TC:28 AU: Tachiya, M.;Seki, Kazuhiko;
2:7:228 Theory of interfacial charge-transfer complex photophysics in pi-conjugated polymer-fullerene blends
DOI:10.1103/PhysRevB.81.085407 JN:PHYSICAL REVIEW B PY:2010 TC:20 AU: Aryanpour, K.;Psiachos, D.;Mazumdar, S.;
2:7:229 Nanosecond response of organic solar cells and photodiodes: Role of trap states
DOI:10.1103/PhysRevB.83.195211 JN:PHYSICAL REVIEW B PY:2011 TC:22 AU: Christ, Nico;Kettlitz, Siegfried W.;Zuefle, Simon;Valouch, Sebastian;Lemmer, Uli;
2:7:230 Role of intermolecular charge delocalization on electron transport in fullerene aggregates
DOI:10.1103/PhysRevB.85.054301 JN:PHYSICAL REVIEW B PY:2012 TC:19 AU: Tamura, Hiroyuki;Tsukada, Masaru;
2:7:231 Measurement of thermal modulation of optical absorption in pump-probe spectroscopy of semiconducting polymers
DOI:10.1063/1.3595340 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Albert-Seifried, Sebastian;Friend, Richard H.;
2:7:232 The physical meaning of charge extraction by linearly increasing voltage transients from organic solar cells
DOI:10.1063/1.4818267 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Hanfland, Robert;Fischer, Martin A.;Bruetting, Wolfgang;Wuerfel, Uli;MacKenzie, Roderick C. I.;
2:7:233 Open circuit voltage decay transients and recombination in bulk-heterojunction solar cells
DOI:10.1063/1.4879278 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Rao, K. Sudheendra;Mohapatra, Y. N.;
2:7:234 Organic solar cells: a rigorous model of the donor-acceptor interface for various bulk heterojunction morphologies
DOI:10.1063/1.4863780 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Raba, Adam;Leroy, Yann;Cordan, Anne-Sophie;
2:7:235 Hot charge-transfer excitons set the time limit for charge separation at donor/acceptor interfaces in organic photovoltaics
DOI:10.1038/NMAT3500 JN:NATURE MATERIALS PY:2013 TC:165 AU: Jailaubekov, Askat E.;Willard, Adam P.;Tritsch, John R.;Chan, Wai-Lun;Sai, Na;Gearba, Raluca;Kaake, Loren G.;Williams, Kenrick J.;Leung, Kevin;Rossky, Peter J.;Zhu, X-Y.;
2:7:236 Charge mobility determination by current extraction under linear increasing voltages: Case of nonequilibrium charges and field-dependent mobilities
DOI:10.1103/PhysRevB.81.035209 JN:PHYSICAL REVIEW B PY:2010 TC:22 AU: Bange, Sebastian;Schubert, Marcel;Neher, Dieter;
2:7:237 Direct detection of photoinduced charge transfer complexes in polymer fullerene blends
DOI:10.1103/PhysRevB.85.125206 JN:PHYSICAL REVIEW B PY:2012 TC:17 AU: Behrends, Jan;Sperlich, Andreas;Schnegg, Alexander;Biskup, Till;Teutloff, Christian;Lips, Klaus;Dyakonov, Vladimir;Bittl, Robert;
2:7:238 Derivation of the open-circuit voltage of organic solar cells
DOI:10.1103/PhysRevB.89.205313 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Staple, Douglas B.;Oliver, Patricia A. K.;Hill, Ian G.;
2:7:239 Charge Carrier Dynamics of Polymer: Fullerene Blends: From Geminate to Non-Geminate Recombination
DOI:10.1002/aenm.201301706 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Vithanage, Dimali Amarasinghe;Wang, Ergang;Wang, Zhongqiang;Ma, Fei;Inganas, Olle;Andersson, Mats R.;Yartsev, Arkady;Sundstrom, Villy;Pascher, Torbjorn;
2:7:240 Enhancement of V-OC without Loss of J(SC) in Organic Solar Cells by Modification of Donor/Acceptor Interfaces
DOI:10.1002/aenm.201301332 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:3 AU: Zhong, Yufei;Tada, Akira;Izawa, Seiichiro;Hashimoto, Kazuhito;Tajima, Keisuke;
2:7:241 Activation Energy Spectra: Insights into Transport Limitations of Organic Semiconductors and Photovoltaic Cells
DOI:10.1002/adfm.201102813 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:4 AU: Liang, Ziqi;Nardes, Alexandre M.;van de Lagemaat, Jao;Gregg, Brian A.;
2:7:242 Electric Field-Induced Dipole Switching at the Donor/Acceptor Interface in Organic Solar Cells
DOI:10.1002/adma.201203605 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Zhong, Yufei;Ma, Jusha;Hashimoto, Kazuhito;Tajima, Keisuke;
2:7:243 Role of Localized States on Carrier Transport in Bulk Heterojunction Materials Comprised of Organic Small Molecule Donors
DOI:10.1002/adma.201304791 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Zhong, Chengmei;Huang, Fei;Cao, Yong;Moses, Daniel;Heeger, Alan J.;
2:7:244 Injected charge extraction by linearly increasing voltage for bimolecular recombination studies in organic solar cells
DOI:10.1063/1.4747330 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Armin, Ardalan;Velusamy, Marrapan;Burn, Paul L.;Meredith, Paul;Pivrikas, Almantas;
2:7:245 Fullerene concentration dependent bimolecular recombination in organic photovoltaic films
DOI:10.1063/1.4799348 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Kaake, Loren G.;Sun, Yanming;Bazan, Guillermo C.;Heeger, Alan J.;
2:7:246 Electronic structure disorder, vibronic coupling, and charge transfer excitons in poly(fluorene-alt-bithiophene):fullerene films
DOI:10.1063/1.4796118 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Riisness, I.;Gordon, M. J.;
2:7:247 Charge collection in bulk heterojunction organic photovoltaic devices: An impedance spectroscopy study
DOI:10.1063/1.4896633 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Xu, Liang;Lee, Yun-Ju;Hsu, Julia W. P.;
2:7:248 Origin of the fill factor loss in bulk-heterojunction organic solar cells
DOI:10.1063/1.4871582 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wu, Lili;Zang, Huidong;Hsiao, Yu-Che;Zhang, Xitian;Hu, Bin;
2:7:249 Chemically Treating Poly(3-hexylthiophene) Defects to Improve Bulk Heterojunction Photovoltaics
DOI:10.1021/am200276x JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:12 AU: Liang, Ziqi;Reese, Matthew O.;Gregg, Brian A.;
2:7:250 Determination of the intrinsic and the injection dependent charge carrier density in organic solar cells using the Suns-V-OC method
DOI:10.1063/1.4862960 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Schiefer, Sebastian;Zimmermann, Birger;Wuerfel, Uli;
2:7:251 Transient photovoltage study on the dynamics of excitons and carriers in tris-(8-hydroxyquinolinato)aluminum
DOI:10.1063/1.4898362 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Chen, Xiaoqing;Wu, Bo;He, Zeshang;Xuxie, Huina;Liang, Ziqi;Hou, Xiaoyuan;
2:7:252 Systematic electrochemical oxidative doping of P3HT to probe interfacial charge transfer across polymer-fullerene interfaces
DOI:10.1039/c4ta04319g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:0 AU: Jenkins, Judith L.;Lee, Paul A.;Nebesny, Kenneth W.;Ratcliff, Erin L.;
2:7:253 Role of Polaron Pair Diffusion and Surface Losses in Organic Semiconductor Devices
DOI:10.1103/PhysRevLett.105.266602 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:18 AU: Strobel, Thomas;Deibel, Carsten;Dyakonov, Vladimir;
2:7:254 Evolution of phase separation upon annealing and the influence on photocurrent generation in ternary blend organic solar cells
DOI:10.1016/j.synthmet.2013.12.024 JN:SYNTHETIC METALS PY:2014 TC:6 AU: Hwang, Inchan;McNeill, Christopher R.;Greenham, Neil C.;
2:7:255 Calculation of rates of exciton dissociation into hot charge-transfer states in model organic photovoltaic interfaces
DOI:10.1103/PhysRevB.88.205304 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Vazquez, Hector;Troisi, Alessandro;
2:7:256 Room-Temperature Phase Demixing in Bulk Heterojunction Layers of Solution-Processed Organic Photodetectors: the Effect of Active Layer Ageing on the Device Electro-optical Properties
DOI:10.1002/adfm.201002214 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:13 AU: Keivanidis, Panagiotis E.;Laquai, Frederic;Howard, Ian A.;Friend, Richard H.;
2:7:257 Photophysics of the Geminate Polaron-Pair State in Copper Phthalocyanine Organic Photovoltaic Blends: Evidence for Enhanced Intersystem Crossing
DOI:10.1002/adma.201201350 JN:ADVANCED MATERIALS PY:2013 TC:4 AU: Snedden, Edward W.;Monkman, Andrew P.;Dias, Fernando B.;
2:7:258 Subbandgap absorption in polymer-fullerene solar cells
DOI:10.1063/1.3527077 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Presselt, M.;Baerenklau, M.;Roesch, R.;Beenken, W. J. D.;Runge, E.;Shokhovets, S.;Hoppe, H.;Gobsch, G.;
2:7:259 Enhancing the Photoluminescence Emission of Conjugated MEH-PPV by Light Processing
DOI:10.1021/am4060244 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Botiz, Ioan;Freyberg, Paul;Leordean, Cosmin;Gabudean, Ana-Maria;Astilean, Simion;Yang, Arnold Chang-Mou;Stingelin, Natalie;
2:7:260 Tracing charge transfer states in polymer:fullerene bulk-heterojunctions
DOI:10.1039/c3ta11005b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:4 AU: Manca, Marianna;Piliego, Claudia;Wang, Ergang;Andersson, Mats R.;Mura, Andrea;Loi, Maria A.;
2:7:261 Efficient charge generation by relaxed charge-transfer states at organic interfaces
DOI:10.1038/NMAT3807 JN:NATURE MATERIALS PY:2014 TC:98 AU: Vandewal, Koen;Albrecht, Steve;Hoke, Eric T.;Graham, Kenneth R.;Widmer, Johannes;Douglas, Jessica D.;Schubert, Marcel;Mateker, William R.;Bloking, Jason T.;Burkhard, George F.;Sellinger, Alan;Frechet, Jean M. J.;Amassian, Aram;Riede, Moritz K.;McGehee, Michael D.;Neher, Dieter;Salleo, Alberto;
2:7:262 Investigation of recombination loss in organic solar cells by simulating intensity-dependent current-voltage measurements
DOI:10.1016/j.solmat.2011.02.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Liu, Liming;Li, Guangyong;
2:7:263 Theory of exciton dissociation at the interface between a conjugated polymer and an electron acceptor
DOI:10.1103/PhysRevB.84.035210 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Nenashev, A. V.;Baranovskii, S. D.;Wiemer, M.;Jansson, F.;Osterbacka, R.;Dvurechenskii, A. V.;Gebhard, F.;
2:7:264 High-Dielectric Constant Side-Chain Polymers Show Reduced Non-Geminate Recombination in Heterojunction Solar Cells
DOI:10.1002/aenm.201301857 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Cho, Namchul;Schlenker, Cody W.;Knesting, Kristina M.;Koelsch, Patrick;Yip, Hin-Lap;Ginger, David S.;Jen, Alex K. -Y.;
2:7:265 Delayed Luminescence Spectroscopy of Organic Photovoltaic Binary Blend Films: Probing the Emissive Non-geminate Charge Recombination
DOI:10.1002/adma.201002389 JN:ADVANCED MATERIALS PY:2010 TC:17 AU: Keivanidis, Panagiotis E.;Kamm, Valentin;Dyer-Smith, Clare;Zhang, Weimin;Laquai, Frederic;McCulloch, Iain;Bradley, Donal D. C.;Nelson, Jenny;
2:7:266 Modeling of bulk and bilayer organic heterojunction solar cells
DOI:10.1063/1.3383232 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Cuiffi, Joseph;Benanti, Travis;Nam, Wook Jun;Fonash, Stephen;
2:7:267 Dependence of recombination mechanisms and strength on processing conditions in polymer solar cells
DOI:10.1063/1.3671999 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Nalwa, Kanwar S.;Kodali, Hari K.;Ganapathysubramanian, Baskar;Chaudhary, Sumit;
2:7:268 Recombination pathways in polymer:fullerene photovoltaics observed through spin polarization measurements
DOI:10.1063/1.4865203 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Etherington, Marc K.;Wang, Jianpu;Chow, Philip C. Y.;Greenham, Neil C.;
2:7:269 Traps in Regioregular Poly(3-hexylthiophene) and its Blend with [6,6]-Phenyl-C-61-Butyric Acid Methyl Ester for Polymer Solar Cells
DOI:10.1021/am303186f JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Yu, Cheng-Yen;Jen, Tzu-Hao;Chen, Show-An;
2:7:270 Ultrafast Terahertz Photoconductivity of Bulk Heterojunction Materials Reveals High Carrier Mobility up to Nanosecond Time Scale
DOI:10.1021/ja301757y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Ponseca, Carlito S., Jr.;Yartsev, Arkady;Wang, Ergang;Andersson, Mats R.;Vithanage, Dimali;Sundstrom, Villy;
2:7:271 Charge Carrier Generation and Transport in Different Stoichiometry APFO3:PC61BM Solar Cells
DOI:10.1021/ja503301m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Pranculis, Vytenis;Infahsaeng, Yingyot;Tang, Zheng;Devizis, Andrius;Vithanage, Dimali A.;Ponseca, Carlito S., Jr.;Inganas, Olle;Yartsev, Arkady P.;Gulbinas, Vidmantas;Sundstrom, Villy;
2:7:272 An analytical model for analyzing the current-voltage characteristics of bulk heterojunction organic solar cells
DOI:10.1063/1.4861725 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Arnab, Salman M.;Kabir, M. Z.;
2:7:273 Measuring internal quantum efficiency to demonstrate hot exciton dissociation
DOI:10.1038/nmat3692 JN:NATURE MATERIALS PY:2013 TC:13 AU: Armin, Ardalan;Zhang, Yuliang;Burn, Paul L.;Meredith, Paul;Pivrikas, Almantas;
2:7:274 The impact of thermal annealing temperature on the low-frequency noise characteristics of P3HT:PCBM bulk heterojunction organic solar cells
DOI:10.1016/j.solmat.2014.07.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Li, Lijun;Shen, Yang;Campbell, Joe C.;
2:7:275 Reversible oxygen doping of conjugated polymer and its dedoping studied by Mott-Schottky analysis
DOI:10.1016/j.synthmet.2013.03.005 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Kozlov, Oleg V.;Zapunidi, Sergey A.;
2:7:276 P-type indium oxide thin film for the hole-transporting layer of organic solar cells
DOI:10.1016/j.tsf.2011.12.044 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Qin, Pingli;Fang, Guojia;Sun, Nanhai;Fan, Xi;Zheng, Qiao;Cheng, Fei;Wan, Jiawei;Zhao, Xingzhong;
2:7:277 Probing ultrafast charge separation at organic donor/acceptor interfaces by a femtosecond electric field meter
DOI:10.1063/1.3632062 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Kaake, L. G.;Jailaubekov, A.;Williams, K. J.;Zhu, X. -Y.;
2:7:278 Electron and hole mobility in solution-processed small molecule-fullerene blend: Dependence on the fullerene content
DOI:10.1063/1.4802922 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Kyaw, Aung Ko Ko;Wang, Dong Hwan;Tseng, Hsin-Rong;Zhang, Jie;Bazan, Guillermo C.;Heeger, Alan J.;
2:7:279 Exciton annihilation as bimolecular loss in organic solar cells
DOI:10.1063/1.4825048 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Tzabari, Lior;Zayats, Victoria;Tessler, Nir;
2:7:280 Exciton Dynamics of P3HT:PCBM Blend Films with Different Polymer Regioregularities Using Transient Absorption Spectroscopy
DOI:10.1080/15421406.2013.804381 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Lee, Sunae;Lee, Myounghee;An, Jongdeok;Ahme, Helene;Im, Chan;
2:7:281 Small molecule bulk heterojunction organic solar cells with coumarin-6 as donor material
DOI:10.1016/j.tsf.2013.03.052 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Beyer, Beatrice;Griese, Daniel;Schirrmann, Christian;Pfeifer, Richard;Kahmann, Simon;Hild, Olaf Ruediger;Leo, Karl;
2:7:282 Evidence for excimer photoexcitations in an ordered pi-conjugated polymer film
DOI:10.1103/PhysRevB.83.155124 JN:PHYSICAL REVIEW B PY:2011 TC:14 AU: Aryanpour, K.;Sheng, C. -X.;Olejnik, E.;Pandit, B.;Psiachos, D.;Mazumdar, S.;Vardeny, Z. V.;
2:7:283 Continuous-wave photoinduced absorption studies in polythiophene and fullerene blended thin films
DOI:10.1103/PhysRevB.83.035305 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Kobayashi, Takashi;Kinoshita, Keita;Nagase, Takashi;Naito, Hiroyoshi;
2:7:284 Two-dimensional spatial coherence of excitons in semicrystalline polymeric semiconductors: Effect of molecular weight
DOI:10.1103/PhysRevB.88.155202 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Paquin, Francis;Yamagata, Hajime;Hestand, Nicholas J.;Sakowicz, Maciej;Berube, Nicolas;Cote, Michel;Reynolds, Luke X.;Haque, Saif A.;Stingelin, Natalie;Spano, Frank C.;Silva, Carlos;
2:7:285 High Intrachain Order Promotes Triplet Formation from Recombination of Long-Lived Polarons in Poly(3-hexylthiophene) J-Aggregate Nanofibers
DOI:10.1021/nn5040026 JN:ACS NANO PY:2014 TC:2 AU: Thomas, Alan K.;Garcia, Jose A.;Ulibarri-Sanchez, Jordan;Gao, Jian;Grey, John K.;
2:7:286 Influence of Phonon Scattering on Exciton and Charge Diffusion in Polymer-Fullerene Solar Cells
DOI:10.1002/aenm.201100793 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:3 AU: Presselt, Martin;Herrmann, Felix;Hoppe, Harald;Shokhovets, Sviatoslav;Runge, Erich;Gobsch, Gerhard;
2:7:287 Electronic Structure of Fullerene Heterodimer in Bulk-Heterojunction Blends
DOI:10.1002/aenm.201301517 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Poluektov, Oleg G.;Niklas, Jens;Mardis, Kristy L.;Beaupre, Serge;Leclerc, Mario;Villegas, Carmen;Erten-Ela, Sule;Delgado, Juan L.;Martin, Nazario;Sperlich, Andreas;Dyakonov, Vladimir;
2:7:288 Direct Optical Generation of Long-Range Charge-Transfer States in Organic Photovoltaics
DOI:10.1002/adma.201402294 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Ma, Haibo;Troisi, Alessandro;
2:7:289 On the efficiency of exciton dissociation at the interface between a conjugated polymer and an electron acceptor
DOI:10.1063/1.3607481 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Wiemer, M.;Nenashev, A. V.;Jansson, F.;Baranovskii, S. D.;
2:7:290 Optical-electrical simulation of organic solar cells: excitonic modeling parameter influence on electrical characteristics
DOI:10.1063/1.3582926 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Vervisch, Wilfried;Biondo, Stephane;Riviere, Guillaume;Duche, David;Escoubas, Ludovic;Torchio, Philippe;Simon, Jean-Jacques;Le Rouzo, Judikael;
2:7:291 Study of photoexcitations in poly(3-hexylthiophene) for photovoltaic applications
DOI:10.1063/1.4720177 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Hukic-Markosian, Golda;Basel, Tek;Singh, Sanjeev;Vardeny, Z. Valy;Li, Sergey;Laird, Darin;
2:7:292 Kinetic Monte Carlo modeling of dark and illuminated current-voltage characteristics of bulk heterojunction solar cells
DOI:10.1063/1.4818261 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Baidya, Prabin Man;Bayat, Khadijeh;Biesecker, Matt;Baroughi, Mahdi Farrokh;
2:7:293 More stable hybrid organic solar cells deposited on amorphous Si electron transfer layer
DOI:10.1063/1.4878405 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Samiee, Mehran;Modtland, Brian;Aidarkhanov, Damir;Dalal, Vikram L.;
2:7:294 Enhanced surface losses of organic solar cells induced by efficient polaron pair dissociation at the metal/organic interface
DOI:10.1063/1.4745022 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Yang, Wenchao;Li, De-Li;Yao, Yao;Hou, Xiaoyuan;Wu, Chang-Qin;
2:7:295 A spatially smoothed device model for organic bulk heterojunction solar cells
DOI:10.1063/1.4803542 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Zhang, Teng;Birgersson, Erik;Luther, Joachim;
2:7:296 Measuring internal quantum efficiency to demonstrate hot exciton dissociation Reply
DOI:10.1038/nmat3693 JN:NATURE MATERIALS PY:2013 TC:6 AU: Grancini, G.;Binda, M.;Criante, L.;Perissinotto, S.;Maiuri, M.;Fazzi, D.;Petrozza, A.;Egelhaaf, H-J.;Brida, D.;Cerullo, G.;Lanzani, G.;
2:7:297 Synthesis and characterization of donor-acceptor type 4,4 '-bis(2,1,3-benzothiadiazole)-based copolymers
DOI:10.1016/j.polymer.2011.07.053 JN:POLYMER PY:2011 TC:7 AU: Anant, Piyush;Mangold, Hannah;Lucas, Nigel T.;Laquai, Frederic;Jacob, Josemon;
2:7:298 Optical spectroscopy of photovoltaic systems based on low-bandgap polymers
DOI:10.1016/j.tsf.2013.11.025 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Biank, H. C.;Shokhovets, S.;Gobsch, G.;Runge, E.;Sensfuss, S.;Klemm, E.;Andrae, G.;
2:7:299 Ultrafast charge carrier mobility dynamics in poly(spirobifluorene-co-benzothiadiazole): Influence of temperature on initial transport
DOI:10.1103/PhysRevB.82.155204 JN:PHYSICAL REVIEW B PY:2010 TC:8 AU: Devizis, A.;Meerholz, K.;Hertel, D.;Gulbinas, V.;
2:7:300 Controlled energy shuttling in terpolymers enabling independent optimization of absorption and transport properties in organic solar cell materials
DOI:10.1063/1.4769249 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Mangold, Hannah;Howard, Ian A.;Janietz, Silvia;Laquai, Frederic;
2:7:301 Balanced charge carrier mobilities in bulk heterojunction organic solar cells
DOI:10.1063/1.4745602 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Abbas, Mamatimin;Tekin, Nalan;
2:7:302 Influence of the spatial photocarrier generation profile on the performance of organic solar cells
DOI:10.1063/1.4745601 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Mescher, Jan;Christ, Nico;Kettlitz, Siegfried;Colsmann, Alexander;Lemmer, Uli;
2:7:303 Investigation of electronic trap states in organic photovoltaic materials by current-based deep level transient spectroscopy
DOI:10.1063/1.4731637 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Neugebauer, Stefan;Rauh, Julia;Deibel, Carsten;Dyakonov, Vladimir;
2:7:304 Extracting the charge carrier mobility from the nanosecond photocurrent response of organic solar cells and photodiodes
DOI:10.1063/1.4863737 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Christ, Nico;Kettlitz, Siegfried W.;Mescher, Jan;Lemmer, Uli;
2:7:305 Crystal Engineering of Pharmaceutical Co-crystals: Application of Methyl Paraben as Molecular Hook
DOI:10.1021/ja100146f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:58 AU: Khan, Mujeeb;Enkelmann, Volker;Brunklaus, Gunther;
2:7:306 Ab Initio Modeling of Excitonic and Charge-Transfer States in Organic Semiconductors: The PTB1/PCBM Low Band Gap System
DOI:10.1021/ja4081925 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:9 AU: Borges, Itamar, Jr.;Aquino, Adelia J. A.;Koehn, Andreas;Nieman, Reed;Hase, William L.;Chen, Lin X.;Lischka, Hans;
2:7:307 Analysis of voltage and temperature dependent photocurrent collection in p3ht/pcbm solar cells
DOI:10.1063/1.4768910 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Ali, Bakhtyar;Murray, Roy;Hegedus, Steven S.;Shah, S. Ismat;
2:7:308 Effect of fractal silver electrodes on charge collection and light distribution in semiconducting organic polymer films
DOI:10.1039/c4ta03204g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Chamousis, Rachel L.;Chang, Lilian;Watterson, William J.;Montgomery, Rick D.;Taylor, Richard P.;Moule, Adam J.;Shaheen, Sean E.;Ilan, Boaz;van de Lagemaat, Jao;Osterloh, Frank E.;
2:7:309 Interface Formation between Calcium and Electron-Irradiated Poly(3-hexylthiophene)
DOI:10.1021/la100209v JN:LANGMUIR PY:2010 TC:12 AU: Bebensee, Fabian;Zhu, Junfa;Baricuatro, Jack H.;Farmer, Jason A.;Bai, Yun;Steinrueck, Hans-Peter;Campbell, Charles T.;Gottfried, J. Michael;
2:7:310 Influence of octanedithiol on the nanomorphology of PCPDTBT:PCBM blends studied by solid-state NMR
DOI:10.1016/j.solmat.2011.09.061 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:12 AU: Chambon, Sylvain;Mens, Raoul;Vandewal, Koen;Clodic, Ewan;Scharber, Markus;Lutsen, Laurence;Gelan, Jan;Manca, Jean;Vanderzande, Dirk;Adriaensens, Peter;
2:7:311 Spectroelectrochemical characterization of anionic and cationic polarons in poly(3-hexylthiophene)/fullerene blend. Effects of morphology and interface
DOI:10.1016/j.synthmet.2013.03.008 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Hu, Rong;Zhang, Wei;Fu, Li-Min;Zhang, Jian-Ping;Ai, Xi-Cheng;
2:7:312 Continuous-wave photoinduced absorption study on trapped carriers in bulk-heterojunction solar cells connected to load
DOI:10.1016/j.tsf.2013.08.017 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Terada, Yosuke;Kobayashi, Takashi;Nakatsuka, Emi;Nagase, Takashi;Naito, Hiroyoshi;
2:7:313 Mapping Spatially Resolved Charge Collection Probability within P3HT:PCBM Bulk Heterojunction Photovoltaics
DOI:10.1002/aenm.201300525 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:0 AU: Dissanayake, D. M. Nanditha M.;Ashraf, Ahsan;Pang, Yutong;Eisaman, Matthew D.;
2:7:314 Influence of temperature-dependent mobilities on the nanosecond response of organic solar cells and photodetectors
DOI:10.1063/1.3473818 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Zuefle, Simon;Christ, Nico;Kettlitz, Siegfried W.;Valouch, Sebastian;Lemmer, Uli;
2:7:315 Photophysics and morphology of poly (3-dodecylthienylenevinylene)-[6,6]-phenyl-C-61-butyric acid methyl ester composite
DOI:10.1063/1.4720091 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Lafalce, E.;Toglia, P.;Zhang, C.;Jiang, X.;
2:7:316 Correlation between near infrared-visible absorption, intrinsic local and global sheet resistance of poly(3,4-ethylenedioxy-thiophene) poly(styrene sulfonate) thin films
DOI:10.1063/1.3697402 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Herrmann, Felix;Engmann, Sebastian;Presselt, Martin;Hoppe, Harald;Shokhovets, Sviatoslav;Gobsch, Gerhard;
2:7:317 Determination of free polaron lifetime in organic bulk heterojunction solar cells by transient time analysis
DOI:10.1063/1.3493114 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Li, Kejia;Shen, Yang;Majumdar, Nabanita;Hu, Chong;Gupta, Mool C.;Campbell, Joe C.;
2:7:318 Charge recombination in disordered neat polymer films under imbalanced excitation conditions studied using the recombination time of flight technique
DOI:10.1063/1.4720470 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Ravia, Israel;Tessler, Nir;
2:7:319 Measuring internal quantum efficiency to demonstrate hot exciton dissociation
DOI:10.1038/nmat3690 JN:NATURE MATERIALS PY:2013 TC:6 AU: Scharber, Markus;
2:7:320 ORGANIC PHOTOVOLTAICS Some like it hot
DOI:10.1038/nmat3523 JN:NATURE MATERIALS PY:2013 TC:11 AU: Silva, Carlos;
2:7:321 High-pressure optical studies of donor-acceptor polymer heterojunctions
DOI:10.1103/PhysRevB.84.205208 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Paudel, K.;Chandrasekhar, M.;Scherf, U.;Preis, E.;Guha, S.;
2:7:322 Dynamics of charge separation at an organic donor-acceptor interface
DOI:10.1103/PhysRevB.90.115420 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Sun, Zhen;Stafstrom, Sven;
2:7:323 Time-of-Flight Studies of Electron-Collection Kinetics in Polymer:Fullerene Bulk-Heterojunction Solar Cells (vol 21, pg 2580, 2011)
DOI:10.1002/adfm.201190099 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:1 AU: Morfa, Anthony J.;Nardes, Alexandre M.;Shaheen, Sean E.;Kopidakis, Nikos;van de Lagemaat, Jao;
2:7:324 A combined theoretical and experimental investigation on the transient photovoltage in organic photovoltaic cells
DOI:10.1063/1.3431289 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Yao, Yao;Sun, Xiaoyu;Ding, Baofu;Li, De-Li;Hou, Xiaoyuan;Wu, Chang-Qin;
2:7:325 Aggregate formation and its effect on (opto)electronic properties of guest-host organic semiconductors
DOI:10.1063/1.3505493 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Shepherd, Whitney E. B.;Platt, Andrew D.;Hofer, David;Ostroverkhova, Oksana;Loth, Marsha;Anthony, John E.;
2:7:326 Theory to exciton dissociation at the interface between a conjugated polymer and an electron acceptor
DOI:10.1016/j.jnoncrysol.2011.12.036 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Nenashev, A. V.;Wiemer, M.;Jansson, F.;Baranovskii, S. D.;
2:7:327 Effect of spin 1/2 radicals on the ultrafast photoexcitation dynamics in RR-P3HT/PCBM blends for photovoltaic applications
DOI:10.1016/j.synthmet.2009.07.061 JN:SYNTHETIC METALS PY:2010 TC:5 AU: Singh, S.;Zhang, Y.;Vardeny, Z. V.;
2:7:328 Phosphorescence superradiance in a Pt-containing pi-conjugated polymer
DOI:10.1103/PhysRevB.86.195203 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Khachatryan, Bagrat;Nguyen, Tho D.;Vardeny, Z. Valy;Ehrenfreund, Eitan;
2:7:329 Quantification of energy losses in organic solar cells from temperature-dependent device characteristics
DOI:10.1103/PhysRevB.88.235307 JN:Algarabel, Pedro/K-8583-2014; Ibarra, Manuel Ricardo/K-1150-2014; Rodriguez Fernandez, Jesus/L-7960-2014;Morellon, Luis/0000-0003-3724-508X; Marcano Aguado,;Noelia/0000-0002-5331-9758; PY:100 TC:arabel, Pedro/0000-0002-4698-3378;;Ibarra, Manuel Ricardo/0000-0003-0681-8260;;0;0;0;0;0;1098-0121;WOS:000332161300004;;;J;Minar, Jiri;Gremaud, Benoit;From antiferromagnetic ordering to magnetic textures in the;two-dimensional Fermi-Hubbard model with synthetic spin-orbit;interactions;PHYSICAL REVIEW B;88;23;235130;10.1103/PhysRevB.88.235130;DEC 30 2013;2013;We study the interacting Fermi-Hubbard model in two spatial dimensions;with synthetic gauge coupling of the spin-orbit Rashba type, at;half-filling. Using real-space mean-field theory, we numerically;determine the phase as a function of the interaction strength for;different values of the gauge-field parameter. For a fixed value of the;gauge field, we observe that when the strength of the repulsive;interaction is increased, the system enters into an antiferromagnetic;phase, then undergoes a first-order phase transition to a noncollinear;magnetic phase. Depending on the gauge-field parameter, this phase;further evolves to the one predicted from the effective Heisenberg model;obtained in the limit of large interaction strength. We explain the;presence of the antiferromagnetic phase at small interaction from the;computation of the spin-spin susceptibility, which displays a divergence;at low temperatures for the antiferromagnetic ordering. We discuss, how;the divergence is related to the nature of the underlying Fermi;surfaces. Finally, the fact that the first-order phase transitions for;different gauge-field parameters occur at unrelated critical interaction;strengths arises from a Hofstadter-like situation, i.e., for different;magnetic phases, the mean-field Hamiltonians have different;translational symmetries.;1;0;0;0;1;1098-0121;WOS:000332163500001;;;J;Rochal, S. B.;Lorman, V. L.;Yuzyuk, Yu. I.;Two-dimensional elasticity determines the low-frequency dynamics of;single-and double-walled carbon nanotubes;PHYSICAL REVIEW B;88;23;235435;10.1103/PhysRevB.88.235435;DEC 30 2013;2013;We develop a continuous theory of low-frequency dynamics for nanotubes;with walls constituted by singleatom monolayer, the topological;elasticity of which is not related to its vanishing macroscopic;thickness. The applicability region of the theory proposed includes all;truly two-dimensional materials such as graphene and MoS2. New;comprehensive interpretation and analytical expressions for;low-frequency modes in single-walled carbon nanotube (SWCNT) are given.;The theory unambiguously relates the radial breathing modes of SWCNT and;breathinglike modes of the double-walled carbon nanotube (DWCNT). The;existing Raman data on DWCNTs are fitted better than in the frame of;previous models.;Yuzyuk, Yuri/A-1285-2009;0;0;0;0;0;1098-0121;WOS:000332163500006;;;J;Wagner, Markus R.;Callsen, Gordon;Reparaz, Juan S.;Kirste, Ronny;Hoffmann, Axel;Rodina, Anna V.;Schleife, Andre;Bechstedt, Friedhelm;Phillips, Matthew R.;Effects of strain on the valence band structure and exciton-polariton;energies in ZnO;PHYSICAL REVIEW B;88;23;235210;10.1103/PhysRevB.88.235210;DEC 30 2013;2013;The uniaxial stress dependence of the band structure and the;exciton-polariton transitions in wurtzite ZnO is thoroughly studied;using modern first-principles calculations based on the HSE+ G(0)W(0);approach, k center dot p modeling using the deformation potential;framework, and polarized photoluminescence measurements. The ordering of;the valence bands [A(Gamma(7)), B(Gamma(9)), C(Gamma(7))] is found to be;robust even for high uniaxial and biaxial strains. Theoretical results;for the uniaxial pressure coefficients and splitting rates of the A, B,;and C valence bands and their optical transitions are obtained including;the effects of the spin-orbit interaction. The excitonic deformation;potentials are derived and the stress rates for hydrostatic pressure are;determined based on the results for uniaxial and biaxial stress. In;addition, the theory for the stress dependence of the exchange;interaction and longitudinal-transversal splitting of the exciton;polaritons is developed using the basic exciton functions of the;quasicubic approximation and taking the interaction between all exciton;states into account. It is shown that the consideration of these effects;is crucial for an accurate description of the stress dependence of the;optical spectra in ZnO. The theoretical results are compared to;polarized photoluminescence measurements of different ZnO substrates as;function of uniaxial pressure and experimental values reported in the;literature demonstrating an excellent agreement with the computed;pressure coefficients.;Wagner, Markus/A-3582-2009;Wagner, Markus/0000-0002-7367-5629;3;0;1;0;3;1098-0121;WOS:000332163500004;;;J;Zhang, Jian-Min;Ming, Wenmei;Huang, Zhigao;Liu, Gui-Bin;Kou, Xufeng;Fan, Yabin;Wang, Kang L.;Yao, Yugui;Stability, electronic, and magnetic properties of the magnetically doped;topological insulators Bi2Se3, Bi2Te3, and Sb2Te3;PHYSICAL REVIEW B;88;23;235131;10.1103/PhysRevB.88.235131;DEC 30 2013;2013;Magnetic interaction with the gapless surface states in a topological;insulator (TI) has been predicted to give rise to a few exotic quantum;phenomena. However, the effective magnetic doping of TI is still;challenging in the experiment. Using first-principles calculations, the;magnetic doping properties (V, Cr, Mn, and Fe) in three strong TIs;(Bi2Se3, Bi2Te3, and Sb2Te3) are investigated. We find that for all;three TIs the cation-site substitutional doping is most energetically;favorable with the anion-rich environment as the optimal growth;condition. Further, our results show that under the nominal doping;concentration of 4%, Cr- and Fe-doped Bi2Se3, Bi2Te3, and Cr-doped;Sb2Te3 remain as insulators, while all the V-and Mn-doped TIs, and;Fe-doped Sb2Te3 become metal. We also show that the magnetic interaction;of Cr-doped Bi2Se3 tends to be ferromagnetic, while Fe-doped Bi2Se3 is;likely to be antiferromagnetic. Finally, we estimate the magnetic;coupling and the Curie temperature for the promising ferromagnetic;insulator (Cr-doped Bi2Se3) by Monte Carlo simulation. These findings;may provide important guidance for the magnetism incorporation in TIs;experimentally.;Yao, Yugui/A-8411-2012; Liu, Gui-Bin/A-2724-2009; Zhang, Jian-Min/A-7757-2012;Liu, Gui-Bin/0000-0001-5935-7555;;4;0;0;0;4;1098-0121;WOS:000332163500002;;;J;Zitko, R.;Hansen, D.;Perepelitsky, E.;Mravlje, J.;Georges, A.;Shastry, B. S.;Extremely correlated Fermi liquid theory meets dynamical mean-field;theory: Analytical insights into the doping-driven Mott transition;PHYSICAL REVIEW B;88;23;235132;10.1103/PhysRevB.88.235132;DEC 30 2013;2013;We consider a doped Mott insulator in the large dimensionality limit;within both the recently developed extremely correlated Fermi liquid;(ECFL) theory and the dynamical mean-field theory (DMFT). We show that;the general structure of the ECFL sheds light on the rich frequency;dependence of the DMFT self-energy. Using the leading Fermi liquid form;of the two key auxiliary functions introduced in the ECFL theory, we;obtain an analytical ansatz, which provides a good quantitative;description of the DMFT self-energy down to hole doping level delta;similar or equal to 0.2. In particular, the deviation from Fermi liquid;behavior and the corresponding particle-hole asymmetry developing at a;low-energy scale are well reproduced by this ansatz. The DMFT being;exact at large dimensionality, our study also provides a benchmark of;the ECFL in this limit. We find that the main features of the;self-energy and spectral line shape are well reproduced by the ECFL;calculations in the O(lambda(2)) minimal scheme, for not too low doping;level delta greater than or similar to 0.3. The DMFT calculations;reported here are performed using a state-of-the-art numerical;renormalization-group impurity solver, which yields accurate results;down to an unprecedentedly small doping level delta less than or similar;to 0.001.;1;0;0;0;1;1098-0121;WOS:000332163500003;;;J;Barros, M. S. M.;Nascimento Junior, A. J.;Macedo-Junior, A. F.;Ramos, J. G. G. S.;Barbosa, A. L. R.;Open chaotic Dirac billiards: Weak (anti)localization, conductance;fluctuations, and decoherence;PHYSICAL REVIEW B;88;24;245133;10.1103/PhysRevB.88.245133;DEC 30 2013;2013;In this paper, we investigate the transport properties of open chaotic;Dirac billiards and their intrinsic (chiral universal) symmetry classes.;The prominent examples of these systems are some categories of;topological insulators and graphene structures. We extend the;diagrammatic method of integration over the unitary group and obtain;analytical results for the semiclassical limit and for the high quantum;limit in the universal regime. We show the emergence of quantum;fingerprints characteristic of the chiral symmetries, which are;amplified in the presence of a single open channel in each electronic;terminals. We compare the chaotic Dirac billiards with the "Schrodinger;billiards" in a myriad of regimes, exhibiting the differences between;the chiral universal classes and the Wigner-Dyson classes. Two numerical;methods were used to confirm our analytical findings, yielding also the;distribution of conductances. We also investigate analytically the;effect of dephasing using the characteristic time scales of the chaotic;billiards and we show the appearance of peculiar numbers of chaos.;0;0;0;0;0;1098-0121;WOS:000332164700008;;;J;Cooke, D. G.;Jepsen, P. Uhd;Lek, Jun Yan;Lam, Yeng Ming;Sy, F.;Dignam, M. M.;Picosecond dynamics of internal exciton transitions in CdSe nanorods;PHYSICAL REVIEW B;88;24;241307;10.1103/PhysRevB.88.241307;DEC 30 2013;2013;The picosecond dynamics of excitons in colloidal CdSe nanorods are;directly measured via their 1s to 2p-like internal transitions by;ultrabroadband terahertz spectroscopy. Broadened absorption peaks from;both the longitudinal and transverse states are observed at 8.5 and 11;THz, respectively. The onset of exciton-LO phonon coupling appears as a;bleach in the optical conductivity spectra at the LO phonon energy for;times > 1 ps after excitation. Simulations show a suppressed exciton;temperature due to thermally excited hole states being rapidly captured;onto ligands or unpassivated surface states. The relaxation kinetics are;manipulated and the longitudinal transition is quenched by surface;ligand exchange with hole capturing pyridine.;Lam, Yeng Ming/A-2230-2011;Lam, Yeng Ming/0000-0001-9390-8074;1;0;0;0;1;1098-0121;WOS:000332164700002;;;J;Cote, R.;Barrette, Manuel;Validity of the two-component model of bilayer and trilayer graphene in;a magnetic field;PHYSICAL REVIEW B;88;24;245445;10.1103/PhysRevB.88.245445;DEC 30 2013;2013;The eigenstates of an electron in the chiral two-dimensional electron;gas (C2DEG) formed in an AB-stacked bilayer or an ABC-stacked trilayer;graphene is a spinor with four or six components, respectively. These;components give the amplitude of the wave function on the four or six;carbon sites in the unit cell of the lattice. In the tight-binding;approximation, the eigenenergies are thus found by diagonalizing a 4 x 4;or a 6 x 6 matrix. In the continuum approximation where the electron;wave vector k << 1/a(0), with a(0) the lattice constant of the graphene;sheets, a common approximation is the two-component (or "two-band");model(1) where the eigenstates for the bilayer and trilayer systems are;described by a two-component spinor that gives the amplitude of the wave;function on the two sites with low energy vertical bar E vertical bar <<;gamma(1) where gamma(1) is the hopping energy between sites that are;directly above one another in adjacent layers. The two-component model;has been used extensively to study the phase diagram of the C2DEG in a;magnetic field as well as its transport and optical properties. In this;paper, we use a numerical approach to compute the eigenstates and Landau;level energies of the full tight-binding model in the continuum;approximation and compare them with the prediction of the two-component;model when the magnetic field or an electrical bias between the;outermost layers is varied. Our numerical analysis shows that the;two-component model is a good approximation for bilayer graphene in a;wide range of magnetic field and bias but mostly for Landau level M = 0.;The applicability of the two-component model in trilayer graphene, even;for level M = 0, is much more restricted. In this case, the;two-component model fails to reproduce some of the level crossings that;occur between the sublevels of M = 0.;3;0;0;0;3;1098-0121;WOS:000332164700013;;;J;Gammelmark, Soren;Zinner, Nikolaj Thomas;Dipoles on a two-leg ladder;PHYSICAL REVIEW B;88;24;245135;10.1103/PhysRevB.88.245135;DEC 30 2013;2013;We study polar molecules with long-range dipole-dipole interactions;confined to move on a two-leg ladder for different orientations of the;molecular dipole moments with respect to the ladder. Matrix product;states are employed to calculate the many-body ground state of the;system as a function of lattice filling fractions, perpendicular hopping;between the legs, and dipole interaction strength. We show that the;system exhibits zigzag ordering when the dipolar interactions are;predominantly repulsive. As a function of dipole moment orientation with;respect to the ladder, we find that there is a critical angle at which;ordering disappears. This angle is slightly larger than the angle at;which the dipoles are noninteracting along a single leg. This behavior;should be observable using current experimental techniques.;2;0;0;0;2;1098-0121;WOS:000332164700010;;;J;Hofer, Patrick P.;Buettiker, Markus;Emission of time-bin entangled particles into helical edge states;PHYSICAL REVIEW B;88;24;241308;10.1103/PhysRevB.88.241308;DEC 30 2013;2013;We propose a single-particle source which emits into the helical edge;states of a two-dimensional quantum spin Hall insulator. Without;breaking time-reversal symmetry, this source acts like a pair of;noiseless single-electron emitters which each inject separately into a;chiral edge state. By locally breaking time-reversal symmetry, the;source becomes a proper single-particle emitter which exhibits shot;noise. Due to its intrinsic helicity, this system can be used to produce;time-bin entangled pairs of electrons in a controlled manner. The noise;created by the source contains information on the emitted wave packets;and is proportional to the concurrence of the emitted state.;Hofer, Patrick/O-1062-2013;Hofer, Patrick/0000-0001-6036-7291;7;0;0;0;7;1098-0121;WOS:000332164700003;;;J;Leon, C.;Latge, A.;Half-metallicity study of graphene nanoribbon bilayers under external;fields;PHYSICAL REVIEW B;88;24;245446;10.1103/PhysRevB.88.245446;DEC 30 2013;2013;Here we discuss the possibility of modulating energy gaps of graphene;nanoribbon bilayers, with zigzag edges, by applying electric fields. The;system is disposed in the Bernal configuration and is described by a;Hubbard Hamiltonian. We follow a Hartree-Fock mean-field theory to;calculate the electronic properties of the system. Under the action of a;transversal electric field, half-metallicity is found: One of the spin;bands increases the gap energy as the intensity of the field is;increased whereas the other decreases until achieving a null gap. For a;particular electric field range, the system exhibits metallic and;semiconducting features depending on the spin band. Half-metallicity is;enhanced due to an extra effect for the bilayer system: The presence of;a robust plateau-like in the gap versus field intensity diagram, for an;intermediate energy gap value of the semiconducting band. The;correlation of the gap plateau with local magnetizations and charge;numbers in the two layers is investigated. Further applied gate voltages;on the ribbons are considered to investigate the possibilities of;getting new physical responses for tilted electric field configurations.;Possible spintronic applications can be driven based on the differential;spin-band features achieved.;1;0;0;0;1;1098-0121;WOS:000332164700014;;;J;Lundgren, Rex;Fuji, Yohei;Furukawa, Shunsuke;Oshikawa, Masaki;Entanglement spectra between coupled Tomonaga-Luttinger liquids:;Applications to ladder systems and topological phases;PHYSICAL REVIEW B;88;24;245137;10.1103/PhysRevB.88.245137;DEC 30 2013;2013;We study the entanglement spectrum (ES) and entropy between two coupled;Tomonaga-Luttinger liquids (TLLs) on parallel periodic chains. This;problem gives access to the entanglement properties of various;interesting systems, such as spin ladders as well as two-dimensional;topological phases. By expanding interchain interactions to quadratic;order in bosonic fields, we are able to calculate the ES for both gapped;and gapless systems using only methods for free theories. In certain;gapless phases of coupled nonchiral TLLs, we interestingly find an ES;with a dispersion relation proportional to the square root of the;subsystem momentum, which we relate to a long-range interaction in the;entanglement Hamiltonian. We numerically demonstrate the emergence of;this unusual dispersion in a model of hard-core bosons on a ladder. In;gapped phases of coupled nonchiral TLLs, which are relevant to spin;ladders and topological insulators, we show that the ES consists of;linearly dispersing modes, which resembles the spectrum of a;single-chain TLL but is characterized by a modified TLL parameter. Based;on a calculation for coupled chiral TLLs, we are also able to provide a;very simple proof for the correspondence between the ES and the;edge-state spectrum in quantum Hall systems consistent with previous;numerical and analytical studies.;Oshikawa, Masaki/F-4992-2011; Furukawa, Shunsuke/E-4416-2013;Oshikawa, Masaki/0000-0002-7637-7432;;6;0;0;0;6;1098-0121;WOS:000332164700012;;;J;Moon, Pilkyung;Koshino, Mikito;Optical properties of the Hofstadter butterfly in the moire superlattice;PHYSICAL REVIEW B;88;24;241412;10.1103/PhysRevB.88.241412;DEC 30 2013;2013;We investigate the optical absorption spectrum and the selection rule;for the Hofstadter butterfly in twisted bilayer graphene under magnetic;fields. We demonstrate that the absorption spectrum exhibits a;self-similar recursive pattern reflecting the fractal nature of the;energy spectrum. We find that the optical selection rule has a nested;self-similar structure as well, and it is governed by the conservation;of the total angular momentum summed over different hierarchies.;Moon, Pilkyung/A-2930-2010;Moon, Pilkyung/0000-0003-3994-4255;2;0;0;0;2;1098-0121;WOS:000332164700005;;;J;Poirier, Mario;de Lafontaine, Mathieu;Bourbonnais, Claude;Pouget, Jean-Paul;Charge, spin, and lattice effects in the spin-Peierls ground state of;MEM(TCNQ)(2);PHYSICAL REVIEW B;88;24;UNSP 245134;10.1103/PhysRevB.88.245134;DEC 30 2013;2013;We report an investigation of charge, spin, and lattice effects in the;spin-Peierls state of the organic compound MEM(TCNQ)(2). The 16.5-GHz;dielectric function along the chain axis shows an enhancement below the;spin-Peierls transition temperature near 18 K consistent with the charge;coupling to the elastic strain involved in the transition. The velocity;of two elastic modes perpendicular to the chain axis presents anomalies;at the transition, which can be explained with a Landau free-energy;model including a linear-quadratic coupling energy term between the;appropriate elastic strain e and the spin-Peierls magnetic gap Delta(q).;The analysis of the dielectric and elastic features aims toward an order;parameter with an associated critical exponent beta similar to 0.36,;which is similar to the three-dimensional behavior seen in other;spin-Peierls materials. All these effects studied in a magnetic field up;to 18 Teslas appear also compatible with a mean-field model of a;quasi-one-dimensional spin-Peierls system.;0;0;0;0;0;1098-0121;WOS:000332164700009;;;J;Syzranov, S. V.;Rodionov, Ya. I.;Kugel, K. I.;Nori, F.;Strongly anisotropic Dirac quasiparticles in irradiated graphene;PHYSICAL REVIEW B;88;24;241112;10.1103/PhysRevB.88.241112;DEC 30 2013;2013;We study quasiparticle dynamics in graphene exposed to a linearly;polarized electromagnetic wave of very large intensity. We demonstrate;that low-energy transport in such system can be described by an;effective time-independent Hamiltonian, characterized by multiple Dirac;points in the first Brillouin zone. Around each Dirac point the spectrum;is anisotropic: the velocity along the polarization of the radiation;significantly exceeds the velocity in the perpendicular direction.;Moreover, in some of the points the transverse velocity oscillates as a;function of the radiation intensity. We find that the conductance of a;graphene p-n junction in the regime of strong irradiation depends on the;polarization as G(theta) proportional to vertical bar sin theta vertical;bar(3/2), where theta is the angle between the polarization and the p-n;interface, and oscillates as a function of the radiation intensity.;Nori, Franco/B-1222-2009;Nori, Franco/0000-0003-3682-7432;2;0;0;0;2;1098-0121;WOS:000332164700001;;;J;Toke, Csaba;Particle-hole symmetry and bifurcating ground-state manifold in the;quantum Hall ferromagnetic states of multilayer graphene;PHYSICAL REVIEW B;88;24;241411;10.1103/PhysRevB.88.241411;DEC 30 2013;2013;The orbital structure of the quantum Hall ferromagnetic states in the;zero-energy Landau level in chiral multilayer graphene (AB, ABC, ABCA,;etc. stackings) is determined by the exchange interaction with all;levels, including deep-lying states in the Dirac sea. This exchange;field favors orbitally coherent states with a U(1) orbital symmetry if;the filling factor nu is not a multiple of the number of layers. If;electrons fill the orbital sector of a fixed spin/valley component to;one-half, e.g., at nu = +/- 3, +/- 1 in the bilayer and at nu = +/- 2,;+/- 6 in the ABCA four-layer, there is a transition to a Z(2) x U(1);manifold. For weak interaction, the structure in the zero-energy Landau;band compensates for the different exchange interaction on the;sublattices in the Landau orbitals; on the other side, the ground state;comes in two copies that distribute charge on the sublattices;differently. We expect a sequence of similar bifurcations in multilayers;of Bernal stacking.;1;1;0;0;1;1098-0121;WOS:000332164700004;;;J;Tonegawa, S.;Hashimoto, K.;Ikada, K.;Tsuruhara, Y.;Lin, Y. -H.;Shishido, H.;Haga, Y.;Matsuda, T. D.;Yamamoto, E.;Onuki, Y.;Ikeda, H.;Matsuda, Y.;Shibauchi, T.;Cyclotron resonance study of quasiparticle mass and scattering rate in;the hidden-order and superconducting phases of URu2Si2;PHYSICAL REVIEW B;88;24;245131;10.1103/PhysRevB.88.245131;DEC 30 2013;2013;The observation of cyclotron resonance in ultraclean crystals of URu2Si2;[S. Tonegawa et al., Phys. Rev. Lett. 109, 036401 (2012)] provides;another route besides quantum oscillations to the determination of the;bulk electronic structure in the hidden-order phase. We report detailed;analyses of the resonance lines, which fully resolve the cyclotron mass;structure of the main Fermi surface sheets. A particular focus is given;to the anomalous splitting of the sharpest resonance line near the [110];direction under in-plane magnetic-field rotation, which implies peculiar;electronic structure in the hidden-order phase. The results under the;field rotation from [110] toward [001] direction reveal that the;splitting is a robust feature against field tilting from the basal;plane. This is in sharp contrast to the reported frequency branch alpha;in the quantum oscillation experiments showing a three-fold splitting;that disappears by a small field tilt, which can be explained by the;magnetic breakdown between the large hole sphere and small electron;pockets. Our analysis of the cyclotron resonance profiles reveals that;the heavier branch of the split line has a larger scattering rate,;providing evidence for the existence of hot-spot regions along the [110];direction. These results are consistent with the broken fourfold;rotational symmetry in the hidden-order phase, which can modify the;interband scattering in an asymmetric manner. We also extend our;measurements down to 0.7 K, which results in the observation of;cyclotron resonance in the superconducting state, where novel effects of;vortex dynamics may enter. We find that the cyclotron mass undergoes no;change in the superconducting state. In contrast, the quasiparticle;scattering rate shows a rapid decrease below the vortex-lattice melting;transition temperature, which supports the formation of quasiparticle;Bloch state in the vortex lattice phase.;Hashimoto, Kenichiro/C-4925-2012; Shibauchi, Takasada/B-9349-2008;Shibauchi, Takasada/0000-0001-5831-4924;2;1;0;0;2;1098-0121;WOS:000332164700006;;;J;Wang, Chenjie;Levin, Michael;Weak symmetry breaking in two-dimensional topological insulators;PHYSICAL REVIEW B;88;24;245136;10.1103/PhysRevB.88.245136;DEC 30 2013;2013;We show that there exist two-dimensional (2D) time-reversal invariant;fractionalized insulators with the property that both their boundary;with the vacuum and their boundary with a topological insulator can be;fully gapped without breaking time-reversal or charge conservation;symmetry. This result leads us to an apparent paradox: we consider a;geometry in which a disklike region made up of a topological insulator;is surrounded by an annular strip of a fractionalized insulator, which;is, in turn, surrounded by the vacuum. If we gap both boundaries of the;strip, we naively obtain an example of a gapped interface between a;topological insulator and the vacuum that does not break any;symmetries-an impossibility. The resolution of this paradox is that this;system spontaneously breaks time-reversal symmetry in an unusual way,;which we call weak symmetry breaking. In particular, we find that the;only order parameters that are sensitive to the symmetry breaking are;nonlocal operators that describe quasiparticle tunneling processes;between the two edges of the strip; expectation values of local order;parameters vanish exponentially in the limit of a wide strip. Also, we;find that the symmetry breaking in our system comes with a ground-state;degeneracy, but this ground-state degeneracy is topologically protected,;rather than symmetry protected. We show that this kind of symmetry;breaking can also occur at the edge of 2D fractional topological;insulators.;Wang, Chenjie/G-8652-2013;2;0;0;0;2;1098-0121;WOS:000332164700011;;;J;Zhang, Qingyun;Cheng, Yingchun;Gan, Li-Yong;Schwingenschloegl, Udo;Giant valley drifts in uniaxially strained monolayer MoS2;PHYSICAL REVIEW B;88;24;245447;10.1103/PhysRevB.88.245447;DEC 30 2013;2013;Using first-principles calculations, we study the electronic structure;of monolayer MoS2 under uniaxial strain. We show that the energy valleys;drift far off the corners of the Brillouin zone (K points), about 12;times the amount observed in graphene. Therefore, it is essential to;take this effect into consideration for a correct identification of the;band gap. The system remains a direct band gap semiconductor up to 4%;uniaxial strain, while the size of the band gap decreases from 1.73 to;1.54 eV. We also demonstrate that the splitting of the valence bands due;to inversion symmetry breaking and spin-orbit coupling is not sensitive;to strain.;Cheng, Yingchun/C-8895-2011; Gan, Liyong/D-8113-2013;3;0;0;0;3;1098-0121;WOS:000332164700015;;;J;Zhang, Wentao;Smallwood, Christopher L.;Jozwiak, Chris;Miller, Tristan L.;Yoshida, Yoshiyuki;Eisaki, Hiroshi;Lee, Dung-Hai;Lanzara, Alessandra;Signatures of superconductivity and pseudogap formation in;nonequilibrium nodal quasiparticles revealed by ultrafast angle-resolved;photoemission;PHYSICAL REVIEW B;88;24;245132;10.1103/PhysRevB.88.245132;DEC 30 2013;2013;We use time- and angle-resolved photoemission to measure the nodal;nonequilibrium electronic states in various dopings of;Bi2Sr2CaCu2O8+delta. We find that the initial pump-induced transient;signal of these ungapped states is strongly affected by the onset of the;superconducting gap at T-c, superconducting pairing fluctuations at T-p,;and the pseudogap at T*. Moreover, T-p marks a suggestive threshold in;the fluence-dependent transient signal, with the appearance of a;critical fluence below T-p that corresponds to the energy required to;break apart all Cooper pairs. These results challenge the notion of a;nodal-antinodal dichotomy in cuprate superconductors by establishing a;link between nodal quasiparticles and the cuprate phase diagram.;ZHANG, Wentao/B-3626-2011;4;1;0;0;4;1098-0121;WOS:000332164700007;;;J;Svintsov, D.;Vyurkov, V.;Ryzhii, V.;Otsuji, T.;Hydrodynamic electron transport and nonlinear waves in graphene;PHYSICAL REVIEW B;88;24;245444;10.1103/PhysRevB.88.245444;DEC 27 2013;2013;We derive the system of hydrodynamic equations governing the collective;motion of massless fermions in graphene. The obtained equations;demonstrate the lack of Galilean and Lorentz invariance and contain a;variety of nonlinear terms due to the quasirelativistic nature of;carriers. Using these equations, we show the possibility of soliton;formation in an electron plasma of gated graphene. The quasirelativistic;effects set an upper limit for soliton amplitude, which marks graphene;out of conventional semiconductors. The mentioned noninvariance of the;equations is revealed in spectra of plasma waves in the presence of;steady flow, which no longer obey the Doppler shift. The feasibility of;plasma-wave excitation by direct current in graphene channels is also;discussed.;Svintsov, Dmitry/I-1755-2014;0;0;0;0;0;1098-0121;WOS:000332160400002;;;J;Yan, Jun;Norskov, Jens K.;Calculated formation and reaction energies of 3d transition metal oxides;using a hierachy of exchange-correlation functionals;PHYSICAL REVIEW B;88;24;245204;10.1103/PhysRevB.88.245204;DEC 27 2013;2013;The formation and oxidation reaction energies of 16 transition metal;oxides (TMOs) are benchmarked against experiments with an increasing;complexity of the exchange-correlation (xc) functionals: PBE, PBE + U;with a single U for each transition metal element, PBE0 (25% exact;exchange included), EXX (100% exact exchange), and EXX + RPA (random;phase approximation for the correlation energy). Although rather;challenging on standard CPU computing facilities, the RPA calculations;were performed efficiently on graphic processing units (GPUs). For the;formation energies, the PBE + U, PBE0, EXX + RPA improves significantly;over PBE with mean absolute errors (MAE) of 0.83 (PBE), 0.39 (PBE + U),;0.34 (PBE0), and 0.39 (EXX + RPA) eV per oxygen. In addition, EXX+ RPA;improves over the other xc functionals on the oxidation reaction;energies, with MAE of 0.27 (PBE), 0.28 (PBE + U), 0.30 (PBE0), to 0.13;(EXX + RPA) eV per oxygen. The distinct trend observed for the;calculated oxidation reaction energies compared to the formation;energies is due to that the errors in formation energies for PBE and;EXX+ RPA are systematic; while for PBE + U and PBE0 the deviations have;both signs, so that the error cancellations between different valence;states work better for PBE and EXX + RPA. Finally, we compared the;performance of the EXX + RPA for total energies and G(0)W(0), which uses;the random phase approximation in constructing the W kernel, for band;gaps, and discuss a few challenges for the EXX + RPA method on TMOs.;0;0;0;0;0;1098-0121;WOS:000332160400001;;;J;Bahamon, D. A.;Neto, A. H. Castro;Pereira, Vitor M.;Effective contact model for geometry-independent conductance;calculations in graphene;PHYSICAL REVIEW B;88;23;235433;10.1103/PhysRevB.88.235433;DEC 27 2013;2013;A geometry-independent effective model for the contact self-energies is;proposed to calculate the quantum conductance of patterned graphene;devices using Green's functions. A Corbino disk, being the simplest;device where the contacts cannot be modeled as semi-infinite ribbons, is;chosen to illustrate this approach. This system's symmetry allows an;analytical solution against which numerical calculations on the lattice;can be benchmarked. The effective model perfectly describes the;conductance of Corbino disks at low-to-moderate energies, and is robust;against the size of the annular device region, the number of atoms on;the edge, external magnetic fields, or electronic disorder. The contact;model considered here affords an expedient, flexible, and;geometry-agnostic approach that easily allows the consideration of;device dimensions encompassing several million atoms, and realistic;radial dimensions of a few hundreds of nanometers.;Bahamon, Dario/G-1369-2012; Pereira, Vitor/D-4088-2009; Castro Neto, Antonio/C-8363-2014;Bahamon, Dario/0000-0003-3852-2085; Castro Neto,;Antonio/0000-0003-0613-4010;0;0;0;0;0;1098-0121;WOS:000332159200003;;;J;Hermann, Andreas;Ashcroft, N. W.;Hoffmann, Roald;Isotopic differentiation and sublattice melting in dense dynamic ice;PHYSICAL REVIEW B;88;21;214113;10.1103/PhysRevB.88.214113;DEC 27 2013;2013;The isotopes of hydrogen provide a unique exploratory laboratory for;examining the role of zero point energy (ZPE) in determining the;structural and dynamic features of the crystalline ices of water. There;are two critical regions of high pressure: (i) near 1 TPa and (ii) near;the predicted onset of metallization at around 5 TPa. At the lower;pressure of the two, we see the expected small isotopic effects on phase;transitions. Near metallization, however, the effects are much greater,;leading to a situation where tritiated ice could skip almost entirely a;phase available to the other isotopomers. For the higher pressure ices,;we investigate in some detail the enthalpics of a dynamic proton;sublattice, with the corresponding structures being quite ionic. The;resistance toward diffusion of single protons in the ground state;structures of high-pressure H2O is found to be large, in fact to the;point that the ZPE reservoir cannot overcome these. However, the;barriers toward a three-dimensional coherent or concerted motion of;protons can be much lower, and the ensuing consequences are explored.;Hermann, Andreas/E-8687-2010;Hermann, Andreas/0000-0002-8971-3933;1;0;0;0;1;1098-0121;WOS:000332157500001;;;J;Higashi, Yoichi;Nagai, Yuki;Machida, Masahiko;Hayashi, Nobuhiko;Field-angle resolved flux-flow resistivity as a phase-sensitive probe of;unconventional Cooper pairing;PHYSICAL REVIEW B;88;22;224511;10.1103/PhysRevB.88.224511;DEC 27 2013;2013;We theoretically investigate the applied magnetic field-angle dependence;of the flux-flow resistivity rho(f)(alpha(M)) for a uniaxially;anisotropic Fermi surface. rho(f) is related to the quasiparticle;scattering rate inside a vortex core, which reflects the sign change in;the superconducting pair potential. We find that rho(f)(alpha(M)) is;sensitive to the sign change in the pair potential and has its maximum;when the magnetic field is parallel to the gap-node direction. We;propose the measurement of the field-angle dependent oscillation of;rho(f)(alpha(M)) as a phase-sensitive field-angle resolved experiment.;Nagai, Yuki/B-6698-2011;Nagai, Yuki/0000-0001-5098-5440;0;0;0;0;0;1098-0121;WOS:000332158300001;;;J;Karakonstantakis, G.;Liu, L.;Thomale, R.;Kivelson, S. A.;Correlations and renormalization of the electron-phonon coupling in the;honeycomb Hubbard ladder and superconductivity in polyacene;PHYSICAL REVIEW B;88;22;224512;10.1103/PhysRevB.88.224512;DEC 27 2013;2013;We have performed extensive density matrix renormalization group (DMRG);studies of the Hubbard model on a honeycomb ladder. The band structure;(with Hubbard U = 0) exhibits an unusual quadratic band touching at;half-filling, which is associated with a quantum Lifshitz transition;from a band insulator to a metal. For one electron per site, nonzero U;drives the system into an insulating state in which there is no;pair-binding between added electrons; this implies that;superconductivity driven directly by the repulsive electron-electron;interactions is unlikely in the regime of small doping, x << 1. However,;the divergent density of states as x -> 0, the large values of the;phonon frequencies, and an unusual correlation induced enhancement of;the electron-phonon coupling imply that lightly doped polyacenes, which;approximately realize this structure, are good candidates for;high-temperature electron-phonon driven superconductivity.;1;1;0;0;1;1098-0121;WOS:000332158300002;;;J;Koerbel, Sabine;Elsaesser, Christian;Alignment of ferroelectric polarization and defect complexes in;copper-doped potassium niobate;PHYSICAL REVIEW B;88;21;214114;10.1103/PhysRevB.88.214114;DEC 27 2013;2013;Defect complexes consisting of Cu substitutionals on Nb sites and oxygen;vacancies in potassium niobate, KNbO3, are investigated with respect to;their contribution to ferroelectric hardening by means of;density-functional theory and classical atomistic simulations. We;determine the easy and hard directions for the ferroelectric;polarization created by these defect complexes, the energy differences;between easy and hard directions, and upper limits for the energy;barriers for switching the ferroelectric polarization between these;directions. The ferroelectric polarization preferentially aligns with;the defect complexes, which is expected to impede polarization switching;and hence to contribute to ferroelectric hardening.;1;0;0;0;1;1098-0121;WOS:000332157500002;;;J;Steger, Mark;Liu, Gangqiang;Nelsen, Bryan;Gautham, Chitra;Snoke, David W.;Balili, Ryan;Pfeiffer, Loren;West, Ken;Long-range ballistic motion and coherent flow of long-lifetime;polaritons;PHYSICAL REVIEW B;88;23;235314;10.1103/PhysRevB.88.235314;DEC 27 2013;2013;Exciton polaritons can be created in semiconductor microcavities. These;quasiparticles act as weakly interacting bosons with very light mass, of;the order of 10(-4) times the vacuum electron mass. Many experiments;have shown effects which can be viewed as due to a Bose-Einstein;condensate, or quasicondensate, of these particles. The lifetime of the;particles in most of those experiments has been of the order of a few;picoseconds, leading to significant nonequilibrium effects. By;increasing the cavity quality, we have made samples with longer;polariton lifetimes. With a photon lifetime on the order of 100-200 ps,;polaritons in these structures can not only come closer to reaching true;thermal equilibrium, a desired feature for many researchers working in;this field, but they can also travel much longer distances. We observe;the polaritons to ballistically travel on the order of 1 mm, and at;higher densities we see transport of a coherent condensate, or;quasicondensate, over comparable distances. In this paper we report a;quantitative analysis of the flow of the polaritons both in a low-;density, classical regime, and in the coherent regime at higher density.;Our analysis gives us a measure of the intrinsic lifetime for photon;decay from the microcavity and a measure of the strength of interactions;of the polaritons.;0;0;0;0;0;1098-0121;WOS:000332159200002;;;J;Sun, Dan;Wu, W.;Grigera, S. A.;Perry, R. S.;Mackenzie, A. P.;Julian, S. R.;Pressure study of nematicity and quantum criticality in Sr3Ru2O7 for an;in- plane field;PHYSICAL REVIEW B;88;23;235129;10.1103/PhysRevB.88.235129;DEC 27 2013;2013;We study the relationship between the nematic phases of Sr3Ru2O7 and;quantum criticality. At ambient pressure, one nematic phase is;associated with a metamagnetic quantum critical end point (QCEP) when;the applied magnetic field is near the c axis. We show, however, that;this metamagnetic transition does not produce the same nematic;signatures when the QCEP is reached by hydrostatic pressure with the;field applied in the ab plane. Moreover, a second nematic phase, that is;seen for field applied in the ab plane close to, but not right at, a;second metamagnetic anomaly, persists with minimal change to the highest;applied pressure, 16.55 kbar. Taken together our results suggest that;metamagnetic quantum criticality may not be necessary for the formation;of a nematic phase in Sr3Ru2O7.;0;0;0;0;0;1098-0121;WOS:000332159200001;;;J;Wierzbicki, M.;Swirkowicz, R.;Barnas, J.;Giant spin thermoelectric efficiency in ferromagnetic graphene;nanoribbons with antidots;PHYSICAL REVIEW B;88;23;235434;10.1103/PhysRevB.88.235434;DEC 27 2013;2013;Thermoelectric effects in zigzag graphene nanoribbons with parallel;alignment of the edge spin polarizations are investigated theoretically.;Spin and charge thermopower, electrical and heat conductance, and charge;and spin thermoelectric efficiency are calculated numerically for;pristine nanoribbons as well as for nanoribbons with periodic;one-dimensional lattice of structural defects in the form of antidots.;It is shown that structural defects reduce thermal conductance due to;phonons and open gaps in the corresponding electronic spectrum. This, in;turn, leads to a significant enhancement of the Seebeck and spin Seebeck;coefficients as well as of the thermoelectric efficiency. A giant;enhancement appears in certain regions of chemical potential (controlled;by doping or external gate) and survives at room temperatures.;1;0;0;0;1;1098-0121;WOS:000332159200004;;;J;Apalkov, Vadym;Stockman, Mark I.;Metal nanofilm in strong ultrafast optical fields;PHYSICAL REVIEW B;88;24;245438;10.1103/PhysRevB.88.245438;DEC 26 2013;2013;We predict that a metal nanofilm subjected to an ultrashort (near-single;oscillation) optical pulse of a high field amplitude greater than or;similar to 3 V/A at normal incidence undergoes an ultrafast (at subcycle;times less than or similar to 1 fs) transition to a state resembling;semimetal. Its reflectivity is greatly reduced, while its transmissivity;and the optical field inside the metal are greatly increased. Despite;the metal being a centrosymmetric medium, the strong pulse causes net;charge transfer in the direction determined by the carrier envelope;phase (CEP) of the pulse, which is opposite to the direction of the;maximum field.;2;0;0;0;2;1098-0121;WOS:000331756500005;;;J;Brems, Steven;Liu, Haoliang;Temst, Kristiaan;Van Haesendonck, Chris;Rotation sense of the magnetization in the Co/CoO exchange-bias system;probed with anisotropic magnetoresistance measurements;PHYSICAL REVIEW B;88;21;214427;10.1103/PhysRevB.88.214427;DEC 26 2013;2013;The possibility of tracking the average rotation sense of the;magnetization vector of a ferromagnetic layer upon magnetization;reversal by means of magnetotransport measurements is explored. It is;demonstrated that the rotation sense of the ferromagnetic magnetization;vector during a hysteresis loop can be determined for the;polycrystalline Co/CoO exchange bias system by measuring the anisotropic;magnetoresistance (AMR) with a specific choice of the measurement;geometry. The AMR measurements reveal that the rotation direction of the;magnetization vector can be reversed by performing an in-plane;hysteresis loop with a magnetic field perpendicular to the cooling;field. This reversal can be directly linked to the experimental fact;that after training, i.e., after performing hysteresis loops with a;field along the cooling field direction, the average orientation of the;uncompensated magnetization of the granular CoO antiferromagnet can be;largely rotated back to the initial orientation after field cooling by;applying a perpendicular field with the appropriate amplitude and;orientation.;1;0;0;0;1;1098-0121;WOS:000331751200005;;;J;Cuadra, J.;Sarkar, D.;Vina, L.;Hvam, J. M.;Nalitov, A.;Solnyshkov, D.;Malpuech, G.;Polarized emission in polariton condensates: Switching in a;one-dimensional natural trap versus inversion in two dimensions;PHYSICAL REVIEW B;88;23;235312;10.1103/PhysRevB.88.235312;DEC 26 2013;2013;We perform polarization resolved spectroscopy of two-and one-dimensional;microcavity-polariton condensates, which are formed by exciting the;system in the optical parametric oscillator configuration. We observe;polarization inversion for linearly polarized pumping parallel to the;wire in both the 1D and 2D systems. As the polarization plane of the;pump is rotated, the degree of linear polarization of the 2D system;oscillates between orthogonal polarizations with the same period as that;of the pump. However, the 1D system switches abruptly between two states;of high degree of linear polarization with half the period. Two;complementary models, based on semiclassical Boltzmann kinetic equations;and the Gross-Pitaevskii equation, respectively, obtain an excellent;agreement with the experimental results, providing a deep insight into;the mechanisms responsible for the polarization switching.;Vina, Luis/E-9415-2012;Vina, Luis/0000-0002-6376-6703;0;0;0;0;0;1098-0121;WOS:000331754500006;;;J;Das, Subrat Kumar;Singh, Viveka Nand;Majumdar, Pinaki;Magnon spectrum in the domain ferromagnetic state of antisite-disordered;double perovskites;PHYSICAL REVIEW B;88;21;214428;10.1103/PhysRevB.88.214428;DEC 26 2013;2013;In their ideal structure, double perovskites such as Sr2FeMoO6 have;alternating Fe and Mo along each cubic axis, and a homogeneous;ferromagnetic metallic ground state. Imperfect annealing leads to the;formation of structural domains. The moments on mislocated Fe atoms that;adjoin each other across the domain boundary have an antiferromagnetic;coupling between them. This leads to a peculiar magnetic state, with;ferromagnetic domains coupled antiferromagnetically. At a short distance;the system exhibits ferromagnetic correlation while at large length;scales the net moment is strongly suppressed due to interdomain;cancellation. We provide a detailed description of the spin-wave;excitations of this complex magnetic state, obtained within a 1/S;expansion, for a progressively higher degree of mislocation, i.e.,;antisite disorder. At a given wave vector the magnons propagate at;multiple energies, related, crudely, to "domain confined" modes with;which they have a large overlap. We provide a qualitative understanding;of the trend observed with growing antisite disorder, and contrast these;results to the much broader spectrum that one obtains for uncorrelated;antisites.;0;0;0;0;0;1098-0121;WOS:000331751200006;;;J;Dugaev, V. K.;Katsnelson, M. I.;Edge scattering of electrons in graphene: Boltzmann equation approach to;the transport in graphene nanoribbons and nanodisks;PHYSICAL REVIEW B;88;23;235432;10.1103/PhysRevB.88.235432;DEC 26 2013;2013;We discuss the contribution of edge scattering to the conductance of;graphene nanoribbons and nanoflakes. Using different possible types of;the boundary conditions for the electron wave function at the edge, we;found dependences of the momentum relaxation time and conductance on the;geometric sizes and on the carrier density. We also consider the case of;ballistic nanoribbon and nanodisk, for which the edge scattering is the;main mechanism of momentum relaxation.;3;0;0;0;3;1098-0121;WOS:000331754500008;;;J;Fossati, Paul C. M.;Van Brutzel, Laurent;Chartier, Alain;Crocombette, Jean-Paul;Simulation of uranium dioxide polymorphs and their phase transitions;PHYSICAL REVIEW B;88;21;214112;10.1103/PhysRevB.88.214112;DEC 26 2013;2013;In this article first-principles DFT calculations and molecular dynamics;simulations using empirical potentials have been used to study four;different polymorphs of uranium dioxide that appear under high;compressive and tensile deformations. It has been found, as expected,;that the ground-state structure is the fluorite-type structure (space;group Fm (3) over barm). Under high compressive deformation urania;transforms into cotunnite-type structure (space group Pnma), as already;known experimentally. The calculated transition pressure is 28 GPa in;agreement with the experimental data. Under tensile deformation urania;transforms into either scrutinyite-type structure (space group Pbcn) or;rutile-type (space group P4(2)/mnm) structure. These two phases are;almost energetically degenerate; hence it is impossible to distinguish;which phase is the most favorable. The transition pressure for both;phases is found to be equal to -10 GPa. Subsequently, assessment of four;of the most used empirical potentials for UO2-Morelon, Arima, Basak, and;Yakub-have been carried out comparing the equations of state with those;found with DFT calculations. The Morelon potential has been found to be;the most accurate to describe the different urania polymorphs. Using;this empirical potential and a dedicated minimization procedure,;complete transition pathways between the ground state (Fm (3) over barm);and both tensile structures (Pbcn or P4(2)/mnm) are described. Finally,;uniaxial tensile load molecular dynamics simulations have been;performed. It has been found that for load in the AU: ;FN Thomson Reuters Web of Science™;1.0;J;Bakr, M.;Souliou, S. M.;Blanco-Canosa, S.;Zegkinoglou, I.;Gretarsson, H.;Strempfer, J.;Loew, T.;Lin, C. T.;Liang, R.;Bonn, D. A.;Hardy, W. N.;Keimer, B.;Le Tacon, M.;Lattice dynamical signature of charge density wave formation in;underdoped YBa2Cu3O6+x;PHYSICAL REVIEW B;88;21;214517;10.1103/PhysRevB.88.214517;DEC 31 2013;2013;We report a detailed Raman scattering study of the lattice dynamics in;detwinned single crystals of the underdoped high-temperature;superconductor YBa2Cu3O6+x (x = 0.75, 0.6, 0.55, and 0.45). Whereas at;room temperature the phonon spectra of these compounds are similar to;that of optimally doped YBa2Cu3O6.99, additional Raman-active modes;appear upon cooling below similar to 170-200Kin underdoped crystals. The;temperature dependence of these new features indicates that they are;associated with the incommensurate charge density wave state recently;discovered using synchrotron x-ray scattering techniques on the same;single crystals. Raman scattering thus has the potential to explore the;evolution of this state under extreme conditions.;Zegkinoglou, Ioannis/H-2343-2013; Le Tacon, Mathieu/D-8023-2011;Le Tacon, Mathieu/0000-0002-5838-3724;6;0;0;0;6;1098-0121;WOS:000332165200002;;;J;Benedicto, Jessica;Centeno, Emmanuel;Polles, Remi;Moreau, Antoine;Ultimate resolution of indefinite metamaterial flat lenses;PHYSICAL REVIEW B;88;24;245138;10.1103/PhysRevB.88.245138;DEC 31 2013;2013;We propose an approach allowing a systematic optimization of lenses;based on hyperbolic metamaterials. The lensing properties of these;highly anisotropic materials are summed up in a complex effective index;extracted from the complex dispersion relation. The analytical;expression of this effective index in the homogenization regime or its;direct computation from the Bloch band diagram in the resonant regime;leads to hyperbolic metamaterials that outperform the state-of-art flat;lenses. We show that feasible metal-dielectric multilayers provide;superresolved images for visible light (around 400 nm) even when fully;taking absorption into account.;0;0;0;0;0;1098-0121;WOS:000332166700001;;;J;Biswas, P. K.;Amato, A.;Baines, C.;Khasanov, R.;Luetkens, H.;Lei, Hechang;Petrovic, C.;Morenzoni, E.;Low superfluid density and possible multigap superconductivity in the;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;88;22;224515;10.1103/PhysRevB.88.224515;DEC 31 2013;2013;The magnetic penetration depth lambda as a function of temperature in;Bi4O4S3 was studied by muon-spin-spectroscopy measurements. The;superfluid density of Bi4O4S3 is found to be very low. The dependence of;lambda (2) on temperature possibly suggests the existence of two;s-wave-type energy gaps with the zero-temperature values of 0.93 (3) and;0.09 (4) meV. The upturn in the temperature dependence of the upper;critical field close to T-c further supports multigap superconductivity;in Bi4O4S3. The presence of two superconducting energy gaps is;consistent with theoretical and other experimental studies. However, a;single-gap s-wave model fit with a gap of 0.88 (2) meV cannot be ruled;out completely. The value of lambda(T) at T = 0 K is estimated to be;lambda(0) = 861 (17) nm, one of the largest of all known layered;superconductors, reflecting a very low superfluid density.;Luetkens, Hubertus/G-1831-2011;4;0;0;0;4;1098-0121;WOS:000332166200005;;;J;Cao, G.;Qi, T. F.;Li, L.;Terzic, J.;Cao, V. S.;Yuan, S. J.;Tovar, M.;Murthy, G.;Kaul, R. K.;Evolution of magnetism in the single-crystal honeycomb iridates;(Na1-xLix)(2)IrO3;PHYSICAL REVIEW B;88;22;220414;10.1103/PhysRevB.88.220414;DEC 31 2013;2013;We report the successful synthesis of single crystals of the layered;iridate (Na1-xLix)(2)IrO3, 0 <= x <= 0.9, and a thorough study of its;structural, magnetic, thermal, and transport properties. This compound;allows a controlled interpolation between Na2IrO3 and Li2IrO3, while;maintaining the quantum magnetism of the honeycomb Ir4+ planes. The;measured phase diagram demonstrates a suppression of the Neel;temperature T-N at an intermediate x, indicating that the magnetic;orders in Na2IrO3 and Li2IrO3 are distinct. X-ray data show that for x;approximate to 0.7, when T-N is suppressed the most, the honeycomb;structure is least distorted, leading to the speculation that at this;intermediate doping of the material is closest to the spin liquid that;has been sought after in Na2IrO3 and Li2IrO3. By analyzing our magnetic;data with a single-ion theoretical model we also show that the trigonal;splitting on the Ir4+ ions changes sign from Na2IrO3 to Li2IrO3.;8;0;0;0;8;1098-0121;WOS:000332166200001;;;J;Farr, Warrick G.;Creedon, Daniel L.;Goryachev, Maxim;Benmessai, Karim;Tobar, Michael E.;Ultrasensitive microwave spectroscopy of paramagnetic impurities in;sapphire crystals at millikelvin temperatures;PHYSICAL REVIEW B;88;22;224426;10.1103/PhysRevB.88.224426;DEC 31 2013;2013;Progress in the emerging field of engineered quantum systems requires;the development of devices that can act as quantum memories. The;realization of such devices by doping solid-state cavities with;paramagnetic ions imposes a tradeoff between ion concentration and;cavity coherence time. Here, we investigate an alternative approach;involving interactions between photons and naturally occurring impurity;ions in ultrapure crystalline microwave cavities exhibiting;exceptionally high quality factors. We implement a hybrid whispering;gallery/electron spin resonance method to perform rigorous spectroscopy;of an undoped single-crystal sapphire resonator over the frequency range;8-19 GHz, and at external applied DC magnetic fields up to 0.9 T.;Measurements of high-purity sapphire cooled close to 100 mK reveal the;presence of Fe3+, Cr3+, and V2+ impurities. A host of electron;transitions are measured and identified, including the two-photon;classically forbidden quadrupole transition (Delta m(s) = 2) for Fe3+,;as well as hyperfine transitions of V2+.;Tobar, Michael/C-9763-2009; Creedon, Daniel/A-8772-2010; Goryachev, Maxim/K-5851-2013;Creedon, Daniel/0000-0003-2912-3381; Goryachev,;Maxim/0000-0002-0257-4054;5;0;0;0;5;1098-0121;WOS:000332166200004;;;J;Joseph, B.;Bendele, M.;Simonelli, L.;Maugeri, L.;Pyon, S.;Kudo, K.;Nohara, M.;Mizokawa, T.;Saini, N. L.;Local structural displacements across the structural phase transition in;IrTe2: Order-disorder of dimers and role of Ir-Te correlations;PHYSICAL REVIEW B;88;22;224109;10.1103/PhysRevB.88.224109;DEC 31 2013;2013;We have studied local structure of IrTe2 by Ir L-3-edge extended x-ray;absorption fine structure (EXAFS) measurements as a function of;temperature to investigate origin of the observed structural phase;transition at T-s similar to 270 K. The EXAFS results show an appearance;of longer Ir-Te bond length (Delta R similar to 0.05 angstrom) at T <;T-s. We have found Ir-Ir dimerization, characterized by distinct Ir-Ir;bond lengths (Delta R similar to 0.13 angstrom), existing both above and;below T-s. The results suggest that the phase transition in IrTe2 should;be an order-disorder-like transition of Ir-Ir dimers assisted by Ir-Te;bond correlations, thus indicating important role of the interaction;between the Ir 5d and Te 5p orbitals in this transition.;KUDO, Kazutaka/B-1468-2011; NOHARA, Minoru/B-1476-2011;3;0;0;0;3;1098-0121;WOS:000332166200003;;;J;Kobayashi, Keita;Machida, Masahiko;Ota, Yukihiro;Nori, Franco;Massless collective excitations in frustrated multiband superconductors;PHYSICAL REVIEW B;88;22;224516;10.1103/PhysRevB.88.224516;DEC 31 2013;2013;We study collective excitations in three- and four-band superconductors;with interband frustration, which causes neither 0 nor pi interband;phases in the superconducting state. Using a low-energy spin Hamiltonian;originating from a multiband tight-binding model, we find that mass;reduction of a Leggett mode occurs in a wide parameter region of this;four-band system. As a limiting case, we have a massless Leggett mode.;This massless mode is related to the fact that the mean-field energy;does not depend on a relative phase of superconducting order parameters.;In other words, we find a link of the massless mode with a degeneracy;between a time-reversal-symmetry-breaking state (neither 0 nor pi;phases) and a time-reversal-symmetric state (either 0 or pi phases).;Therefore, the mass of collective modes characterizes well the;time-reversal symmetry in frustrated multiband superconductors.;Nori, Franco/B-1222-2009;Nori, Franco/0000-0003-3682-7432;2;0;0;0;2;1098-0121;WOS:000332166200006;;;J;Ohtsubo, Yoshiyuki;Yaji, Koichiro;Hatta, Shinichiro;Okuyama, Hiroshi;Aruga, Tetsuya;Two-dimensional states localized in subsurface layers of Ge(111);PHYSICAL REVIEW B;88;24;245310;10.1103/PhysRevB.88.245310;DEC 31 2013;2013;The origin of the two-dimensional surface states localized in subsurface;regions of the Ge(111) substrate has been studied by;density-functional-theory calculations, which were compared with the;experimental results of angle-resolved photoelectron spectroscopy. For;the Bi/Ge(111)-(root 3 x root 3)R30 degrees, Br/Ge(111)-(1x1), and;Tl/Ge(111)-(1x1) surfaces, we found that the surface states are;classified into three groups. The energy dispersion and the orbital;character for each band implies the relationship between the subsurface;states and the bulk heavy-hole, light-hole, and spin-orbit split-off;bands. These results indicate that the subsurface states originate from;the bulk bands that are perturbed due to the truncation of the;three-dimensional periodicity at the surface.;Okuyama, Hiroshi/H-7570-2014;1;0;0;0;1;1098-0121;WOS:000332166700002;;;J;Oiwake, M.;Ootsuki, D.;Noji, T.;Hatakeda, T.;Koike, Y.;Horio, M.;Fujimori, A.;Saini, N. L.;Mizokawa, T.;Electronic structure and phase separation of superconducting and;nonsuperconducting KxFe2-ySe2 revealed by x-ray photoemission;spectroscopy;PHYSICAL REVIEW B;88;22;224517;10.1103/PhysRevB.88.224517;DEC 31 2013;2013;We have investigated the electronic structure of superconducting (SC);and nonsuperconducting (non-SC) KxFe2-ySe2 using x-ray photoemission;spectroscopy (XPS). The spectral shape of the Fe 2p XPS is found to;depend on the amount of Fe vacancies. The Fe 2p(3/2) peak of the SC and;non-SC Fe-rich samples is accompanied by a shoulder structure on the;lower binding energy side, which can be attributed to the metallic phase;embedded in the Fe2+ insulating phase. The absence of the shoulder;structure in the non-SC Fe-poor sample allows us to analyze the Fe 2p;spectra using a FeSe4 cluster model. The Fe 3d-Se 4p charge-transfer;energy of the Fe2+ insulating phase is found to be similar to 2.3 eV;which is smaller than the Fe 3d-Fe 3d Coulomb interaction of similar to;3.5 eV. This indicates that the Fe2+ insulating state is the;charge-transfer type in the Zaanen-Sawatzky-Allen scheme. We also find a;substantial change in the valence-band XPS as a function of Fe content;and temperature. The metallic state at the Fermi level is seen in the SC;and non-SC Fe-rich samples and tends to be enhanced with cooling in the;SC sample.;0;0;0;0;0;1098-0121;WOS:000332166200007;;;J;Park, Keeseong;Nomura, Yusuke;Arita, Ryotaro;Llobet, Anna;Louca, Despina;Local strain and anharmonicity in the bonding of Bi2Se3-xTex topological;insulators;PHYSICAL REVIEW B;88;22;224108;10.1103/PhysRevB.88.224108;DEC 31 2013;2013;Using neutron diffraction and the pair density function analysis, the;local atomic structure of the three-dimensional Bi2Se3-xTex (x = 0, 1,;2, and 3) topological insulator is investigated. The substitution of Te;for Se in Bi2Se3-xTex (x = 0, 1, 2, and 3) is not random and its;preferred site is at the edges of the quintuple layer. This generates a;local strain due to the atom size mismatch between Se and Te. The site;preference is surprising given that the Bi to chalcogen bonds are;strongest when the ions are at the edges than in the middle layer. The;(Se/Te) atoms in the middle sublayer of the quintuple are coupled more;softly to the Bi atoms than those of the edges and have lower Debye;temperatures. This suggests that the atomic properties within the;quintuple layer are different than those at the edges. Additionally, the;results from band structure and density of state calculations are;reported to show the dependence of doping and temperature.;Arita, Ryotaro/D-5965-2012; Llobet, Anna/B-1672-2010;Arita, Ryotaro/0000-0001-5725-072X;;0;0;0;0;0;1098-0121;WOS:000332166200002;;;J;Pogorelov, Y. G.;Santos, M. C.;Loktev, V. M.;Impurity effects on electronic transport in ferropnictide;superconductors;PHYSICAL REVIEW B;88;22;224518;10.1103/PhysRevB.88.224518;DEC 31 2013;2013;Effects of impurities and disorder on transport properties by electronic;quasiparticles in superconducting iron pnictides are theoretically;considered. The most prominent new features compared to the case of pure;material should appear at high enough impurity concentration when a;specific narrow band of conducting quasiparticle states can develop;within the superconducting gap, around the position of localized;impurity level by a single impurity center. The predicted specific;threshold effects in the frequency-dependent optical conductivity and;temperature-dependent thermal conductivity and also in Seebeck and;Peltier coefficients can have interesting potentialities for practical;applications.;0;0;0;0;0;1098-0121;WOS:000332166200008;;;J;Reich, K. V.;Chen, T.;Efros, Al. L.;Shklovskii, B. I.;Photoluminescence in arrays of doped semiconductor nanocrystals;PHYSICAL REVIEW B;88;24;245311;10.1103/PhysRevB.88.245311;DEC 31 2013;2013;We study the dependence of the quantum yield of photoluminescence of a;dense, periodic array of semiconductor nanocrystals (NCs) on the level;of doping and NC size. Electrons introduced to NCs via doping quench;photoluminescence by the Auger process, so that practically only NCs;without electrons contribute to the photoluminescence. Computer;simulation and analytical theory are used to find a fraction of such;empty NCs as a function of the average number of donors per NC and NC;size. For an array of small spherical NCs, the quantization gap between;1S and 1P levels leads to transfer of electrons from NCs with large;number of donors to those without donors. As a result, empty NCs become;extinct, and photoluminescence is quenched abruptly at an average number;of donors per NC close to 1.8. The relative intensity of;photoluminescence is shown to correlate with the type of hopping;conductivity of an array of NCs.;2;0;0;0;2;1098-0121;WOS:000332166700003;;;J;Rousse, Gwenaelle;Rodriguez-Carvajal, Juan;Wurm, Calin;Masquelier, Christian;Spiral magnetic structure in the iron diarsenate LiFeAs2O7: A neutron;diffraction study;PHYSICAL REVIEW B;88;21;214433;10.1103/PhysRevB.88.214433;DEC 31 2013;2013;The magnetic structure of LiFeAs2O7 (monoclinic, space group C2) has;been solved using neutron powder diffraction. This compound presents an;antiferromagnetic behavior characterized by a long-range ordering;observed in the neutron diffraction patterns below the Neel temperature;(T-N = 35 K). The magnetic structure is found to be incommensurate with;respect to the nuclear structure, the magnetic peaks being indexed with;a propagation vector k = (0.709, 0, 0.155). The magnetic moments form a;general spiral (helical-cycloidal) arrangement with a constant magnetic;moment of 4.21 mu B. The magnetic structure is discussed in terms of;super-super exchange interactions involving two oxygen atoms belonging;to an AsO4 tetrahedron, and compared with the magnetic structure of the;di-phosphate analogue LiFeP2O7. The presence of triangular super-super;exchange paths is believed to be at the origin of this incommensurate;magnetic structure. The potential of LiFeAs2O7 as a possible;multiferroic material is discussed.;Rodriguez-Carvajal, Juan/C-4362-2008;Rodriguez-Carvajal, Juan/0000-0001-5582-2632;1;0;0;0;1;1098-0121;WOS:000332165200001;;;J;Smith, Peter M.;Kennett, Malcolm P.;Disorder effects on superconducting tendencies in the checkerboard;Hubbard model;PHYSICAL REVIEW B;88;21;214518;10.1103/PhysRevB.88.214518;DEC 31 2013;2013;The question of whether spatially inhomogeneous hopping in the two;dimensional Hubbard model can lead to enhancement of superconductivity;has been tackled by a number of authors in the context of the;checkerboard Hubbard model (CHM). We address the effects of disorder on;superconducting properties of the CHM by using exact diagonalization;calculations for both potential and hopping disorder. We characterize;the superconducting tendencies of the model by focusing on the;pair-binding energy, the spin gap, and d-wave pairing order parameter.;We find that superconducting tendencies, particularly the pair-binding;energy, are more robust to disorder when there is inhomogeneous hopping;than for the uniform Hubbard model. We also study all possible staggered;potentials for an eight-site CHM cluster and relate the behavior of;these configurations to the disordered system.;Kennett, Malcolm/I-2898-2012;1;0;0;0;1;1098-0121;WOS:000332165200003;;;J;Cortes-Huerto, R.;Sondon, T.;Saul, A.;Role of temperature in the formation and growth of gold monoatomic;chains: A molecular dynamics study;PHYSICAL REVIEW B;88;23;235438;10.1103/PhysRevB.88.235438;DEC 31 2013;2013;The effect of temperature on the formation and growth of monoatomic;chains is investigated by extensive molecular dynamics simulations using;a semiempirical potential based on the second-moment approximation to;the tight-binding Hamiltonian. Gold nanowires, with an aspect ratio of;similar to 13 and a cross section of similar to 1 nm(2), are stretched;at a rate of 3 m/s in the range of temperatures 5-600 K with 50 initial;configurations per temperature. A detailed study on the probability to;form monoatomic chains (MACs) is presented. Two domains are apparent in;our simulations: one at T < 100 K, where MACs develop from crystalline;disorder at the constriction, and the other at T > 100 K, where MACs;form as a consequence of plastic deformation of the nanowire. Our;results show that the average length of the formed MACs maximizes at T =;150 K, which is supported by simple energy arguments.;0;0;0;0;0;1098-0121;WOS:000332166400004;;;J;Despoja, V.;Loncaric, I.;Mowbray, D. J.;Marusic, L.;Quasiparticle spectra and excitons of organic molecules deposited on;substrates: G(0)W(0)-BSE approach applied to benzene on graphene and;metallic substrates;PHYSICAL REVIEW B;88;23;235437;10.1103/PhysRevB.88.235437;DEC 31 2013;2013;We present an alternative methodology for calculating the quasiparticle;energy, energy loss, and optical spectra of a molecule deposited on;graphene or a metallic substrate. To test the accuracy of the method it;is first applied to the isolated benzene (C6H6) molecule. The;quasiparticle energy levels and especially the energies of the benzene;excitons (triplet, singlet, optically active and inactive) are in very;good agreement with available experimental results. It is shown that the;vicinity of the various substrates [pristine/doped graphene or (jellium);metal surface] reduces the quasiparticle highest occupied molecular;orbital-lowest unoccupied molecular orbital (HOMO-LUMO) gap by an amount;that slightly depends on the substrate type. This is consistent with the;simple image theory predictions. It is even shown that the substrate;does not change the energy of the excitons in the isolated molecule. We;prove (in terms of simple image theory) that energies of the excitons;are indeed influenced by two mechanisms which cancel each other. We;demonstrate that the benzene singlet optically active (E-1u) exciton;couples to real electronic excitations in the substrate. This causes it;substantial decay, such as Gamma approximate to 174 meV for pristine;graphene and Gamma approximate to 362 meV for metal surfaces as the;substrate. However, we find that doping graphene does not influence the;E-1u exciton decay rate.;Mowbray, Duncan/A-5531-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Loncaric, Ivor/J-6677-2014;Mowbray, Duncan/0000-0002-8520-0364; Loncaric, Ivor/0000-0002-5554-4641;2;0;0;0;2;1098-0121;WOS:000332166400003;;;J;Dutt, Prasenjit apq;Le Hur, Karyn;Strongly correlated thermoelectric transport beyond linear response;PHYSICAL REVIEW B;88;23;235133;10.1103/PhysRevB.88.235133;DEC 31 2013;2013;We investigate nonlinear thermoelectric transport through quantum;impurity systems with strong on-site interactions. We show that the;steady-state transport through interacting quantum impurities in contact;with electron reservoirs at significantly different temperatures can be;captured by an effective-equilibrium density matrix, expressed compactly;in terms of the Lippmann-Schwinger operators of the system. In addition,;the reservoirs can be maintained at arbitrary chemical potentials. The;interplay between the temperature gradient and bias voltage gives rise;to a nontrivial breaking of particle-hole symmetry in the strongly;correlated regime, manifest in the Abrikosov-Suhl localized electron;resonance. This purely many-body effect, which is in agreement with;experimental results, is beyond the purview of mean-field arguments.;2;0;0;0;2;1098-0121;WOS:000332166400001;;;J;Li, Yunpu;King, Jonathan P.;Reimer, Jeffrey A.;Meriles, Carlos A.;Near-band-gap photoinduced nuclear spin dynamics in semi-insulating;GaAs: Hyperfine- and quadrupolar-driven relaxation;PHYSICAL REVIEW B;88;23;235211;10.1103/PhysRevB.88.235211;DEC 31 2013;2013;Understanding and manipulating spin polarization and transport in the;vicinity of semiconductor-hosted defects is a problem of present;technological and fundamental importance. Here, we use high-field;magnetic resonance to monitor the relaxation dynamics of spin-3/2 nuclei;in semi-insulating GaAs. Our experiments benefit from the conditions;created in the limit of low illumination intensities, where intermittent;occupation of the defect site by photoexcited electrons leads to;electric field gradient fluctuations and concomitant spin relaxation of;the neighboring quadrupolar nuclei. We find indication of a;heterogeneous distribution of polarization, governed by different;classes of defects activated by either weak or strong laser excitation.;Upon application of a train of light pulses of variable repetition rate;and on/off ratio, we uncover an intriguing regime of mesoscale nuclear;spin diffusion restricted by long-range, nonuniform electric field;gradients. Given the slow time scale governing nuclear spin evolution,;such optically induced polarization patterns could be exploited as a;contrast mechanism to expose dark lattice defects or localized charges;with nanoscale resolution.;0;0;0;0;0;1098-0121;WOS:000332166400002;;;J;Adolff, Christian F.;Haenze, Max;Vogel, Andreas;Weigand, Markus;Martens, Michael;Meier, Guido;Self-organized state formation in magnonic vortex crystals;PHYSICAL REVIEW B;88;22;224425;10.1103/PhysRevB.88.224425;DEC 30 2013;2013;We study the polarization-state formation in magnonic vortex crystals;via scanning transmission x-ray microscopy. Self-organized state;formation is observed by adiabatic reduction of a high-frequency field;excitation. The emerging polarization patterns are shown to depend on;the frequency of excitation and the strength of the dipolar interaction;between the elements. In spite of the complexity of the investigated;system, global order caused by local interactions creates polarization;states with a high degree of symmetry. A fundamental dipole model and;coupled equations of motion are adopted to analytically describe the;experimental results. The emerging states can be predicted by a;fundamental stability criterion based on the excitability of eigenmodes;in the crystal. Micromagnetic simulations give additional insight into;the underlying processes.;2;0;0;0;2;1098-0121;WOS:000332162300008;;;J;Berridge, A. M.;Green, A. G.;Nonequilibrium conductivity at quantum critical points;PHYSICAL REVIEW B;88;22;220512;10.1103/PhysRevB.88.220512;DEC 30 2013;2013;Quantum criticality provides an important route to revealing universal;nonequilibrium behavior. A canonical example of a critical point is the;Bose-Hubbard model, which we study under the application of an electric;field. A Boltzmann transport formalism and is an element of expansion;are used to obtain the nonequilibrium conductivity and current noise.;This approach allows us to explicitly identify how a universal;nonequilibrium steady state is maintained, by identifying the;rate-limiting step in balancing Joule heating and dissipation to a heat;bath. It also reveals that the nonequilibrium distribution function is;very far from a thermal distribution.;1;0;0;0;1;1098-0121;WOS:000332162300004;;;J;Bojesen, Troels Arnfred;Babaev, Egor;Sudbo, Asle;Time reversal symmetry breakdown in normal and superconducting states in;frustrated three-band systems;PHYSICAL REVIEW B;88;22;220511;10.1103/PhysRevB.88.220511;DEC 30 2013;2013;We discuss the phase diagram and phase transitions in U(1) x Z(2);three-band superconductors with broken time reversal symmetry. We find;that beyond mean-field approximation and for sufficiently strong;frustration of interband interactions there appears an unusual metallic;state precursory to a superconducting phase transition. In that state,;the system is not superconducting. Nonetheless, it features a;spontaneously broken Z(2) time reversal symmetry. By contrast, for weak;frustration of interband coupling the energy of a domain wall between;different Z(2) states is low and thus fluctuations restore broken time;reversal symmetry in the superconducting state at low temperatures.;2;0;0;0;2;1098-0121;WOS:000332162300003;;;J;Gracia-Salgado, Rogelio;Garcia-Chocano, Victor M.;Torrent, Daniel;Sanchez-Dehesa, Jose;Negative mass density and rho-near-zero quasi-two-dimensional;metamaterials: Design and applications;PHYSICAL REVIEW B;88;22;224305;10.1103/PhysRevB.88.224305;DEC 30 2013;2013;We report the design and the characterization of artificial structures;made of periodical distributions of structured cylindrical scatterers;embedded in a two-dimensional (2D) waveguide. For certain values of;their geometrical parameters they show simultaneously negative effective;bulk modulus and negative effective mass density. Here our analysis is;focused on the frequencies where they behave like materials with;negative density or density near zero (DNZ). The scattering units;consist of a rigid cylindrical core surrounded by an anisotropic shell;divided in angular sectors. The units are embedded in a 2D waveguide;whose height is smaller than the length of the cylinders, which makes;the structure quasi-2D. We have obtained the dispersion relation of the;surface acoustic waves excited at frequencies with negative effective;density. Also, we report phenomena associated with their DNZ behavior,;such as tunneling through narrow channels, control of the radiation;field, perfect transmission through sharp corners, and power splitting.;Preliminary experiments performed on samples with millimeter-scale;dimensions demonstrated their single-negative behavior, with the main;drawback being the strong losses measured at the frequencies where the;negative behavior is observed.;sanchez-dehesa, jose/L-9726-2014;1;0;0;0;1;1098-0121;WOS:000332162300006;;;J;Klar, D.;Brena, B.;Herper, H. C.;Bhandary, S.;Weis, C.;Krumme, B.;Schmitz-Antoniak, C.;Sanyal, B.;Eriksson, O.;Wende, H.;Oxygen-tuned magnetic coupling of Fe-phthalocyanine molecules to;ferromagnetic Co films;PHYSICAL REVIEW B;88;22;224424;10.1103/PhysRevB.88.224424;DEC 30 2013;2013;The coupling of submonolayer coverages of Fe-phthalocyanine molecules on;bare and oxygen-covered ferromagnetic Co(001) films was studied by;x-ray-absorption spectroscopy, especially the x-ray magnetic circular;dichroism, in combination with density functional theory. We observe;that the magnetic moments of the paramagnetic molecules are aligned even;at room temperature, resulting from a magnetic coupling to the;substrate. While the magnetization of the Fe ions directly adsorbed on;the Co surface is parallel to the magnetization of the Co film, the;introduction of an oxygen interlayer leads to an antiparallel alignment.;As confirmed by theory, the coupling strength is larger for the system;FePc/Co than for FePc/O/Co, causing a stronger temperature dependence of;the Fe magnetization for the latter system. Furthermore, the;calculations reveal that the coupling mechanism changes due to the O;layer from mostly direct exchange to Co of the bare surface to a 180;degrees antiferromagnetic superexchange via the O atoms. Finally, by;comparing the experimental x-ray-absorption spectra at the N K edge with;the corresponding calculations, the contribution of the individual;orbitals has been determined and the two inequivalent N atoms of the;molecules could be distinguished.;Wende, Heiko/J-8505-2012; Schmitz-Antoniak, Carolin/C-2234-2009;Schmitz-Antoniak, Carolin/0000-0002-8450-3515;3;0;0;0;3;1098-0121;WOS:000332162300007;;;J;Moor, Andreas;Volkov, Anatoly F.;Efetov, Konstantin B.;Time-dependent equation for the magnetic order parameter near the;quantum critical point in multiband superconductors with a spin-density;wave;PHYSICAL REVIEW B;88;22;224513;10.1103/PhysRevB.88.224513;DEC 30 2013;2013;Using a simple two-band model for Fe-based pnictides and the generalized;Eilenberger equation, we present a microscopic derivation of a;time-dependent equation for the amplitude of the spin-density wave near;the quantum critical point where it turns to zero. This equation;describes the dynamics of the magnetic (m), as well as the;superconducting order parameter (Delta). It is valid at low temperatures;T and small m (T, m << Delta) in a region of coexistence of both order;parameters, m and Delta. The boundary of this region is found in the;space of the nesting parameter {mu(0), mu(f)}, where mu(0) describes the;relative position of the electron and the hole pockets on the energy;scale and mu(phi) accounts for the ellipticity of the electron pocket.;At low T the number of quasiparticles is small due to the presence of;the energy gap Delta, and therefore the quasiparticles do not play a;role in the relaxation of m. This circumstance allows one to derive the;time-dependent equation for m in contrast to the case of conventional;superconductors for which the time-dependent Ginzburg-Landau equation;can be derived near T-c only in some special cases (high concentration;of paramagnetic impurities) [L. P. Gor'kov and G. M. Eliashberg, Sov.;Phys. JETP 27, 328 (1968)]. In the stationary case the derived equation;is valid at arbitrary temperatures. We find a solution of the stationary;equation which describes a domain wall in the magnetic structure. In the;center of the domain wall the superconducting order parameter has a;maximum, which means a local enhancement of superconductivity. Using the;derived time-dependent equation for m, we investgate also the stability;of a uniform commensurate spin-density wave (SDW) and obtain the values;of {mu(0), mu(f)} at which the first-order transition into the state;with m = 0 takes place or the transition to the state with an;inhomogeneous SDW occurs.;DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000332162300009;;;J;Singh, Yogesh;Tokiwa, Y.;Dong, J.;Gegenwart, P.;Spin liquid close to a quantum critical point in Na4Ir3O8;PHYSICAL REVIEW B;88;22;10.1103/PhysRevB.88.220413;DEC 30 2013;2013;Na4Ir3O8 is a candidate material for a three-dimensional quantum spin;liquid on the hyperkagome lattice. We present thermodynamic measurements;of heat capacity C and thermal conductivity kappa on high-quality;polycrystalline samples of Na4Ir3O8 down to T = 500 and 75 mK,;respectively. Absence of long-range magnetic order down to T = 75 mK;strongly supports claims of a spin-liquid ground state. The constant;magnetic susceptibility chi below T approximate to 25 K and the presence;of a small but finite linear-T term in C(T) suggest the presence of;gapless spin excitations. Additionally, the magnetic Gruneisen ratio;shows a divergence as T -> 0 K and a scaling behavior, which clearly;demonstrates that Na4Ir3O8 is situated close to a zero-field QCP.;Dong, Jinkui/J-3603-2013;2;0;0;0;2;1098-0121;WOS:000332162300002;;;J;Taen, Toshihiro;Ohtake, Fumiaki;Akiyama, Hiroki;Inoue, Hiroshi;Sun, Yue;Pyon, Sunseng;Tamegai, Tsuyoshi;Pair-breaking effects induced by 3-MeV proton irradiation in;Ba1-xKxFe2As2;PHYSICAL REVIEW B;88;22;224514;10.1103/PhysRevB.88.224514;DEC 30 2013;2013;Pair-breaking effects induced by 3-MeV proton irradiations are examined;in underdoped, optimally doped, and overdoped Ba1-xKxFe2As2 single;crystals in terms of suppression of the superconducting critical;temperature T-c. The small residual resistivity (RR) in as-grown;crystals shows the presence of negligible intrinsic scatterings, which;makes this material a model system for studying the effect of;artificially introduced scatterings. The RR and Tc change linearly with;the proton dose. As in the case of proton irradiation in Co-doped;BaFe2As2, we do not detect any low-temperature upturns in resistivity;attributable to magnetic scattering or localization. Regardless of K;doping levels, the critical value of the normalized scattering rate is;much higher than that expected in s(perpendicular to)-wave;superconductors.;悦, 孙/B-1373-2013;悦, 孙/0000-0002-5189-5460;3;0;0;0;3;1098-0121;WOS:000332162300010;;;J;Yan, Ming;Kakay, Attila;Andreas, Christian;Hertel, Riccardo;Spin-Cherenkov effect and magnonic Mach cones;PHYSICAL REVIEW B;88;22;220412;10.1103/PhysRevB.88.220412;DEC 30 2013;2013;We report on the Cherenkov-type excitation of spin waves (SWs) in;ferromagnets. Our micromagnetic simulations show that a localized;magnetic field pulse moving sufficiently fast along the surface of a;ferromagnet generates a SW boom, with a Mach-type cone of propagating;wave fronts. The SWs are formed when the velocity of the source exceeds;the propagation speed of SWs. Unlike the single cone of the usual;Cherenkov effect, we find that the magnetic Mach cone consists of two;wave fronts with different wave numbers. In patterned thin strips, this;magnetic analog of the Cherenkov effect should enable the excitation of;SWs with well-defined and velocity-dependent frequency. It thereby;provides a promising route towards tunable SW generation, with important;potential for applications in magnonic devices.;2;0;0;0;2;1098-0121;WOS:000332162300001;;;J;Yang, Lusann;Ceder, Gerbrand;Data-mined similarity function between material compositions;PHYSICAL REVIEW B;88;22;224107;10.1103/PhysRevB.88.224107;DEC 30 2013;2013;A new method for assessing the similarity of material compositions is;described. A similarity measure is important for the classification and;clustering of compositions. The similarity of the material compositions;is calculated utilizing a data-mined ionic substitutional similarity;based upon the probability with which two ions will substitute for each;other within the same structure prototype. The method is validated via;the prediction of crystal structure prototypes for oxides from the;Inorganic Crystal Structure Database, selecting the correct prototype;from a list of known prototypes within five guesses 75% of the time. It;performs particularly well on the quaternary oxides, selecting the;correct prototype from a list of known prototypes on the first guess 65%;of the time.;1;0;0;0;1;1098-0121;WOS:000332162300005;;;J;Bartelt, Norman C.;Nie, Shu;Starodub, Elena;Bernal-Villamil, Ivan;Gallego, Silvia;Vergara, Lucia;McCarty, Kevin F.;de la Figuera, Juan;Order-disorder phase transition on the (100) surface of magnetite;PHYSICAL REVIEW B;88;23;235436;10.1103/PhysRevB.88.235436;DEC 30 2013;2013;Using low-energy electron diffraction, we show that the room-temperature;(root 2 x root 2) R45 degrees reconstruction of Fe3O4(100) reversibly;disorders at similar to 450 degrees C. Short-range order persists above;the transition, suggesting that the transition is second order and;Ising-like. We interpret the transition in terms of a model in which;subsurface Fe3+ is replaced by Fe2+ as the temperature is raised. This;model reproduces the structure of antiphase boundaries previously;observed with scanning tunneling microscopy, as well as the continuous;nature of the transition. To account for the observed transition;temperature, the energy cost of each charge rearrangement is 82 meV.;de la Figuera, Juan/E-7046-2010; Gallego Queipo, Silvia/J-3411-2012;de la Figuera, Juan/0000-0002-7014-4777;;1;0;0;0;1;1098-0121;WOS:000332163500007;;;J;Cazorla, Claudio;Iniguez, Jorge;Insights into the phase diagram of bismuth ferrite from quasiharmonic;free-energy calculations;PHYSICAL REVIEW B;88;21;214430;10.1103/PhysRevB.88.214430;DEC 30 2013;2013;We have used first-principles methods to investigate the phase diagram;of multiferroic bismuth ferrite (BiFeO3 or BFO), revealing the energetic;and vibrational features that control the occurrence of various relevant;structures. More precisely, we have studied the relative stability of;four low-energy BFO polymorphs by computing their free energies within;the quasiharmonic approximation, introducing a practical scheme that;allows us to account for the main effects of spin disorder. As expected,;we find that the ferroelectric ground state of the material (with R3c;space group) transforms into an orthorhombic paraelectric phase (Pnma);upon heating. We show that this transition is not significantly affected;by magnetic disorder, and that the occurrence of the Pnma structure;relies on its being vibrationally (although not elastically) softer than;the R3c phase. We also investigate a representative member of the family;of nanotwinned polymorphs recently predicted for BFO [S. Prosandeev et;al., Adv. Funct. Mater. 23, 234 (2013)] and discuss their possible;stabilization at the boundaries separating the R3c and Pnma regions in;the corresponding pressure-temperature phase diagram. Finally, we;elucidate the intriguing case of the so-called supertetragonal phases of;BFO: Our results explain why such structures have never been observed in;the bulk material, despite their being stable polymorphs of very low;energy. Quantitative comparison with experiment is provided whenever;possible, and the relative importance of various physical effects;(zero-point motion, spin fluctuations, thermal expansion) and technical;features (employed exchange-correlation energy density functional) is;discussed. Our work attests the validity and usefulness of the;quasiharmonic scheme to investigate the phase diagram of this complex;oxide, and prospective applications are discussed.;Iniguez, Jorge/B-6856-2009;Iniguez, Jorge/0000-0001-6435-3604;0;0;0;0;0;1098-0121;WOS:000332161300005;;;J;Chandrasekaran, Anand;Damjanovic, Dragan;Setter, Nava;Marzari, Nicola;Defect ordering and defect-domain-wall interactions in PbTiO3: A;first-principles study;PHYSICAL REVIEW B;88;21;214116;10.1103/PhysRevB.88.214116;DEC 30 2013;2013;The properties of ferroelectric materials, such as lead zirconate;titanate (PZT), are heavily influenced by the interaction of defects;with domain walls. These defects are either intrinsic or are induced by;the addition of dopants. We study here PbTiO3 (the end member of a key;family of solid solutions) in the presence of acceptor (Fe) and donor;(Nb) dopants, and the interactions of the different defects and defect;associates with the domain walls. For the case of iron acceptors, the;calculations point to the formation of defect associates involving an;iron substitutional defect and a charged oxygen vacancy (Fe-Ti'-V-O '').;This associate exhibits a strong tendency to align in the direction of;the bulk polarization; in fact, ordering of defects is also observed in;pure PbTiO3 in the form of lead-oxygen divacancies. Conversely,;calculations on donor-doped PbTiO3 do not indicate the formation of;polar defect complexes involving donor substitutions. Last, it is;observed that both isolated defects in donor-doped materials and defect;associates in acceptor-doped materials are more stable at 180 degrees.;domain walls. However, polar defect complexes lead to asymmetric;potentials at domain walls due to the interaction of the defect;polarization with the bulk polarization. The relative pinning;characteristics of different defects are then compared, to develop an;understanding of defect-domain-wall interactions in both doped and pure;PbTiO3. These results may also help in understanding hardening and;softening mechanisms in PZT.;Damjanovic, Dragan/A-8231-2008;Damjanovic, Dragan/0000-0002-9596-7438;3;1;0;0;3;1098-0121;WOS:000332161300002;;;J;Choi, Minseok;Janotti, Anderson;Van de Walle, Chris G.;Native point defects in LaAlO3: A hybrid functional study;PHYSICAL REVIEW B;88;21;214117;10.1103/PhysRevB.88.214117;DEC 30 2013;2013;We investigate the electronic structure of defects in LaAlO3 (LAO) and;their effects on electronic properties of bulk and heterostructures. Our;calculations indicate that vacancies have lower formation energies than;interstitials and antisites. The La vacancy (V-La) and the Al vacancy;(V-Al) are deep acceptors, while the oxygen vacancy (VO) is a deep;donor. The impact of these defects on the performance of;metal-oxide-semiconductor devices is analyzed by placing the LAO band;edges and defect levels with respect to the band edges of GaN, InGaAs,;and Si. V-O introduces levels in the gap or in the vicinity of the;semiconductor conduction band, resulting in carrier traps and/or leakage;current through the gate oxide, while V-La and V-Al are sources of;negative fixed charges. We also discuss how oxygen vacancies in LAO can;influence the observed two-dimensional electron gas (2DEG) in;LaAlO3/SrTiO3 heterostructures. We conclude that V-O in the LAO layer;may provide electrons that fill compensating surface states, resulting;in higher 2DEG densities, at least for modest LAO layer thicknesses.;Van de Walle, Chris/A-6623-2012;Van de Walle, Chris/0000-0002-4212-5990;4;0;0;0;4;1098-0121;WOS:000332161300003;;;J;Haham, Noam;Konczykowski, Marcin;Kuiper, Bouwe;Koster, Gertjan;Klein, Lior;Testing dependence of anomalous Hall effect on resistivity in SrRuO3 by;its increase with electron irradiation;PHYSICAL REVIEW B;88;21;214431;10.1103/PhysRevB.88.214431;DEC 30 2013;2013;We measure the anomalous Hall effect (AHE) in several patterns of the;itinerant ferromagnet SrRuO3 before and after the patterns are;irradiated with electrons. The irradiation increases the resistivity of;the patterns due to the introduction of point defects and we find that;the AHE coefficient R-s scales with the total resistivity before and;after irradiation which indicates that the AHE is determined by the;total resistivity. We discuss possible origins of slight deviations from;scaling that are observed at low temperature, particularly below 70 K.;0;0;0;0;0;1098-0121;WOS:000332161300006;;;J;Heinhold, R.;Williams, G. T.;Cooil, S. P.;Evans, D. A.;Allen, M. W.;Influence of polarity and hydroxyl termination on the band bending at;ZnO surfaces;PHYSICAL REVIEW B;88;23;235315;10.1103/PhysRevB.88.235315;DEC 30 2013;2013;Surface sensitive synchrotron x-ray photoelectron spectroscopy (XPS) and;real-time in situ XPS were used to study the thermal stability of the;hydroxyl termination and downward band bending on the polar surfaces of;ZnO single crystals. On the O-polar face, the position of the Fermi;level could be reversibly cycled between the conduction band and the;band gap over an energetic distance of approximately 0.8 eV (similar to;1/4 of the band gap) by controlling the surface H coverage using simple;ultrahigh vacuum (UHV) heat treatments up to 750 degrees C, dosing with;H2O/H-2 and atmospheric exposure. A metallic to semiconductorlike;transition in the electronic nature of the O-polar face was observed at;an H coverage of approximately 0.9 monolayers. For H coverage less than;this, semiconducting (depleted) O-polar surfaces were created that were;reasonably stable in UHV conditions. In contrast, the downward band;bending on the Zn-polar face was significantly more resilient, and;depleted surfaces could not be prepared by heat treatment alone.;3;0;0;0;3;1098-0121;WOS:000332163500005;;;J;Levy, Peter M.;Yang, Hongxin;Chshiev, Mairbek;Fert, Albert;Spin Hall effect induced by Bi impurities in Cu: Skew scattering and;side-jump;PHYSICAL REVIEW B;88;21;214432;10.1103/PhysRevB.88.214432;DEC 30 2013;2013;The spin Hall effect (SHE) has recently turned out to be an interesting;tool for the conversion between charge and spin currents, the conversion;factor being characterized by the spin Hall angle Phi(H). Large spin;Hall angles have been now measured in heavy metals like W(Phi(H) =;-0.33) and Cu doped with Bi impurities (Phi(H) = -0.24). In this article;we express the contributions to the SHE induced by skew scattering and;scattering with side-jump from Bi impurities in Cu, and we use ab initio;calculations of the electronic structure of CuBi alloys to estimate the;values of these two contributions. The predominant effect comes from;skew scattering; the spin Hall angle is negative in agreement with;experiments, but the calculated amplitude is smaller.;Chshiev, Mairbek/A-9742-2008; Yang, HongXin/H-5719-2012;Chshiev, Mairbek/0000-0001-9232-7622;;0;0;0;0;0;1098-0121;WOS:000332161300007;;;J;Lu, Wenlai;Yang, Ping;Song, Wen Dong;Chow, Gan Moog;Chen, Jing Sheng;Control of oxygen octahedral rotations and physical properties in SrRuO3;films;PHYSICAL REVIEW B;88;21;214115;10.1103/PhysRevB.88.214115;DEC 30 2013;2013;Control of octahedral rotations in the ABO(3) perovskite oxides has been;of great interest due to its potential in rationally discovering and;designing new multifunctional phases. In this study, we show that;octahedral rotations of the SrRuO3 films can be controlled by oxygen;vacancies as well as by interfacial coupling, which further determines;the physical properties. Half-integer reflections using high-resolution;synchrotron x-ray diffraction were carried out to determine the;octahedral rotation pattern of SrRuO3 films on SrTiO3 substrates. The;transition of RuO6 rotation pattern accompanied by the structural change;from monoclinic P2(1)/m to tetragonal F4/mmc can be understood from the;preference of oxygen vacancies in the SrO atomic plane and the coupling;of octahedra across the interface between film and substrate. The field;angle dependence of magnetoresistance further confirmed the structural;phase transition with changes in octahedral rotations. The monoclinic;phase has the uniaxial magnetic easy axis 30 away from the [001];direction towards the [010] direction while the tetragonal phase has;uniaxial magnetic easy axis along the fourfold axis which is;perpendicular to the film surface. This study demonstrates the ability;to control the octahedral rotations in perovskite films and its;importance when designing thin films and multilayers with desired;functional property.;Chen, Jingsheng/D-9107-2011; Yang, Ping/C-5612-2008;1;0;0;0;1;1098-0121;WOS:000332161300001;;;J;Marcano, N.;Algarabel, P. A.;Rodriguez Fernandez, J.;Magen, C.;Morellon, L.;Singh, Niraj K.;Gschneidner, K. A., Jr.;Pecharsky, V. K.;Ibarra, M. R.;Effects of pressure on the magnetic-structural and Griffiths-like;transitions in Dy5Si3Ge;PHYSICAL REVIEW B;88;21;214429;10.1103/PhysRevB.88.214429;DEC 30 2013;2013;Magnetization studies have been performed on a polycrystalline sample of;Dy5Si3Ge as a function of an applied magnetic field (up to 50 kOe) and;hydrostatic pressure (up to 10 kbar) in the 5-300 K temperature range.;The anomalous behavior of the magnetic susceptibility indicates that a;Griffiths-like phase exists at low magnetic fields and pressures up to;10 kbar. We present evidence that the high-temperature second-order;ferromagnetic transition can be coupled with the low-temperature;first-order crystallographic transformation into a single first-order;magnetic-crystallographic transformation using a magnetic field and;hydrostatic pressure as tuning parameters. The effect of pressure on the;Griffiths-like phase is reported and analyzed in the framework of the;complex competition between the interslab and intraslab magnetic;interactions.;Magen, Cesar/A-2825-2013; Morellon, Luis/K-6922-2014; Marcano Aguado, Noelia/F-9446-2010;
2:7:330 Photovoltage bleaching in bulk heterojunction solar cells through population of the singlet exciton
DOI:10.1063/1.3531578 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Shah, H. M.;Mohite, A. D.;Bansal, T.;Alphenaar, B. W.;
2:7:331 Hopping photoconductivity in an exponential density of states (vol 101, 103307, 2012)
DOI:10.1063/1.4802826 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Iacchetti, A.;Natali, D.;Binda, M.;Beverina, L.;Sampietro, M.;
2:7:332 Thickness dependent red shift of the photocurrent spectrum in bulk heterojunction solar cells
DOI:10.1063/1.4789905 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Abeyweera, B. K.;Alphenaar, B. W.;
2:7:333 Charge Mobility and Recombination in a New Hole Transporting Polymer and Its Photovoltaic Blend
DOI:10.1021/am100078g JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:16 AU: Tan, Mein Jin;Goh, Wei-Peng;Li, Jun;Pundir, Gaurav;Chellappan, Vijila;Chen, Zhi-Kuan;
2:7:334 Shockley Read Hall recombination in P3HT:PCBM solar cells as observed under ultra low light intensities (vol 109, 064501, 2011)
DOI:10.1063/1.4737789 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Tzabari, Lior;Tessler, Nir;
2:7:335 Band tail recombination in polymer: fullerene organic solar cells (vol 116, 074503, 2014)
DOI:10.1063/1.4904744 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Hawks, Steven A.;Li, Gang;Yang, Yang;Street, Robert A.;
2:7:336 Theoretical and experimental investigation on the influence of the molecular polarizability of novel zinc phthalocyanine derivatives on the open circuit voltage of organic hetero-junction solar cells
DOI:10.1016/j.solmat.2009.10.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:6 AU: Bruder, Ingmar;Ojala, Antti;Lennartz, Christian;Sundarraj, Sudhakar;Schoeneboom, Jan;Sens, Ruediger;Hwang, Jaehyung;Erk, Peter;Weis, Juergen;
2:7:337 Enhanced performance of P3HT/PCBM bulk heterojunction photovoltaic devices by adding spin 1/2 radicals
DOI:10.1016/j.synthmet.2009.10.005 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Zhang, Ye;Hukic-Markosian, Golda;Mascaro, Debra;Vardeny, Zeev Valy;
2:7:338 Charge transport studies on novel PT-derivatives with hydrophilic anchoring groups
DOI:10.1016/j.synthmet.2012.12.033 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Nyman, Mathias;Akitsu, Kenta;Otani, Naoki;Matsumura, Mitsunobu;Kubo, Takaya;Segawa, Hiroshi;Osterbacka, Ronald;
2:8:1 Advanced materials and processes for polymer solar cell devices
DOI:10.1039/b913168j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:539 AU: Helgesen, Martin;Sondergaard, Roar;Krebs, Frederik C.;
2:8:2 Stability of Polymer Solar Cells
DOI:10.1002/adma.201104187 JN:ADVANCED MATERIALS PY:2012 TC:442 AU: Jorgensen, Mikkel;Norrman, Kion;Gevorgyan, Suren A.;Tromholt, Thomas;Andreasen, Birgitta;Krebs, Frederik C.;
2:8:3 Product integration of compact roll-to-roll processed polymer solar cell modules: methods and manufacture using flexographic printing, slot-die coating and rotary screen printing
DOI:10.1039/c0jm01178a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:347 AU: Krebs, Frederik C.;Fyenbo, Jan;Jorgensen, Mikkel;
2:8:4 Degradation Patterns in Water and Oxygen of an Inverted Polymer Solar Cell
DOI:10.1021/ja106299g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:199 AU: Norrman, Kion;Madsen, Morten V.;Gevorgyan, Suren A.;Krebs, Frederik C.;
2:8:5 Business, market and intellectual property analysis of polymer solar cells
DOI:10.1016/j.solmat.2010.04.074 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:223 AU: Nielsen, Torben D.;Cruickshank, Craig;Foged, Soren;Thorsen, Jesper;Krebs, Frederik C.;
2:8:6 Consensus stability testing protocols for organic photovoltaic materials and devices
DOI:10.1016/j.solmat.2011.01.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:243 AU: Reese, Matthew O.;Gevorgyan, Suren A.;Jorgensen, Mikkel;Bundgaard, Eva;Kurtz, Sarah R.;Ginley, David S.;Olson, Dana C.;Lloyd, Matthew T.;Moryillo, Pasquale;Katz, Eugene A.;Elschner, Andreas;Haillant, Olivier;Currier, Travis R.;Shrotriya, Vishal;Hermenau, Martin;Riede, Moritz;Kirov, Kiril R.;Trimmel, Gregor;Rath, Thomas;Inganas, Olle;Zhang, Fengling;Andersson, Mattias;Tvingstedt, Kristofer;Lira-Cantu, Monica;Laird, Darin;McGuiness, Christine;Gowrisanker, Srinivas (Jimmy);Pannone, Michael;Xiao, Min;Hauch, Jens;Steim, Roland;DeLongchamp, Dean M.;Roesch, Roland;Hoppe, Harald;Espinosa, Nieves;Urbina, Antonio;Yaman-Uzunoglu, Gulsah;Bonekamp, Joerg-Bernd;van Breemen, Albert J. J. M.;Girotto, Claudio;Voroshazi, Eszter;Krebs, Frederik C.;
2:8:7 Fabrication of Polymer Solar Cells Using Aqueous Processing for All Layers Including the Metal Back Electrode
DOI:10.1002/aenm.201000007 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:135 AU: Sondergaard, Roar;Helgesen, Martin;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:8 Ultra Fast and Parsimonious Materials Screening for Polymer Solar Cells Using Differentially Pumped Slot-Die Coating
DOI:10.1021/am100505e JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:121 AU: Alstrup, Jan;Jorgensen, Mikkel;Medford, Andrew J.;Krebs, Frederik C.;
2:8:9 ITO-free flexible organic solar cells with printed current collecting grids
DOI:10.1016/j.solmat.2010.08.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:146 AU: Galagan, Yulia;Rubingh, Jan-Eric J. M.;Andriessen, Ronn;Fan, Chia-Chen;Blom, Paul W. M.;Veenstra, Sjoerd C.;Kroon, Jan M.;
2:8:10 A life cycle analysis of polymer solar cell modules prepared using roll-to-roll methods under ambient conditions
DOI:10.1016/j.solmat.2010.08.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:134 AU: Espinosa, Nieves;Garcia-Valverde, Rafael;Urbina, Antonio;Krebs, Frederik C.;
2:8:11 Polymer- and carbon-based electrodes for polymer solar cells: Toward low-cost, continuous fabrication over large area
DOI:10.1016/j.solmat.2011.12.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:59 AU: Po, Riccardo;Carbonera, Chiara;Bernardi, Andrea;Tinti, Francesca;Camaioni, Nadia;
2:8:12 High Efficiency Polymer Solar Cells with Long Operating Lifetimes
DOI:10.1002/aenm.201100138 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:162 AU: Peters, Craig H.;Sachs-Quintana, I. T.;Kastrop, John P.;Beaupre, Serge;Leclerc, Mario;McGehee, Michael D.;
2:8:13 Efficiency Enhancement in Organic Photovoltaic Cells: Consequences of Optimizing Series Resistance
DOI:10.1002/adfm.200901107 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:119 AU: Servaites, Jonathan D.;Yeganeh, Sina;Marks, Tobin J.;Ratner, Mark A.;
2:8:14 Environmental and economic assessment of ITO-free electrodes for organic solar cells
DOI:10.1016/j.solmat.2011.09.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:92 AU: Emmott, Christopher J. M.;Urbina, Antonio;Nelson, Jenny;
2:8:15 Using Light-Induced Thermocleavage in a Roll-to-Roll Process for Polymer Solar Cells
DOI:10.1021/am900858x JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:78 AU: Krebs, Frederik C.;Norrman, Kion;
2:8:16 An inter-laboratory stability study of roll-to-roll coated flexible polymer solar modules
DOI:10.1016/j.solmat.2011.01.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:83 AU: Gevorgyan, Suren A.;Medford, Andrew J.;Bundgaard, Eva;Sapkota, Subarna B.;Schleiermacher, Hans-Frieder;Zimmermann, Birger;Wuerfel, Uli;Chafiq, Amine;Lira-Cantu, Monica;Swonke, Thomas;Wagner, Michael;Brabec, Christoph J.;Haillant, Olivier O.;Voroshazi, Eszter;Aernouts, Tom;Steim, Roland;Hauch, Jens A.;Elschner, Andreas;Pannone, Michael;Xiao, Min;Langzettel, Anthony;Laird, Darin;Lloyd, Matthew T.;Rath, Thomas;Maier, Eugen;Trimmel, Gregor;Hermenau, Martin;Menke, Torben;Leo, Karl;Roesch, Roland;Seeland, Marco;Hoppe, Harald;Nagle, Timothy J.;Burke, Kerry B.;Fell, Christopher J.;Vak, Doojin;Singh, Th. Birendra;Watkins, Scott E.;Galagan, Yulia;Manor, Assaf;Katz, Eugene A.;Kim, Taehee;Kim, Kyungkon;Sommeling, Paul M.;Verhees, Wiljan J. H.;Veenstra, Sjoerd C.;Riede, Moritz;Christoforo, M. Greyson;Currier, Travis;Shrotriya, Vishal;Schwartz, Gregor;Krebs, Frederik C.;
2:8:17 Photoinduced Degradation of Polymer and Polymer-Fullerene Active Layers: Experiment and Theory
DOI:10.1002/adfm.201001079 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:109 AU: Reese, Matthew O.;Nardes, Alexandre M.;Rupert, Benjamin L.;Larsen, Ross E.;Olson, Dana C.;Lloyd, Matthew T.;Shaheen, Sean E.;Ginley, David S.;Rumbles, Garry;Kopidakis, Nikos;
2:8:18 Photochemical stability of pi-conjugated polymers for polymer solar cells: a rule of thumb
DOI:10.1039/c0jm03105d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:111 AU: Manceau, Matthieu;Bundgaard, Eva;Carle, Jon E.;Hagemann, Ole;Helgesen, Martin;Sondergaard, Roar;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:19 The effect of post-processing treatments on inflection points in current-voltage curves of roll-to-roll processed polymer photovoltaics
DOI:10.1016/j.solmat.2010.06.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:105 AU: Lilliedal, Mathilde R.;Medford, Andrew J.;Madsen, Morten V.;Norrman, Kion;Krebs, Frederik C.;
2:8:20 Printed metal back electrodes for R2R fabricated polymer solar cells studied using the LBIC technique
DOI:10.1016/j.solmat.2010.11.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:70 AU: Krebs, Frederik C.;Sondergaard, Roar;Jorgensen, Mikkel;
2:8:21 The Mechanism of Burn-in Loss in a High Efficiency Polymer Solar Cell
DOI:10.1002/adma.201103010 JN:ADVANCED MATERIALS PY:2012 TC:63 AU: Peters, Craig H.;Sachs-Quintana, I. T.;Mateker, William R.;Heumueller, Thomas;Rivnay, Jonathan;Noriega, Rodigo;Beiley, Zach M.;Hoke, Eric T.;Salleo, Alberto;McGehee, Michael D.;
2:8:22 Current Collecting Grids for ITO-Free Solar Cells
DOI:10.1002/aenm.201100552 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:61 AU: Galagan, Yulia;Zimmermann, Birger;Coenen, Erica W. C.;Jorgensen, Mikkel;Tanenbaum, David M.;Krebs, Frederik C.;Gorter, Harrie;Sabik, Sami;Slooff, Lenneke H.;Veenstra, Sjoerd C.;Kroon, Jan M.;Andriessen, Ronn;
2:8:23 The state of organic solar cells-A meta analysis
DOI:10.1016/j.solmat.2013.05.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:49 AU: Jorgensen, Mikkel;Carle, Jon E.;Sondergaard, Roar R.;Lauritzen, Marie;Dagnaes-Hansen, Nikolaj A.;Byskov, Sedi L.;Andersen, Thomas R.;Larsen-Olsen, Thue T.;Bottiger, Arvid P. L.;Andreasen, Birgitta;Fu, Lei;Zuo, Lijian;Liu, Yao;Bundgaard, Eva;Zhan, Xiaowei;Chen, Hongzheng;Krebs, Frederik C.;
2:8:24 25th Anniversary Article: Rise to Power - OPV-Based Solar Parks
DOI:10.1002/adma.201302031 JN:ADVANCED MATERIALS PY:2014 TC:169 AU: Krebs, Frederik C.;Espinosa, Nieves;Hosel, Markus;Sondergaard, Roar R.;Jorgensen, Mikkel;
2:8:25 Long-term operational lifetime and degradation analysis of P3HT: PCBM photovoltaic cells
DOI:10.1016/j.solmat.2010.09.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:84 AU: Voroshazi, Eszter;Verreet, Bregt;Aernouts, Tom;Heremans, Paul;
2:8:26 Indium tin oxide-free and metal-free semitransparent organic solar cells
DOI:10.1063/1.3499299 JN:APPLIED PHYSICS LETTERS PY:2010 TC:63 AU: Zhou, Yinhua;Cheun, Hyeunseok;Choi, Seungkeun;Potscavage, William J., Jr.;Fuentes-Hernandez, Canek;Kippelen, Bernard;
2:8:27 All solution processing of ITO-free organic solar cell modules directly on barrier foil
DOI:10.1016/j.solmat.2012.07.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:42 AU: Angmo, Dechan;Hosel, Markus;Krebs, Frederik C.;
2:8:28 Roll-to-Roll Inkjet Printing and Photonic Sintering of Electrodes for ITO Free Polymer Solar Cell Modules and Facile Product Integration
DOI:10.1002/aenm.201200520 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:64 AU: Angmo, Dechan;Larsen-Olsen, Thue T.;Jorgensen, Mikkel;Sondergaard, Roar R.;Krebs, Frederik C.;
2:8:29 Photochemical stability of conjugated polymers, electron acceptors and blends for polymer solar cells resolved in terms of film thickness and absorbance
DOI:10.1039/c2jm16340c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:42 AU: Tromholt, Thomas;Madsen, Morten Vesterager;Carle, Jon E.;Helgesen, Martin;Krebs, Frederik C.;
2:8:30 Influence of the hole-transport layer on the initial behavior and lifetime of inverted organic photovoltaics
DOI:10.1016/j.solmat.2010.12.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:56 AU: Lloyd, Matthew T.;Peters, Craig H.;Garcia, Andres;Kauvar, Isaac V.;Berry, Joseph J.;Reese, Matthew O.;McGehee, Michael D.;Ginley, David S.;Olson, Dana C.;
2:8:31 Multiple stress degradation analysis of the active layer in organic photovoltaics
DOI:10.1016/j.solmat.2013.10.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Turkovic, Vida;Engmann, Sebastian;Egbe, Daniel A. M.;Himmerlich, Marcel;Krischok, Stefan;Gobsch, Gerhard;Hoppe, Harald;
2:8:32 High-Performance Semitransparent Tandem Solar Cell of 8.02% Conversion Efficiency with Solution-Processed Graphene Mesh and Laminated Ag Nanowire Top Electrodes
DOI:10.1002/aenm.201301989 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Yusoff, Abd Rashid bin Mohd;Lee, Seung Joo;Shneider, Fabio Kurt;da Silva, Wilson Jose;Jang, Jin;
2:8:33 Roll-to-roll processed polymer tandem solar cells partially processed from water
DOI:10.1016/j.solmat.2011.08.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:44 AU: Larsen-Olsen, Thue T.;Andersen, Thomas R.;Andreasen, Birgitta;Bottiger, Arvid P. L.;Bundgaard, Eva;Norrman, Kion;Andreasen, Jens W.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:34 Interlayer adhesion in roll-to-roll processed flexible inverted polymer solar cells
DOI:10.1016/j.solmat.2011.10.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:71 AU: Dupont, Stephanie R.;Oliver, Mark;Krebs, Frederik C.;Dauskardt, Reinhold H.;
2:8:35 Towards industrialization of polymer solar cells: material processing for upscaling
DOI:10.1039/c4ta03780d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Burgues-Ceballos, Ignasi;Stella, Marco;Lacharmoise, Paul;Martinez-Ferrero, Eugenia;
2:8:36 Reduction of Collection Efficiency of Charge Carriers with Increasing Cell Size in Polymer Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201001578 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:53 AU: Jeong, Won-Ik;Lee, Jane;Park, Sun-Young;Kang, Jae-Wook;Kim, Jang-Joo;
2:8:37 Water and oxygen induced degradation of small molecule organic solar cells
DOI:10.1016/j.solmat.2011.01.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:60 AU: Hermenau, Martin;Riede, Moritz;Leo, Karl;Gevorgyan, Suren A.;Krebs, Frederik C.;Norrman, Kion;
2:8:38 Life cycle assessment of ITO-free flexible polymer solar cells prepared by roll-to-roll coating and printing
DOI:10.1016/j.solmat.2011.09.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:66 AU: Espinosa, Nieves;Garcia-Valverde, Rafael;Urbina, Antonio;Lenzmann, Frank;Manceau, Matthieu;Angmo, Dechan;Krebs, Frederik C.;
2:8:39 Inverted ITO- and PEDOT:PSS-free polymer solar cells with high power conversion efficiency
DOI:10.1016/j.solmat.2013.05.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:14 AU: Kohlstaedt, Markus;Grein, Maria;Reinecke, Patrick;Kroyer, Thomas;Zimmermann, Birger;Wuerfel, Uli;
2:8:40 First Step into Space: Performance and Morphological Evolution of P3HT:PCBM Bulk Heterojunction Solar Sells under AMO Illumination
DOI:10.1021/am504608p JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Guo, Shuai;Brandt, Christian;Andreev, Thomas;Metwalli, Ezzeldin;Wang, Weijia;Perlich, Jan;Mueller-Buschbaum, Peter;
2:8:41 ITO-free flexible inverted organic solar cell modules with high fill factor prepared by slot die coating
DOI:10.1016/j.solmat.2010.11.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:62 AU: Zimmermann, B.;Schleiermacher, H. -F.;Niggemann, M.;Wuerfel, U.;
2:8:42 The Role of Electron Affinity in Determining Whether Fullerenes Catalyze or Inhibit Photooxidation of Polymers for Solar Cells
DOI:10.1002/aenm.201200169 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:40 AU: Hoke, Eric T.;Sachs-Quintana, I. T.;Lloyd, Matthew T.;Kauvar, Isaac;Mateker, William R.;Nardes, Alexandre M.;Peters, Craig H.;Kopidakis, Nikos;McGehee, Michael D.;
2:8:43 Degradation Effects Related to the Hole Transport Layer in Organic Solar Cells
DOI:10.1002/adfm.201100429 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:49 AU: Ecker, Bernhard;Nolasco, Jairo Cesar;Pallares, Josep;Marsal, Lluis Francesc;Posdorfer, Joerg;Parisi, Juergen;von Hauff, Elizabeth;
2:8:44 Light-Induced Degradation of Polymer: Fullerene Photovoltaic Devices: An Intrinsic or Material-Dependent Failure Mechanism?
DOI:10.1002/aenm.201400848 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Voroshazi, Eszter;Cardinaletti, Ilaria;Conard, Thierry;Rand, Barry P.;
2:8:45 Electron Barrier Formation at the Organic-Back Contact Interface is the First Step in Thermal Degradation of Polymer Solar Cells
DOI:10.1002/adfm.201304166 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:23 AU: Sachs-Quintana, I. T.;Heumueller, Thomas;Mateker, William R.;Orozco, Darian E.;Cheacharoen, Rongrong;Sweetnam, Sean;Brabec, Christoph J.;McGehee, Michael D.;
2:8:46 25th Anniversary Article: Organic Photovoltaic Modules and Biopolymer Supercapacitors for Supply of Renewable Electricity: A Perspective from Africa
DOI:10.1002/adma.201302524 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Inganas, Olle;Admassie, Shimelis;
2:8:47 Evaluation of ink-jet printed current collecting grids and busbars for ITO-free organic solar cells
DOI:10.1016/j.solmat.2012.04.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:50 AU: Galagan, Yulia;Coenen, Erica W. C.;Sabik, Sami;Gorter, Harrie H.;Barink, Marco;Veenstra, Sjoerd C.;Kroon, Jan M.;Andriessen, Ronn;Blom, Paul W. M.;
2:8:48 An Indium-Free Low Work Function Window Electrode for Organic Photovoltaics Which Improves with In-Situ Oxidation
DOI:10.1002/adma.201203280 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: Hutter, Oliver S.;Stec, Helena M.;Hatton, Ross A.;
2:8:49 Gravure printed flexible organic photovoltaic modules
DOI:10.1016/j.solmat.2010.12.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:58 AU: Kopola, Palvi;Aernouts, Tom;Sliz, Rafal;Guillerez, Stephane;Ylikunnari, Mari;Cheyns, David;Valimaki, Marja;Tuomikoski, Markus;Hast, Jukka;Jabbour, Ghassan;Myllyla, Risto;Maaninen, Arto;
2:8:50 Round-Robin Studies as a Method for Testing and Validating High-Efficiency ITO-Free Polymer Solar Cells Based on Roll-to-Roll-Coated Highly Conductive and Transparent Flexible Substrates
DOI:10.1002/aenm.201200079 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:27 AU: Larsen-Olsen, Thue T.;Machui, Florian;Lechene, Balthazar;Berny, Stephane;Angmo, Dechan;Sondergaard, Roar;Blouin, Nicolas;Mitchell, William;Tierney, Steven;Cull, Tobias;Tiwana, Priti;Meyer, Frank;Carrasco-Orozco, Miguel;Scheel, Arnulf;Loevenich, Wilfried;de Bettignies, Remi;Brabec, Christoph J.;Krebs, Frederik C.;
2:8:51 Optical Design of Transparent Thin Metal Electrodes to Enhance In-Coupling and Trapping of Light in Flexible Polymer Solar Cells
DOI:10.1002/adma.201203099 JN:ADVANCED MATERIALS PY:2012 TC:38 AU: Salinas, Jose-Francisco;Yip, Hin-Lap;Chueh, Chu-Chen;Li, Chang-Zhi;Maldonado, Jose-Luis;Jen, Alex K. -Y.;
2:8:52 Aesthetically Pleasing Conjugated Polymer:Fullerene Blends for Blue-Green Solar Cells Via Roll-to-Roll Processing
DOI:10.1021/am300156p JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:22 AU: Amb, Chad M.;Craig, Michael R.;Koldemir, Unsal;Subbiah, Jegadesan;Choudhury, Kaushik Roy;Gevorgyan, Suren A.;Jorgensen, Mikkel;Krebs, Frederik C.;So, Franky;Reynolds, John R.;
2:8:53 Photodegradation of P3HT-A Systematic Study of Environmental Factors
DOI:10.1021/cm102373k JN:CHEMISTRY OF MATERIALS PY:2011 TC:62 AU: Hintz, Holger;Egelhaaf, H. -J.;Luer, Larry;Hauch, Jens;Peisert, Heiko;Chasse, Thomas;
2:8:54 Interlaboratory outdoor stability studies of flexible roll-to-roll coated organic photovoltaic modules: Stability over 10,000 h
DOI:10.1016/j.solmat.2013.04.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:35 AU: Gevorgyan, Suren A.;Madsen, Morten V.;Dam, Henrik F.;Jorgensen, Mikkel;Fell, Christopher J.;Anderson, Kenrick E.;Duck, Benjamin C.;Mescheloff, Asaf;Katz, Eugene A.;Elschner, Andreas;Roesch, Roland;Hoppe, Harald;Hermenau, Martin;Riede, Moritz;Krebs, Frederik C.;
2:8:55 ITO-free organic solar cells with roll-to-roll coated organic functional layers from non-halogenated solvents
DOI:10.1016/j.solmat.2014.02.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:13 AU: Kaduwal, Deepak;Schleiermacher, Hans-Frieder;Schulz-Gericke, Jan;Kroyer, Thomas;Zimmermann, Birger;Wuerfel, Uli;
2:8:56 Comparison of UV-Curing, Hotmelt, and Pressure Sensitive Adhesive as Roll-to-Roll Encapsulation Methods for Polymer Solar Cells
DOI:10.1002/adem.201300172 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:8 AU: Hosel, Markus;Sondergaard, Roar R.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:57 Synthesis and photovoltaic properties from inverted geometry cells and roll-to-roll coated large area cells from dithienopyrrole-based donor-acceptor polymers
DOI:10.1039/c2ta00695b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:14 AU: Yue, Wei;Larsen-Olsen, Thue T.;Hu, Xiaolian;Shi, Minmin;Chen, Hongzheng;Hinge, Mogens;Fojan, Peter;Krebs, Frederik C.;Yu, Donghong;
2:8:58 Edge sealing for low cost stability enhancement of roll-to-roll processed flexible polymer solar cell modules
DOI:10.1016/j.solmat.2011.09.064 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:31 AU: Tanenbaum, David M.;Dam, Henrik Friis;Roesch, Roland;Jorgensen, Mikkel;Hoppe, Harald;Krebs, Frederik C.;
2:8:59 A laboratory scale approach to polymer solar cells using one coating/printing machine, flexible substrates, no ITO, no vacuum and no spincoating
DOI:10.1016/j.solmat.2012.09.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:42 AU: Carle, Jon E.;Andersen, Thomas R.;Helgesen, Martin;Bundgaard, Eva;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:60 Inkjet Printing of Back Electrodes for Inverted Polymer Solar Cells
DOI:10.1002/aenm.201201050 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:16 AU: Angmo, Dechan;Sweelssen, Jorgen;Andriessen, Ronn;Galagan, Yulia;Krebs, Frederik C.;
2:8:61 Origin of size effect on efficiency of organic photovoltaics
DOI:10.1063/1.3567930 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:24 AU: Manor, Assaf;Katz, Eugene A.;Tromholt, Thomas;Hirsch, Baruch;Krebs, Frederik C.;
2:8:62 Effects of long-term UV-visible light irradiation in the absence of oxygen on P3HT and P3HT:PCBM blend
DOI:10.1016/j.solmat.2010.03.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:58 AU: Manceau, Matthieu;Chambon, Sylvain;Rivaton, Agnes;Gardette, Jean-Luc;Guillerez, Stephane;Lemaitre, Noella;
2:8:63 High efficient plastic solar cells fabricated with a high-throughput gravure printing method
DOI:10.1016/j.solmat.2010.05.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:59 AU: Kopola, P.;Aernouts, T.;Guillerez, S.;Jin, H.;Tuomikoski, M.;Maaninen, A.;Hast, J.;
2:8:64 Simple roll coater with variable coating and temperature control for printed polymer solar cells
DOI:10.1016/j.solmat.2011.08.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:46 AU: Dam, Henrik F.;Krebs, Frederik C.;
2:8:65 Gravure printing for three subsequent solar cell layers of inverted structures on flexible substrates
DOI:10.1016/j.solmat.2010.10.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:52 AU: Voigt, Monika M.;Mackenzie, Roderick C. I.;Yau, Chin P.;Atienzar, Pedro;Dane, Justin;Keivanidis, Panagiotis E.;Bradley, Donal D. C.;Nelson, Jenny;
2:8:66 Polymer solar cells with enhanced lifetime by improved electrode stability and sealing
DOI:10.1016/j.solmat.2013.05.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:23 AU: Roesch, Roland;Eberhardt, Kai-Rudi;Engmann, Sebastian;Gobsch, Gerhard;Hoppe, Harald;
2:8:67 Organic photovoltaic modules fabricated by an industrial gravure printing proofer
DOI:10.1016/j.solmat.2012.10.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:28 AU: Yang, Junliang;Vak, Doojin;Clark, Noel;Subbiah, Jegadesan;Wong, Wallace W. H.;Jones, David J.;Watkins, Scott E.;Wilson, Gerry;
2:8:68 Improved photovoltaic performance of silicon nanowires/conjugated polymer hybrid solar cells
DOI:10.1016/j.synthmet.2014.02.009 JN:SYNTHETIC METALS PY:2014 TC:5 AU: Chehata, N.;Ltaief, A.;Ilahi, B.;Salam, B.;Bouazizi, A.;Maaref, H.;Beyou, E.;
2:8:69 Outdoor Operational Stability of Indium-Free Flexible Polymer Solar Modules Over 1 Year Studied in India, Holland, and Denmark
DOI:10.1002/adem.201400002 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:9 AU: Angmo, Dechan;Sommeling, Paul M.;Gupta, Ritu;Hosel, Markus;Gevorgyan, Suren A.;Kroon, Jan M.;Kulkarni, Giridhar U.;Krebs, Frederik C.;
2:8:70 BCP/Ag/MoO3 Transparent Cathodes for Organic Photovoltaics
DOI:10.1002/aenm.201100411 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:26 AU: Jung, Gwan Ho;Hong, Kihyon;Dong, Wan Jae;Kim, Sungjun;Lee, Jong-Lam;
2:8:71 Dip-Coated Gold Nanoparticle Electrodes for Aqueous-Solution-Processed Large-Area Solar Cells
DOI:10.1002/aenm.201400135 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:6 AU: Du, Xiaohang;Chen, Zhaolai;Li, Zibo;Hao, Hongxia;Zeng, Qingsen;Dong, Chunwei;Yang, Bai;
2:8:72 Long-Term Stabilization of Organic Solar Cells Using Hindered Phenols as Additives
DOI:10.1021/am5024989 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Turkovic, Vida;Engmann, Sebastian;Tsierkezos, Nikos;Hoppe, Harald;Ritter, Uwe;Gobsch, Gerhard;
2:8:73 Reel-to-reel wet coating by variation of solvents and compounds of photoactive inks for polymer solar cell production
DOI:10.1016/j.solmat.2012.06.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Schroedner, Mario;Sensfuss, Steffi;Schache, Hannes;Schultheis, Karin;Welzel, Thomas;Heinemann, Klaus;Milker, Roland;Marten, Jan;Blankenburg, Lars;
2:8:74 Gravure printing inverted organic solar cells: The influence of ink properties on film quality and device performance
DOI:10.1016/j.solmat.2012.04.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:38 AU: Voigt, Monika M.;Mackenzie, Roderick C. I.;King, Simon P.;Yau, Chin P.;Atienzar, Pedro;Dane, Justin;Keivanidis, Panagiotis E.;Zadrazil, Ivan;Bradley, Donal D. C.;Nelson, Jenny;
2:8:75 Influence of PC60BM or PC70BM as electron acceptor on the performance of polymer solar cells
DOI:10.1016/j.solmat.2011.09.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:35 AU: Zhang, Fujun;Zhuo, Zuliang;Zhang, Jian;Wang, Xin;Xu, Xiaowei;Wang, Zixuan;Xin, Yusheng;Wang, Jian;Wang, Jin;Tang, Weihua;Xu, Zheng;Wang, Yongsheng;
2:8:76 All-solution-processed organic solar cells with conventional architecture
DOI:10.1016/j.solmat.2013.06.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: van Franeker, Jacobus J.;Voorthuijzen, W. Pim;Gorter, Harrie;Hendriks, Koen H.;Janssen, Rene A. J.;Hadipour, Afshin;Andriessen, Ronn;Galagan, Yulia;
2:8:77 Organic photovoltaics with thick active layers (similar to 800 nm) using a high mobility polymer donor
DOI:10.1016/j.solmat.2013.02.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: Murphy, Leanne;Hong, Wei;Aziz, Hany;Li, Yuning;
2:8:78 Retention of Power Conversion Efficiency From Small Area to Large Area Polymer Solar Cells
DOI:10.1002/adma.201204048 JN:ADVANCED MATERIALS PY:2013 TC:12 AU: Das, Anshuman J.;Narayan, K. S.;
2:8:79 Implications of the device structure on the photo-stability of organic solar cells
DOI:10.1016/j.solmat.2014.05.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Williams, Graeme;Aziz, Hany;
2:8:80 Electrical and Photo-Induced Degradation of ZnO Layers in Organic Photovoltaics
DOI:10.1002/aenm.201100227 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:30 AU: Manor, Assaf;Katz, Eugene A.;Tromholt, Thomas;Krebs, Frederik C.;
2:8:81 New Low-Bandgap Materials with Good Stabilities and Efficiencies Comparable to P3HT in R2R-Coated Solar Cells
DOI:10.1002/aenm.201100517 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:26 AU: Sondergaard, Roar;Manceau, Matthieu;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:82 The Effect of Ageing on Exciton Dynamics, Charge Separation, and Recombination in P3HT/PCBM Photovoltaic Blends
DOI:10.1002/adfm.201101923 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:19 AU: Deschler, Felix;De Sio, Antonietta;von Hauff, Elizabeth;Kutka, Peter;Sauermann, Tobias;Egelhaaf, Hans-J.;Hauch, Jens;Da Como, Enrico;
2:8:83 Effects of concentrated sunlight on organic photovoltaics
DOI:10.1063/1.3298742 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Tromholt, Thomas;Katz, Eugene A.;Hirsch, Baruch;Vossier, Alexis;Krebs, Frederik C.;
2:8:84 Performance and Stability Improvement of P3HT:PCBM-Based Solar Cells by Thermally Evaporated Chromium Oxide (CrOx) Interfacial Layer
DOI:10.1021/am100541d JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:37 AU: Wang, Mingdong;Tang, Qin;An, Jin;Xie, Fangyan;Chen, Jian;Zheng, Shizhao;Wong, King Young;Miao, Qian;Xu, Jianbin;
2:8:85 Degradation mechanism of organic solar cells with aluminum cathode
DOI:10.1016/j.solmat.2011.07.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:24 AU: Wang, Mingdong;Xie, Fangyan;Du, Jun;Tang, Qin;Zheng, Shizhao;Miao, Qian;Chen, Jian;Zhao, Ni;Xu, J. B.;
2:8:86 Degradation of semiconducting polymers by concentrated sunlight
DOI:10.1016/j.solmat.2010.09.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:31 AU: Tromholt, Thomas;Manceau, Matthieu;Helgesen, Martin;Carle, Jon E.;Krebs, Frederik C.;
2:8:87 Flexible PEDOT: PSS/ITO hybrid transparent conducting electrode for organic photovoltaics
DOI:10.1016/j.solmat.2013.03.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:11 AU: Lim, Kyounga;Jung, Sunghoon;Kim, Jong-Kuk;Kang, Jae-Wook;Kim, Joo-Hyun;Choa, Sung-Hoon;Kim, Do-Geun;
2:8:88 Embedded inkjet printed silver grids for ITO-free organic solar cells with high fill factor
DOI:10.1016/j.solmat.2014.03.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Burgues-Ceballos, Ignasi;Kehagias, Nikolaos;Sotomayor-Torres, Clivia M.;Campoy-Quiles, Mariano;Lacharmoise, Paul D.;
2:8:89 Multiple-interface tracking of degradation process in organic photovoltaics
DOI:10.1063/1.4826586 JN:AIP ADVANCES PY:2013 TC:1 AU: Zhao, Cindy X.;Deng, Lucy L.;Ma, Matthew Y.;Kish, Joseph R.;Xu, Gu;
2:8:90 Reduced initial degradation of bulk heterojunction organic solar cells by incorporation of stacked fullerene and lithium fluoride interlayers
DOI:10.1063/1.3297876 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Kawano, Kenji;Adachi, Chihaya;
2:8:91 Highly efficient indium tin oxide-free organic photovoltaics using inkjet-printed silver nanoparticle current collecting grids
DOI:10.1063/1.4765343 JN:APPLIED PHYSICS LETTERS PY:2012 TC:14 AU: Neophytou, M.;Hermerschmidt, F.;Savva, A.;Georgiou, E.;Choulis, S. A.;
2:8:92 Ultra high open circuit voltage (> 1 V) of poly-3-hexylthiophene based organic solar cells with concentrated light
DOI:10.1063/1.4798585 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Tromholt, Thomas;Madsen, Morten V.;Krebs, Frederik C.;
2:8:93 Luminescence imaging of polymer solar cells: Visualization of progressing degradation
DOI:10.1063/1.3553864 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:30 AU: Seeland, M.;Roesch, R.;Hoppe, H.;
2:8:94 Flexible silver grid/PEDOT:PSS hybrid electrodes for large area inverted polymer solar cells
DOI:10.1016/j.nanoen.2014.09.007 JN:NANO ENERGY PY:2014 TC:9 AU: Mao, Lin;Chen, Qi;Li, Yaowen;Li, Yang;Cai, Jinhua;Su, Wenming;Bai, Sai;Jin, Yizheng;Ma, Chang-Qi;Cui, Zheng;Chen, Liwei;
2:8:95 Generation of native polythiophene/PCBM composite nanoparticles via the combination of ultrasonic micronization of droplets and thermocleaving from aqueous dispersion
DOI:10.1088/0957-4484/22/47/475301 JN:NANOTECHNOLOGY PY:2011 TC:12 AU: Nan, Ya-Xiong;Hu, Xiao-Lian;Larsen-Olsen, Thue T.;Andreasen, Birgitta;Tromholt, Thomas;Andreasen, Jens W.;Tanenbaum, David M.;Chen, Hong-Zheng;Krebs, Frederik C.;
2:8:96 ITO-free inverted polymer solar cells using a GZO cathode modified by ZnO
DOI:10.1016/j.solmat.2011.01.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:34 AU: Ihn, Soo-Ghang;Shin, Kyung-Sik;Jin, Mi-Jin;Bulliard, Xavier;Yun, Sungyoung;Choi, Yeong Suk;Kim, Yungi;Park, Jong-Hwan;Sim, Myungsun;Kim, Min;Cho, Kilwon;Kim, Tae Sang;Choi, Dukhyun;Choi, Jae-Young;Choi, Woong;Kim, Sang-Woo;
2:8:97 Quality control of roll-to-roll processed polymer solar modules by complementary imaging methods
DOI:10.1016/j.solmat.2011.10.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:25 AU: Roesch, Roland;Krebs, Frederik C.;Tanenbaum, David M.;Hoppe, Harald;
2:8:98 A critical look at organic photovoltaic fabrication methodology: Defining performance enhancement parameters relative to active area
DOI:10.1016/j.solmat.2014.07.054 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Rozanski, L. J.;Smith, Chris T. G.;Gandhi, Keyur K.;Beliatis, Michail J.;Dabera, G. Dinesha M. R.;Jayawardena, K. D. G. Imalka;Adikaari, A. A. Damitha T.;Kearney, Michael J.;Silva, S. Ravi P.;
2:8:99 Solution-processed silver opaque electrode for organic solar devices
DOI:10.1016/j.solmat2014.03.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Betancur, Rafael;Jaramillo, Franklin;
2:8:100 Effect of light induced degradation on electrical transport and charge extraction in polythiophene:Fullerene (P3HT:PCBM) solar cells
DOI:10.1016/j.solmat.2013.09.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:14 AU: Khelifi, S.;Voroshazi, E.;Spoltore, D.;Piersimoni, F.;Bertho, S.;Aernouts, T.;Manca, J.;Lauwaert, J.;Vrielinck, H.;Burgelman, M.;
2:8:101 Modeling the temperature induced degradation kinetics of the short circuit current in organic bulk heterojunction solar cells
DOI:10.1063/1.3391669 JN:APPLIED PHYSICS LETTERS PY:2010 TC:30 AU: Conings, Bert;Bertho, Sabine;Vandewal, Koen;Senes, Alessia;D'Haen, Jan;Manca, Jean;Janssen, Rene A. J.;
2:8:102 Low-cost upscaling compatibility of five different ITO-free architectures for polymer solar cells
DOI:10.1002/app.39200 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:13 AU: Angmo, Dechan;Gonzalez-Valls, Irene;Veenstra, Sjoerd;Verhees, Wiljan;Sapkota, Subarna;Schiefer, Sebastian;Zimmermann, Birger;Galagan, Yulia;Sweelssen, Jorgen;Lira-Cantu, Monica;Andriessen, Ronn;Kroon, Jan M.;Krebs, Frederik C.;
2:8:103 The degradation of indium tin oxide/pentacene/fullerene/tris-8-hydroxy-quinolinato aluminum/aluminum heterojunction organic solar cells: By oxygen or moisture?
DOI:10.1016/j.solmat.2010.01.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:31 AU: Yang, Hong Bin;Song, Qun Lian;Gong, Cheng;Li, Chang Ming;
2:8:104 Aerosol jet printed grid for ITO-free inverted organic solar cells
DOI:10.1016/j.solmat.2012.06.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Kopola, Palvi;Zimmermann, Birger;Filipovic, Aleksander;Schleiermacher, Hans-Frieder;Greulich, Johannes;Rousu, Sanna;Hast, Jukka;Myllyla, Risto;Wuerfel, Uli;
2:8:105 Delineation of the effects of water and oxygen on the degradation of organic photovoltaic devices
DOI:10.1016/j.solmat.2012.06.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:18 AU: Nikiforov, Maxim P.;Strzalka, Joseph;Darling, Seth B.;
2:8:106 Semi-transparent organic inverted photovoltaic cells with solution processed top electrode
DOI:10.1016/j.solmat.2012.09.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:17 AU: Kim, Hyeong Pil;Lee, Hee Jae;Yusoff, Abd. Rashid bin Mohd;Jang, Jin;
2:8:107 Inkjet printing processing conditions for bulk-heterojunction solar cells using two high-performing conjugated polymer donors
DOI:10.1016/j.solmat.2014.07.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Hermerschmidt, Felix;Papagiorgis, Paris;Savva, Achilleas;Christodoulou, Constantinos;Itskos, Grigorios;Choulis, Stelios A.;
2:8:108 A rational method for developing and testing stable flexible indium- and vacuum-free multilayer tandem polymer solar cells comprising up to twelve roll processed layers
DOI:10.1016/j.solmat.2013.07.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:29 AU: Andersen, Thomas R.;Dam, Henrik E.;Andreasen, Birgitta;Hosel, Markus;Madsen, Morten V.;Gevorgyan, Suren A.;Sondergaard, Roar R.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:109 Failure Modes and Fast Repair Procedures in High Voltage Organic Solar Cell Installations
DOI:10.1002/aenm.201301625 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Hosel, Markus;Sondergaard, Roar R.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:110 Scaling Up ITO-Free Solar Cells
DOI:10.1002/aenm.201300498 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:13 AU: Galagan, Yulia;Coenen, Erica W. C.;Zimmermann, Birger;Slooff, Lenneke H.;Verhees, Wiljan J. H.;Veenstra, Sjoerd C.;Kroon, Jan M.;Jorgensen, Mikkel;Krebs, Frederik C.;Andriessen, Ronn;
2:8:111 Origin of Radiation-Induced Degradation in Polymer Solar Cells
DOI:10.1002/adfm.201000374 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:39 AU: Kumar, Ankit;Devine, Roderick;Mayberry, Clay;Lei, Bao;Li, Gang;Yang, Yang;
2:8:112 The Photo-Stability of Polymer Solar Cells: Contact Photo-Degradation and the Benefits of Interfacial Layers
DOI:10.1002/adfm.201202567 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:23 AU: Williams, Graeme;Wang, Qi;Aziz, Hany;
2:8:113 Understanding the Improved Stability of Hybrid Polymer Solar Cells Fabricated with Copper Electrodes
DOI:10.1021/am200067d JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:11 AU: Reeja-Jayan, B.;Manthiram, Arumugam;
2:8:114 Interface-Induced Crystalline Ordering and Favorable Morphology for Efficient Annealing-Free Poly(3-hexylthiophene): Fullerene Derivative Solar Cells
DOI:10.1021/am3017653 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:13 AU: Shao, Shuyan;Liu, Jian;Zhang, Jidong;Zhang, Baohua;Xie, Zhiyuan;Geng, Yanhou;Wang, Lixiang;
2:8:115 Discrepancy of Optimum Ratio in Bulk Heterojunction Photovoltaic Devices: Initial Cell Efficiency vs Long-Term Stability
DOI:10.1021/am302185f JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Park, Hyunmin;Lee, Keel Yong;Kim, Wanjung;Shin, Hee-Won;Wang, Dong Hwan;Ahn, Tae Kyu;Park, Jong Hyeok;
2:8:116 A simple and efficient solar cell parameter extraction method from a single current-voltage curve
DOI:10.1063/1.3632971 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:36 AU: Zhang, Chunfu;Zhang, Jincheng;Hao, Yue;Lin, Zhenhua;Zhu, Chunxiang;
2:8:117 Matter of minutes degradation of poly(3-hexylthiophene) under illumination in air
DOI:10.1039/c1jm14925c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Cook, Steffan;Furube, Akihiro;Katoh, Ryuzi;
2:8:118 OPV for mobile applications: an evaluation of roll-to-roll processed indium and silver free polymer solar cells through analysis of life cycle, cost and layer quality using inline optical and functional inspection tools
DOI:10.1039/c3ta01611k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:27 AU: Espinosa, Nieves;Lenzmann, Frank O.;Ryley, Stephen;Angmo, Dechan;Hosel, Markus;Sondergaard, Roar R.;Huss, Dennis;Dafinger, Simone;Gritsch, Stefan;Kroon, Jan M.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:119 Solution processed large area fabrication of Ag patterns as electrodes for flexible heaters, electrochromics and organic solar cells
DOI:10.1039/c4ta00301b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:9 AU: Gupta, Ritu;Walia, Sunil;Hosel, Markus;Jensen, Jacob;Angmo, Dechan;Krebs, Frederik C.;Kulkarni, Giridhar U.;
2:8:120 A patent landscape analysis for organic photovoltaic solar cells: Identifying the technology's development phase
DOI:10.1016/j.renene.2013.01.027 JN:RENEWABLE ENERGY PY:2013 TC:4 AU: Lizin, Sebastien;Leroy, Julie;Delvenne, Catherine;Dijk, Marc;De Schepper, Ellen;Van Passel, Steven;
2:8:121 Annealing dependent performance of organic bulk-heterojunction solar cells: A theoretical perspective
DOI:10.1016/j.solmat.2011.07.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:34 AU: Ray, Biswajit;Nair, Pradeep R.;Alam, Muhammad A.;
2:8:122 Mechanism for dimethylformamide-treatment of poly(3,4-ethylenedioxythiophene): poly(styrene sulfonate) layer to enhance short circuit current of polymer solar cells
DOI:10.1016/j.solmat.2011.12.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Gong, Cheng;Yang, Hong Bin;Song, Qun Liang;Lu, Zhi Song;Li, Chang Ming;
2:8:123 All-solution-processed ITO-free polymer solar cells fabricated on copper sheets
DOI:10.1016/j.solmat.2011.09.058 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Kim, Tae-Soo;Na, Seok-In;Oh, Seung-Hwan;Kang, Rira;Yu, Byung-Kwan;Yeo, Jun-Seok;Lee, Jongjin;Kim, Dong-Yu;
2:8:124 Enhancing functionality of ZnO hole blocking layer in organic photovoltaics
DOI:10.1016/j.solmat.2011.11.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Manor, Assaf;Katz, Eugene A.;Tromholt, Thomas;Krebs, Frederik C.;
2:8:125 Slot-die coating parameters of the low-viscosity bulk-heterojunction materials used for polymer solar cells
DOI:10.1016/j.solmat.2013.01.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Hong, Soonil;Lee, Jongjin;Kang, Hongkyu;Lee, Kwanghee;
2:8:126 Top-illuminated organic solar cells fabricated by vacuum-free and all-solution processes
DOI:10.1016/j.solmat.2012.09.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Chang, Yi-Ming;Chen, Chih-Ping;Ding, Jau-Min;Leu, Chi-Yi;Lee, Mei-Ju;Chen, Ru-De;
2:8:127 Solution processing of back electrodes for organic solar cells with inverted architecture
DOI:10.1016/j.solmat.2014.07.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Galagan, Y.;Shanmugam, S.;Teunissen, J. P.;Eggenhuisen, T. M.;Biezemans, A. F. K. V.;Van Gijseghem, T.;Groen, W. A.;Andriessen, R.;
2:8:128 Low-temperature photo-activated inorganic electron transport layers for flexible inverted polymer solar cells
DOI:10.1007/s00339-014-8407-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Lee, Jung-Wook;Lee, Soo-Hyoung;Kim, Yong-Hoon;Park, Sung Kyu;
2:8:129 Evaporation-free inverted organic photovoltaics using a mixture of silver nanoparticle ink formulations for solution-processed top electrodes
DOI:10.1063/1.4903893 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Georgiou, Efthymios;Savva, Achilleas;Neophytou, Marios;Hermerschmidt, Felix;Demosthenous, Tasos;Choulis, Stelios A.;
2:8:130 The fabrication of polyfluorene and polycarbazole-based photovoltaic devices using an air-stable process route
DOI:10.1063/1.4902990 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bovill, E.;Yi, H.;Iraqi, A.;Lidzey, D. G.;
2:8:131 Sodium bromide electron-extraction layers for polymer bulk-heterojunction solar cells
DOI:10.1063/1.4868115 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Gao, Zhi;Qu, Bo;Xiao, Lixin;Chen, Zhijian;Zhang, Lipei;Gong, Qihuang;
2:8:132 Marked improvement in the stability of small molecule organic photovoltaics by interfacial modification using self-assembled monolayers to prevent indium diffusion into the active layer
DOI:10.1039/c3ta01229h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:8 AU: Chen, Ming-Chung;Chiou, Yi-Shiang;Chiu, Jian-Ming;Tedla, Abebe;Tai, Yian;
2:8:133 Definition of encapsulation barrier requirements: A method applied to organic solar cells
DOI:10.1016/j.solmat.2011.01.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:43 AU: Cros, S.;de Bettignies, R.;Berson, S.;Bailly, S.;Maisse, P.;Lemaitre, N.;Guillerez, S.;
2:8:134 Enhanced performance and stability in polymer photovoltaic cells using lithium benzoate as cathode interfacial layer
DOI:10.1016/j.solmat.2011.01.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:25 AU: Wang, Yaling;Yang, Liying;Yao, Cong;Qin, Wenjing;Yin, Shougen;Zhang, Fengling;
2:8:135 Degradation mechanisms in organic solar cells: Localized moisture encroachment and cathode reaction
DOI:10.1016/j.solmat.2012.04.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Wang, Xizu;Zhao, Cindy Xinxin;Xu, Gu;Chen, Zhi-Kuan;Zhu, Furong;
2:8:136 The effect of barrier performance on the lifetime of small-molecule organic solar cells
DOI:10.1016/j.solmat.2011.09.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:33 AU: Hermenau, Martin;Schubert, Sylvio;Klumbies, Hannes;Fahlteich, John;Mueller-Meskamp, Lars;Leo, Karl;Riede, Moritz;
2:8:137 Investigation of photodegradation in polymer solar cells blended with different fullerenes derivatives
DOI:10.1016/j.solmat.2014.01.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Endale, Tsegaye;Sovernigo, Enrico;Radivo, Andrea;Dal Zilio, Simone;Pozzato, Alessandro;Yohannes, Teketel;Vaccari, Lisa;Tormen, Massimo;
2:8:138 Two step sintering process and metal grid design optimization for highly efficient ITO free organic photovoltaics
DOI:10.1016/j.solmat.2013.11.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Neophytou, Marios;Georgiou, Efthyrnios;Fyrillas, Marios M.;Choulis, Stelios A.;
2:8:139 Stabilization mechanisms of aluminum-titanium bilayer cathodes in organic solar cells
DOI:10.1063/1.4824209 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Cao, Huanqi;Tanaka, Masaki;Ishikawa, Ken;
2:8:140 Influence of the Annealing Temperature on the Photovoltaic Performance and Film Morphology Applying Novel Thermocleavable Materials
DOI:10.1021/cm1019537 JN:CHEMISTRY OF MATERIALS PY:2010 TC:22 AU: Helgesen, Martin;Bjerring, Morten;Nielsen, Niels Chr.;Krebs, Frederik C.;
2:8:141 Upscaling from single cells to modules - fabrication of vacuum- and ITO-free polymer solar cells on flexible substrates with long lifetime
DOI:10.1039/c3tc31859a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:29 AU: Carle, Jon E.;Helgesen, Martin;Madsen, Morten V.;Bundgaard, Eva;Krebs, Frederik C.;
2:8:142 Reversible degradation of inverted organic solar cells by concentrated sunlight
DOI:10.1088/0957-4484/22/22/225401 JN:NANOTECHNOLOGY PY:2011 TC:15 AU: Tromholt, Thomas;Manor, Assaf;Katz, Eugene A.;Krebs, Frederik C.;
2:8:143 A study of stabilization of P3HT/PCBM organic solar cells by photochemical active TiOx layer
DOI:10.1016/j.solmat.2010.12.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:30 AU: Li, Jiguang;Kim, Sunhee;Edington, Sean;Nedy, Joseph;Cho, Shinuk;Lee, Kwanghee;Heeger, Alan J.;Gupta, Mool C.;Yates, John T., Jr.;
2:8:144 ITO-free inverted polymer/fullerene solar cells: Interface effects and comparison of different semi-transparent front contacts
DOI:10.1016/j.solmat.2011.09.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Wilken, Sebastian;Hoffmann, Thomas;von Hauff, Elizabeth;Borchert, Holger;Parisi, Juergen;
2:8:145 Intrinsic burn-in efficiency loss of small-molecule organic photovoltaic cells due to exciton-induced trap formation
DOI:10.1016/j.solmat.2013.08.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:12 AU: Tong, Xiaoran;Wang, Nana;Slootsky, Michael;Yu, Junsheng;Forrest, Stephen R.;
2:8:146 Direct effect of partially photooxidized poly(3-hexylthiophene) on the device characteristics of a bulk heterojunction solar cell
DOI:10.1016/j.solmat.2013.09.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Aoyama, Yoshinori;Yamanari, Toshihiro;Ohashi, Noboru;Shibata, Yosei;Suzuki, Yasumasa;Mizukado, Junji;Suda, Hiroyuki;Yoshida, Yuji;
2:8:147 Further insights into the photodegradation of poly(3-hexylthiophene) by means of X-ray photoelectron spectroscopy
DOI:10.1016/j.tsf.2010.06.042 JN:THIN SOLID FILMS PY:2010 TC:35 AU: Manceau, Matthieu;Gaume, Julien;Rivaton, Agnes;Gardette, Jean-Luc;Monier, Guillaume;Bideux, Luc;
2:8:148 Evidence of Harvesting Electricity by Exciton Recombination in an n-n Type Solar Cell
DOI:10.1021/ja1003735 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:24 AU: Song, Qun Liang;Bin Yang, Hong;Gan, Ye;Gong, Cheng;Li, Chang Ming;
2:8:149 Spatial degradation mapping and component-wise degradation tracking in polymer-fullerene blends
DOI:10.1039/c4tc00028e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Pedersen, E. B. L.;Tromholt, T.;Madsen, Morten V.;Bottiger, A. P. L.;Weigand, M.;Krebs, F. C.;Andreasen, J. W.;
2:8:150 Effect of cathode buffer layer on the stability of polymer bulk heterojunction solar cells
DOI:10.1016/j.solmat.2010.05.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:28 AU: Yang, Liying;Xu, Hao;Tian, Hui;Yin, Shougen;Zhang, Fengling;
2:8:151 Investigations of efficiency improvements in poly(3-hexylthiophene) based organic solar cells using calcium cathodes
DOI:10.1016/j.solmat.2011.07.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Tseng, Wei-Hsuan;Chen, Mei-Hsin;Wang, Jeng-Yu;Tseng, Chun-Tse;Lo, Hung;Wang, Po-Sheng;Wu, Chih-I;
2:8:152 Environment-friendly energy from all-carbon solar cells based on fullerene-C-60
DOI:10.1016/j.solmat.2010.12.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:8 AU: Chen, Li Jia;Song, Qun Liang;Xiong, Zu Hong;Huang, Jun Hua;He, Fu;
2:8:153 All-water-solution processed solar cells based on PPV and TiO2 nanocrystals
DOI:10.1016/j.solmat.2012.04.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Dong, Qingfeng;Yu, Weili;Li, Zaifang;Yao, Shiyu;Zhang, Xiaoyu;Yang, Bai;Im, Chan;Tian, Wenjing;
2:8:154 The future of organic photovoltaic solar cells as a direct power source for consumer electronics
DOI:10.1016/j.solmat.2012.04.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:14 AU: Lizin, Sebastien;Van Passel, Steven;De Schepper, Ellen;Vranken, Liesbet;
2:8:155 Application of optical coherence tomography (OCT) as a 3-dimensional imaging technique for roll-to-roll coated polymer solar cells
DOI:10.1016/j.solmat.2011.10.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Thrane, Lars;Jorgensen, Thomas M.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:156 Technological status of organic photovoltaics (OPV)
DOI:10.1016/j.solmat.2013.08.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:20 AU: Carle, Jon E.;Krebs, Frederik C.;
2:8:157 Optimizing ZnO nanoparticle surface for bulk heterojunction hybrid solar cells
DOI:10.1016/j.solmat.2013.07.046 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: Shao, Shuyan;Zheng, Kaibo;Zidek, Karel;Chabera, Pavel;Pullerits, Tonu;Zhang, Fengling;
2:8:158 Semitransparent OPV modules pass environmental chamber test requirements
DOI:10.1016/j.solmat.2012.09.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:17 AU: Yan, Fadong;Noble, Jay;Peltola, Jorma;Wicks, Stephen;Balasubramanian, Srini;
2:8:159 ITO-free photovoltaic cell utilizing a high-resolution silver grid current collecting layer
DOI:10.1016/j.solmat.2013.01.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:15 AU: Li, Yaowen;Mao, Lin;Gao, Yulong;Zhang, Pan;Li, Chao;Ma, Changqi;Tu, Yingfeng;Cui, Zheng;Chen, Liwei;
2:8:160 Spatially resolved photocurrent measurements of organic solar cells: Tracking water ingress at edges and pinholes
DOI:10.1016/j.solmat.2012.10.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:14 AU: Feron, Krishna;Nagle, Timothy J.;Rozanski, Lynn J.;Gong, Bill B.;Fell, Christopher J.;
2:8:161 Scratch resistance and durability enhancement of bulk heterojunction organic photovoltaics using ultra-thin alumina layers
DOI:10.1016/j.solmat.2014.05.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Clark, Michael D.;Maschmann, Matthew R.;Patel, Romesh J.;Leever, Benjamin J.;
2:8:162 Assessing the origin of the S-shaped I-V curve in organic solar cells: An improved equivalent circuit model
DOI:10.1016/j.solmat.2013.11.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Zuo, Lijian;Yao, Jizhong;Li, Hanying;Chen, Hongzheng;
2:8:163 Analysis of the degradation mechanism of ITO-free organic solar cells under UV radiation
DOI:10.1016/j.solmat.2013.10.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Sapkota, Subarna Babu;Fischer, Martin;Zimmermann, Birger;Wuerfel, Uli;
2:8:164 Comparison of Fast Roll-to-Roll Flexographic, Inkjet, Flatbed, and Rotary Screen Printing of Metal Back Electrodes for Polymer Solar Cells
DOI:10.1002/adem.201300011 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:19 AU: Hosel, Markus;Sondergaard, Roar R.;Angmo, Dechan;Krebs, Frederik C.;
2:8:165 Performance and Stability of Lead Perovskite/TiO2, Polymer/PCBM, and Dye Sensitized Solar Cells at Light Intensities up to 70 Suns
DOI:10.1002/adma.201402612 JN:ADVANCED MATERIALS PY:2014 TC:10 AU: Law, Chunhung;Miseikis, Lukas;Dimitrov, Stiochko;Shakya-Tuladhar, Pabitra;Li, Xiaoe;Barnes, Piers R. F.;Durrant, James;O'Regan, Brian C.;
2:8:166 Long-lasting flexible organic solar cells stored and tested entirely in air
DOI:10.1063/1.3672222 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Omrane, B.;Landrock, C. K.;Chuo, Y.;Hohertz, D.;Aristizabal, J.;Kaminska, B.;Kavanagh, K. L.;
2:8:167 Device lifetime improvement of polymer-based bulk heterojunction solar cells by incorporating copper oxide layer at Al cathode
DOI:10.1063/1.3580629 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Wang, Mingdong;Xie, Fangyan;Xie, Weiguang;Zheng, Shizhao;Ke, Ning;Chen, Jian;Zhao, Ni;Xu, J. B.;
2:8:168 Cesium-doped zinc oxide as electron selective contact in inverted organic photovoltaics
DOI:10.1063/1.4811088 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Savva, Achilleas;Choulis, Stelios A.;
2:8:169 Comparative Degradation and Regeneration of Polymer Solar Cells with Different Cathodes
DOI:10.1021/am500637n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Kumar, Pankaj;Bilen, Chhinder;Feron, Krishna;Nicolaidis, Nicolas C.;Gong, Bill B.;Zhou, Xiaojing;Belcher, Warwick J.;Dastoor, Paul C.;
2:8:170 Effects of the negative electrode contact on the performance of poly(hexylthiophene):6,6-phenyl-C-61-butyric acid methyl ester based organic solar cells
DOI:10.1063/1.4838060 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Nguyen, T. P.;Girault, P.;Renaud, C.;Reisdorffer, F.;Le Rendu, P.;Wang, L.;
2:8:171 Roll-to-roll embedded conductive structures integrated into organic photovoltaic devices
DOI:10.1088/0957-4484/24/48/484014 JN:NANOTECHNOLOGY PY:2013 TC:12 AU: van de Wiel, H. J.;Galagan, Y.;van Lammeren, T. J.;de Riet, J. F. J.;Gilot, J.;Nagelkerke, M. G. M.;Lelieveld, R. H. C. A. T.;Shanmugam, S.;Pagudala, A.;Hui, D.;Groen, W. A.;
2:8:172 Effect of indium and tin contamination on the efficiency and electronic properties of organic bulk hetero-junction solar cells
DOI:10.1016/j.solmat.2011.07.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Sharma, Anirudh;Watkins, Scott E.;Lewis, David A.;Andersson, Gunther;
2:8:173 Organic photovoltaics for low light applications
DOI:10.1016/j.solmat.2011.07.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:18 AU: Steim, Roland;Ameri, Tayebeh;Schilinsky, Pavel;Waldauf, Christoph;Dennler, Gilles;Scharber, Markus;Brabec, Christoph J.;
2:8:174 Influence of doped PEDOT:PSS on the performance of polymer solar cells
DOI:10.1016/j.solmat.2011.04.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:24 AU: Hu, Ziyang;Zhang, Jianjun;Hao, Zhihong;Zhao, Ying;
2:8:175 Light-induced degradation of the P3HT-based solar cells active layer
DOI:10.1016/j.solmat.2010.09.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:42 AU: Manceau, Matthieu;Rivaton, Agnes;Gardette, Jean-Luc;Guillerez, Stephane;Lemaitre, Noella;
2:8:176 Improved lifetime in organic solar cells using a bilayer cathode of organic interlayer/Al
DOI:10.1016/j.solmat.2012.01.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Jeon, Soon Ok;Lee, Jun Yeob;
2:8:177 The use of polyurethane as encapsulating method for polymer solar cells-An inter laboratory study on outdoor stability in 8 countries
DOI:10.1016/j.solmat.2011.12.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:20 AU: Sondergaard, Roar R.;Makris, Theodoros;Lianos, Panagiotis;Manor, Assaf;Katz, Eugene A.;Gong, Wei;Tuladhar, Sachetan M.;Nelson, Jenny;Toumi, Ralf;Sommeling, Paul;Veenstra, Sjoerd C.;Rivaton, Agnes;Dupuis, Aurelie;Teran-Escobar, Gerardo;Lira-Cantu, Monica;Sapkota, Subarna B.;Zimmermann, Birger;Wuerfel, Uli;Matzarakis, Andreas;Krebs, Frederik C.;
2:8:178 Anatase colloidal solutions suitable for inkjet printing: Enhancing lifetime of hybrid organic solar cells
DOI:10.1016/j.solmat.2013.04.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Karpinski, Arkadiusz;Berson, Solenn;Terrisse, Helene;Mancini-Le Granvalet, Maryline;Guillerez, Stephane;Brohan, Luc;Richard-Plouet, Mireille;
2:8:179 Influence of hole extraction efficiency on the performance and stability of organic solar Cells
DOI:10.1016/j.solmat.2013.04.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Ecker, Bernhard;Posdorfer, Joerg;von Hauff, Elizabeth;
2:8:180 Promising long-term stability of encapsulated ITO-free bulk-heterojunction organic solar cells under different aging conditions
DOI:10.1016/j.solmat.2014.07.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Sapkota, Subarna Babu;Spies, Annika;Zimmermann, Birger;Duerr, Ines;Wuerfel, Uli;
2:8:181 Worldwide outdoor round robin study of organic photovoltaic devices and modules
DOI:10.1016/j.solmat.2014.07.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Madsen, Morten V.;Gevorgyan, Suren A.;Pacios, R.;Ajuria, J.;Etxebarria, I.;Kettle, Jeff;Bristow, Noel D.;Neophytou, Marios;Choulis, Stelios A.;Roman, Lucimara Stolz;Yohannes, Teketel;Cester, Andrea;Cheng, Pei;Zhan, Xiaowei;Wu, Jiang;Xie, Zhiyuan;Tu, Wei-Chen;He, Jr-Hau;Fell, Christopher J.;Anderson, Kenrick;Hermenau, Martin;Bartesaghi, Davide;Koster, L. Jan Anton;Machui, Florian;Gonzalez-Valls, Irene;Lira-Cantu, Monica;Khlyabich, Petr P.;Thompson, Barry C.;Gupta, Ritu;Shanmugam, Kiruthika;Kulkarni, Giridhar U.;Galagan, Yulia;Urbina, Antonio;Abad, Jose;Roesch, Roland;Hoppe, Harald;Morvillo, P.;Bobeico, E.;Panaitescu, Eugen;Menon, Latika;Luo, Qun;Wu, Zhenwu;Ma, Changqi;Hambarian, Artak;Melikyan, Varuzhan;Hambsch, M.;Burn, Paul L.;Meredith, Paul;Rath, Thomas;Dunst, Sebastian;Trimmel, Gregor;Bardizza, Giorgio;Muellejans, Harald;Goryachev, A. E.;Misra, Ravi K.;Katz, Eugene A.;Takagi, Katsuhiko;Magaino, Shinichi;Saito, Hidenori;Aoki, Daisuke;Sommeling, Paul M.;Kroon, Jan M.;Vangerven, Tim;Manca, Jean;Kesters, Jurgen;Maes, Wouter;Bobkova, Olga D.;Trukhanov, Vasily A.;Paraschuk, Dmitry Yu.;Castro, Fernando A.;Blakesley, James;Tuladhar, Sachetan M.;Roehr, Jason Alexander;Nelson, Jenny;Xia, Jiangbin;Parlak, Elif Alturk;Tumay, Tulay Ash;Egelhaaf, Hans-Joachim;Tanenbaum, David M.;Ferguson, Gretta Mae;Carpenter, Robert;Chen, Hongzheng;Zimmermann, Birger;Hirsch, Lionel;Wantz, Guillaume;Sun, Ziqi;Singh, Pradeep;Bapat, Chaitnya;Offermans, Ton;Krebs, Frederik C.;
2:8:182 Mechanically robust, ITO-free, 4.8% efficient, all-solution processed organic solar cells on flexible PET foil
DOI:10.1016/j.solmat.2014.07.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Nickel, Felix;Haas, Thomas;Wegner, Eduard;Bahro, Daniel;Salehin, Sayedus;Kraft, Oliver;Gruber, Patric A.;Colsmann, Alexander;
2:8:183 Effect of solvent on large-area polymer-fullerene solar cells fabricated by a slot-die coating method
DOI:10.1016/j.solmat.2014.03.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Hong, Soonil;Yi, Minjin;Kang, Hongkyu;Kong, Jaemin;Lee, Woontae;Kim, Jae-Ryoung;Lee, Kwanghee;
2:8:184 Influence of ZnO sol-gel electron transport layer processing on BHJ active layer morphology and OPV performance
DOI:10.1016/j.solmat.2014.02.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Barrera, Diego;Lee, Yun-Ju;Hsu, Julia W. P.;
2:8:185 Degradation of electrical properties of PTB1:PCBM solar cells under different environments
DOI:10.1016/j.solmat.2014.02.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Balderrama, V. S.;Estrada, M.;Han, P. L.;Granero, P.;Pallares, J.;Ferre-Borrull, J.;Marsal, L. F.;
2:8:186 Water ingress into and climate dependent lifetime of organic photovoltaic cells investigated by calcium corrosion tests
DOI:10.1016/j.solmat.2013.10.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:16 AU: Klumbies, Hannes;Karl, Markus;Hermenau, Martin;Roesch, Roland;Seeland, Marco;Hoppe, Harald;Mueller-Meskamp, Lars;Leo, Karl;
2:8:187 Life cycle analysis of organic tandem solar cells: When are they warranted?
DOI:10.1016/j.solmat.2013.09.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Espinosa, Nieves;Krebs, Frederik C.;
2:8:188 Methods in determination of morphological degradation of polymer:fullerene solar cells
DOI:10.1016/j.synthmet.2011.09.014 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Turkovic, Vida;Engmann, Sebastian;Gobsch, Gerhard;Hoppe, Harald;
2:8:189 The Critical Role of Processing and Morphology in Determining Degradation Rates in Polymer Solar Cells
DOI:10.1002/aenm.201000030 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:17 AU: Kumar, Ankit;Hong, Ziruo;Sista, Srinivas;Yang, Yang;
2:8:190 Slot-Die Coating of a High Performance Copolymer in a Readily Scalable Roll Process for Polymer Solar Cells
DOI:10.1002/aenm.201300324 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:11 AU: Helgesen, Martin;Carle, Jon Eggert;Krebs, Frederik C.;
2:8:191 Quality control of polymer solar modules by lock-in thermography
DOI:10.1063/1.3272709 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:19 AU: Hoppe, Harald;Bachmann, Jonas;Muhsin, Burhan;Druee, Karl-Heinz;Riedel, Ingo;Gobsch, Gerhard;Buerhop-Lutz, Claudia;Brabec, Christoph J.;Dyakonov, Vladimir;
2:8:192 Quantitative analysis of electroluminescence images from polymer solar cells
DOI:10.1063/1.3677981 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Seeland, Marco;Roesch, Roland;Hoppe, Harald;
2:8:193 ToF-SIMS depth profiling of organic solar cell layers using an Ar cluster ion source
DOI:10.1116/1.4793730 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:3 AU: Smentkowski, Vincent S.;Zorn, Gilad;Misner, Amanda;Parthasarathy, Gautam;Couture, Aaron;Tallarek, Elke;Hagenhoff, Birgit;
2:8:194 Size-dependent behavior of polymer solar cells measured under partial illumination
DOI:10.1016/j.solmat.2011.08.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:5 AU: Gao, Dong;Seferos, Dwight S.;
2:8:195 A correlation study between barrier film performance and shelf lifetime of encapsulated organic solar cells
DOI:10.1016/j.solmat.2012.02.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:22 AU: Kim, Namsu;Potscavage, William J., Jr.;Sundaramoothi, Annapoorani;Henderson, Clifford;Kippelen, Bernard;Graham, Samuel;
2:8:196 The annealing effects of tungsten oxide interlayer based on organic photovoltaic cells
DOI:10.1016/j.solmat.2013.05.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Lee, Sang Bin;Beak, Jin Ho;Kang, Byung Hyun;Dong, Ki-Young;Yu, Youn-Yeol;Lee, Yang Doo;Ju, Byeong-Kwon;
2:8:197 Gas barrier properties of solution processed composite multilayer structures for organic solar cells encapsulation
DOI:10.1016/j.solmat.2013.03.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: Morlier, Arnaud;Cros, Stephane;Garandet, Jean-Paul;Alberola, Nicole;
2:8:198 Solution processed encapsulation for organic photovoltaics
DOI:10.1016/j.solmat.2012.12.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Lee, Hee-Jae;Kim, Hyeong-Pil;Kim, Hyo-Min;Youn, Jun-Ho;Nam, Dong-Hee;Lee, Young-Gu;Lee, Jueng-Gil;Yusoff, Abd Rashid Bin Mohd;Jang, Jin;
2:8:199 Improvement in stability of bilayer organic solar cells using an ultra-thin Au layer
DOI:10.1016/j.solmat.2012.12.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:5 AU: Ardestani, Saeed Saleh;Ajeian, Rasul;Badrabadi, Moosa Nakhaee;Tavakkoli, Mohammad;
2:8:200 Investigating electrodes degradation in organic photovoltaics through reverse engineering under accelerated humidity lifetime conditions
DOI:10.1016/j.solmat.2014.07.051 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Drakonakis, Vasileios M.;Savva, Achilleas;Kokonou, Maria;Choulis, Stelios A.;
2:8:201 Flexible ITO-free polymer solar cells based on highly conductive PEDOT:PSS and a printed silver grid
DOI:10.1016/j.solmat.2014.08.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Muhsin, Burhan;Roesch, Roland;Gobsch, Gerhard;Hoppe, Harald;
2:8:202 A projection of commercial-scale organic photovoltaic module costs
DOI:10.1016/j.solmat.2013.07.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:14 AU: Mulligan, Cara J.;Wilson, Mitchell;Bryant, Glenn;Vaughan, Ben;Zhou, Xiaojing;Belcher, Warwick J.;Dastoor, Paul C.;
2:8:203 The Effect of PCBM Dimerization on the Performance of Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201300693 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:9 AU: Distler, Andreas;Sauermann, Tobias;Egelhaaf, Hans-Joachim;Rodman, Sheila;Waller, Dave;Cheon, Kap-Soo;Lee, Mike;Guldi, Dirk M.;
2:8:204 Electroluminescence imaging of organic photovoltaic modules
DOI:10.1063/1.3521259 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Hoyer, U.;Wagner, M.;Swonke, Th.;Bachmann, J.;Auer, R.;Osvet, A.;Brabec, C. J.;
2:8:205 Study of organic photovoltaics by localized concentrated sunlight: Towards optimization of charge collection in large-area solar cells
DOI:10.1063/1.3656276 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Manor, Assaf;Katz, Eugene A.;Andriessen, Ronn;Galagan, Yulia;
2:8:206 Enhanced regeneration of degraded polymer solar cells by thermal annealing
DOI:10.1063/1.4878408 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Kumar, Pankaj;Bilen, Chhinder;Feron, Krishna;Zhou, Xiaojing;Belcher, Warwick J.;Dastoor, Paul C.;
2:8:207 Model for the J-V characteristics of degraded polymer solar cells
DOI:10.1063/1.4794356 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Kumar, Pankaj;Gaur, Ankita;
2:8:208 Core-shell composite latexes derived from PEDOT:PSS dispersion and the preparation of conductive, flexible and transparent films
DOI:10.1039/c3tc30907j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Chen, Hsueh-Yung;Shen, Hsiu-Ping;Wu, Chieh-Han;Chiu, Wen-Yen;Chen, Wen-Chang;Tai, Horng-Jer;
2:8:209 Improved Reliability of Small Molecule Organic Solar Cells by Double Anode Buffer Layers
DOI:10.1155/2014/741761 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Huang, Pao-Hsun;Huang, Chien-Jung;Chen, Kan-Lin;Ke, Jhong-Ciao;Wang, Yeong-Her;Kang, Chih-Chieh;
2:8:210 Utilizing insulating nanoparticles as the spacer in laminated flexible polymer solar cells for improved mechanical stability
DOI:10.1088/0957-4484/23/34/344007 JN:NANOTECHNOLOGY PY:2012 TC:9 AU: Lu, Yunzhang;Alexander, Clement;Xiao, Zhengguo;Yuan, Yongbo;Zhang, Runyu;Huang, Jinsong;
2:8:211 Inverted polymer solar cells with Nafion (R) as the hole extraction layer: efficiency and lifetime studies
DOI:10.1088/0957-4484/25/1/014018 JN:NANOTECHNOLOGY PY:2014 TC:3 AU: Manceau, Matthieu;Berson, Solenn;
2:8:212 A comparative study on the performances of small molecule organic solar cells based on CuPc/C-60 and CuPc/C-70
DOI:10.1016/j.solmat.2010.08.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:18 AU: Xi, Xi;Li, Wenjia;Wu, Jiaqi;Ji, Jingjia;Shi, Zhengrong;Li, Guohua;
2:8:213 Fused thiophene/quinoxaline low band gap polymers for photovoltaic's with increased photochemical stability
DOI:10.1016/j.solmat.2011.07.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Carle, Jon E.;Jorgensen, Mikkel;Manceau, Matthieu;Helgesen, Martin;Hagemann, Ole;Sondergaard, Roar;Krebs, Frederik C.;
2:8:214 Effects of a perfluorinated compound as an additive on the power conversion efficiencies of polymer solar cells
DOI:10.1016/j.solmat.2011.02.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:18 AU: Jeong, Seonju;Woo, Sung-Ho;Lyu, Hong-Kun;Han, Yoon Soo;
2:8:215 Temperature dependence of polymer/fullerene organic solar cells
DOI:10.1016/j.solmat.2010.11.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Bagienski, W.;Gupta, M. C.;
2:8:216 Nitrogen doped amorphous chromium oxide: Stability improvement and application for the hole-transporting layer of organic solar cells
DOI:10.1016/j.solmat.2010.12.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Qin, Pingli;Fang, Guojia;He, Qin;Sun, Nanhai;Fan, Xi;Zheng, Qiao;Chen, Fei;Wan, Jiawei;Zhao, Xingzhong;
2:8:217 Solar cells made from polymers containing Dithieno[3,2-b:2 ',3 '-d]pyrrole with different side chain lengths
DOI:10.1016/j.solmat.2010.11.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Gong, Cheng;Bin Yang, Hong;Song, Qun Liang;Lu, Zhi Song;Li, Chang Ming;
2:8:218 The effect of a buffer layer on the performance and optimal encapsulation time of ITO/CuPc/C-60/buffer/Cu bilayer cells
DOI:10.1016/j.solmat.2011.09.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Ghorashi, S. M. B.;Behjat, A.;Ajeian, R.;
2:8:219 The effect of built-in field on the interface exciton recombination and dissociation in N-N type organic solar cells
DOI:10.1016/j.solmat.2013.01.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Zhang, Ting;Huang, Junhua;He, Fu;Chen, Lijia;Niu, Guoxi;Pan, Jing;Song, Qunliang;
2:8:220 Limit of V-oc in polymeric bulk heterojunction solar cells predicted by a double-junction model
DOI:10.1016/j.solmat.2012.08.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Wang, Mingdong;Zheng, Shizhao;Wan, Xi;Su, Yaorong;Ke, Ning;Zhao, Ni;Wong, King Young;Xu, Jianbin;
2:8:221 Predicting, categorizing and intercomparing the lifetime of OPVs for different ageing tests
DOI:10.1016/j.solmat.2014.06.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Corazza, Michael;Krebs, Frederik C.;Gevorgyan, Suren A.;
2:8:222 Simultaneous enhancement in both large-area coatability and photovoltaic performance of inverted organic solar cells with co-solvent
DOI:10.1016/j.solmat.2013.09.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Hong, Yun-Ru;Chen, Pin-Kuan;Wang, Jen-Chun;Lee, Ming-Kun;Horng, Sheng-Fu;Meng, Hsin-Fei;
2:8:223 Role of solution-processed V2O5 in P3HT:PCBM based inverted polymer solar cells
DOI:10.1016/j.synthmet.2013.02.012 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Wu, Jian;Zhang, Yupeng;Xu, Peng;Guo, Wenbin;Shen, Liang;Ruan, Shengping;
2:8:224 ITO-free inverted polymer solar cell on metal substrate with top-illumination
DOI:10.1016/j.synthmet.2013.10.023 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Chen, En-Chen;Tsai, Pei-Ting;Tsai, Chia-Ying;Chang, Jung-Hao;Huang, Zheng-Yu;Meng, Hsin-Fei;Chen, Huang-Ming;Lin, Hao-Wu;Horng, Sheng-Fu;Zan, Hsiao-Wen;
2:8:225 Factors Influencing the Efficiency of Current Collection in Large Area, Monolithic Organic Solar Cells
DOI:10.1002/aenm.201200254 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:6 AU: Jin, Hui;Pivrikas, Almantas;Lee, Kwan H.;Aljada, Muhsen;Hambsch, Mike;Burn, Paul L.;Meredith, Paul;
2:8:226 Carbon: The Ultimate Electrode Choice for Widely Distributed Polymer Solar Cells
DOI:10.1002/aenm.201400732 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:7 AU: Benatto, Gisele A. dos Reis;Roth, Berenger;Madsen, Morten V.;Hoesel, Markus;Sondergaard, Roar R.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:227 A New Architecture for Printable Photovoltaics Overcoming Conventional Module Limits
DOI:10.1002/adma.201304235 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Kang, Hongkyu;Hong, Soonil;Back, Hyungcheol;Lee, Kwanghee;
2:8:228 A compact physical model for morphology induced intrinsic degradation of organic bulk heterojunction solar cell
DOI:10.1063/1.3610460 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Ray, Biswajit;Alam, Muhammad A.;
2:8:229 A comparative study on TiO2 doped hybrid solar cells
DOI:10.1016/j.apsusc.2012.02.009 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Ozdal, Teoman;Hames, Yakup;Aslan, Erdem;
2:8:230 Wavelength-Dependent Pathways of Poly-3-hexylthiophene Photo-Oxidation
DOI:10.1021/cm3008864 JN:CHEMISTRY OF MATERIALS PY:2012 TC:19 AU: Hintz, H.;Sessler, C.;Peisert, H.;Egelhaaf, H. -J.;Chasse, T.;
2:8:231 New Insights into the Mechanisms of Photodegradation/Stabilization of P3HT:PCBM Active Layers Using Poly(3-hexyl-d(13)-Thiophene)
DOI:10.1021/cm402193y JN:CHEMISTRY OF MATERIALS PY:2013 TC:15 AU: Tournebize, Aurelien;Bussiere, Pierre-Olivier;Rivaton, Agnes;Gardette, Jean-Luc;Medlej, Hussein;Hiorns, Roger C.;Dagron-Lartigau, Christine;Krebs, Frederik C.;Norrman, Kion;
2:8:232 Influence of beta-linkages on the morphology and performance of DArP P3HT-PC61BM solar cells
DOI:10.1088/0957-4484/25/1/014005 JN:NANOTECHNOLOGY PY:2014 TC:11 AU: Rudenko, Andrey E.;Latif, Alia A.;Thompson, Barry C.;
2:8:233 Improved open-circuit voltage and efficiency in organic solar cells using a phosphine oxide based interlayer material
DOI:10.1016/j.solmat.2010.04.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:9 AU: Jeon, Soon Ok;Yook, Kyoung Soo;Chin, Byung Doo;Park, Yong Sup;Lee, Jun Yeob;
2:8:234 The investigation of the stability and optimal encapsulation time for ITO/CuPc/C-60/Al bilayer cells
DOI:10.1016/j.solmat.2010.01.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:15 AU: Xi, Xi;Li, Fangxin;Meng, Qinglei;Ding, Yuqiang;Ji, Jingjia;Shi, Zhengrong;Li, Guohua;
2:8:235 Organic solar cells characterized by dark lock-in thermography
DOI:10.1016/j.solmat.2009.11.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:23 AU: Bachmann, Jonas;Buerhop-Lutz, Claudia;Deibel, Carsten;Riedel, Ingo;Hoppe, Harald;Brabec, Christoph J.;Dyakonov, Vladimir;
2:8:236 Air-stable triarylamine-based amorphous polymer as donor material for bulk-heterojunction organic solar cells
DOI:10.1016/j.solmat.2011.08.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Yasuda, Takeshi;Suzuki, Takao;Takahashi, Mitsuru;Han, Liyuan;
2:8:237 An Arrhenius approach to estimating organic photovoltaic module weathering acceleration factors
DOI:10.1016/j.solmat.2011.02.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Haillant, Olivier;Dumbleton, David;Zielnik, Allen;
2:8:238 The design and realization of large-scale patterned organic solar cells in series and parallel configurations
DOI:10.1016/j.solmat.2012.01.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Wan, Jiawei;Fang, Guojia;Qin, Pingli;Zheng, Qiao;Liu, Nishuang;Sun, Nanhai;Tu, Yuan;Fan, Xi;Cheng, Fei;Zhao, Xingzhong;
2:8:239 Transparent electrode for organic solar cells using multilayer structures with nanoporous silver film
DOI:10.1016/j.solmat.2013.07.047 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Xu, Wei-Feng;Chin, Chun-Chieh;Hung, Ding-Wei;Wei, Pei-Kuen;
2:8:240 A quantitative study of the formation of PCBM clusters upon thermal annealing of P3HT/PCBM bulk heterojunction solar cell
DOI:10.1016/j.solmat.2013.05.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:19 AU: Oklobia, O.;Shafai, T. S.;
2:8:241 Breaking mechanism of indium tin oxide and its effect on organic photovoltaic cells
DOI:10.1016/j.solmat.2013.07.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Leppanen, Kimmo;Augustine, Bobins;Saarela, Juha;Myllyla, Risto;Fabritius, Tapio;
2:8:242 Selection of metal substrates for completely solution-processed inverted organic photovoltaic devices
DOI:10.1016/j.solmat.2013.02.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:6 AU: Kumar, Vikas;Wang, Heming;
2:8:243 Lateral oxygen diffusion dominated extrinsic degradation of small molecular organic solar cells
DOI:10.1016/j.solmat.2012.10.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:6 AU: Cao, Huanqi;Ishikawa, Ken;
2:8:244 The stability of normal vs. inverted organic solar cells under highly damp conditions: Comparison with the same interfacial layers
DOI:10.1016/j.solmat.2014.04.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Han, Donggeon;Yoo, Seunghyup;
2:8:245 Large area slot-die coated organic solar cells on flexible substrates with non-halogenated solution formulations
DOI:10.1016/j.solmat.2014.06.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Machui, Florian;Lucera, Luca;Spyropoulos, George D.;Cordero, Johann;Ali, Abid S.;Kubis, Peter;Ameri, Tayebeh;Voigt, Monika M.;Brabec, Christoph J.;
2:8:246 Photodegradation of small-molecule organic photovoltaics
DOI:10.1016/j.solmat.2014.03.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:9 AU: Wang, Nana;Tong, Xiaoran;Burlingame, Quinn;Yu, Junsheng;Forrest, Stephen R.;
2:8:247 Comparison of Electroluminescence Intensity and Photocurrent of Polymer Based Solar Cells
DOI:10.1002/aenm.201100496 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:9 AU: Hoyer, Ulrich;Pinna, Luigi;Swonke, Thomas;Auer, Richard;Brabec, Christoph J.;Stubhan, Tobias;Li, Ning;
2:8:248 Rheological and Drying Considerations for Uniformly Gravure-Printed Layers: Towards Large-Area Flexible Organic Light-Emitting Diodes
DOI:10.1002/adfm.201202862 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:12 AU: Hernandez-Sosa, Gerardo;Bornemann, Nils;Ringle, Ingo;Agari, Michaela;Doersam, Edgar;Mechau, Norman;Lemmer, Uli;
2:8:249 Immerse precipitation as an efficient protocol to optimize morphology and performance of organic solar cells
DOI:10.1063/1.4769454 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Zuo, Lijian;Cao, Zhen;Hu, Xiaolian;Gu, Zhuowei;Pan, Hongbin;Chen, Hongzheng;
2:8:250 UV-induced fluorescence recovery and solubility modulation of photocaged conjugated oligomers
DOI:10.1039/c1jm12542g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Pawle, Robert H.;Eastman, Victoria;Thomas, Samuel W., III;
2:8:251 Efficient polymer bulk heterojunction solar cells with cesium acetate as the cathode interfacial layer
DOI:10.1016/j.renene.2012.07.012 JN:RENEWABLE ENERGY PY:2013 TC:5 AU: Jia, Yuehua;Yang, Liying;Qin, Wenjing;Yin, Shougen;Zhang, Fengling;Wei, Jun;
2:8:252 Round robin performance testing of organic photovoltaic devices
DOI:10.1016/j.renene.2013.09.034 JN:RENEWABLE ENERGY PY:2014 TC:7 AU: Gevorgyan, Suren A.;Zubillaga, Oihana;Maria Vega de Seoane, Jose;Machado, Maider;Parlak, Elif Alturk;Tore, Nesrin;Voroshazi, Eszter;Aernouts, Tom;Muellejans, Harald;Bardizza, Giorgio;Taylor, Nigel;Verhees, Wiljan;Kroon, Jan M.;Morvillo, Pasquale;Minarini, Carla;Roca, Francesco;Castro, Fernando A.;Cros, Stephane;Lechene, Balthazar;Trigo, Juan F.;Guillen, Cecilia;Herrero, Jose;Zimmermann, Birger;Sapkota, Subarna Babu;Veit, Clemens;Wuerfel, Uli;Tuladhar, Pabitra S.;Durrant, James R.;Winter, Stefan;Rousu, Sanna;Valimaki, Marja;Hinrichs, Volker;Cowan, Sarah R.;Olson, Dana C.;Sommer-Larsen, Peter;Krebs, Frederik C.;
2:8:253 Roughness characterization of silver oxide anodes for use in efficient top-illuminated organic solar cells
DOI:10.1016/j.solmat.2011.05.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Zhang, Mi;Chiu, Tien-Lung;Lin, Chi-Feng;Lee, Jiun-Haw;Wang, Juen-Kai;Wu, Yunfeng;
2:8:254 Accelerated weathering testing principles to estimate the service life of organic PV modules
DOI:10.1016/j.solmat.2010.08.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:22 AU: Haillant, Olivier;
2:8:255 Improvement in stability of poly(3-hexylthiophene-2,5-diyl)/[6,6]-phenyl-C61-butyric acid methyl ester bulk heterojunction solar cell by using UV light irradiation
DOI:10.1016/j.solmat.2010.08.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:14 AU: Moujoud, Abderrafia;Oh, Sang Hoon;Hye, Jung Joo;Kim, Hyun Jae;
2:8:256 A novel copolymer from benzodithiophene and alkylsulfanyl-bithiophene: Synthesis, characterization and application in polymer solar cells
DOI:10.1016/j.solmat.2012.04.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Morvillo, P.;Parenti, F.;Diana, R.;Fontanesi, C.;Mucci, A.;Tassinari, F.;Schenetti, L.;
2:8:257 Optimization of PVA clay nanocomposite for ultra-barrier multilayer encapsulation of organic solar cells
DOI:10.1016/j.solmat.2011.12.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:32 AU: Gaume, Julien;Taviot-Gueho, Christine;Cros, Stephane;Rivaton, Agnes;Therias, Sandrine;Gardette, Jean-Luc;
2:8:258 Optimal geometric design of monolithic thin-film solar modules: Architecture of polymer solar cells
DOI:10.1016/j.solmat.2011.09.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Hoppe, Harald;Seeland, Marco;Muhsin, Burhan;
2:8:259 Investigation of power loss and device efficiency using a three-dimensional finite element simulation on organic solar cell geometry
DOI:10.1016/j.solmat.2011.09.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:1 AU: Lyu, Hong-Kun;Woo, Sung-Ho;Jeong, Seonju;Kim, Kang-Pil;Shin, Jang-Kyoo;
2:8:260 Determining the coating speed limitations for organic photovoltaic inks
DOI:10.1016/j.solmat.2012.10.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: Jakubka, Florian;Heyder, Madeleine;Machui, Florian;Kaschta, Joachim;Eggerath, Daniel;Loevenich, Wilfried;Krebs, Frederik C.;Brabec, Christoph J.;
2:8:261 Single-step annealing and encapsulation for organic photovoltaics using an exothermically-setting encapsulant material
DOI:10.1016/j.solmat.2014.01.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Elkington, D.;Cooling, N.;Zhou, X. J.;Belcher, W. J.;Dastoor, P. C.;
2:8:262 Large-area organic solar cells with metal subelectrode on indium tin oxide anode
DOI:10.1063/1.3419925 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Park, Sun-Young;Jeong, Won-Ik;Kim, Do-Geun;Kim, Jong-Kuk;Lim, Dong Chan;Kim, Joo Hyun;Kim, Jang-Joo;Kang, Jae-Wook;
2:8:263 Toward Well-Defined Metal-Polymer Interfaces: Temperature-Controlled Suppression of Subsurface Diffusion and Reaction at the Calcium/Poly(3-Hexylthiophene) Interface
DOI:10.1021/ja104029r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:16 AU: Bebensee, Fabian;Schmid, Martin;Steinrueck, Hans-Peter;Campbell, Charles T.;Gottfried, J. Michael;
2:8:264 Enhanced Performance of Organic Photovoltaic Cells by Incorporation of a Cyanobiphenyl Compound into Active Layer
DOI:10.1080/15421406.2013.851458 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Han, Yoon Soo;
2:8:265 Substrate treatment and drying conditions effect on the properties of roll-to-roll gravure printed PEDOT:PSS thin films
DOI:10.1016/j.mseb.2011.03.007 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:8 AU: Koidis, C.;Logothetidis, S.;Kapnopoulos, C.;Karagiannidis, P. G.;Laskarakis, A.;Hastas, N. A.;
2:8:266 Photocurrent generation in plain [6,6]-phenyl C61 butyric acid methyl ester
DOI:10.1016/j.solmat.2010.09.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:3 AU: Song, Qun Liang;Gong, Cheng;Yang, Hong Bin;Li, Chang Ming;
2:8:267 Influence of thermal radiation during aluminum thermal evaporation on organic solar cells
DOI:10.1016/j.solmat.2011.07.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:3 AU: Qin, Pingli;Fang, Guojia;Zeng, Wei;Fan, Xi;Zheng, Qiao;Cheng, Fei;Wan, Jiawei;Zhao, Xingzhong;
2:8:268 Polymer bulk heterojunction photovoltaic devices based on complex donors and solution-processable functionalized graphene oxide
DOI:10.1016/j.solmat.2011.09.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Wang, Jigang;Wang, Yongsheng;He, Dawei;Liu, Zhiyong;Wu, Hongpeng;Wang, Haiteng;Zhou, Pan;Fu, Ming;
2:8:269 Polymer and organic solar cells viewed as thin film technologies: What it will take for them to become a success outside academia
DOI:10.1016/j.solmat.2013.05.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:17 AU: Krebs, Frederik C.;Jorgensen, Mikkel;
2:8:270 A round robin study of polymer solar cells and small modules across China
DOI:10.1016/j.solmat.2013.06.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Larsen-Olsen, Thue T.;Gevorgyan, Suren A.;Sondergaard, Roar R.;Hosel, Markus;Gu, Zhouwei;Chen, Hongzheng;Liu, Yao;Cheng, Pei;Jing, Yan;Li, Hui;Wang, Jizheng;Hou, Jianhui;Li, Yongfang;Zhan, Xiaowei;Wu, Jiang;Liu, Jian;Xie, Zhiyuan;Du, Xiaoyan;Ding, Liming;Xie, Chen;Zeng, Rong;Chen, Yiwang;Li, Wenwu;Xiao, Ting;Zhao, Ni;Chen, Fei;Chen, Liwei;Peng, Jun;Ma, Wanli;Xiao, Biao;Wu, Hongbin;Wan, Xiangjian;Chen, Yongshen;Chang, Ruibing;Li, Cuihong;Bo, Zhishan;Ji, Bian;Tian, Wenjing;Chen, Shuanghong;Hu, Linhua;Dai, Sungyuan;Krebs, Frederik C.;
2:8:271 Layout optimization of organic wrap through solar cells by combined electrical and optical modeling
DOI:10.1016/j.solmat.2013.03.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Schiefer, S.;Zimmermann, B.;Wuerfel, U.;
2:8:272 Accurate characterization of OPVs: Device masking and different solar simulators
DOI:10.1016/j.solmat.2012.11.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:12 AU: Gevorgyan, Suren A.;Carle, Jon Eggert;Sondergaard, Roar;Larsen-Olsen, Thue Trofod;Jorgensen, Mikkel;Krebs, Frederik C.;
2:8:273 ITO-free laminated concept for flexible organic solar cells
DOI:10.1016/j.solmat.2013.09.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Kaduwal, Deepak;Zimmermann, Birger;Wuerfel, Uli;
2:8:274 Effects of various solvent addition on crystal and electrical properties of organic solar cells with P3HT:PCBM active layer
DOI:10.1016/j.synthmet.2012.01.008 JN:SYNTHETIC METALS PY:2012 TC:13 AU: Jang, Seong Kyu;Gong, Su Cheol;Chang, Ho Jung;
2:8:275 Concentrated Light for Accelerated Photo Degradation of Polymer Materials
DOI:10.1002/aenm.201200663 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:7 AU: Madsen, Morten V.;Tromholt, Thomas;Norrman, Kion;Krebs, Frederik C.;
2:8:276 Origin of photocurrent generation and collection losses in large area organic solar cells
DOI:10.1063/1.3637041 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Pandey, Ajay K.;Nunzi, Jean-Michel;
2:8:277 Computational characterization of bulk heterojunction nanomorphology
DOI:10.1063/1.4752864 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Wodo, Olga;Tirthapura, Srikanta;Chaudhary, Sumit;Ganapathysubramanian, Baskar;
2:8:278 Generic Roll-to-Roll Compatible Method for Insolubilizing and Stabilizing Conjugated Active Layers Based on Low Energy Electron Irradiation
DOI:10.1002/app.40795 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Helgesen, Martin;Carle, Jon E.;Helt-Hansen, Jakob;Miller, Arne;Krebs, Frederik C.;
2:8:279 Effect of nanostructured ZnO cathode layer on the photovoltaic performance of inverted bulk heterojunction solar cells
DOI:10.1016/j.renene.2011.11.048 JN:RENEWABLE ENERGY PY:2012 TC:13 AU: Bekci, D. Rana;Erten-Ela, Sule;
2:8:280 Organic photovoltaic devices with a crosslinkable polymer interlayer
DOI:10.1016/j.solmat.2011.05.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Kang, Nam Su;Ju, Byeong-Kwon;Lee, Tae Wan;Choi, Dong Hoon;Hong, Jae-Min;Yu, Jae-Woong;
2:8:281 Efficiency enhancement in large-area organic photovoltaic module using theoretical power loss model
DOI:10.1016/j.solmat.2011.04.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Lyu, Hong-Kun;Sim, Jun Hyoung;Woo, Sung-Ho;Kim, Kang Pil;Shin, Jang-Kyoo;Han, Yoon Soo;
2:8:282 Progress in stability of organic solar cells exposed to air
DOI:10.1016/j.solmat.2011.01.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:12 AU: Tavakkoli, Mohammad;Ajeian, Rasul;Badrabadi, Moosa Nakhaee;Ardestani, Saeed Saleh;Feiz, Sayid Mohammad Hasan;Nasab, Komeil Elahi;
2:8:283 Total charge amount as indicator for the degradation of small molecule organic solar cells
DOI:10.1016/j.solmat.2010.09.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:8 AU: Hermenau, M.;Scholz, Sebastian;Leo, Karl;Riede, Moritz;
2:8:284 The influence of UV radiation and ozone exposure on the electronic properties of poly-3-octyl-thiophene thin films
DOI:10.1016/j.solmat.2010.12.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:6 AU: Abad, Jose;Espinosa, Nieves;Garcia-Valverde, Rafael;Colchero, Jaime;Urbina, Antonio;
2:8:285 A compact multi-chamber setup for degradation and lifetime studies of organic solar cells
DOI:10.1016/j.solmat.2011.01.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Gevorgyan, Suren A.;Jorgensen, Mikkel;Krebs, Frederik C.;Sylvester-Hvid, Kristian O.;
2:8:286 Synthesis and organic photovoltaic (OPV) properties of triphenylamine derivatives based on a hexafluorocyclopentene "core"
DOI:10.1016/j.solmat.2010.12.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:19 AU: Fan, Congbin;Yang, Ping;Wang, Xiaomei;Liu, Gang;Jiang, Xiaoxia;Chen, Hongzheng;Tao, Xutang;Wang, Mang;Jiang, Minghua;
2:8:287 Long-lived bulk heterojunction solar cells fabricated with photo-oxidation resistant polymer
DOI:10.1016/j.solmat.2009.12.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:8 AU: Kim, Sun Hee;Hwang, In-Wook;Jin, Youngeup;Song, Suhee;Moon, Jihyun;Suh, Hongsuk;Lee, Kwanghee;
2:8:288 New series connection method for bulk-heterojunction polymer solar cell modules
DOI:10.1016/j.solmat.2011.11.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:4 AU: Lee, Jongjin;Back, Hyungcheol;Kong, Jaemin;Park, Dong-Won;Lee, Kwanghee;
2:8:289 Module structure for an organic photovoltaic device
DOI:10.1016/j.solmat.2013.05.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Kang, Nam Su;Ju, Byeong-Kwon;Yu, Jae-Woong;
2:8:290 Quantitative imaging of shunts in organic photovoltaic modules using lock-in thermography
DOI:10.1016/j.solmat.2014.01.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Besold, S.;Hoyer, U.;Bachmann, J.;Swonke, Th.;Schilinsky, P.;Steim, R.;Brabec, C. J.;
2:8:291 In diffusion and electronic energy structure in polymer layers on In tin oxide
DOI:10.1016/j.tsf.2011.02.034 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Skraba, Polona;Bratina, Gvido;Igarashi, Satoru;Nohira, Hirosi;Hirose, Kazuyuki;
2:8:292 The inverted solar cells with the polymer:fullerene blend film possessing a stratified composition profile
DOI:10.1007/s00339-011-6448-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:4 AU: Quan, Wei;Cheng, Cuiran;Liu, Jinsuo;Zhang, Jidong;Yan, Donghang;Qin, Dashan;
2:8:293 Medium area, flexible single and tandem junction solar cells based on roll coated semi-random copolymers
DOI:10.1039/c4tc01252f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Andersen, Thomas R.;Dam, Henrik F.;Burkhart, Beate;Angmo, Dechan;Corazza, Michael;Thompson, Barry C.;Krebs, Frederik C.;
2:8:294 Rubrene as an additive in M-phthalocyanine/fullerene organic solar cells
DOI:10.1016/j.solmat.2011.04.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Yuen, Avery P.;Bamsey, Nathan M.;Hor, Ah-Mee;Preston, John S.;Klenkler, Richard A.;Jovanovic, Stephen M.;Loutfy, Rafik O.;
2:8:295 The spectral sensitivity of PEDOT:PSS films
DOI:10.1016/j.solmat.2010.12.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Elschner, Andreas;
2:8:296 Photo-electrical characterizations of plastic solar modules
DOI:10.1016/j.solmat.2012.01.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:2 AU: Riviere, Guillaume A.;Simon, Jean-Jacques;Escoubas, Ludovic;Vervisch, Wilfried;Pasquinelli, Marcel;
2:8:297 Highly sensitive non-contact shunt detection of organic photovoltaic modules
DOI:10.1016/j.solmat.2012.01.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Bachmann, Jonas;Buerhop-Lutz, Claudia;Steim, Roland;Schilinsky, Pavel;Hauch, Jens A.;Zeira, Eitan;Christoh, Brabec J.;
2:8:298 PEDOT:PSS-free organic solar cells using tetrasulfonic copper phthalocyanine as buffer layer
DOI:10.1016/j.solmat.2011.11.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:10 AU: Bechara, R.;Petersen, J.;Gernigon, V.;Leveque, P.;Heiser, T.;Toniazzo, V.;Ruch, D.;Michel, M.;
2:8:299 Analytical model for the design principle of large-area solar cells
DOI:10.1016/j.solmat.2011.08.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:3 AU: Miyadera, Tetsuhiko;Ogo, Hiroyuki;Taima, Tetsuya;Yamanari, Toshihiro;Yoshida, Yuji;
2:8:300 Ageing of organic photovoltaic devices in Benin environment (South-Sudanese climate)
DOI:10.1016/j.solmat.2013.05.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Agbomahena, Macaire;Douheret, Olivier;Kounouhewa, Basile;Vianou, Antoine;Awanou, Norbert;Lazzaroni, Roberto;
2:8:301 Correlation between charge carriers mobility and nanomorphology in a blend of P3HT/PCBM bulk heterojunction solar cell: Impact on recombination mechanisms
DOI:10.1016/j.solmat.2013.11.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Oklobia, O.;Shafai, T. S.;
2:8:302 Analysis of electroluminescence images in small-area circular CdTe solar cells
DOI:10.1063/1.4820392 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Bokalic, Matevz;Raguse, John;Sites, James R.;Topic, Marko;
2:8:303 Analysis of ITO-Free Organic Solar Cells Using a Highly Conductive Polymer Anode
DOI:10.1080/15421401003598264 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:3 AU: Kim, Jae-Ryoung;Cho, Jung Min;Shin, Won Suk;So, Won-Wook;Moon, Sang-Jin;
2:8:304 Enhanced Photovoltaic Performance of P3HT:PCBM Cells by Modification of PEDOT:PSS Layer
DOI:10.1080/15421406.2013.849494 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Lim, Eunhee;
2:8:305 A simple miniature controlled-atmosphere chamber for optoelectronic characterizations
DOI:10.1016/j.solmat.2010.03.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:6 AU: Reese, M. O.;Sigdel, A. K.;Berry, J. J.;Ginley, D. S.;Shaheen, S. E.;
2:8:306 The effect of a concentration graded cathode for organic solar cells
DOI:10.1016/j.solmat.2011.04.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:3 AU: Jeon, Ji Hye;Lee, Hang Ken;Wang, Dong Hwan;Park, Soon Mi;Kim, Jeong Won;Kim, Kyung Joong;Park, Jong Hyeok;Park, O. Ok;
2:8:307 Influence of n-type chemical doping layer on the performance of organic photovoltaic solar cells
DOI:10.1016/j.solmat.2011.02.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Ryu, Mi Sun;Jang, Jin;
2:8:308 Investigation of multi-donor bulk-heterojunction photovoltaic cells based on P3HT:PCBM system
DOI:10.1016/j.solmat.2010.10.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:2 AU: Zhao, Yun;Wang, Xingyong;Shu, Fangliang;
2:8:309 Stability of polymer solar cells: Dependence on working pressure
DOI:10.1016/j.solmat.2012.12.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Roesch, Roland;Seeland, Marco;Baerenklau, Maik;Gobsch, Gerhard;Hoppe, Harald;
2:8:310 High-density organic photovoltaic modules: Mask-free fabrication using nozzle jet printing and oblique deposition
DOI:10.1016/j.solmat.2013.09.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Kim, Hoyeon;Lee, Soohyun;Han, Donggeon;Yoo, Seunghyup;
2:8:311 Antimony doped tin oxide coating of muscovite clays by the Pechini route
DOI:10.1016/j.tsf.2011.06.107 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Sladkevich, Sergey;Kyi, Nilar;Gun, Jenny;Prikhodchenko, Petr;Ischuk, Sergey;Lev, Ovadia;
2:8:312 The Effect of PCBM Dimerization on the Performance of Bulk Heterojunction Solar Cells (vol 4, 1300693, 2014)
DOI:10.1002/aenm.201400171 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Distler, Andreas;Sauermann, Tobias;Egelhaaf, Hans-Joachim;Rodman, Sheila;Waller, Dave;Cheon, Kap-Soo;Lee, Mike;Drolet, Nicolas;Guldi, Dirk M.;
2:8:313 Manipulation of Polymer/Polymer Interface Width from Nonequilibrium Deposition
DOI:10.1021/am3022587 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Yu, Wumin;Peri, Someswara R.;Akgun, Bulent;Foster, Mark D.;
2:8:314 Influence of Additive in the Photoactive Layer on the Performance of Organic Photovoltaics
DOI:10.1080/15421406.2014.944683 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Han, Yoon Soo;
2:8:315 Silver supply risk analysis for the solar sector
DOI:10.1016/j.renene.2014.03.032 JN:RENEWABLE ENERGY PY:2014 TC:2 AU: Grandell, Leena;Thorenz, Andrea;
2:8:316 Ultraviolet light test and evaluation methods for encapsulants of photovoltaic modules
DOI:10.1016/j.solmat.2009.09.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:16 AU: Kempe, Michael D.;
2:8:317 Spatially distributed model for the analysis of laser beam induced current (LBIC) measurements of thin film silicon solar modules
DOI:10.1016/j.solmat.2010.02.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:12 AU: Vorasayan, P.;Betts, T. R.;Gottschalg, R.;
2:8:318 Using stochastic models to determine financial indicators and technical objectives for organic solar cells
DOI:10.1016/j.solmat.2012.06.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:1 AU: Powell, Colin;Lawryshyn, Yuri;Bender, Timothy;
2:8:319 Frontier orbital and morphology engineering of conjugated polymers and block copolymers for potential high efficiency photovoltaics
DOI:10.1016/j.solmat.2011.09.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:4 AU: Sun, Sam-Shajing;Zhang, Cheng;Li, Rui;Thuong Nguyen;David, Tanya;Brooks, Jaleesa;
2:8:320 Analysis and optimization of relevant parameters of blade coating and gravure printing processes for the fabrication of highly efficient organic solar cells
DOI:10.1016/j.solmat.2014.03.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Schneider, A.;Traut, N.;Hamburger, M.;
2:8:321 Organic solar cell degradation probed by the nanosecond photoresponse
DOI:10.1007/s00339-010-5747-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:6 AU: Kettlitz, S. W.;Valouch, S.;Lemmer, U.;
2:8:322 Organic photovoltaic cells based on unconventional electron donor fullerene and electron acceptor copper hexadecafluorophthalocyanine
DOI:10.1063/1.3671181 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Yang, J. L.;Sullivan, P.;Schumann, S.;Hancox, I.;Jones, T. S.;
2:8:323 Ultrafast dark-field surface inspection with hybrid-dispersion laser scanning
DOI:10.1063/1.4885147 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yazaki, Akio;Kim, Chanju;Chan, Jacky;Mahjoubfar, Ata;Goda, Keisuke;Watanabe, Masahiro;Jalali, Bahram;
2:8:324 Generation of Nanoparticles of Controlled Size Using Ultrasonic Piezoelectric Oscillators in Solution
DOI:10.1021/am100375w JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:3 AU: Wright, Ian K.;Higginbotham, Andrew;Baker, Shenda M.;Donnelly, T. D.;
2:8:325 Thermal and UV Degradation of Polymer Films Studied In situ with ESR Spectroscopy
DOI:10.1021/am100219z JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:4 AU: Rasmussen, Kenneth;Grampp, Guenter;van Eesbeek, Marc;Rohr, Thomas;
2:8:326 Approximation of effective moisture-diffusion coefficient to characterize performance of a barrier coating
DOI:10.1063/1.4828872 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Nagai, Shingo;
2:8:327 In-situ plasma cleaning of samples to remove hydrocarbon and/or polydimethylsiloxane prior to ToF-SIMS analysis
DOI:10.1116/1.4822516 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:3 AU: Smentkowski, Vincent S.;Moore, C. A.;
2:8:328 Field emission study of change in work function of poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) film
DOI:10.1116/1.4827635 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:0 AU: Xing, Ying Jie;Qian, Min Fang;Qin, Jing Fang;Zhang, Geng Min;
2:8:329 Preparation of Aluminum Oxide Layer for Gate Insulator Application in Organic Thin-Film Transistors
DOI:10.1080/15421401003594479 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Lee, Jong Won;Park, Jaehoon;Kim, Dong Wook;Noh, Jung Chul;Choi, Jong Sun;
2:8:330 Donor-acceptor alternating copolymers as donor materials for bulk-heterojunction solar cells: effects of molecular structure on film morphology and device performance
DOI:10.1088/0957-4484/21/15/155201 JN:NANOTECHNOLOGY PY:2010 TC:1 AU: Xue, Lili;Li, Yaowen;Dong, Fengxia;Tian, Wenjing;
2:8:331 Renewing energy technology
DOI:10.1088/0957-4484/22/22/220201 JN:NANOTECHNOLOGY PY:2011 TC:0 AU: Demming, Anna;
2:8:332 Optical optimization of organic solar cells
DOI:10.1016/j.optmat.2013.04.039 JN:OPTICAL MATERIALS PY:2013 TC:2 AU: Gondek, Ewa;
2:8:333 Photovoltaic properties of polymer based organic solar cells adapted for non-transparent substrates
DOI:10.1016/j.renene.2010.02.030 JN:RENEWABLE ENERGY PY:2010 TC:7 AU: Bedeloglu, Ayse (Celik);Demir, Ali;Bozkurt, Yalcin;Sariciftci, Niyazi Serdar;
2:8:334 Quaterthiophene-based multipods as promising materials for solution-processible organic solar cells and field effect transistors
DOI:10.1016/j.solmat.2010.06.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:10 AU: Troshin, Pavel A.;Ponomarenko, Sergei A.;Luponosov, Yuriy N.;Khakina, Ekaterina A.;Egginger, Martin;Meyer-Friedrichsen, Timo;Elschner, Andreas;Peregudova, Svetlana M.;Buzin, Mikhail I.;Razumov, Vladimir F.;Sariciftci, N. Serdar;Muzafarov, Aziz M.;
2:8:335 Dependence of electrical, optical, and structural properties on the thickness of IZTO thin films grown by linear facing target sputtering for organic solar cells
DOI:10.1016/j.solmat.2010.05.056 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:1 AU: Choi, Wang-Hyuk;Jeong, Jin-A;Kim, Han-Ki;
2:8:336 Performance analysis of field exposed single crystalline silicon modules
DOI:10.1016/j.solmat.2010.03.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:13 AU: Sastry, O. S.;Saurabh, Sriparn;Shil, S. K.;Pant, P. C.;Kumar, Rajesh;Kumar, Arun;Bandopadhyay, Bibek;
2:8:337 Heteromorphic chloroindium phthalocyanine films for improved photovoltaic performance
DOI:10.1016/j.solmat.2011.06.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:6 AU: Bamsey, Nathan M.;Yuen, Avery P.;Hor, Ah-Mee;Klenkler, Richard;Preston, John S.;Loutfy, Rafik O.;
2:8:338 Anode engineering for photocurrent enhancement in a polymer solar cell and applied on plastic substrate
DOI:10.1016/j.solmat.2010.09.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:1 AU: Tsai, Hsing-Wang;Pei, Zingway;Chen, Chun-Chao;Cheng, Shor-Jeng;Hsieh, Wei-Shung;Li, Pei-Wen;Chan, Yi-Jen;
2:8:339 Improvement in stability of poly(3-hexylthiophene-2,5-diyl)/[6,6]-phenyl-C61-butyric acid methyl ester bulk heterojunction solar cell by using UV light irradiation (vol 95, pg 1037, 2011)
DOI:10.1016/j.solmat.2013.02.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Moujoud, Abderrafia;Oh, Sang Hoon;Hye, Jung Joo;Kim, Hyun Jae;
2:8:340 Effect of plasma treated Ag/indium tin oxide anode modification on stability of polymer solar cells
DOI:10.1016/j.solmat.2014.05.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Augustine, Bobins;Sliz, Rafal;Lahtonen, Kimmo;Valden, Mika;Myllyla, Risto;Fabritius, Tapio;
2:8:341 The influence of defects on the cellular open circuit voltage in CuInGaSe2 thin film solar modules-An illuminated lock-in thermography study
DOI:10.1016/j.solmat.2014.01.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Adams, J.;Vetter, A.;Hoga, F.;Fecher, F.;Theisen, J. P.;Brabec, C. J.;Buerhop-Lutz, C.;
2:8:342 Magneto-optical studies of 1-(3-methoxycarbonyl)-propyl-1-phenyl-(6,6)C61; PCBM
DOI:10.1016/j.synthmet.2009.08.034 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Hukic-Markosian, G.;Vardeny, Z. V.;
2:8:343 Improved photovoltaic performance of silicon nanowires/conjugated polymer hybrid solar cells (vol 191, pg 6, 2014)
DOI:10.1016/j.synthmet.2014.07.006 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Chehata, N.;Ltaief, A.;Ilahi, B.;Salem, B.;Bouazizi, A.;Maaref, H.;Beyou, E.;Baron, T.;Gentile, P.;
2:8:344 Transparent conductive film by large area roll-to-roll processing
DOI:10.1016/j.tsf.2013.02.087 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Wu, Linda Y. L.;Kerk, W. T.;Wong, C. C.;
2:9:1 Interdiffusion of PCBM and P3HT Reveals Miscibility in a Photovoltaically Active Blend (vol 1, pg 82, 2010)
DOI:10.1002/aenm.201000023 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:13 AU: Treat, Neil D.;Brady, Michael A.;Smith, Gordon;Toney, Michael F.;Kramer, Edward J.;Hawker, Craig J.;Chabinyc, Michael L.;
2:9:2 P3HT/PCBM Bulk Heterojunction Organic Photovoltaics: Correlating Efficiency and Morphology
DOI:10.1021/nl103482n JN:NANO LETTERS PY:2011 TC:231 AU: Chen, Dian;Nakahara, Atsuhiro;Wei, Dongguang;Nordlund, Dennis;Russell, Thomas P.;
2:9:3 Effects of Thermal Annealing Upon the Morphology of Polymer-Fullerene Blends
DOI:10.1002/adfm.201000975 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:251 AU: Verploegen, Eric;Mondal, Rajib;Bettinger, Christopher J.;Sok, Seihout;Toney, Michael F.;Bao, Zhenan;
2:9:4 The Importance of Fullerene Percolation in the Mixed Regions of Polymer-Fullerene Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201200637 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:130 AU: Bartelt, Jonathan A.;Beiley, Zach M.;Hoke, Eric T.;Mateker, William R.;Douglas, Jessica D.;Collins, Brian A.;Tumbleston, John R.;Graham, Kenneth R.;Amassian, Aram;Ade, Harald;Frechet, Jean M. J.;Toney, Michael F.;McGehee, Michael D.;
2:9:5 Absolute Measurement of Domain Composition and Nanoscale Size Distribution Explains Performance in PTB7:PC71BM Solar Cells
DOI:10.1002/aenm.201200377 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:167 AU: Collins, Brian A.;Li, Zhe;Tumbleston, John R.;Gann, Eliot;McNeill, Christopher R.;Ade, Harald;
2:9:6 Bulk Heterojunction Photovoltaic Active Layers via Bilayer Interdiffusion
DOI:10.1021/nl200552r JN:NANO LETTERS PY:2011 TC:154 AU: Chen, Dian;Liu, Feng;Wang, Cheng;Nakahara, Atsuhiro;Russell, Thomas P.;
2:9:7 Hierarchical Nanomorphologies Promote Exciton Dissociation in Polymer/Fullerene Bulk Heterojunction Solar Cells
DOI:10.1021/nl201715q JN:NANO LETTERS PY:2011 TC:196 AU: Chen, Wei;Xu, Tao;He, Feng;Wang, Wei;Wang, Cheng;Strzalka, Joseph;Liu, Yun;Wen, Jianguo;Miller, Dean J.;Chen, Jihua;Hong, Kunlun;Yu, Luping;Darling, Seth B.;
2:9:8 P3HT/PCBM Bulk Heterojunction Solar Cells: Impact of Blend Composition and 3D Morphology on Device Performance
DOI:10.1002/adfm.200902247 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:148 AU: van Bavel, Svetlana S.;Baerenklau, Maik;de With, Gijsbertus;Hoppe, Harald;Loos, Joachim;
2:9:9 Recent progress in the morphology of bulk heterojunction photovoltaics
DOI:10.1039/c1sm06147j JN:SOFT MATTER PY:2011 TC:81 AU: Brady, Michael A.;Su, Gregory M.;Chabinyc, Michael L.;
2:9:10 A New Model for the Morphology of P3HT/PCBM Organic Photovoltaics from Small-Angle Neutron Scattering: Rivers and Streams
DOI:10.1021/nn200744q JN:ACS NANO PY:2011 TC:147 AU: Yin, Wen;Dadmun, Mark;
2:9:11 Morphology of All-Solution-Processed "Bilayer" Organic Solar Cells
DOI:10.1002/adma.201003545 JN:ADVANCED MATERIALS PY:2011 TC:124 AU: Lee, Kwan H.;Schwenn, Paul E.;Smith, Arthur R. G.;Cavaye, Hamish;Shaw, Paul E.;James, Michael;Krueger, Karsten B.;Gentle, Ian R.;Meredith, Paul;Burn, Paul L.;
2:9:12 Depletion of PCBM at the Cathode Interface in P3HT/PCBM Thin Films as Quantified via Neutron Reflectivity Measurements
DOI:10.1002/adma.200903971 JN:ADVANCED MATERIALS PY:2010 TC:105 AU: Parnell, Andrew J.;Dunbar, Alan D. F.;Pearson, Andrew J.;Staniec, Paul A.;Dennison, Andrew J. C.;Hamamatsu, Hiroshi;Skoda, Maximilian W. A.;Lidzey, David G.;Jones, Richard. A. L.;
2:9:13 Nanoparticle concentration profile in polymer-based solar cells
DOI:10.1039/b920979d JN:SOFT MATTER PY:2010 TC:110 AU: Kiel, Jonathan W.;Kirby, Brian J.;Majkrzak, Charles F.;Maranville, Brian B.;Mackay, Michael E.;
2:9:14 Real-Time Investigation of Crystallization and Phase-Segregation Dynamics in P3HT:PCBM Solar Cells During Thermal Annealing
DOI:10.1002/adfm.201002076 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:109 AU: Agostinelli, Tiziano;Lilliu, Samuele;Labram, John G.;Campoy-Quiles, Mariano;Hampton, Mark;Pires, Ellis;Rawle, Jonathan;Bikondoa, Oier;Bradley, Donal D. C.;Anthopoulos, Thomas D.;Nelson, Jenny;Macdonald, J. Emyr;
2:9:15 Correlating the Efficiency and Nanomorphology of Polymer Blend Solar Cells Utilizing Resonant Soft X-ray Scattering
DOI:10.1021/nn204150f JN:ACS NANO PY:2012 TC:66 AU: Yan, Hongping;Collins, Brian A.;Gann, Eliot;Wang, Cheng;Ade, Harald;McNeill, Christopher R.;
2:9:16 Morphology of polymer-based bulk heterojunction films for organic photovoltaics
DOI:10.1039/c0sm01502d JN:SOFT MATTER PY:2011 TC:85 AU: Ruderer, Matthias A.;Mueller-Buschbaum, Peter;
2:9:17 Polymer-Fullerene Miscibility: A Metric for Screening New Materials for High-Performance Organic Solar Cells
DOI:10.1021/ja305875u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:57 AU: Treat, Neil D.;Varotto, Alessandro;Takacs, Christopher J.;Batara, Nicolas;Al-Hashimi, Mohammed;Heeney, Martin J.;Heeger, Alan J.;Wudl, Fred;Hawker, Craig J.;Chabinyc, Michael L.;
2:9:18 Domain Purity, Miscibility, and Molecular Orientation at Donor/Acceptor Interfaces in High Performance Organic Solar Cells: Paths to Further Improvement
DOI:10.1002/aenm.201200912 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:49 AU: Ma, Wei;Tumbleston, John R.;Wang, Ming;Gann, Eliot;Huang, Fei;Ade, Harald;
2:9:19 Effect of Trace Solvent on the Morphology of P3HT:PCBM Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201002372 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:100 AU: Chang, Lilian;Lademann, Hans W. A.;Bonekamp, Joerg-Bernd;Meerholz, Klaus;Moule, Adam J.;
2:9:20 Fluorinated Polymer Yields High Organic Solar Cell Performance for a Wide Range of Morphologies
DOI:10.1002/adfm.201300093 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:38 AU: Tumbleston, John R.;Stuart, Andrew C.;Gann, Eliot;You, Wei;Ade, Harald;
2:9:21 Quantification of Thin Film Crystallographic Orientation Using X-ray Diffraction with an Area Detector
DOI:10.1021/la904840q JN:LANGMUIR PY:2010 TC:100 AU: Baker, Jessy L.;Jimison, Leslie H.;Mannsfeld, Stefan;Volkman, Steven;Yin, Shong;Subramanian, Vivek;Salleo, Alberto;Alivisatos, A. Paul;Toney, Michael F.;
2:9:22 Spontaneous Formation of Bulk Heterojunction Nanostructures: Multiple Routes to Equivalent Morphologies
DOI:10.1021/nl200056p JN:NANO LETTERS PY:2011 TC:77 AU: Moon, Ji Sun;Takacs, Christopher J.;Sun, Yanming;Heeger, Alan J.;
2:9:23 Competition between Fullerene Aggregation and Poly(3-hexylthiophene) Crystallization upon Annealing of Bulk Heterojunction Solar Cells
DOI:10.1021/nn2010816 JN:ACS NANO PY:2011 TC:90 AU: Wu, Wei-Ru;Jeng, U-Ser;Su, Chun-Jen;Wei, Kung-Hwa;Su, Ming-Shin;Chiu, Mao-Yuan;Chen, Chun-Yu;Su, Wen-Bin;Su, Chiu-Hun;Su, An-Chung;
2:9:24 Molecular Order in High-Efficiency Polymer/Fullerene Bulk Heterojunction Solar Cells
DOI:10.1021/nn202951e JN:ACS NANO PY:2011 TC:107 AU: Hammond, Matthew R.;Kline, R. Joseph;Herzing, Andrew A.;Richter, Lee J.;Germack, David S.;Ro, Hyun-Wook;Soles, Christopher L.;Fischer, Daniel A.;Xu, Tao;Yu, Luping;Toney, Michael F.;DeLongchamp, Dean M.;
2:9:25 Nanomorphology of Bulk Heterojunction Photovoltaic Thin Films Probed with Resonant Soft X-ray Scattering
DOI:10.1021/nl1009266 JN:NANO LETTERS PY:2010 TC:89 AU: Swaraj, Sufal;Wang, Cheng;Yan, Hongping;Watts, Benjamin;Jan Luening;McNeill, Christopher R.;Ade, Harald;
2:9:26 The Active Layer Morphology of Organic Solar Cells Probed with Grazing Incidence Scattering Techniques
DOI:10.1002/adma.201304187 JN:ADVANCED MATERIALS PY:2014 TC:24 AU: Mueller-Buschbaum, Peter;
2:9:27 Multi-Length-Scale Morphologies in PCPDTBT/PCBM Bulk-Heterojunction Solar Cells
DOI:10.1002/aenm.201100726 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:74 AU: Gu, Yu;Wang, Cheng;Russell, Thomas P.;
2:9:28 Correlating Structure with Function in Thermally Annealed PCDTBT:PC70BM Photovoltaic Blends
DOI:10.1002/adfm.201102510 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:63 AU: Wang, Tao;Pearson, Andrew J.;Dunbar, Alan D. F.;Staniec, Paul A.;Watters, Darren C.;Yi, Hunan;Ryan, Anthony J.;Jones, Richard A. L.;Iraqi, Ahmed;Lidzey, David G.;
2:9:29 Competition between morphological attributes in the thermal annealing and additive processing of polymer solar cells
DOI:10.1039/c3tc30679h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Ma, Wei;Ye, Long;Zhang, Shaoqing;Hou, Jianhui;Ade, Harald;
2:9:30 Sequential Processing: Control of Nanomorphology in Bulk Heterojunction Solar Cells
DOI:10.1021/nl202320r JN:NANO LETTERS PY:2011 TC:67 AU: Wang, Dong Hwan;Moon, Ji Sun;Seifter, Jason;Jo, Jang;Park, Jong Hyeok;Park, O. Ok;Heeger, Alan J.;
2:9:31 Solvent-Induced Morphology in Polymer-Based Systems for Organic Photovoltaics
DOI:10.1002/adfm.201100945 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:94 AU: Ruderer, Matthias A.;Guo, Shuai;Meier, Robert;Chiang, Hsin-Yin;Koerstgens, Volker;Wiedersich, Johannes;Perlich, Jan;Roth, Stephan V.;Mueller-Buschbaum, Peter;
2:9:32 Soft X-ray characterisation of organic semiconductor films
DOI:10.1039/c2tc00001f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:21 AU: McNeill, Christopher R.;Ade, Harald;
2:9:33 Evolution of Structure, Optoelectronic Properties, and Device Performance of Polythiophene: Fullerene Solar Cells During Thermal Annealing
DOI:10.1002/adfm.201002300 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:50 AU: Wang, Tao;Pearson, Andrew J.;Lidzey, David G.;Jones, Richard A. L.;
2:9:34 Surface segregation at the aluminum interface of poly(3-hexylthiophene)/fullerene solar cells
DOI:10.1063/1.3294290 JN:APPLIED PHYSICS LETTERS PY:2010 TC:55 AU: Orimo, Akiko;Masuda, Kohji;Honda, Satoshi;Benten, Hiroaki;Ito, Shinzaburo;Ohkita, Hideo;Tsuji, Hiroshi;
2:9:35 Surface-Directed Spinodal Decomposition in Poly[3-hexylthiophene] and C-61-Butyric Acid Methyl Ester Blends
DOI:10.1021/nn102899g JN:ACS NANO PY:2011 TC:60 AU: Vaynzof, Yana;Kabra, Dinesh;Zhao, Lihong;Chua, Lay Lay;Steiner, Ullrich;Friend, Richard H.;
2:9:36 Quantitative Analysis of Bulk Heterojunction Films Using Linear Absorption Spectroscopy and Solar Cell Performance
DOI:10.1002/adfm.201101583 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:54 AU: Turner, Sarah T.;Pingel, Patrick;Steyrleuthner, Robert;Crossland, Edward J. W.;Ludwigs, Sabine;Neher, Dieter;
2:9:37 Complementary solvent additives tune the orientation of polymer lamellae, reduce the sizes of aggregated fullerene domains, and enhance the performance of bulk heterojunction solar cells
DOI:10.1039/c4ta04804k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:7 AU: Liu, Chih-Ming;Su, Yu-Wei;Jiang, Jian-Ming;Chen, Hsiu-Cheng;Lin, Shu-Wei;Su, Chun-Jen;Jeng, U-Ser;Wei, Kung-Hwa;
2:9:38 Visualizing a Homogeneous Blend in Bulk Heterojunction Polymer Solar Cells by Analytical Electron Microscopy
DOI:10.1021/nl201078t JN:NANO LETTERS PY:2011 TC:75 AU: Pfannmoeller, Martin;Fluegge, Harald;Benner, Gerd;Wacker, Irene;Sommer, Christoph;Hanselmann, Michael;Schmale, Stephan;Schmidt, Hans;Hamprecht, Fred A.;Rabe, Torsten;Kowalsky, Wolfgang;Schroeder, Rasmus R.;
2:9:39 Influence of Annealing and Interfacial Roughness on the Performance of Bilayer Donor/Acceptor Polymer Photovoltaic Devices
DOI:10.1002/adfm.201001292 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:71 AU: Yan, Hongping;Swaraj, Sufal;Wang, Cheng;Hwang, Inchan;Greenham, Neil C.;Groves, Chris;Ade, Harald;McNeill, Christopher R.;
2:9:40 Quantification of Nano- and Mesoscale Phase Separation and Relation to Donor and Acceptor Quantum Efficiency, J(SC), and FF in Polymer:Fullerene Solar Cells
DOI:10.1002/adma.201400216 JN:ADVANCED MATERIALS PY:2014 TC:17 AU: Ma, Wei;Tumbleston, John R.;Ye, Long;Wang, Cheng;Hou, Jianhui;Ade, Harald;
2:9:41 Moving through the Phase Diagram: Morphology Formation in Solution Cast Polymer-Fullerene Blend Films for Organic Solar Cells
DOI:10.1021/nn2036279 JN:ACS NANO PY:2011 TC:58 AU: Schmidt-Hansberg, Benjamin;Sanyal, Monamie;Klein, Michael F. G.;Pfaff, Marina;Schnabel, Natalie;Jaiser, Stefan;Vorobiev, Alexei;Mueller, Erich;Colsmann, Alexander;Scharfer, Philip;Gerthsen, Dagmar;Lemmer, Uli;Barrena, Esther;Schabel, Wilhelm;
2:9:42 Factors Governing Intercalation of Fullerenes and Other Small Molecules Between the Side Chains of Semiconducting Polymers Used in Solar Cells
DOI:10.1002/aenm.201200392 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:38 AU: Miller, Nichole Cates;Cho, Eunkyung;Gysel, Roman;Risko, Chad;Coropceanu, Veaceslav;Miller, Chad E.;Sweetnam, Sean;Sellinger, Alan;Heeney, Martin;McCulloch, Iain;Bredas, Jean-Luc;Toney, Michael F.;McGehee, Michael D.;
2:9:43 Abrupt Morphology Change upon Thermal Annealing in Poly(3-Hexylthiophene)/Soluble Fullerene Blend Films for Polymer Solar Cells
DOI:10.1002/adfm.200901655 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:69 AU: Shin, Minjung;Kim, Hwajeong;Park, Jiho;Nam, Sungho;Heo, Kyuyoung;Ree, Moonhor;Ha, Chang-Sik;Kim, Youngkyoo;
2:9:44 Spin-Cast Bulk Heterojunction Solar Cells: A Dynamical Investigation
DOI:10.1002/adma.201203440 JN:ADVANCED MATERIALS PY:2013 TC:38 AU: Chou, Kang Wei;Yan, Buyi;Li, Ruipeng;Li, Er Qiang;Zhao, Kui;Anjum, Dalaver H.;Alvarez, Steven;Gassaway, Robert;Biocca, Alan;Thoroddsen, Sigurdur T.;Hexemer, Alexander;Amassian, Aram;
2:9:45 Mild wetting poor solvent induced hydrogen bonding interactions for improved performance in bulk heterojunction solar cells
DOI:10.1039/c3ta13875e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Gopalan, Sai-Anand;Seo, Min-Ho;Anantha-Iyengar, Gopalan;Han, Baoyin;Lee, Sang-Won;Kwon, Dae-Hyuk;Lee, Seung-Ha;Kang, Shin-Won;
2:9:46 The development of nanoscale morphology in polymer: fullerene photovoltaic blends during solvent casting
DOI:10.1039/c0sm00343c JN:SOFT MATTER PY:2010 TC:62 AU: Wang, Tao;Dunbar, Alan D. F.;Staniec, Paul A.;Pearson, Andrew J.;Hopkinson, Paul E.;MacDonald, J. Emyr;Lilliu, Samuele;Pizzey, Claire;Terrill, Nicholas J.;Donald, Athene M.;Ryan, Anthony J.;Jones, Richard A. L.;Lidzey, David G.;
2:9:47 Morphological Characterization of a Low-Bandgap Crystalline Polymer:PCBM Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201100128 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:48 AU: Lu, Haiyun;Akgun, Bulent;Russell, Thomas P.;
2:9:48 Effects of Cyano-Substituents on the Molecular Packing Structures of Conjugated Polymers for Bulk-Heterojunction Solar Cells
DOI:10.1021/am502795y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Cha, Hyojung;Kim, Hyoung Nam;An, Tae Kyu;Kang, Moon Sung;Kwon, Soon-Ki;Kim, Yun-Hi;Park, Chan Eon;
2:9:49 The Role of Solvent Additive Processing in High Performance Small Molecule Solar Cells
DOI:10.1021/cm5031987 JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Perez, Louis A.;Rogers, James T.;Brady, Michael A.;Sun, Yanming;Welch, Gregory C.;Schmidt, Kristin;Toney, Michael F.;Jinnai, Hiroshi;Heeger, Alan J.;Chabinyc, Michael L.;Bazan, Guillermo C.;Kramer, Edward J.;
2:9:50 Quantitative Nanoorganized Structural Evolution for a High Efficiency Bulk Heterojunction Polymer Solar Cell
DOI:10.1021/ja202977r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:51 AU: Liao, Hsueh-Chung;Tsao, Cheng-Si;Lin, Tsung-Han;Chuang, Chih-Min;Chen, Charn-Ying;Jeng, U-Ser;Su, Chiu-Hun;Chen, Yang-Fang;Su, Wei-Fang;
2:9:51 Effects of buffer layer properties and annealing process on bulk heterojunction morphology and organic solar cell performance
DOI:10.1039/c2jm31277h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Karagiannidis, Panagiotis G.;Kalfagiannis, Nikolaos;Georgiou, Despoina;Laskarakis, Argiris;Hastas, Nikolaos A.;Pitsalidis, Charalampos;Logothetidis, Stergios;
2:9:52 Efficient inverted quasi-bilayer organic solar cells fabricated by using non-halogenated solvent processes
DOI:10.1039/c4ta02453b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:12 AU: Chang, Jung-Hao;Wang, Hsiao-Fang;Lin, Wei-Chieh;Chiang, Kai-Ming;Chen, Kuan-Chen;Huang, Wei-Ching;Huang, Zheng-Yu;Meng, Hsin-Fei;Ho, Rong-Ming;Lin, Hao-Wu;
2:9:53 Nanoparticle Agglomeration in Polymer-Based Solar Cells
DOI:10.1103/PhysRevLett.105.168701 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:55 AU: Kiel, Jonathon W.;Eberle, Aaron P. R.;Mackay, Michael E.;
2:9:54 Controlling Vertical Morphology within the Active Layer of Organic Photovoltaics Using Poly(3-hexylthiophene) Nanowires and Phenyl-C-61-butyric Acid Methyl Ester
DOI:10.1021/nn2002695 JN:ACS NANO PY:2011 TC:43 AU: Rice, Andrew H.;Giridharagopal, Rajiv;Zheng, Sam X.;Ohuchi, Fumio S.;Ginger, David S.;Luscombe, Christine K.;
2:9:55 Domain Compositions and Fullerene Aggregation Govern Charge Photogeneration in Polymer/Fullerene Solar Cells
DOI:10.1002/aenm.201400116 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:17 AU: Kesava, Sameer Vajjala;Fei, Zhuping;Rimshaw, Adam D.;Wang, Cheng;Hexemer, Alexander;Asbury, John B.;Heeney, Martin;Gomez, Enrique D.;
2:9:56 Description of the Morphology Dependent Charge Transport and Performance of Polymer:Fullerene Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201001515 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:64 AU: Maturova, Klara;van Bavel, Svetlana S.;Wienk, Martijn M.;Janssen, Rene A. J.;Kemerink, Martijn;
2:9:57 Crystallization-Induced Phase Separation in Solution-Processed Small Molecule Bulk Heterojunction Organic Solar Cells
DOI:10.1002/adfm.201304100 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:16 AU: Sharenko, Alexander;Kuik, Martijn;Toney, Michael F.;Thuc-Quyen Nguyen;
2:9:58 Controlling Molecular Weight of a High Efficiency Donor-Acceptor Conjugated Polymer and Understanding Its Significant Impact on Photovoltaic Properties
DOI:10.1002/adma.201305251 JN:ADVANCED MATERIALS PY:2014 TC:34 AU: Li, Wentao;Yang, Liqiang;Tumbleston, John R.;Yan, Liang;Ade, Harald;You, Wei;
2:9:59 Evolution of Lateral Structures during the Functional Stack Build-up of P3HT:PCBM-Based Bulk Heterojunction Solar Cells
DOI:10.1021/am402045p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Guo, Shuai;Ruderer, Matthias A.;Rawolle, Monika;Koerstgens, Volker;Birkenstock, Christopher;Perlich, Jan;Mueller-Buschbaum, Peter;
2:9:60 Molecular-Scale and Nanoscale Morphology of P3HT:PCBM Bulk Heterojunctions: Energy-Filtered TEM and Low-Dose HREM
DOI:10.1021/cm102463t JN:CHEMISTRY OF MATERIALS PY:2011 TC:60 AU: Drummy, Lawrence F.;Davis, Robert J.;Moore, Diana L.;Durstock, Michael;Vaia, Richard A.;Hsu, Julia W. P.;
2:9:61 Molecular Characterization of Organic Electronic Films
DOI:10.1002/adma.201001760 JN:ADVANCED MATERIALS PY:2011 TC:69 AU: DeLongchamp, Dean M.;Kline, R. Joseph;Fischer, Daniel A.;Richter, Lee J.;Toney, Michael F.;
2:9:62 Precise construction of PCBM aggregates for polymer solar cells via multi-step controlled solvent vapor annealing
DOI:10.1039/b917533d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:69 AU: Tang, Haowei;Lu, Guanghao;Li, Ligui;Li, Jun;Wang, Yuzhen;Yang, Xiaoniu;
2:9:63 In situ measurement of power conversion efficiency and molecular ordering during thermal annealing in P3HT:PCBM bulk heterojunction solar cells
DOI:10.1039/c1jm12677f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:38 AU: Treat, Neil D.;Shuttle, Chris G.;Toney, Michael F.;Hawker, Craig J.;Chabinyc, Michael L.;
2:9:64 Characterization of the mesoscopic structure in the photoactive layer of organic solar cells: A focused review
DOI:10.1016/j.matlet.2012.08.146 JN:MATERIALS LETTERS PY:2013 TC:17 AU: Vakhshouri, Kiarash;Kesava, Sameer Vajjala;Kozub, Derek R.;Gomez, Enrique D.;
2:9:65 Evolution of vertical phase separation in P3HT:PCBM thin films induced by thermal annealing
DOI:10.1016/j.matchemphys.2011.06.007 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:39 AU: Karagiannidis, P. G.;Georgiou, D.;Pitsalidis, C.;Laskarakis, A.;Logothetidis, S.;
2:9:66 Polymeric solar cells based on P3HT:PCBM: Role of the casting solvent
DOI:10.1016/j.solmat.2011.07.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:53 AU: Minh Trung Dang;Wantz, Guillaume;Bejbouji, Habiba;Urien, Mathieu;Dautel, Olivier J.;Vignau, Laurence;Hirsch, Lionel;
2:9:67 Effect of Processing Additives on the Solidification of Blade-Coated Polymer/Fullerene Blend Films via In-Situ Structure Measurements
DOI:10.1002/aenm.201201027 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:26 AU: Shin, Nayool;Richter, Lee J.;Herzing, Andrew A.;Kline, R. Joseph;DeLongchamp, Dean M.;
2:9:68 Morphology Development in Amorphous Polymer: Fullerene Photovoltaic Blend Films During Solution Casting
DOI:10.1002/adfm.201301922 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Pearson, Andrew J.;Wang, Tao;Dunbar, Alan D. F.;Yi, Hunan;Watters, Darren C.;Coles, David M.;Staniec, Paul A.;Iraqi, Ahmed;Jones, Richard A. L.;Lidzey, David G.;
2:9:69 PS-b-P3HT Copolymers as P3HT/PCBM Interfacial Compatibilizers for High Efficiency Photovoltaics
DOI:10.1002/adma.201103361 JN:ADVANCED MATERIALS PY:2011 TC:39 AU: Sun, Zhenzhong;Xiao, Kai;Keum, Jong Kahk;Yu, Xiang;Hong, Kunlun;Browning, Jim;Ivanov, Ilia N.;Chen, Jihua;Alonzo, Jose;Li, Dawen;Sumpter, Bobby G.;Payzant, Edward A.;Rouleau, Christopher M.;Geohegan, David B.;
2:9:70 Layer-by-layer processed high-performance polymer solar cells
DOI:10.1063/1.4773515 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Li, Hui;Wang, Jizheng;
2:9:71 Facile hot solvent vapor annealing for high performance polymer solar cell using spray process
DOI:10.1016/j.solmat.2013.02.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:15 AU: Huang, Yu-Ching;Chia, Hou-Chin;Chuang, Chih-Min;Tsao, Cheng-Si;Chen, Charn-Ying;Su, Wei-Fang;
2:9:72 Distinguishing the Importance of Fullerene Phase Separation from Polymer Ordering in the Performance of Low Band Gap Polymer:Bis-Fullerene Heterojunctions
DOI:10.1002/adfm.201401419 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Chen, Huipeng;Hsiao, Yu-Che;Chen, Jihua;Hu, Bin;Dadmun, Mark;
2:9:73 Predicting Vertical Phase Segregation in Polymer-Fullerene Bulk Heterojunction Solar Cells by Free Energy Analysis
DOI:10.1021/am4003777 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Clark, Michael D.;Jespersen, Michael L.;Patel, Romesh J.;Leever, Benjamin J.;
2:9:74 Effects of Intercalation on the Hole Mobility of Amorphous Semiconducting Polymer Blends
DOI:10.1021/cm1008619 JN:CHEMISTRY OF MATERIALS PY:2010 TC:50 AU: Cates, Nichole C.;Gysel, Roman;Dahl, Jeremy E. P.;Sellinger, Alan;McGehee, Michael D.;
2:9:75 Manipulating the Morphology of P3HT-PCBM Bulk Heterojunction Blends with Solvent Vapor Annealing
DOI:10.1021/cm302312a JN:CHEMISTRY OF MATERIALS PY:2012 TC:52 AU: Verploegen, Eric;Miller, Chad E.;Schmidt, Kristin;Bao, Zhenan;Toney, Michael F.;
2:9:76 Self-Assembly of Selective Interfaces in Organic Photovoltaics
DOI:10.1002/adfm.201201874 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:24 AU: Mauger, Scott A.;Chang, Lilian;Friedrich, Stephan;Rochester, Christopher W.;Huang, David M.;Wang, Peng;Moule, Adam J.;
2:9:77 Advanced Ellipsometric Characterization of Conjugated Polymer Films
DOI:10.1002/adfm.201303060 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Campoy-Quiles, Mariano;Isabel Alonso, M.;Bradley, Donal D. C.;Richter, Lee J.;
2:9:78 Distribution of Crystalline Polymer and Fullerene Clusters in Both Horizontal and Vertical Directions of High-Efficiency Bulk Heterojunction Solar Cells
DOI:10.1021/am4011995 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:16 AU: Liu, Chih-Ming;Su, Ming-Shin;Jiang, Jian-Ming;Su, Yu-Wei;Su, Chun-Jen;Chen, Charn-Ying;Tsao, Cheng-Si;Wei, Kung-Hwa;
2:9:79 Effect of Miscibility and Percolation on Electron Transport in Amorphous Poly(3-Hexylthiophene)/Phenyl-C-61-Butyric Acid Methyl Ester Blends
DOI:10.1103/PhysRevLett.108.026601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:34 AU: Vakhshouri, Kiarash;Kozub, Derek R.;Wang, Chenchen;Salleo, Alberto;Gomez, Enrique D.;
2:9:80 Surface and interface porosity of polymer/fullerene-derivative thin films revealed by contrast variation of neutron and X-ray reflectivity
DOI:10.1039/c1sm06005h JN:SOFT MATTER PY:2011 TC:11 AU: Liu, Heng-Jui;Jeng, U-Ser;Yamada, Norifumi L.;Su, An-Chung;Wu, Wei-Ru;Su, Chun-Jen;Lin, Su-Jien;Wei, Kung-Hwa;Chiu, Mao-Yuan;
2:9:81 Nanoparticle-Tuned Self-Organization of a Bulk Heterojunction Hybrid Solar Cell with Enhanced Performance
DOI:10.1021/nn204654h JN:ACS NANO PY:2012 TC:49 AU: Liao, Hsueh-Chung;Tsao, Cheng-Si;Lin, Tsung-Han;Jao, Meng-Huan;Chuang, Chih-Min;Chang, Sheng-Yong;Huang, Yu-Ching;Shao, Yu-Tsun;Chen, Charn-Ying;Su, Chun-Jen;Jeng, U-Ser;Chen, Yang-Fang;Su, Wei-Fang;
2:9:82 The Role of Fullerene Mixing Behavior in the Performance of Organic Photovoltaics: PCBM in Low-Bandgap Polymers
DOI:10.1002/adfm.201300862 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:18 AU: Chen, Huipeng;Peet, Jeff;Hu, Sheng;Azoulay, Jason;Bazan, Guillermo;Dadmun, Mark;
2:9:83 Optimizing performance of layer-by-layer processed polymer solar cells
DOI:10.1063/1.4737877 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Li, Hui;Li, Yong-Fang;Wang, Jizheng;
2:9:84 Time-Resolved Neutron Reflectometry and Photovoltaic Device Studies on Sequentially Deposited PCDTBT-Fullerene Layers
DOI:10.1021/la5020779 JN:LANGMUIR PY:2014 TC:3 AU: Clulow, Andrew J.;Tao, Chen;Lee, Kwan H.;Velusamy, Marappan;McEwan, Jake A.;Shaw, Paul E.;Yamada, Norifumi L.;James, Michael;Burn, Paul L.;Gentle, Ian R.;Meredith, Paul;
2:9:85 Understanding the Morphology of PTB7: PCBM Blends in Organic Photovoltaics
DOI:10.1002/aenm.201301377 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:27 AU: Liu, Feng;Zhao, Wei;Tumbleston, John R.;Wang, Cheng;Gu, Yu;Wang, Dong;Briseno, Alejandro L.;Ade, Harald;Russell, Thomas P.;
2:9:86 Precise Structural Development and its Correlation to Function in Conjugated Polymer: Fullerene Thin Films by Controlled Solvent Annealing
DOI:10.1002/adfm.201202035 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:27 AU: Chen, Huipeng;Hu, Sheng;Zang, Huidong;Hu, Bin;Dadmun, Mark;
2:9:87 Discriminating between Bilayer and Bulk Heterojunction Polymer: Fullerene Solar Cells Using the External Quantum Efficiency
DOI:10.1021/am200755m JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:44 AU: Gevaerts, Veronique S.;Koster, L. Jan Anton;Wienk, Martijn M.;Janssen, Rene A. J.;
2:9:88 Control of morphology and function of low band gap polymer-bis-fullerene mixed heterojunctions in organic photovoltaics with selective solvent vapor annealing
DOI:10.1039/c4ta01436g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Chen, Huipeng;Hsiao, Yu-Che;Hu, Bin;Dadmun, Mark;
2:9:89 Investigation of non-halogenated solvent mixtures for high throughput fabrication of polymer-fullerene solar cells
DOI:10.1016/j.solmat.2011.09.059 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:37 AU: Schmidt-Hansberg, Benjamin;Sanyal, Monamie;Grossiord, Nadia;Galagan, Yulia;Baunach, Michael;Klein, Michael F. G.;Colsmann, Alexander;Scharfer, Philip;Lemmer, Uli;Dosch, Helmut;Michels, Jasper;Barrena, Esther;Schabel, Wilhelm;
2:9:90 Studying Polymer/Fullerene Intermixing and Miscibility in Laterally Patterned Films with X-Ray Spectromicroscopy
DOI:10.1002/smll.201102382 JN:SMALL PY:2012 TC:20 AU: He, Xiaoxi;Collins, Brian A.;Watts, Benjamin;Ade, Harald;McNeill, Christopher R.;
2:9:91 Nanofiber-Based Bulk-Heterojunction Organic Solar Cells Using Coaxial Electrospinning
DOI:10.1002/aenm.201100674 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:17 AU: Bedford, Nicholas M.;Dickerson, Matthew B.;Drummy, Lawrence F.;Koerner, Hilmar;Singh, Kristi M.;Vasudev, Milana C.;Durstock, Michael F.;Naik, Rajesh R.;Steckl, Andrew J.;
2:9:92 Spectroscopic Evaluation of Mixing and Crystallinity of Fullerenes in Bulk Heterojunctions
DOI:10.1002/adfm.201401626 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Guilbert, Anne A. Y.;Schmidt, Malte;Bruno, Annalisa;Yao, Jizhong;King, Simon;Tuladhar, Sachetan M.;Kirchartz, Thomas;Alonso, M. Isabel;Goni, Alejandro R.;Stingelin, Natalie;Haque, Saif A.;Campoy-Quiles, Mariano;Nelson, Jenny;
2:9:93 Enhancing Photovoltaic Performance Using an All-Conjugated Random Copolymer to Tailor Bulk and Interfacial Morphology of the P3HT:ICBA Active Layer
DOI:10.1002/adfm.201401058 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Li, Anton;Amonoo, Jojo;Huang, Bingyuan;Goldberg, Peter K.;McNeil, Anne J.;Green, Peter F.;
2:9:94 Use of X-Ray Diffraction, Molecular Simulations, and Spectroscopy to Determine the Molecular Packing in a Polymer-Fullerene Bimolecular Crystal
DOI:10.1002/adma.201202293 JN:ADVANCED MATERIALS PY:2012 TC:39 AU: Miller, Nichole Cates;Cho, Eunkyung;Junk, Matthias J. N.;Gysel, Roman;Risko, Chad;Kim, Dongwook;Sweetnam, Sean;Miller, Chad E.;Richter, Lee J.;Kline, R. Joseph;Heeney, Martin;McCulloch, Iain;Amassian, Aram;Acevedo-Feliz, Daniel;Knox, Christopher;Hansen, Michael Ryan;Dudenko, Dmytro;Chmelka, Bradley F.;Toney, Michael F.;Bredas, Jean-Luc;McGehee, Michael D.;
2:9:95 Layer-by-layer processed polymer solar cells with self-assembled electron buffer layer
DOI:10.1063/1.4808047 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Li, Hui;Qi, Zhe;Wang, Jizheng;
2:9:96 Organic Solar Cells Based on Three-Dimensionally Percolated Polythiophene Nanowires with Enhanced Charge Transport
DOI:10.1021/am501358k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:12 AU: Kim, Joo-Hyun;Kim, Min;Jinnai, Hiroshi;Shin, Tae Joo;Kim, Haena;Park, Jong Hwan;Jo, Sae Byeok;Cho, Kilwon;
2:9:97 Bulk heterojunction solar cells based on preformed polythiophene nanowires via solubility-induced crystallization
DOI:10.1039/c0jm00666a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:54 AU: Kim, Joo-Hyun;Park, Jong Hwan;Lee, Ji Hwang;Kim, Jong Soo;Sim, Myungsun;Shim, Chiyeoung;Cho, Kilwon;
2:9:98 Phase behaviour of liquid-crystalline polymer/fullerene organic photovoltaic blends: thermal stability and miscibility
DOI:10.1039/c1jm11239b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:34 AU: Muller, Christian;Bergqvist, Jonas;Vandewal, Koen;Tvingstedt, Kristofer;Anselmo, Ana Sofia;Magnusson, Roger;Alonso, M. Isabel;Moons, Ellen;Arwin, Hans;Campoy-Quiles, Mariano;Inganas, Olle;
2:9:99 Microwave-assisted solvent vapor annealing to rapidly achieve enhanced performance of organic photovoltaics
DOI:10.1039/c4ta02609h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Jung, Buyoung;Kim, Kangmin;Kim, Woochul;
2:9:100 Non-destructive optical characterization of phase separation in bulk heterojunction organic photovoltaic cells
DOI:10.1016/j.solmat.2014.03.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Georgiou, D.;Laskarakis, A.;Morana, M.;Karagiannidis, P. G.;Logothetidis, S.;
2:9:101 The Consequences of Interface Mixing on Organic Photovoltaic Device Characteristics
DOI:10.1002/adfm.201002014 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:44 AU: Huang, David M.;Mauger, Scott A.;Friedrich, Stephan;George, Simon J.;Dumitriu-LaGrange, Daniela;Yoon, Sook;Moule, Adam J.;
2:9:102 Evolution of the Electron Mobility in Polymer Solar Cells with Different Fullerene Acceptors
DOI:10.1021/am402100f JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Gao, Dong;Djukic, Brandon;Shi, Weiqing;Bridges, Colin R.;Kozycz, Lisa M.;Seferos, Dwight S.;
2:9:103 Mesoscopic Structural Length Scales in P3HT/PCBM Mixtures Remain Invariant for Various Processing Conditions
DOI:10.1021/cm4011426 JN:CHEMISTRY OF MATERIALS PY:2013 TC:8 AU: Kesava, Sameer Vajjala;Dhanker, Rijul;Kozub, Derek R.;Vakhshouri, Kiarash;Choi, U. Hyeok;Colby, Ralph H.;Wang, Cheng;Hexemer, Alexander;Giebink, Noel C.;Gomez, Enrique D.;
2:9:104 P3HT: PCBM Solar Cells-The Choice of Source Material
DOI:10.1002/app.39776 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:4 AU: Ng, Annie;Liu, Xiang;Jim, Wai Yan;Djurisic, Aleksandra B.;Lo, Kin Cheung;Li, Sheung Yin;Chan, Wai Kin;
2:9:105 Correlation of polymeric compatibilizer structure to its impact on the morphology and function of P3HT:PCBM bulk heterojunctions
DOI:10.1039/c3ta10386b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:12 AU: Chen, Huipeng;Chen, Jihua;Yin, Wen;Yu, Xiang;Shao, Ming;Xiao, Kai;Hong, Kunlun;Pickel, Deanna L.;Kochemba, W. Michael;Kilbey, S. Michael, II;Dadmun, Mark;
2:9:106 Morphology linked to miscibility in highly amorphous semi-conducting polymer/fullerene blends
DOI:10.1016/j.polymer.2014.07.051 JN:POLYMER PY:2014 TC:7 AU: Tumbleston, John R.;Yang, Liqiang;You, Wei;Ade, Harald;
2:9:107 Influence of Interfacial Area on Exciton Separation and Polaron Recombination in Nanostructured Bilayer All-Polymer Solar Cells
DOI:10.1021/nn5064166 JN:ACS NANO PY:2014 TC:3 AU: Pfadler, Thomas;Coric, Mihael;Palumbiny, Claudia M.;Jakowetz, Andreas C.;Strunk, Karl-Philipp;Dorman, James A.;Ehrenreich, Philipp;Wang, Cheng;Hexemer, Alexander;Png, Rui-Qi;Ho, Peter K. H.;Mueller-Buschbaum, Peter;Weickert, Jonas;Schmidt-Mende, Lukas;
2:9:108 In Situ X-Ray Study of Drying-Temperature Influence on the Structural Evolution of Bulk-Heterojunction Polymer-Fullerene Solar Cells Processed by Doctor-Blading
DOI:10.1002/aenm.201100007 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:38 AU: Sanyal, Monamie;Schmidt-Hansberg, Benjamin;Klein, Michael F. G.;Colsmann, Alexander;Munuera, Carmen;Vorobiev, Alexei;Lemmer, Uli;Schabel, Wilhelm;Dosch, Helmut;Barrena, Esther;
2:9:109 Annealing of P3HT:PCBM Blend Film-The Effect on Its Optical Properties
DOI:10.1021/am4004232 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Ng, Annie;Liu, Xiang;To, Chap Hang;Djurisic, Aleksandra B.;Zapien, Juan Antonio;Chan, Wai Kin;
2:9:110 Defining the Nanostructured Morphology of Triblock Copolymers Using Resonant Soft X-ray Scattering
DOI:10.1021/nl2020526 JN:NANO LETTERS PY:2011 TC:38 AU: Wang, Cheng;Lee, Dong Hyun;Hexemer, Alexander;Kim, Myung Im;Zhao, Wei;Hasegawa, Hirokazu;Ade, Harald;Russell, Thomas P.;
2:9:111 Morphology Control in co-evaporated bulk heterojunction solar cells
DOI:10.1016/j.solmat.2013.05.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Kovacik, Peter;Assender, Hazel E.;Watt, Andrew A. R.;
2:9:112 Effect of Fabrication Parameters on Three-Dimensional Nanostructures of Bulk Heterojunctions Imaged by High-Resolution Scanning ToF-SIMS
DOI:10.1021/nn9014449 JN:ACS NANO PY:2010 TC:36 AU: Yu, Bang-Ying;Lin, Wei-Chun;Wang, Wei-Ben;Iida, Shin-ichi;Chen, Sun-Zen;Liu, Chia-Yi;Kuo, Che-Hung;Lee, Szu-Hsian;Kao, Wei-Lun;Yen, Guo-Ji;You, Yun-Wen;Liu, Chi-Ping;Jou, Jwo-Huei;Shyue, Jing-Jong;
2:9:113 Effect of Multiple Adduct Fullerenes on Microstructure and Phase Behavior of P3HT:Fullerene Blend Films for Organic Solar Cells
DOI:10.1021/nn204996w JN:ACS NANO PY:2012 TC:32 AU: Guilbert, Anne A. Y.;Reynolds, Luke X.;Bruno, Annalisa;MacLachlan, Andrew;King, Simon P.;Faist, Mark A.;Pires, Ellis;Macdonald, J. Emyr;Stingelin, Natalie;Haque, Saif A.;Nelson, Jenny;
2:9:114 Correlating Stiffness, Ductility, and Morphology of Polymer:Fullerene Films for Solar Cell Applications
DOI:10.1002/aenm.201200595 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:16 AU: Awartani, Omar;Lemanski, Bethany I.;Ro, Hyun Wook;Richter, Lee J.;DeLongchamp, Dean M.;O'Connor, Brendan T.;
2:9:115 Uncovering Buried Structure and Interfaces in Molecular Photovoltaics
DOI:10.1002/adfm.201400345 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Gilchrist, James B.;Basey-Fisher, Toby. H.;Chang, Sharon C'E.;Scheltens, Frank;McComb, David W.;Heutz, Sandrine;
2:9:116 How High Local Charge Carrier Mobility and an Energy Cascade in a Three-Phase Bulk Heterojunction Enable > 90% Quantum Efficiency
DOI:10.1002/adma.201304241 JN:ADVANCED MATERIALS PY:2014 TC:39 AU: Burke, Timothy M.;McGehee, Michael D.;
2:9:117 Molecular Weight Dependence of the Morphology in P3HT:PCBM Solar Cells
DOI:10.1021/am505283k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Liu, Feng;Chen, Dian;Wang, Cheng;Luo, Kaiyuan;Gu, Weiyin;Briseno, Alejandro L.;Hsu, Julia W. P.;Russell, Thomas P.;
2:9:118 Spatially Resolving Ordered and Disordered Conformers and Photocurrent Generation in Intercalated Conjugated Polymer/Fullerene Blend Solar Cells
DOI:10.1021/cm501252y JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Gao, Jian;Thomas, Alan K.;Johnson, Ryan;Guo, Hua;Grey, John K.;
2:9:119 Morphology evaluation of a polymer-fullerene bulk heterojunction ensemble generated by the fullerene derivatization
DOI:10.1039/c2jm32629a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Kaestner, Christian;Susarova, Diana K.;Jadhav, Rupali;Ulbricht, Christoph;Egbe, Daniel A. M.;Rathgeber, Silke;Troshin, Pavel A.;Hoppe, Harald;
2:9:120 Correlation of diffusion and performance in sequentially processed P3HT/PCBM heterojunction films by time-resolved neutron reflectometry
DOI:10.1039/c3tc00063j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Lee, Kwan H.;Zhang, Yuliang;Burn, Paul L.;Gentle, Ian R.;James, Michael;Nelson, Andrew;Meredith, Paul;
2:9:121 Effect of process parameters on the morphology and nanostructure of roll-to-roll printed P3HT:PCBM thin films for organic photovoltaics
DOI:10.1016/j.solmat.2012.12.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:16 AU: Koidis, C.;Logothetidis, S.;Kassavetis, S.;Kapnopoulos, C.;Karagiannidis, P. G.;Georgiou, D.;Laskarakis, A.;
2:9:122 Interplay between Fullerene Surface Coverage and Contact Selectivity of Cathode Interfaces in Organic Solar Cells
DOI:10.1021/nn4014593 JN:ACS NANO PY:2013 TC:28 AU: Guerrero, Antonio;Doerling, Bernhard;Ripolles-Sanchis, Teresa;Aghamohammadi, Mahdieh;Barrena, Esther;Campoy-Quiles, Mariano;Garcia-Belmonte, Germa;
2:9:123 Electrical Performance of Organic Solar Cells with AdditiveAssisted Vertical Phase Separation in the Photoactive Layer
DOI:10.1002/aenm.201300612 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:17 AU: Kim, Min;Kim, Joo-Hyun;Choi, Hyun Ho;Park, Jong Hwan;Jo, Sae Byeok;Sim, Myungsun;Kim, Jong Soo;Jinnai, Hiroshi;Park, Yeong Don;Cho, Kilwon;
2:9:124 Molecular Intercalation and Cohesion of Organic Bulk Heterojunction Photovoltaic Devices
DOI:10.1002/adfm.201202969 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:18 AU: Bruner, Christopher;Miller, Nichole C.;McGehee, Michael D.;Dauskardt, Reinhold H.;
2:9:125 Three-Dimensional Concentration Mapping of Organic Blends
DOI:10.1002/adfm.201202190 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:23 AU: Roehling, John D.;Batenburg, K. Joost;Swain, F. Benjamin;Moule, Adam J.;Arslan, Ilke;
2:9:126 Tuning the Morphology and Performance of Low Bandgap Polymer: Fullerene Heterojunctions via Solvent Annealing in Selective Solvents
DOI:10.1002/adfm.201400552 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Chen, Huipeng;Hsiao, Yu-Che;Hu, Bin;Dadmun, Mark;
2:9:127 Understanding Local and Macroscopic Electron Mobilities in the Fullerene Network of Conjugated Polymer-based Solar Cells: Time-Resolved Microwave Conductivity and Theory
DOI:10.1002/adfm.201301757 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Aguirre, Jordan C.;Arntsen, Christopher;Hernandez, Samuel;Huber, Rachel;Nardes, Alexandre M.;Halim, Merissa;Kilbride, Daniel;Rubin, Yves;Tolbert, Sarah H.;Kopidakis, Nikos;Schwartz, Benjamin J.;Neuhauser, Daniel;
2:9:128 Tuning the Morphology of All-Polymer OPVs through Altering Polymer-Solvent Interactions
DOI:10.1021/cm502112z JN:CHEMISTRY OF MATERIALS PY:2014 TC:9 AU: Pavlopoulou, Eleni;Kim, Chang Su;Lee, Stephanie S.;Chen, Zhihua;Facchetti, Antonio;Toney, Michael F.;Loo, Yueh-Lin;
2:9:129 The Impact of Fullerene Structure on Its Miscibility with P3HT and Its Correlation of Performance in Organic Photovoltaics
DOI:10.1021/cm5015898 JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Chen, Huipeng;Peet, Jeff;Hsiao, Yu-Che;Hu, Bin;Dadmun, Mark;
2:9:130 Characterization of the Polymer Energy Landscape in Polymer:Fullerene Bulk Heterojunctions with Pure and Mixed Phases
DOI:10.1021/ja505463r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Sweetnam, Sean;Graham, Kenneth R.;Ndjawa, Guy O. Ngongang;Heumueller, Thomas;Bartelt, Jonathan A.;Burke, Timothy M.;Li, Wentao;You, Wei;Amassian, Aram;McGehee, Michael D.;
2:9:131 X-ray and neutron reflectivity and electronic properties of PCBM-poly(bromo)styrene blends and bilayers with poly(3-hexylthiophene)
DOI:10.1039/c2jm14967b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Kirschner, Stuart B.;Smith, Nathaniel P.;Wepasnick, Kevin A.;Katz, Howard E.;Kirby, Brian J.;Borchers, Julie A.;Reich, Daniel H.;
2:9:132 Influence of substrate on crystallization in polythiophene/fullerene blends
DOI:10.1016/j.solmat.2010.12.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:29 AU: He, Christine;Germack, David S.;Kline, R. Joseph;Delongchamp, Dean M.;Fischer, Daniel A.;Snyder, Chad R.;Toney, Michael F.;Kushmerick, James G.;Richter, Lee J.;
2:9:133 Directed Assembly of P3HT:PCBM Blend Films Using A Chemical Template with Sub-300 nm Features
DOI:10.1021/nn303765t JN:ACS NANO PY:2013 TC:2 AU: Germack, David S.;Checco, Antonio;Ocko, Benjamin M.;
2:9:134 Controlling Hierarchy in Solution-processed Polymer Solar Cells Based on Crosslinked P3HT
DOI:10.1002/aenm.201200394 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:23 AU: Tao, Chen;Aljada, Muhsen;Shaw, Paul E.;Lee, Kwan H.;Cavaye, Hamish;Balfour, Michael N.;Borthwick, Robert J.;James, Michael;Burn, Paul L.;Gentle, Ian R.;Meredith, Paul;
2:9:135 Modification of PCBM Crystallization via Incorporation of C60 in Polymer/Fullerene Solar Cells
DOI:10.1002/adfm.201201100 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:24 AU: Richards, Jeffrey J.;Rice, Andrew H.;Nelson, Rainie D.;Kim, Felix S.;Jenekhe, Samson A.;Luscombe, Christine K.;Pozzo, Danilo C.;
2:9:136 A Direct Evidence of Morphological Degradation on a Nanometer Scale in Polymer Solar Cells
DOI:10.1002/adma.201302854 JN:ADVANCED MATERIALS PY:2013 TC:33 AU: Schaffer, Christoph J.;Palumbiny, Claudia M.;Niedermeier, Martin A.;Jendrzejewski, Christian;Santoro, Gonzalo;Roth, Stephan V.;Mueller-Buschbaum, Peter;
2:9:137 Molecular Design toward Efficient Polymer Solar Cells with High Polymer Content
DOI:10.1021/ja402971d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:23 AU: Qian, Deping;Ma, Wei;Li, Zhaojun;Guo, Xia;Zhang, Shaoqing;Ye, Long;Ade, Harald;Tan, Zhan'ao;Hou, Jianhui;
2:9:138 Efficient bilayer polymer solar cells possessing planar mixed-heterojunction structures
DOI:10.1039/b924147g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:30 AU: Huang, Jen-Hsien;Li, Kuang-Chieh;Kekuda, Dhananjay;Padhy, Hari Hara;Lin, Hong-Cheu;Ho, Kuo-Chuan;Chu, Chih-Wei;
2:9:139 The influence of additives on the morphology and stability of roll-to-roll processed polymer solar cells studied through ex situ and in situ X-ray scattering
DOI:10.1039/c4ta03484h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Zawacka, Natalia K.;Andersen, Thomas R.;Andreasen, Jens W.;Rossander, Lea H.;Dam, Henrik F.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:9:140 Determination of Fullerene Scattering Length Density: A Critical Parameter for Understanding the Fullerene Distribution in Bulk Heterojunction Organic Photovoltaic Devices
DOI:10.1021/la403951j JN:LANGMUIR PY:2014 TC:7 AU: Clulow, Andrew J.;Armin, Ardalan;Lee, Kwan H.;Pandey, Ajay K.;Tao, Chen;Velusamy, Marappan;James, Michael;Nelson, Andrew;Burn, Paul L.;Gentle, Ian R.;Meredith, Paul;
2:9:141 Molecular orientation in polymer/fullerene blend films and the influence of annealing
DOI:10.1016/j.solmat.2014.05.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Ayguel, Umut;Peisert, Heiko;Batchelor, David;Dettinger, Ulf;Ivanovic, Milutin;Tournebize, Aurelien;Mangold, Stefan;Forster, Michael;Dumsch, Ines;Kowalski, Sebastian;Allard, Sybille;Scherf, Ullrich;Chasse, Thomas;
2:9:142 Inter-diffused ordered bulk heterojunction organic photovoltaics: optimized morphology for efficient exciton dissociation and charge transport
DOI:10.1016/j.solmat.2013.10.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Jung, Buyoung;Kim, Kangmin;Kim, Jungwon;Kim, Sehwan;Kim, Eunkyoung;Kim, Woochul;
2:9:143 Direct Correlation of the Organic Solar Cell Device Performance to the In-Depth Distribution of Highly Ordered Polymer Domains in Polymer/Fullerene Films
DOI:10.1002/aenm.201300158 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:3 AU: Engmann, Sebastian;Singh, Chetan R.;Turkovic, Vida;Hoppe, Harald;Gobsch, Gerhard;
2:9:144 Annealing-Free High Efficiency and Large Area Polymer Solar Cells Fabricated by a Roller Painting Process
DOI:10.1002/adfm.201000164 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:38 AU: Jung, Jae Woong;Jo, Won Ho;
2:9:145 Metal-induced molecular diffusion in [6,6]-phenyl-C61-butyric acid methyl ester poly(3-hexylthiophene) based bulk-heterojunction solar cells
DOI:10.1063/1.4827996 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Tseng, Wei-Hsuan;Lo, Hung;Chang, Jan-Kai;Liu, I-Hsiu;Chen, Mei-Hsin;Wu, Chih-I;
2:9:146 Growth and Morphology of Sputtered Aluminum Thin Films on P3HT Surfaces
DOI:10.1021/am101195m JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:29 AU: Kaune, Gunar;Metwalli, Ezzeldin;Meier, Robert;Koerstgens, Volker;Schlage, Kai;Couet, Sebastien;Roehlsberger, Ralf;Roth, Stephan V.;Mueller-Buschbaum, Peter;
2:9:147 Surface Characterization of Polythiophene:Fullerene Blends on Different Electrodes Using Near Edge X-ray Absorption Fine Structure
DOI:10.1021/am101055r JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:25 AU: Tillack, Andreas F.;Noone, Kevin M.;MacLeod, Bradley A.;Nordlund, Dennis;Nagle, Kenneth P.;Bradley, Joseph A.;Hau, Steven K.;Yip, Hin-Lap;Jen, Alex K. -Y.;Seidler, Gerald T.;Ginger, David S.;
2:9:148 Elemental Mapping of Interfacial Layers at the Cathode of Organic Solar Cells
DOI:10.1021/am504256s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Mor, Gopal K.;Le, Thinh P.;Vakhshouri, Kiarash;Kozub, Derek R.;Gomez, Enrique D.;
2:9:149 Ternary behavior and systematic nanoscale manipulation of domain structures in P3HT/PCBM/P3HT-b-PEO films
DOI:10.1039/c2jm31124k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Chen, Jihua;Yu, Xiang;Hong, Kunlun;Messman, Jamie M.;Pickel, Deanna L.;Xiao, Kai;Dadmun, Mark D.;Mays, Jimmy W.;Rondinone, Adam J.;Sumpter, Bobby G.;Kilbey, S. Michael, II;
2:9:150 Interfacial Free Energy Driven Nanophase Separation in Poly(3-hexylthiophene)/[6,6]-Phenyl-C61-butyric Acid Methyl Ester Thin Films
DOI:10.1021/la300229u JN:LANGMUIR PY:2012 TC:11 AU: Li Destri, Giovanni;Keller, Thomas F.;Catellani, Marinella;Punzo, Francesco;Jandt, Klaus D.;Marletta, Giovanni;
2:9:151 Imaging the Bulk Nanoscale Morphology of Organic Solar Cell Blends Using Helium Ion Microscopy
DOI:10.1021/nl202269n JN:NANO LETTERS PY:2011 TC:12 AU: Pearson, Andrew J.;Boden, Stuart A.;Bagnall, Darren M.;Lidzey, David G.;Rodenburg, Cornelia;
2:9:152 The impact of controlled solvent exposure on the morphology, structure and function of bulk heterojunction solar cells
DOI:10.1016/j.solmat.2012.07.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Hegde, Raghavendra;Henry, Nathan;Whittle, Ben;Zang, Huidong;Hu, Bin;Chen, Jihua;Xiao, Kai;Dadmun, Mark;
2:9:153 The influence of the drying process on electrochemical properties of P3HT/PCBM (1.00/0.25 wt%) electrodes
DOI:10.1016/j.synthmet.2014.04.018 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Marchesi, L. F.;Pereira, E. C.;
2:9:154 Impact of Fullerene Molecular Weight on P3HT:PCBM Microstructure Studied Using Organic Thin-Film Transistors
DOI:10.1002/aenm.201100413 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:8 AU: Labram, John G.;Kirkpatrick, James;Bradley, Donal D. C.;Anthopoulos, Thomas D.;
2:9:155 Volume Organization of Polymer and Hybrid Solar Cells as Revealed by Electron Tomography
DOI:10.1002/adfm.201000745 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:23 AU: van Bavel, Svetlana S.;Loos, Joachim;
2:9:156 Rapid phase segregation of P3HT:PCBM composites by thermal annealing for high-performance bulk-heterojunction solar cells
DOI:10.1007/s00339-011-6533-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:12 AU: Fan, X.;Fang, G. J.;Qin, P. L.;Cheng, F.;Zhao, X. Z.;
2:9:157 Electrode Materials, Thermal Annealing Sequences, and Lateral/Vertical Phase Separation of Polymer Solar Cells from Multiscale Molecular Simulations
DOI:10.1021/am506015r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Lee, Cheng-Kuang;Wodo, Olga;Ganapathysubramanian, Baskar;Pao, Chun-Wei;
2:9:158 Measuring the Extent of Phase Separation in Poly-3-Hexylthiophene/Phenyl-C-61-Butyric Acid Methyl Ester Photovoltaic Blends with H-1 Spin Diffusion NMR Spectroscopy
DOI:10.1021/cm100237m JN:CHEMISTRY OF MATERIALS PY:2010 TC:25 AU: Nieuwendaal, Ryan C.;Snyder, Chad R.;Kline, R. Joseph;Lin, Eric K.;VanderHart, David L.;DeLongchamp, Dean M.;
2:9:159 Annealing treatment for restoring and controlling the interface morphology of organic photovoltaic cells with interfacial sputtered ZnO films on P3HT: PCBM active layers
DOI:10.1039/c1jm13569d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Jouane, Youssef;Colis, Silviu;Schmerber, Guy;Leuvrey, Cedric;Dinia, Aziz;Leveque, Patrick;Heiser, Thomas;Chapuis, Yves-Andre;
2:9:160 Enhanced crystallinity and film retention of P3HT thin-films for efficient organic solar cells by use of preformed nanofibers in solution
DOI:10.1039/c3tc31284d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Seidler, Nico;Lazzerini, Giovanni Mattia;Li Destri, Giovanni;Marletta, Giovanni;Cacialli, Franco;
2:9:161 Enhancement in the performance of organic photovoltaic devices with pristine graphene
DOI:10.1016/j.matlet.2013.02.069 JN:MATERIALS LETTERS PY:2013 TC:6 AU: Yu, Fei;Kuppa, Vikram K.;
2:9:162 Focused ion beam assisted investigations of Al interface in polythiophene:Fullerene solar cells
DOI:10.1016/j.solmat.2012.09.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:11 AU: Rujisamphan, Nopporn;Deng, Fei;Murray, Roy E.;Ni, Chaoying;Shah, S. Ismat;
2:9:163 Solvent-Polarity-Induced Active Layer Morphology Control in Crystalline Diketopyrrolopyrrole-Based Low Band Gap Polymer Photovoltaics
DOI:10.1002/aenm.201300834 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Ferdous, Sunzida;Liu, Feng;Wang, Dong;Russell, Thomas P.;
2:9:164 In-Situ Monitoring of the Solid-State Microstructure Evolution of Polymer: Fullerene Blend Films Using Field-Effect Transistors
DOI:10.1002/adfm.201001446 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:23 AU: Labram, John G.;Domingo, Ester Buchaca;Stingelin, Natalie;Bradley, Donal D. C.;Anthopoulos, Thomas D.;
2:9:165 Understanding How Processing Additives Tune the Nanoscale Morphology of High Efficiency Organic Photovoltaic Blends: From Casting Solution to Spun-Cast Thin Film
DOI:10.1002/adfm.201401547 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Shao, Ming;Keum, Jong Kahk;Kumar, Rajeev;Chen, Jihua;Browning, James F.;Das, Sanjib;Chen, Wei;Hou, Jianhui;Do, Changwoo;Littrell, Kenneth C.;Rondinone, Adam;Geohegan, David B.;Sumpter, Bobby G.;Xiao, Kai;
2:9:166 High-throughput roll-to-roll X-ray characterization of polymer solar cell active layers
DOI:10.1039/c2jm34596j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Bottiger, Arvid P. L.;Jorgensen, Mikkel;Menzel, Andreas;Krebs, Frederik C.;Andreasen, Jens W.;
2:9:167 Roles of thermal annealing in cyclopentadithiophene/thienopyrroledione: fullerene blended film and performance of organic photovoltaics
DOI:10.1016/j.solmat.2011.06.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:1 AU: Zheng, Qiao;Fang, Guojia;Coffin, Robert C.;MacNeill, Christopher M.;Li, Yuan;Sun, Nanhai;Qin, Pingli;Nie, Wanyi;Peterson, Eric D.;Fan, Xi;Cheng, Fei;Huang, Huihui;Wang, Mingjun;Zhao, Xingzhong;Carroll, David;
2:9:168 Measurement of the diffusivity of fullerenes in polymers using bilayer organic field effect transistors
DOI:10.1103/PhysRevB.84.075344 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Labram, John G.;Kirkpatrick, James;Bradley, Donal D. C.;Anthopoulos, Thomas D.;
2:9:169 Ellipsometric Investigation of the Shape of Nanodomains in Polymer/Fullerene Films
DOI:10.1002/aenm.201100109 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:15 AU: Engmann, Sebastian;Turkovic, Vida;Gobsch, Gerhard;Hoppe, Harald;
2:9:170 Simultaneously Grasping and Self-Organizing Photoactive Polymers for Highly Reproducible Organic Solar Cells with Improved Efficiency
DOI:10.1002/aenm.201300078 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:12 AU: Cha, Hyojung;Lee, Gang Young;Fu, Yuanhe;Kim, Yu Jin;Park, Chan Eon;Park, Taiho;
2:9:171 Measuring Domain Sizes and Compositional Heterogeneities in P3HT-PCBM Bulk Heterojunction Thin Films with 1H Spin Diffusion NMR Spectroscopy
DOI:10.1002/adfm.201102138 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:19 AU: Nieuwendaal, Ryan C.;Ro, Hyun Wook;Germack, David S.;Kline, R. Joseph;Toney, Michael F.;Chan, Calvin K.;Agrawal, Amit;Gundlach, David;VanderHart, David L.;Delongchamp, Dean M.;
2:9:172 In situ monitoring of structure formation in the active layer of polymer solar cells during roll-to-roll coating
DOI:10.1063/1.4892526 JN:AIP ADVANCES PY:2014 TC:2 AU: Rossander, Lea H.;Zawacka, Natalia K.;Dam, Henrik F.;Krebs, Frederik C.;Andreasen, Jens W.;
2:9:173 High performance solar cell based on ultra-thin poly(3-hexylthiophene): Fullerene film without thermal and solvent annealing
DOI:10.1063/1.3646547 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Wu, Zhongwei;Song, Tao;Jin, Yizheng;Sun, Baoquan;
2:9:174 The effect of cesium carbonate on 1-(3-methoxycarbonyl)propyl-1-phenyl[6,6]C-61 aggregation in films
DOI:10.1063/1.4901444 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lindemann, William R.;Wang, Wenjie;Fungura, Fadzai;Shinar, Joseph;Shinar, Ruth;Vaknin, David;
2:9:175 Low-Temperature Transport Properties of Photogenerated Charges in Organic Materials
DOI:10.1103/PhysRevLett.112.126802 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:2 AU: Chepelianskii, A. D.;Wang, Jianpu;Friend, R. H.;
2:9:176 New Insights into Morphology of High Performance BHJ Photovoltaics Revealed by High Resolution AFM
DOI:10.1021/nl5025326 JN:NANO LETTERS PY:2014 TC:4 AU: Wang, Dong;Liu, Feng;Yagihashi, Noritoshi;Nakaya, Masafumi;Ferdous, Sunzida;Liang, Xiaobin;Muramatsu, Atsushi;Nakajima, Ken;Russell, Thomas P.;
2:9:177 Graded vertical phase separation of donor/acceptor species for polymer solar cells
DOI:10.1016/j.solmat.2012.01.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:18 AU: Loiudice, Anna;Rizzo, Aurora;Latini, Gianluca;Nobile, Concetta;de Giorgi, Milena;Gigli, Giuseppe;
2:9:178 In situ reflectance imaging of organic thin film formation from solution deposition
DOI:10.1016/j.solmat.2013.02.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Bergqvist, Jonas;Mauger, Scott A.;Tvingstedt, Kristofer;Arwin, Hans;Inganas, Olle;
2:9:179 Probing the annealing induced molecular ordering in bulk heterojunction polymer solar cells using in-situ Raman spectroscopy
DOI:10.1016/j.solmat.2013.09.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Veerender, P.;Saxena, Vibha;Chauhan, A. K.;Koiry, S. P.;Jha, P.;Gusain, Abhay;Choudhury, Sipra;Aswal, D. K.;Gupta, S. K.;
2:9:180 The role of solvent and morphology on miscibility of methanofullerene and poly(3-hexylthiophene)
DOI:10.1016/j.tsf.2012.03.117 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Gadisa, Abay;Tumbleston, John R.;Ko, Doo-Hyun;Aryal, Mukti;Lopez, Rene;Samulski, Edward T.;
2:9:181 A Study on the Correlation Between Structure and Hole Transport in Semi-Crystalline Regioregular P3HT
DOI:10.1002/aenm.201200509 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:13 AU: Shen, Xiaobo;Duzhko, Volodimyr V.;Russell, Thomas P.;
2:9:182 Structural Characterization of a Composition Tolerant Bulk Heterojunction Blend
DOI:10.1002/aenm.201301886 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:0 AU: Huang, Ye;Liu, Xiaofeng;Wang, Cheng;Rogers, James T.;Su, Gregory M.;Chabinyc, Michael L.;Kramer, Edward J.;Bazan, Guillermo C.;
2:9:183 The effect of post-annealing on the interface between the aluminum electrode and the active layer in polymer/fullerene solar cells
DOI:10.1007/s00339-014-8550-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Zhang, C. M.;Hu, Y. F.;Tang, A. W.;Ning, Y.;Lv, L. F.;Teng, F.;
2:9:184 A morphology controller for high-efficiency bulk-heterojunction polymer solar cells
DOI:10.1039/c0jm02296a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: Lim, Bogyu;Jo, Jang;Na, Seok-In;Kim, Juhwan;Kim, Seok-Soon;Kim, Dong-Yu;
2:9:185 Immiscible solvents enabled nanostructure formation for efficient polymer photovoltaic cells
DOI:10.1088/0957-4484/25/29/295401 JN:NANOTECHNOLOGY PY:2014 TC:1 AU: Lee, Dong-Hyun;Yang, Yang Michael;You, Jingbi;Richard, Eric;Li, Gang;
2:9:186 The effect of solvent induced crystallinity of polymer layer on poly(3-hexylthiophene)/C-70 bilayer solar cells
DOI:10.1016/j.solmat.2010.05.055 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Kekuda, Dhananjaya;Lin, Hao-Shing;Wu, Meng Chyi;Huang, Jen-Shein;Ho, Kuo-Chuan;Chu, Chih-Wei;
2:9:187 Performance of polymer solar cells fabricated by dip coating process
DOI:10.1016/j.solmat.2011.12.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:10 AU: Hu, Ziyang;Zhang, Jianjun;Xiong, Shaozhen;Zhao, Ying;
2:9:188 In-line spectroscopic ellipsometry for the monitoring of the optical properties and quality of roll-to-roll printed nanolayers for organic photovoltaics
DOI:10.1016/j.solmat.2013.01.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Logothetidis, Stergios;Georgiou, Despoina;Laskarakis, Argiris;Koidis, Christos;Kalfagiannis, Nikolaos;
2:9:189 Mechanism of Crystallization and Implications for Charge Transport in Poly(3-ethylhexylthiophene) Thin Films
DOI:10.1002/adfm.201304247 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Duong, Duc T.;Ho, Victor;Shang, Zhengrong;Mollinger, Sonya;Mannsfeld, Stefan C. B.;Dacuna, Javier;Toney, Michael F.;Segalman, Rachel;Salleo, Alberto;
2:9:190 Morphological characterization of plastic solar cells using polarized neutron reflectivity
DOI:10.1063/1.4793423 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Guralnick, B. W.;Kirby, B. J.;Majkrzak, C. F.;Mackay, M. E.;
2:9:191 Study of the Nanoscale Morphology of Polythiophene Fibrils and a Fullerene Derivative
DOI:10.1021/am502577s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Rujisamphan, Nopporn;Murray, Roy E.;Deng, Fei;Ni, Chaoying;Shah, S. Ismat;
2:9:192 Role of a [6,6]-phenyl C61 butyric acid methyl ester homologue buffer layer for bulk-heterojunction solar cells
DOI:10.1016/j.apsusc.2013.05.136 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Oh, Jin Young;Lee, Tae Il;Jang, Woo Soon;Chae, Soo Sang;Park, Jee Ho;Lee, Hyun Woo;Myoung, Jae Min;Song, Kie Moon;Baik, Hong Koo;
2:9:193 End-On Orientation of Semiconducting Polymers in Thin Films Induced by Surface Segregation of Fluoroalkyl Chains
DOI:10.1021/ja4051179 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Ma, Jusha;Hashimoto, Kazuhito;Koganezawa, Tomoyuki;Tajima, Keisuke;
2:9:194 Vapour printing: patterning of the optical and electrical properties of organic semiconductors in one simple step
DOI:10.1039/c2jm15190a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Nassyrov, Dmitri;Mueller, Christian;Roige, Abel;Burgues-Ceballos, I.;Oriol Osso, J.;Amabilino, David B.;Garriga, Miquel;Isabel Alonso, M.;Goni, Alejandro R.;Campoy-Quiles, Mariano;
2:9:195 Visualizing photovoltaic nanostructures with high-resolution analytical electron microscopy reveals material phases in bulk heterojunctions
DOI:10.1016/j.synthmet.2011.09.011 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Pfannmoeller, Martin;Fluegge, Harald;Benner, Gerd;Wacker, Irene;Kowalsky, Wolfgang;Schroeder, Rasmus R.;
2:9:196 Residual solvent content in conducting polymer-blend films mapped with scanning transmission x-ray microscopy
DOI:10.1103/PhysRevB.84.174205 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Meier, Robert;Schindler, Markus;Mueller-Buschbaum, Peter;Watts, Benjamin;
2:9:197 Visualization of Phase Evolution in Model Organic Photovoltaic Structures via Energy-Filtered Transmission Electron Microscopy
DOI:10.1021/nn402992y JN:ACS NANO PY:2013 TC:6 AU: Herzing, Andrew A.;Ro, Hyun Wook;Soles, Christopher L.;Delongchamp, Dean M.;
2:9:198 Confinement-Induced Reduction in Phase Segregation and Interchain Disorder in Bulk Heterojunction Films
DOI:10.1021/nn404172m JN:ACS NANO PY:2014 TC:3 AU: Ashraf, Ahsan;Dissanayake, D. M. Nanditha M.;Germack, David S.;Weiland, Conan;Eisaman, Matthew D.;
2:9:199 All-Inkjet-Printed, All-Air-Processed Solar Cells
DOI:10.1002/aenm.201400432 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Jung, Sungjune;Sou, Antony;Banger, Kulbinder;Ko, Doo-Hyun;Chow, Philip C. Y.;McNeill, Christopher R.;Sirringhaus, Henning;
2:9:200 Addition of regiorandom poly(3-hexylthiophene) to solution processed poly(3-hexylthiophene):[6,6]-phenyl-C61-butyric acid methyl ester graded bilayers to tune the vertical concentration gradient
DOI:10.1063/1.4761998 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Vohra, Varun;Higashimine, Koichi;Murakami, Tatsuya;Murata, Hideyuki;
2:9:201 Morphological origin for the stratification of P3HT:PCBM blend film studied by neutron reflectometry
DOI:10.1063/1.4836035 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Keum, Jong Kahk;Browning, James F.;Xiao, Kai;Shao, Ming;Halbert, Candice E.;Hong, Kunlun;
2:9:202 Analysis of a device model for organic pseudo-bilayer solar cells
DOI:10.1063/1.4759165 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Zhang, Teng;Birgersson, Erik;Ananthanarayanan, Krishnamoorthy;Yong, Chian Haw;Thummalakunta, L. N. S. A.;Luther, Joachim;
2:9:203 Film thickness controllable wet-imprinting of nanoscale channels made of conducting or thermoresponsive polymers
DOI:10.1039/c1jm13766b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Meier, Robert;Markl, Fabian;Birkenstock, Christopher;Mueller-Buschbaum, Peter;
2:9:204 A general mechanism for controlling thin film structures in all-conjugated block copolymer: fullerene blends
DOI:10.1039/c4ta03146f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Dattani, Rajeev;Bannock, James H.;Fei, Zhuping;MacKenzie, Roderick C. I.;Guilbert, Anne A. Y.;Vezie, Michelle S.;Nelson, Jenny;de Mello, John C.;Heeney, Martin;Cabral, Joao T.;Nedoma, Alisyn J.;
2:9:205 Structure-processing-property correlations in solution-processed, small-molecule, organic solar cells
DOI:10.1039/c3tc30774c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Wunsch, Benjamin H.;Rumi, Mariacristina;Tummala, Naga Rajesh;Risko, Chad;Kang, Dun-Yen;Steirer, K. Xerxes;Gantz, Jeremy;Said, Marcel;Armstrong, Neal R.;Bredas, Jean-Luc;Bucknall, David;Marder, Seth R.;
2:9:206 High work-function hole transport layers by self-assembly using a fluorinated additive
DOI:10.1039/c3tc30973h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Mauger, Scott A.;Li, Jun;Ozmen, Ozge Tuzun;Yang, Andy Y.;Friedrich, Stephan;Rail, M. Diego;Berben, Louise A.;Moule, Adam J.;
2:9:207 Tailoring organic heterojunction interfaces in bilayer polymer photovoltaic devices
DOI:10.1038/NMAT3026 JN:NATURE MATERIALS PY:2011 TC:112 AU: Tada, Akira;Geng, Yanfang;Wei, Qingshuo;Hashimoto, Kazuhito;Tajima, Keisuke;
2:9:208 The importance of chain connectivity in the formation of non-covalent interactions between polymers and single-walled carbon nanotubes and its impact on dispersion
DOI:10.1039/b921170e JN:SOFT MATTER PY:2010 TC:23 AU: Linton, Dias;Driva, Paraskevi;Sumpter, Bobby;Ivanov, Ilia;Geohegan, David;Feigerle, Charles;Dadmun, Mark D.;
2:9:209 Real-time studies during coating and post-deposition annealing in organic semiconductors
DOI:10.1016/j.tsf.2010.12.228 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Campoy-Quiles, M.;Schmidt, M.;Nassyrov, D.;Pena, O.;Goni, A. R.;Alonso, M. I.;Garriga, M.;
2:9:210 Voltage-Induced Formation of Accumulation Layers at Electrode Interfaces in Organic Solar Cells
DOI:10.1002/aenm.201100569 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:2 AU: Stelzl, Felix F.;Schulz-Gericke, Jan;Crossland, Ed;Ludwigs, Sabine;Wuerfel, Uli;
2:9:211 Reticulated Organic Photovoltaics
DOI:10.1002/adfm.201102572 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:8 AU: Schiros, Theanne;Mannsfeld, Stefan;Chiu, Chien-yang;Yager, Kevin G.;Ciston, James;Gorodetsky, Alon A.;Palma, Matteo;Bullard, Zac;Kramer, Theodore;Delongchamp, Dean;Fischer, Daniel;Kymissis, Ioannis;Toney, Michael F.;Nuckolls, Colin;
2:9:212 Bulk-heterojunction morphology control during spin coating: Modelling diffusion assisted phase separation
DOI:10.1063/1.4761931 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Ghosh, S. S.;Lonkar, G. S.;Mahajan, M. S.;Jadkar, S. R.;Waman, V. S.;Kamble, M. M.;Ganesan, V.;Sali, J. V.;
2:9:213 Ferroelectric field effect of the bulk heterojunction in polymer solar cells
DOI:10.1063/1.4885216 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Li, Meng;Ma, Heng;Liu, Hairui;Jiang, Yurong;Niu, Heying;Amat, Adil;
2:9:214 Effect of Fullerene Intercalation on the Conformation and Packing of Poly-(2-methoxy-5-(3 '-7 '-dimethyloctyloxy)-1,4-phenylenevinylene)
DOI:10.1021/am200508n JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:9 AU: Wise, Adam J.;Precit, Mimi R.;Papp, Alexandra M.;Grey, John K.;
2:9:215 Charge transport in amorphous low bandgap conjugated polymer/fullerene films
DOI:10.1063/1.3686633 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Kim, Jung Yong;Cho, Hyunduck;Noh, Seunguk;Lee, Yoonkyoo;Nam, Young Min;Lee, Changhee;Jo, Won Ho;
2:9:216 Physical mixtures of small-molecule and polymeric organic semiconductors: comparing thermodynamic behavior and thin-film structure
DOI:10.1039/c2tc00613h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Wunsch, Benjamin H.;Kim, Kyungtae;Rho, Yecheol;Ahn, Byungcheol;Jung, Sungmin;Polander, Lauren E.;Bucknall, David G.;Marder, Seth R.;Ree, Moonhor;
2:9:217 Performance enhancement of block-copolymer solar cells through tapering the donor-acceptor interface: A multiscale Study
DOI:10.1016/j.polymer.2014.01.052 JN:POLYMER PY:2014 TC:5 AU: Pershin, Anton;Donets, Sergii;Baeurle, Stephan A.;
2:9:218 The role of non-solvent swelling in bulk hetero junction solar cells
DOI:10.1016/j.solmat.2012.03.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Jeon, Ji Hye;Lee, Hang Ken;Wang, Dong Hwan;Park, Jong Hyeok;Park, O. Ok;
2:9:219 Enhancement of the power conversion efficiency of P3HT:PCBM based solar cells by an interfacial effect between P3HT and PEDOT
DOI:10.1016/j.synthmet.2012.07.004 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Zheng, Shizhao;Deng, Xianyu;Wong, King Y.;
2:9:220 Aging of polymer/fullerene films: Temporal development of composition profiles
DOI:10.1016/j.synthmet.2011.09.013 JN:SYNTHETIC METALS PY:2012 TC:8 AU: Engmann, Sebastian;Turkovic, Vida;Hoppe, Harald;Gobsch, Gerhard;
2:9:221 Morphological investigation of P3HT/PCBM heterojunction and its effects on the performance of bilayer organic solar cells
DOI:10.1016/j.synthmet.2014.07.008 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Lin, Xie;Seok, Jeesoo;Yoon, Soyeon;Kim, Taehee;Kim, BongSoo;Kim, Kyungkon;
2:9:222 Relaxation is the key to longer life: suppressed degradation of P3HT films on conductive substrates
DOI:10.1039/c4ta02345e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Zhao, Yichen;Sugunan, Abhilash;Schmidt, Torsten;Fornara, Andrea;Toprak, Muhammet S.;Muhammed, Mamoun;
2:9:223 Investigation of aged organic solar cell stacks by cross-sectional transmission electron microscopy coupled with elemental analysis
DOI:10.1007/s10853-012-7020-z JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Favia, P.;Voroshazi, E.;Heremans, P.;Bender, H.;
2:9:224 Correlating fullerene diffusion with the polythiophene morphology: molecular dynamics simulations
DOI:10.1039/c3sm51906f JN:SOFT MATTER PY:2013 TC:1 AU: Pani, Rakhee C.;Bond, Benjamin D.;Krishnan, Ganesh;Yingling, Yaroslava G.;
2:9:225 Different solvents effect on the performance of the solar cells based on poly(3-hexylthiophene):methanofullerenes
DOI:10.1016/j.synthmet.2010.09.035 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Yu, Huangzhong;
2:9:226 Formation of vertical concentration gradients in poly(3-hexylthiophene-2,5-diyl): Phenyl-C-61-butyric acid methyl ester-graded bilayer solar cells
DOI:10.1016/j.tsf.2013.05.171 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Vohra, Varun;Higashimine, Koichi;Tsuzaki, Shogo;Ohdaira, Keisuke;Murata, Hideyuki;
2:9:227 One-step fabrication of large-scaled indium tin oxide/poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)/poly(3-hex ylthiophene-2,5-diyl):[6,6]-phenyl-C61-butyric acid methyl ester multi-layered structure
DOI:10.1016/j.tsf.2013.04.098 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Hu, Jianchen;Shirai, Yasuhiro;Han, Liyuan;Wakayama, Yutaka;
2:9:228 Plasmon-loss imaging of polymer-methanofullerene bulk heterojunction solar cells
DOI:10.1063/1.4812485 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Mendis, Budhika G.;Bishop, Sarah J.;Groves, Chris;Szablewski, Marek;Berlie, Adam;Halliday, Douglas P.;
2:9:229 All-polymer field-effect transistors using a brush gate dielectric
DOI:10.1039/c3tc31076k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Rodriguez, Ana B.;Tomlinson, Michael R.;Khodabakhsh, Saghar;Chang, Jui-Fen;Cousin, Fabrice;Lott, Dieter;Sirringhaus, Henning;Huck, Wilhelm T. S.;Higgins, Anthony M.;Geoghegan, Mark;
2:9:230 Photocurrent contribution from inter-segmental mixing in donor-acceptor-type polymer solar cells: A multiscale simulation study
DOI:10.1016/j.polymer.2014.06.038 JN:POLYMER PY:2014 TC:5 AU: Pershin, Anton;Donets, Sergii;Baeurle, Stephan A.;
2:9:231 Probing the structure-function relationship in pC(6)TP:PCBM based organic photonic devices
DOI:10.1016/j.solmat.2012.11.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Duck, Benjamin C.;Vaughan, Benjamin;Wen, Li;Heth, Christopher L.;Rasmussen, Seth C.;Zhou, Xiaojing;Belcher, Warwick J.;Dastoor, Paul C.;
2:9:232 Investigation of the factors affecting the power conversion efficiency of all-solution-processed 'bilayer' P3HT:PCBM solar cells
DOI:10.1016/j.synthmet.2013.02.021 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Wong, M. K.;Wong, K. Y.;
2:9:233 On-Chip Thin Film Zernike Phase Plate for In-Focus Transmission Electron Microscopy Imaging of Organic Materials
DOI:10.1021/nn304511p JN:ACS NANO PY:2013 TC:5 AU: Kuo, Pai-Chia;Chen, I-Hui;Chen, Chih-Ting;Lee, Ku-Pin;Chen, Chun-Wei;Lin, Chih-Cheng;Chiu, Shirley Wen-Yu;Hsieh, Yong-Fen;Wang, Yuh-Lin;Shiue, Jessie;
2:9:234 Optimal parameters for morphology of bulk heterojunction solar cells from simulations
DOI:10.1063/1.3681947 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Xue, Junwei;Hou, Tingjun;Li, Youyong;
2:9:235 A neutron spin echo resolved grazing incidence scattering study of crystallites in organic photovoltaic thin films
DOI:10.1063/1.4793513 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Parnell, A. J.;Dalgliesh, R. M.;Jones, R. A. L.;Dunbar, A. D. F.;
2:9:236 Junction capacitance and donor-acceptor interface of organic photovoltaics
DOI:10.1063/1.4892963 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Zhao, Cindy X.;Mao, Alice Y.;Xu, Gu;
2:9:237 Photovoltaic solar cells based on pyrazole derivative
DOI:10.1016/j.matlet.2013.08.128 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Gondek, Ewa;
2:9:238 Tunable optical constants of thermally grown thin porphyrin films on silicon for photovoltaic applications
DOI:10.1016/j.solmat.2014.04.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Pop, Simona D.;Kate, Stephan P.;Rappich, Jorg;Hinrichs, Karsten;
2:9:239 Solid-state nuclear magnetic resonance analysis of phase separation behavior of regioregular poly(3-hexylthiophene) and [6,6]-phenyl-C-61-butyric acid methyl ester in bulk heterojunction organic solar cells
DOI:10.1063/1.3662854 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Fukushima, Tatsuya;Kimura, Hironobu;Shimahara, Yurie;Kaji, Hironori;
2:9:240 Local stoichiometry in amorphous supramolecular composites analyzed by solid-state C-13 nuclear magnetic resonance
DOI:10.1063/1.3565237 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Kaji, Hironori;Hayashi, Hironobu;Yamada, Tomonori;Fukuchi, Masashi;Fujimura, Subaru;Ueda, Masahiro;Kang, Soonchul;Umeyama, Tomokazu;Matano, Yoshihiro;Imahori, Hiroshi;
2:9:241 Polymer blends spin-cast into films with complementary elements for electronics and biotechnology
DOI:10.1002/app.36574 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:5 AU: Budkowski, Andrzej;Zemla, Joanna;Moons, Ellen;Awsiuk, Kamil;Rysz, Jakub;Bernasik, Andrzej;Bjorstrom-Svanstrom, Cecilia M.;Lekka, Malgorzata;Jaczewska, Justyna;
2:9:242 X-RAY SCATTERING In tune with organic semiconductors
DOI:10.1038/nmat3340 JN:NATURE MATERIALS PY:2012 TC:2 AU: Mannsfeld, Stefan C. B.;
2:9:243 Important thermodynamic characteristics of poly(3-hexyl thiophene)
DOI:10.1016/j.polymer.2013.11.033 JN:POLYMER PY:2014 TC:6 AU: Lee, Cameron S.;Dadmun, Mark D.;
2:9:244 Dibenzo[f,h]thieno[3,4-b] quinoxaline-fullerene heterojunction bilayer solar cells with complementary spectrum coverage
DOI:10.1016/j.solmat.2010.05.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:3 AU: Kekuda, Dhananjaya;Huang, Jen-Shien;Velusamy, Marappan;Lin, Jiann T.;Chu, Chih-Wei;
2:9:245 Zn-complex based on oxadiazole/carbazole structure: Synthesis, optical and electric properties
DOI:10.1016/j.tsf.2014.01.011 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Concilio, Simona;Bugatti, Valeria;Neitzert, Heinz C.;Landi, Giovanni;De Sio, Antonietta;Parisi, Juergen;Piotto, Stefano;Iannelli, Pio;
2:9:246 Prediction of the Active Layer Nanomorphology in Polymer Solar Cells Using Molecular Dynamics Simulation
DOI:10.1021/am400566f JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Khajeh, Ali Reza Ashrafi;Shankar, Karthik;Choi, Phillip;
2:9:247 Dynamical theory: Application to spin-echo resolved grazing incidence scattering from periodic structures
DOI:10.1063/1.3661162 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Ashkar, Rana;Schaich, W. L.;de Haan, V. O.;van Well, A. A.;Dalgliesh, R.;Plomp, J.;Pynn, Roger;
2:9:248 When beauty is only skin deep; optimizing the sensitivity of specular neutron reflectivity for probing structure beneath the surface of thin films
DOI:10.1063/1.3661979 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Majkrzak, Charles F.;Carpenter, Elisabeth;Heinrich, Frank;Berk, Norman F.;
2:9:249 Fabrication of Core (C-60)-shell (P3HT) Type Hybridized Nanocrystals for Organic Photovoltaic Solar Cells
DOI:10.1080/07315171.2013.804378 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Masuhara, Akito;Sato, Toshimitsu;
2:9:250 Water-soluble PPV and C-60 nanocomposite with enhanced miscibility and enhanced photo-induced charge transfer through ground state electrostatic interactions
DOI:10.1016/j.polymer.2013.11.050 JN:POLYMER PY:2014 TC:4 AU: Park, Young Il;Park, Young-Shin;Gao, Jian;Grey, John K.;Wang, Chun-Chih;Johal, Malkiat A.;Park, Jongwook;Woo, Han Young;Wang, Hsing-Lin;
2:9:251 Investigation of novel PCBM analogs containing thienyl groups for organic photovoltaic devices
DOI:10.1016/j.synthmet.2010.02.008 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Matsumoto, Fukashi;Moriwaki, Kazuyuki;Takao, Yuko;Ohno, Toshinobu;
2:9:252 Surface vs bulk phase transitions in semiconducting polymer films for OPV and OLED applications
DOI:10.1016/j.synthmet.2011.09.031 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Roige, A.;Campoy-Quiles, M.;Osso, J. O.;Alonso, M. I.;Vega, L. F.;Garriga, M.;
2:9:253 Non-thermal phase separation of P3HT and PCBM using polar aprotic solvents for enhancement of photovoltaic performance in bulk heterojunction solar cells
DOI:10.1016/j.synthmet.2013.05.021 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Lee, Ji-Seon;Kim, BongSoo;Park, Nam-Gyu;
2:9:254 Composition depth profile analysis of bulk heterojunction layer by time-of-flight secondary ion mass spectrometry with gradient shaving preparation
DOI:10.1016/j.tsf.2009.07.121 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Yamamoto, Shuhei;Kitazawa, Daisuke;Tsukamoto, Jun;Shibamori, Takahiro;Seki, Hirofumi;Nakagawa, Yoshitsugu;
2:9:255 Atmospheric-pressure argon plasma etching of spin-coated 3,4-polyethylenedioxythiophene:polystyrenesulfonic acid (PEDOT:PSS) films for cupper phtalocyanine (CuPc)/C-60 heterojunction thin-film solar cells
DOI:10.1016/j.tsf.2011.04.042 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Ino, Tomohisa;Hayashi, Tatsuya;Ueno, Keiji;Shirai, Hajime;
2:10:1 Aggregation-Induced Emission: The Whole Is More Brilliant than the Parts
DOI:10.1002/adma.201401356 JN:ADVANCED MATERIALS PY:2014 TC:113 AU: Mei, Ju;Hong, Yuning;Lam, Jacky W. Y.;Qin, Anjun;Tang, Youhong;Tang, Ben Zhong;
2:10:2 Mechanical Control of Nanomaterials and Nanosystems
DOI:10.1002/adma.201102617 JN:ADVANCED MATERIALS PY:2012 TC:219 AU: Ariga, Katsuhiko;Mori, Taizo;Hill, Jonathan P.;
2:10:3 Multistimuli Two-Color Luminescence Switching via Different Slip-Stacking of Highly Fluorescent Molecular Sheets
DOI:10.1021/ja1044665 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:225 AU: Yoon, Seong-Jun;Chung, Jong Won;Gierschner, Johannes;Kim, Kil Suk;Choi, Moon-Gun;Kim, Dongho;Park, Soo Young;
2:10:4 Fluorescent bio/chemosensors based on silole and tetraphenylethene luminogens with aggregation-induced emission feature
DOI:10.1039/b921610c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:336 AU: Wang, Ming;Zhang, Guanxin;Zhang, Deqing;Zhu, Daoben;Tang, Ben Zhong;
2:10:5 Changing the Behavior of Chromophores from Aggregation-Caused Quenching to Aggregation-Induced Emission: Development of Highly Efficient Light Emitters in the Solid State
DOI:10.1002/adma.200904056 JN:ADVANCED MATERIALS PY:2010 TC:247 AU: Yuan, Wang Zhang;Lu, Ping;Chen, Shuming;Lam, Jacky W. Y.;Wang, Zhiming;Liu, Yang;Kwok, Hoi Sing;Ma, Yuguang;Tang, Ben Zhong;
2:10:6 Polymorphism and Reversible Mechanochromic Luminescence for Solid-State Difluoroboron Avobenzone
DOI:10.1021/ja9097719 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:203 AU: Zhang, Guoqing;Lu, Jiwei;Sabat, Michal;Fraser, Cassandra L.;
2:10:7 Aggregation induced emission-based fluorescent nanoparticles: fabrication methodologies and biomedical applications
DOI:10.1039/c4tb00291a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:74 AU: Zhang, Xiqi;Zhang, Xiaoyong;Tao, Lei;Chi, Zhenguo;Xu, Jiarui;Wei, Yen;
2:10:8 Click Synthesis, Aggregation-Induced Emission, E/Z Isomerization, Self-Organization, and Multiple Chromisms of Pure Stereoisomers of a Tetraphenylethene-Cored Luminogen
DOI:10.1021/ja208883h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:109 AU: Wang, Jian;Mei, Ju;Hu, Rongrong;Sun, Jing Zhi;Qin, Anjun;Tang, Ben Zhong;
2:10:9 Biocompatible Nanoparticles with Aggregation-Induced Emission Characteristics as Far-Red/Near-Infrared Fluorescent Bioprobes for In Vitro and In Vivo Imaging Applications
DOI:10.1002/adfm.201102191 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:153 AU: Qin, Wei;Ding, Dan;Liu, Jianzhao;Yuan, Wang Zhang;Hu, Yong;Liu, Bin;Tang, Ben Zhong;
2:10:10 Tetraphenylethene: a versatile AIE building block for the construction of efficient luminescent materials for organic light-emitting diodes
DOI:10.1039/c2jm31949g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:118 AU: Zhao, Zujin;Lam, Jacky W. Y.;Tang, Ben Zhong;
2:10:11 Reversible Switching of the Emission of Diphenyldibenzofulvenes by Thermal and Mechanical Stimuli
DOI:10.1002/adma.201101059 JN:ADVANCED MATERIALS PY:2011 TC:185 AU: Luo, Xiaoliang;Li, Jienian;Li, Cuihong;Heng, Liping;Dong, Yong Qiang;Liu, Zhengping;Bo, Zhishan;Tang, Ben Zhong;
2:10:12 Specific Detection of D-Glucose by a Tetraphenylethene-Based Fluorescent Sensor
DOI:10.1021/ja107086y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:162 AU: Liu, Yi;Deng, Chunmei;Tang, Li;Qin, Anjun;Hu, Rongrong;Sun, Jing Zhi;Tang, Ben Zhong;
2:10:13 Fluorescent Chemosensor for Detection and Quantitation of Carbon Dioxide Gas
DOI:10.1021/ja103947j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:130 AU: Liu, Yang;Tang, Youhong;Barashkov, Nikolay N.;Irgibaeva, Irina S.;Lam, Jacky W. Y.;Hu, Rongrong;Birimzhanova, Dinara;Yu, Yong;Tang, Ben Zhong;
2:10:14 Real-Time Monitoring of Cell Apoptosis and Drug Screening Using Fluorescent Light-Up Probe with Aggregation-Induced Emission Characteristics
DOI:10.1021/ja3064588 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:77 AU: Shi, Haibin;Kwok, Ryan T. K.;Liu, Jianzhao;Xing, Bengang;Tang, Ben Zhong;Liu, Bin;
2:10:15 Polymorphic and mechanochromic luminescence modulation in the highly emissive dicyanodistyrylbenzene crystal: secondary bonding interaction in molecular stacking assembly
DOI:10.1039/c0jm03711g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:86 AU: Yoon, Seong-Jun;Park, SooYoung;
2:10:16 Efficient Solid Emitters with Aggregation-Induced Emission and Intramolecular Charge Transfer Characteristics: Molecular Design, Synthesis, Photophysical Behaviors, and OLED Application
DOI:10.1021/cm300416y JN:CHEMISTRY OF MATERIALS PY:2012 TC:133 AU: Yuan, Wang Zhang;Gong, Yongyang;Chen, Shuming;Shen, Xiao Yuan;Lam, Jacky W. Y.;Lu, Ping;Lu, Yawei;Wan, Zhiming;Hu, Rongrong;Xie, Ni;Kwok, Hoi Sing;Zhang, Yongming;Sun, Jing Zhi;Tang, Ben Zhong;
2:10:17 Polymorphism-Dependent Emission for Di(p-methoxylphenyl)dibenzofulvene and Analogues: Optical Waveguide/Amplified Spontaneous Emission Behaviors
DOI:10.1002/adfm.201201482 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:67 AU: Gu, Xinggui;Yao, Jingjing;Zhang, Guanxin;Yan, Yongli;Zhang, Chuang;Peng, Qian;Liao, Qing;Wu, Yishi;Xu, Zhenzhen;Zhao, Yongsheng;Fu, Hongbing;Zhang, Deqing;
2:10:18 Optical properties and red to near infrared piezo-responsive fluorescence of a tetraphenylethene-perylenebisimide-tetraphenylethene triad
DOI:10.1039/c3tc31452a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:13 AU: Aldred, Matthew P.;Zhang, Guo-Feng;Li, Chong;Chen, Gui;Chen, Tao;Zhu, Ming-Qiang;
2:10:19 A tetraphenylethene-substituted pyridinium salt with multiple functionalities: synthesis, stimuli-responsive emission, optical waveguide and specific mitochondrion imaging
DOI:10.1039/c3tc30759j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:32 AU: Zhao, Na;Li, Min;Yan, Yongli;Lam, Jacky W. Y.;Zhang, Yi Lin;Zhao, Yong Sheng;Wong, Kam Sing;Tang, Ben Zhong;
2:10:20 Self-assembly of organic luminophores with gelation-enhanced emission characteristics
DOI:10.1039/c3sm27969c JN:SOFT MATTER PY:2013 TC:62 AU: Zhao, Zujin;Lam, Jacky W. Y.;Tang, Ben Zhong;
2:10:21 Quinoxaline based D-A-D molecules: high contrast reversible solid-state mechano- and thermo-responsive fluorescent materials
DOI:10.1039/c3tc31179a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Rao, Rajeswara M.;Liao, Chia-Wei;Su, Wei-Lin;Sun, Shih-Sheng;
2:10:22 Recent advances in mechanochromic luminescent metal complexes
DOI:10.1039/c3tc30316k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:111 AU: Zhang, Xiqi;Chi, Zhenguo;Zhang, Yi;Liu, Siwei;Xu, Jiarui;
2:10:23 Cytophilic Fluorescent Bioprobes for Long-Term Cell Tracking
DOI:10.1002/adma.201101714 JN:ADVANCED MATERIALS PY:2011 TC:96 AU: Yu, Yong;Feng, Chao;Hong, Yuning;Liu, Jianzhao;Chen, Sijie;Ng, Ka Ming;Luo, Kathy Qian;Tang, Ben Zhong;
2:10:24 Self-Assembly Solid-State Enhanced Red Emission of Quinolinemalononitrile: Optical Waveguides and Stimuli Response
DOI:10.1021/am302466m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:51 AU: Shi, Chuanxing;Guo, Zhiqian;Yan, Yongli;Zhu, Shiqin;Xie, Yongshu;Zhao, Yong Sheng;Zhu, Weihong;Tian, He;
2:10:25 Facile Incorporation of Aggregation-Induced Emission Materials into Mesoporous Silica Nanoparticles for Intracellular Imaging and Cancer Therapy
DOI:10.1021/am302512u JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:64 AU: Zhang, Xiaoyong;Zhang, Xiqi;Wang, Shiqi;Liu, Meiying;Zhang, Yun;Tao, Lei;Wei, Yen;
2:10:26 Tuning the Electronic Nature of Aggregation-Induced Emission Luminogens with Enhanced Hole-Transporting Property
DOI:10.1021/cm2003269 JN:CHEMISTRY OF MATERIALS PY:2011 TC:82 AU: Liu, Yang;Chen, Shuming;Lam, Jacky W. Y.;Lu, Ping;Kwok, Ryan T. K.;Mahtab, Faisal;Kwok, Hoi Sing;Tang, Ben Zhong;
2:10:27 Specific Detection of Integrin alpha(v)beta(3) by Light-Up Bioprobe with Aggregation-Induced Emission Characteristics
DOI:10.1021/ja302369e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:82 AU: Shi, Haibin;Liu, Jianzhao;Geng, Junlong;Tang, Ben Zhong;Liu, Bin;
2:10:28 End-group effects of piezofluorochromic aggregation-induced enhanced emission compounds containing distyrylanthracene
DOI:10.1039/c2jm33140c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:91 AU: Zhang, Xiqi;Chi, Zhenguo;Xu, Bingjia;Chen, Chengjian;Zhou, Xie;Zhang, Yi;Liu, Siwei;Xu, Jiarui;
2:10:29 Synergy between Twisted Conformation and Effective Intermolecular Interactions: Strategy for Efficient Mechanochromic Luminogens with High Contrast
DOI:10.1002/adma.201205043 JN:ADVANCED MATERIALS PY:2013 TC:68 AU: Yuan, Wang Zhang;Tan, Yeqiang;Gong, Yongyang;Lu, Ping;Lam, Jacky W. Y.;Shen, Xiao Yuan;Feng, Cunfang;Sung, Herman H-Y.;Lu, Yawei;Williams, Ian D.;Sun, Jing Zhi;Zhang, Yongming;Tang, Ben Zhong;
2:10:30 Mechanochromic and Thermochromic Luminescence of a Copper Iodide Cluster
DOI:10.1021/ja103431d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:130 AU: Perruchas, Sandrine;Le Goff, Xavier F.;Maron, Sebastien;Maurin, Isabelle;Guillen, Francois;Garcia, Alain;Gacoin, Thierry;Boilot, Jean-Pierre;
2:10:31 Phenyl Ring Dynamics in a Tetraphenylethylene-Bridged Metal-Organic Framework: Implications for the Mechanism of Aggregation-Induced Emission
DOI:10.1021/ja306042w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:58 AU: Shustova, Natalia B.;Ong, Ta-Chung;Cozzolino, Anthony F.;Michaelis, Vladimir K.;Griffin, Robert G.;Dinca, Mircea;
2:10:32 Hyperbranched polytriazoles with high molecular compressibility: aggregation-induced emission and superamplified explosive detection
DOI:10.1039/c0jm04100a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:111 AU: Wang, Jian;Mei, Ju;Yuan, Wangzhang;Lu, Ping;Qin, Anjun;Sun, Jingzhi;Ma, Yuguang;Tang, Ben Zhong;
2:10:33 Unique Piezochromic Fluorescence Behavior of Dicyanodistyrylbenzene Based Donor-Acceptor-Donor Triad: Mechanically Controlled Photo-Induced Electron Transfer (eT) in Molecular Assemblies
DOI:10.1002/adma.201202409 JN:ADVANCED MATERIALS PY:2012 TC:57 AU: Kwon, Min Sang;Gierschner, Johannes;Yoon, Seong-Jun;Park, Soo Young;
2:10:34 Monitoring and Inhibition of Insulin Fibrillation by a Small Organic Fluorogen with Aggregation-Induced Emission Characteristics
DOI:10.1021/ja208720a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:72 AU: Hong, Yuning;Meng, Luming;Chen, Sijie;Leung, Chris Wai Tung;Da, Lin-Tai;Faisal, Mahtab;Silva, Daniel-Adriano;Liu, Jianzhao;Lam, Jacky Wing Yip;Huang, Xuhui;Tang, Ben Zhong;
2:10:35 Mechanochromic polymer blends
DOI:10.1039/c0jm03653f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:64 AU: Pucci, Andrea;Ruggeri, Giacomo;
2:10:36 Aggregation-induced red-NIR emission organic nanoparticles as effective and photostable fluorescent probes for bioimaging
DOI:10.1039/c2jm31368e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:46 AU: Zhao, Qiuli;Li, Kai;Chen, Sijie;Qin, Anjun;Ding, Dan;Zhang, Shuang;Liu, Yi;Liu, Bin;Sun, Jing Zhi;Tang, Ben Zhong;
2:10:37 Novel biocompatible cross-linked fluorescent polymeric nanoparticles based on an AIE monomer
DOI:10.1039/c3tc31852d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:24 AU: Zhang, Xiqi;Zhang, Xiaoyong;Yang, Bin;Hui, Junfeng;Liu, Meiying;Chi, Zhenguo;Liu, Siwei;Xu, Jiarui;Wei, Yen;
2:10:38 Phenothiazine-based benzoxazole derivates exhibiting mechanochromic luminescence: the effect of a bromine atom
DOI:10.1039/c4tc00061g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:13 AU: Xue, Pengchong;Yao, Boqi;Sun, Jiabao;Xu, Qiuxia;Chen, Peng;Zhang, Zhenqi;Lu, Ran;
2:10:39 Reversible Tuning Luminescent Color and Emission Intensity: A Dipeptide-Based Light-Emitting Material
DOI:10.1002/adma.201104592 JN:ADVANCED MATERIALS PY:2012 TC:51 AU: Teng, Ming-Jun;Jia, Xin-Ru;Yang, Shuang;Chen, Xiao-Fang;Wei, Yen;
2:10:40 Luminescent distyrylbenzenes: tailoring molecular structure and crystalline morphology
DOI:10.1039/c3tc31062k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:53 AU: Gierschner, Johannes;Park, Soo Young;
2:10:41 Efficient Light Emitters in the Solid State: Synthesis, Aggregation-Induced Emission, Electroluminescence, and Sensory Properties of Luminogens with Benzene Cores and Multiple Triarylvinyl Peripherals
DOI:10.1002/adfm.201102030 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:71 AU: Chan, Carrie Y. K.;Zhao, Zujin;Lam, Jacky W. Y.;Liu, Jianzhao;Chen, Shuming;Lu, Ping;Mahtab, Faisal;Chen, Xiaojun;Sung, Herman H. Y.;Kwok, Hoi Sing;Ma, Yuguang;Williams, Ian D.;Wong, Kam Sing;Tang, Ben Zhong;
2:10:42 Graphene Oxide as a Novel Nanoplatform for Enhancement of Aggregation-Induced Emission of Silole Fluorophores
DOI:10.1002/adma.201200026 JN:ADVANCED MATERIALS PY:2012 TC:30 AU: Qi, Xiaoying;Li, Hai;Lam, Jacky Wing Yip;Yuan, Xintong;Wei, Jun;Tang, Ben Zhong;Zhang, Hua;
2:10:43 Isothermally Reversible Fluorescence Switching of a Mechanochromic Perylene Bisimide Dye
DOI:10.1002/adma.201201064 JN:ADVANCED MATERIALS PY:2012 TC:48 AU: Mizoshita, Norihiro;Tani, Takao;Inagaki, Shinji;
2:10:44 Long-Term Fluorescent Cellular Tracing by the Aggregates of AIE Bioconjugates
DOI:10.1021/ja312581r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:43 AU: Wang, Zhengke;Chen, Sijie;Lam, Jacky W. Y.;Qin, Wei;Kwok, Ryan T. K.;Xie, Ni;Hu, Qiaoling;Tang, Ben Zhong;
2:10:45 A New Class of Red Fluorescent Organic Nanoparticles: Noncovalent Fabrication and Cell Imaging Applications
DOI:10.1021/am4058309 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:28 AU: Zhang, Xiqi;Zhang, Xiaoyong;Yang, Bin;Zhang, Yaling;Wei, Yen;
2:10:46 Fluorenone Organic Crystals: Two-Color Luminescence Switching and Reversible Phase Transformations between pi-pi Stacking-Directed Packing and Hydrogen Bond-Directed Packing
DOI:10.1021/cm500441r JN:CHEMISTRY OF MATERIALS PY:2014 TC:14 AU: Yuan, Mao-Sen;Wang, Dong-En;Xue, Pengchong;Wang, Wenji;Wang, Jian-Chun;Tu, Qin;Liu, Zhiqiang;Liu, Yang;Zhang, Yanrong;Wang, Jinyi;
2:10:47 Highly Fluorescent Chameleon Nanoparticles and Polymer Films: Multicomponent Organic Systems that Combine FRET and Photochromic Switching
DOI:10.1021/ja3027295 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:21 AU: Kim, Sanghoon;Yoon, Seong-Jun;Park, Soo Young;
2:10:48 Construction of efficient solid emitters with conventional and AIE luminogens for blue organic light-emitting diodes
DOI:10.1039/c1jm10221d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:28 AU: Zhao, Zujin;Chen, Shuming;Deng, Chunmei;Lam, Jacky W. Y.;Chan, Carrie Y. K.;Lu, Ping;Wang, Zhiming;Hu, Bingbing;Chen, Xiaopeng;Lu, Ping;Kwok, Hoi Sing;Ma, Yuguang;Qiu, Huayu;Tang, Ben Zhong;
2:10:49 A mechanistic investigation of mechanochromic luminescent organoboron materials
DOI:10.1039/c2jm32809g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:29 AU: Sun, Xingxing;Zhang, Xuepeng;Li, Xinyang;Liu, Shiyong;Zhang, Guoqing;
2:10:50 New tetraphenylethene-based efficient blue luminophors: aggregation induced emission and partially controllable emitting color
DOI:10.1039/c1jm14054j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:76 AU: Huang, Jing;Yang, Xiao;Wang, Jinyu;Zhong, Cheng;Wang, Lei;Qin, Jingui;Li, Zhen;
2:10:51 Controllable synthesis of iridium(III)-based aggregation-induced emission and/or piezochromic luminescence phosphors by simply adjusting the substitution on ancillary ligands
DOI:10.1039/c2tc00558a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:38 AU: Shan, Guo-Gang;Li, Hai-Bin;Sun, Hai-Zhu;Zhu, Dong-Xia;Cao, Hong-Tao;Su, Zhong-Min;
2:10:52 Effect of alkyl chain length on piezochromic luminescence of iridium(III)-based phosphors adopting 2-phenyl-1H-benzoimidazole type ligands
DOI:10.1039/c4tc00993b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Han, Yi;Cao, Hong-Tao;Sun, Hai-Zhu;Wu, Yong;Shan, Guo-Gang;Su, Zhong-Min;Hou, Xue-Gang;Liao, Yi;
2:10:53 Lipid-PEG-Folate Encapsulated Nanoparticles with Aggregation Induced Emission Characteristics: Cellular Uptake Mechanism and Two-Photon Fluorescence Imaging
DOI:10.1002/smll.201200814 JN:SMALL PY:2012 TC:49 AU: Geng, Junlong;Li, Kai;Ding, Dan;Zhang, Xinhai;Qin, Wei;Liu, Jianzhao;Tang, Ben Zhong;Liu, Bin;
2:10:54 Similar or Totally Different: The Control of Conjugation Degree through Minor Structural Modifications, and Deep-Blue Aggregation-Induced Emission Luminogens for Non-Doped OLEDs
DOI:10.1002/adfm.201202639 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:64 AU: Huang, Jing;Sun, Ning;Dong, Yongqiang;Tang, Runli;Lu, Ping;Cai, Ping;Li, Qianqian;Ma, Dongge;Qin, Jingui;Li, Zhen;
2:10:55 Synthesis and properties of novel aggregation-induced emission compounds with combined tetraphenylethylene and dicarbazolyl triphenylethylene moieties
DOI:10.1039/c0jm02824j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:98 AU: Zhang, Xiqi;Chi, Zhenguo;Li, Haiyin;Xu, Bingjia;Li, Xiaofang;Liu, Siwei;Zhang, Yi;Xu, Jiarui;
2:10:56 Aggregation-induced emission enhancement compounds containing triphenylamine-anthrylenevinylene and tetraphenylethene moieties
DOI:10.1039/c0jm02571b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:80 AU: Li, Haiyin;Chi, Zhenguo;Xu, Bingjia;Zhang, Xiqi;Li, Xiaofang;Liu, Siwei;Zhang, Yi;Xu, Jiarui;
2:10:57 Synthesis and self-assembly of tetraphenylethene and biphenyl based AIE- active triazoles
DOI:10.1039/c2jm30620d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Yuan, Wang Zhang;Mahtab, Faisal;Gong, Yongyang;Yu, Zhen-Qiang;Lu, Ping;Tang, Youhong;Lam, Jacky W. Y.;Zhu, Caizhen;Tang, Ben Zhong;
2:10:58 Multistimuli-Responsive Benzothiadiazole-Cored Phenylene Vinylene Derivative with Nanoassembly Properties
DOI:10.1021/la200382b JN:LANGMUIR PY:2011 TC:63 AU: Dou, Chuandong;Chen, Dong;Iqbal, Javed;Yuan, Yang;Zhang, Hongyu;Wang, Yue;
2:10:59 Polymer composites with smart optical properties
DOI:10.1039/c0sm01038c JN:SOFT MATTER PY:2011 TC:43 AU: Pucci, Andrea;Bizzarri, Ranieri;Ruggeri, Giacomo;
2:10:60 Enhancement of Aggregation-Induced Emission in Dye-Encapsulating Polymeric Micelles for Bioimaging
DOI:10.1002/adfm.200902043 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:74 AU: Wu, Wen-Chung;Chen, Ching-Yi;Tian, Yanqing;Jang, Sei-Hum;Hong, Yuning;Liu, Yang;Hu, Rongrong;Tang, Ben Zhong;Lee, Yi-Ting;Chen, Chin-Ti;Chen, Wen-Chang;Jen, Alex K. -Y.;
2:10:61 Stereoselective Synthesis, Efficient Light Emission, and High Bipolar Charge Mobility of Chiasmatic Luminogens
DOI:10.1002/adma.201102804 JN:ADVANCED MATERIALS PY:2011 TC:43 AU: Zhao, Zujin;Lam, Jacky W. Y.;Chan, Carrie Y. K.;Chen, Shuming;Liu, Jianzhao;Lu, Ping;Rodriguez, Mario;Maldonado, Jose-Luis;Ramos-Ortiz, Gabriel;Sung, Herman H. Y.;Williams, Ian D.;Su, Huimin;Wong, Kam Sing;Ma, Yuguang;Kwok, Hoi Sing;Qiu, Huayu;Tang, Ben Zhong;
2:10:62 External-Stimuli Responsive Photophysics and Liquid Crystal Properties of Self-Assembled "Phosphole-Lipids"
DOI:10.1021/ja206784f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:45 AU: Ren, Yi;Kan, Wang Hay;Henderson, Matthew A.;Bomben, Paolo G.;Berlinguette, Curtis P.;Thangadurai, Venkataraman;Baumgartner, Thomas;
2:10:63 Novel pyrene- and anthracene-based Schiff base derivatives as Cu2+ and Fe3+ fluorescence turn-on sensors and for aggregation induced emissions
DOI:10.1039/c2ta00574c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:51 AU: Shellaiah, Muthaiah;Wu, Yen-Hsing;Singh, Ashutosh;Raju, Mandapati V. Ramakrishnam;Lin, Hong-Cheu;
2:10:64 Aggregation-induced emission-active gold(I) complexes with multi-stimuli luminescence switching
DOI:10.1039/c3tc31638f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:13 AU: Liang, Jinhua;Chen, Zhao;Xu, Liangjin;Wang, Jiang;Yin, Jun;Yu, Guang-Ao;Chen, Zhong-Ning;Liu, Sheng Hua;
2:10:65 Non-covalent routes to tune the optical properties of molecular materials
DOI:10.1039/c3tc32414a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:24 AU: Varughese, Sunil;
2:10:66 Multicolor Tunable Emission from Organogels Containing Tetraphenylethene, Perylenediimide, and Spiropyran Derivatives
DOI:10.1002/adfm.201000590 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:63 AU: Chen, Qun;Zhang, Deqing;Zhang, Guanxin;Yang, Xingyuan;Feng, Yu;Fan, Qinghua;Zhu, Daoben;
2:10:67 Efficient Non-doped Near Infrared Organic Light-Emitting Devices Based on Fluorophores with Aggregation-Induced Emission Enhancement
DOI:10.1021/cm3008733 JN:CHEMISTRY OF MATERIALS PY:2012 TC:46 AU: Du, Xiaobo;Qi, Ji;Zhang, Zhiqiang;Ma, Dongge;Wang, Zhi Y.;
2:10:68 Full-Range Intracellular pH Sensing by an Aggregation-Induced Emission-Active Two-Channel Ratiometric Fluorogen
DOI:10.1021/ja400337p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:66 AU: Chen, Sijie;Hong, Yuning;Liu, Yang;Liu, Jianzhao;Leung, Chris W. T.;Li, Min;Kwok, Ryan T. K.;Zhao, Engui;Lam, Jacky W. Y.;Yu, Yong;Tang, Ben Zhong;
2:10:69 Benzene-cored fluorophors with TPE peripheries: facile synthesis, crystallization-induced blue-shifted emission, and efficient blue luminogens for non-doped OLEDs
DOI:10.1039/c2jm31855e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:49 AU: Huang, Jing;Sun, Ning;Yang, Jie;Tang, Runli;Li, Qianqian;Ma, Dongge;Qin, Jingui;Li, Zhen;
2:10:70 Fluorescence quenching and enhancement of vitrifiable oligofluorenes end-capped with tetraphenylethene
DOI:10.1039/c2jm30261f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:43 AU: Aldred, Matthew P.;Li, Chong;Zhang, Guo-Feng;Gong, Wen-Liang;Li, Alexander D. Q.;Dai, Yanfeng;Ma, Dongge;Zhu, Ming-Qiang;
2:10:71 Mesomorphic Organization and Thermochromic Luminescence of Dicyanodistyrylbenzene-Based Phasmidic Molecular Disks: Uniaxially Aligned Hexagonal Columnar Liquid Crystals at Room Temperature with Enhanced Fluorescence Emission and Semiconductivity
DOI:10.1002/adfm.201101818 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:37 AU: Yoon, Seong-Jun;Kim, Jong H.;Kim, Kil Suk;Chung, Jong Won;Heinrich, Benoit;Mathevet, Fabrice;Kim, Pyosang;Donnio, Bertrand;Attias, Andre-Jean;Kim, Dongho;Park, Soo Young;
2:10:72 Interfacing a Tetraphenylethene Derivative and a Smart Hydrogel for Temperature-Dependent Photoluminescence with Sensitive Thermoresponse
DOI:10.1021/am501106x JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Jiang, Yingnan;Yang, Xudong;Ma, Cheng;Wang, Chuanxi;Chen, Yang;Dong, Fengxia;Yang, Bai;Yu, Kui;Lin, Quan;
2:10:73 A Photostable AIE Luminogen for Specific Mitochondrial Imaging and Tracking
DOI:10.1021/ja310324q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:87 AU: Leung, Chris Wai Tung;Hong, Yuning;Chen, Sijie;Zhao, Engui;Lam, Jacky Wing Yip;Tang, Ben Zhong;
2:10:74 Highly Selective Fluorogenic Multianalyte Biosensors Constructed via Enzyme-Catalyzed Coupling and Aggregation-Induced Emission
DOI:10.1021/ja505278w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:10 AU: Wang, Xiaorui;Hu, Jinming;Zhang, Guoying;Liu, Shiyong;
2:10:75 Construction of high strength hollow fibers by self-assembly of a stiff polysaccharide with short branches in water
DOI:10.1039/c3ta00050h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:7 AU: Xu, Shuqin;Lin, Yi;Huang, Jing;Li, Zhen;Xu, Xiaojuan;Zhang, Lina;
2:10:76 Structurally simple thienodipyrandione-containing reversible fluorescent switching piezo- and acido-chromic materials
DOI:10.1039/c3tc31504e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Rao, Rajeswara M.;Liao, Chia-Wei;Sun, Shih-Sheng;
2:10:77 A tetraphenylethene-based chiral polymer: an AIE luminogen with high and tunable CPL dissymmetry factor
DOI:10.1039/c3tc30886c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Liu, Xunhua;Jiao, Jiemin;Jiang, Xiaoxiang;Li, Junfeng;Cheng, Yixiang;Zhu, Chengjian;
2:10:78 Mechanofluorochromic behaviors of beta-iminoenolate boron complexes functionalized with carbazole
DOI:10.1039/c4tc01639d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Zhang, Zhenqi;Xue, Pengchong;Gong, Peng;Zhang, Gonghe;Peng, Jiang;Lu, Ran;
2:10:79 Blue Aggregation-Induced Emission Luminogens: High External Quantum Efficiencies Up to 3.99% in LED Device, and Restriction of the Conjugation Length through Rational Molecular Design
DOI:10.1002/adfm.201401867 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:13 AU: Huang, Jing;Sun, Ning;Yang, Jie;Tang, Runli;Li, Qianqian;Ma, Dongge;Li, Zhen;
2:10:80 Ultrabright and ultrastable near-infrared dye nanoparticles for in vitro and in vivo bioimaging
DOI:10.1016/j.biomaterials.2012.07.006 JN:BIOMATERIALS PY:2012 TC:32 AU: Yang, Yinlong;An, Feifei;Liu, Zhuang;Zhang, Xiujuan;Zhou, Mengjiao;Li, Wei;Hao, Xiaojun;Lee, Chun-sing;Zhang, Xiaohong;
2:10:81 Pyrene-substituted ethenes: aggregation-enhanced excimer emission and highly efficient electroluminescence
DOI:10.1039/c0jm04449k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:72 AU: Zhao, Zujin;Chen, Shuming;Lam, Jacky W. Y.;Wang, Zhiming;Lu, Ping;Mahtab, Faisal;Sung, Herman H. Y.;Williams, Ian D.;Ma, Yuguang;Kwok, Hoi Sing;Tang, Ben Zhong;
2:10:82 Molecular design of mechanofluorochromic dyes and their solid-state fluorescence properties
DOI:10.1039/c0jm03601c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:48 AU: Ooyama, Yousuke;Harima, Yutaka;
2:10:83 A tetraphenylethene-based red luminophor for an efficient non-doped electroluminescence device and cellular imaging
DOI:10.1039/c2jm31482g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:35 AU: Zhao, Zujin;Geng, Junlong;Chang, Zhengfeng;Chen, Shuming;Deng, Chunmei;Jiang, Tao;Qin, Wei;Lam, Jacky W. Y.;Kwok, Hoi Sing;Qiu, Huayu;Liu, Bin;Tang, Ben Zhong;
2:10:84 Construction of soft porous crystal with silole derivative: strategy of framework design, multiple structural transformability and mechanofluorochromism
DOI:10.1039/c1jm12673c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Mei, J.;Wang, J.;Qin, A.;Zhao, H.;Yuan, W.;Zhao, Z.;Sung, H. H. Y.;Deng, C.;Zhang, S.;Williams, I. D.;Sun, J. Z.;Tang, B. Z.;
2:10:85 Luminogenic materials constructed from tetraphenylethene building blocks: Synthesis, aggregation-induced emission, two-photon absorption, light refraction, and explosive detection
DOI:10.1039/c1jm13556b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:78 AU: Hu, Rongrong;Luis Maldonado, Jose;Rodriguez, Mario;Deng, Chunmei;Jim, Cathy K. W.;Lam, Jacky W. Y.;Yuen, Matthew M. F.;Ramos-Ortiz, Gabriel;Tang, Ben Zhong;
2:10:86 Solid-state fluorescence properties and reversible piezochromic luminescence of aggregation-induced emission-active 9,10-bis[(9,9-dialkylfluorene-2-yl)vinyl]anthracenes
DOI:10.1039/c3tc00017f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:36 AU: Bu, Lingyu;Sun, Mingxiao;Zhang, Deteng;Liu, Wei;Wang, Yalong;Zheng, Meng;Xue, Shanfeng;Yang, Wenjun;
2:10:87 Controllable Self-Assembly of Di(p-methoxylphenyl)Dibenzofulvene into Three Different Emission Forms
DOI:10.1002/smll.201201334 JN:SMALL PY:2012 TC:18 AU: Gu, Xinggui;Yao, Jingjing;Zhang, Guanxin;Zhang, Deqing;
2:10:88 Fabrication of Silica Nanoparticles with Both Efficient Fluorescence and Strong Magnetization, and Exploration of Their Biological Applications
DOI:10.1002/adfm.201002572 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:60 AU: Mahtab, Faisal;Yu, Yong;Lam, Jacky W. Y.;Liu, Jianzhao;Zhang, Bei;Lu, Ping;Zhang, Xixiang;Tang, Ben Zhong;
2:10:89 Organic Polymorphs: One-Compound-Based Crystals with Molecular-Conformation- and Packing-Dependent Luminescent Properties
DOI:10.1002/adma.201401114 JN:ADVANCED MATERIALS PY:2014 TC:17 AU: Wang, Kai;Zhang, Hongyu;Chen, Shanyong;Yang, Guochun;Zhang, Jibo;Tian, Wenjing;Su, Zhongmin;Wang, Yue;
2:10:90 Cell Membrane Tracker Based on Restriction of Intramolecular Rotation
DOI:10.1021/am5025897 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Zhang, Chunqiu;Jin, Shubin;Yang, Keni;Xue, Xiangdong;Li, Zhipeng;Jiang, Yonggang;Chen, Wei-Qiang;Dai, Luru;Zou, Guozhang;Liang, Xing-Jie;
2:10:91 Rational Design of Aggregation-Induced Emission Luminogen with Weak Electron Donor-Acceptor Interaction to Achieve Highly Efficient Undoped Bilayer OLEDs
DOI:10.1021/am505036a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:11 AU: Chen, Long;Jiang, Yibin;Nie, Han;Hu, Rongrong;Kwok, Hoi Sing;Huang, Fei;Qin, Anjun;Zhao, Zujin;Tang, Ben Zhong;
2:10:92 Polymorphic Copper Iodide Clusters: Insights into the Mechanochromic Luminescence Properties
DOI:10.1021/ja500247b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Benito, Quentin;Le Goff, Xavier F.;Maron, Sebastien;Fargues, Alexandre;Garcia, Alain;Martineau, Charlotte;Taulelle, Francis;Kahlal, Samia;Gacoin, Thierry;Boilot, Jean-Pierre;Perruchas, Sandrine;
2:10:93 Alkyl chain length effects on solid-state difluoroboron beta-diketonate mechanochromic luminescence
DOI:10.1039/c1jm00067e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:34 AU: Nguyen, Nguyen D.;Zhang, Guoqing;Lu, Jiwei;Sherman, Arianna E.;Fraser, Cassandra L.;
2:10:94 Synthesis of two novel indolo[3,2-b]carbazole derivatives with aggregation- enhanced emission property
DOI:10.1039/c3tc31590h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Jia, Wen-bin;Wang, Hao-wei;Yang, Long-mei;Lu, Hong-bo;Kong, Lin;Tian, Yu-peng;Tao, Xu-tang;Yang, Jia-xiang;
2:10:95 Organic microbelt array based on hydrogen-bond architecture showing polarized fluorescence and two-photon emission
DOI:10.1039/c3tc30523f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Yan, Dongpeng;Jones, William;Fan, Guoling;Wei, Min;Evansa, David G.;
2:10:96 Eccentric Loading of Fluorogen with Aggregation-Induced Emission in PLGA Matrix Increases Nanoparticle Fluorescence Quantum Yield for Targeted Cellular Imaging
DOI:10.1002/smll.201202505 JN:SMALL PY:2013 TC:23 AU: Geng, Junlong;Li, Kai;Qin, Wei;Ma, Lin;Gurzadyan, Gagik G.;Tang, Ben Zhong;Liu, Bin;
2:10:97 Water dispersible, non-cytotoxic, cross-linked luminescent AIE dots: Facile preparation and bioimaging applications
DOI:10.1016/j.apsusc.2014.09.208 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Liu, Meiying;Zhang, Xiqi;Yang, Bin;Deng, Fengjie;Li, Zhen;Wei, Junchao;Zhang, Xiaoyong;Wei, Yen;
2:10:98 Aggregation-enhanced fluorescence in PEGylated phospholipid nanomicelles for in vivo imaging
DOI:10.1016/j.biomaterials.2011.04.080 JN:BIOMATERIALS PY:2011 TC:30 AU: Wang, Dan;Qian, Jun;He, Sailing;Park, Jin Sun;Lee, Kwang-Sup;Han, Sihai;Mu, Ying;
2:10:99 Reversible solid-state mechanochromic fluorescence from a boron lipid dye
DOI:10.1039/c0jm03871g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:34 AU: Zhang, Guoqing;Singer, Jonathan P.;Kooi, Steven E.;Evans, Ruffin E.;Thomas, Edwin L.;Fraser, Cassandra L.;
2:10:100 Biotin-decorated fluorescent silica nanoparticles with aggregation-induced emission characteristics: fabrication, cytotoxicity and biological applications
DOI:10.1039/c2tb00155a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:24 AU: Li, Min;Lam, Jacky W. Y.;Mahtab, Faisal;Chen, Sijie;Zhang, Weijie;Hong, Yuning;Xiong, Jun;Zheng, Qichang;Tang, Ben Zhong;
2:10:101 Supramolecular organogels and nanowires based on a V-shaped cyanostilbene amide derivative with aggregation-induced emission (AIE) properties
DOI:10.1039/c3tc30545g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Zhang, Yuping;Liang, Chunshuang;Shang, Hongxing;Ma, Yao;Jiang, Shimei;
2:10:102 Mechanochromic luminescent liquid crystals based on a bianthryl moiety
DOI:10.1039/c3tc00861d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Yamane, Shogo;Sagara, Yoshimitsu;Mutai, Toshiki;Araki, Koji;Kato, Takashi;
2:10:103 Cyanostilbene-based intelligent organic optoelectronic materials
DOI:10.1039/c2tc00593j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:19 AU: Zhu, Liangliang;Zhao, Yanli;
2:10:104 Bis-pyrene-based supramolecular aggregates with reversibly mechanochromic and vapochromic responsiveness
DOI:10.1039/c3tc31974a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Li, Wei;Wang, Lei;Zhang, Jing-Ping;Wang, Hao;
2:10:105 Tetraphenylethene-decorated carbazoles: synthesis, aggregation-induced emission, photo-oxidation and electroluminescence
DOI:10.1039/c4tc01019a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Gong, Wen-Liang;Wang, Bo;Aldred, Matthew. P.;Li, Chong;Zhang, Guo-Feng;Chen, Tao;Wang, Lei;Zhu, Ming-Qiang;
2:10:106 A novel ultrasound-sensitive mechanofluorochromic AIE-compound with remarkable blue-shifting and enhanced emission
DOI:10.1039/c4tc00553h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Sun, Huawei;Zhang, Yi;Yan, Wei;Chen, Wenxin;Lan, Qi;Liu, Siwei;Jiang, Long;Chi, Zhenguo;Chen, Xudong;Xu, Jiarui;
2:10:107 High-performance two-photon absorption luminophores: large action cross sections, free from fluorescence quenching and tunable emission of efficient non-doped organic light-emitting diodes
DOI:10.1039/c3tc32052a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Xu, Bingjia;He, Jiajun;Liu, Yang;Xu, Bin;Zhu, Qiangzhong;Xie, Mingyuan;Zheng, Zebo;Chi, Zhenguo;Tian, Wenjing;Jin, Chongjun;Zhao, Fuli;Zhang, Yi;Xu, Jiarui;
2:10:108 Reversible Thermochromic Polymer Film Embedded with Fluorescent Organogel Nanofibers
DOI:10.1021/la502932x JN:LANGMUIR PY:2014 TC:1 AU: Kim, Hyungwoo;Chang, Ji Young;
2:10:109 Creation of Bifunctional Materials: Improve Electron-Transporting Ability of Light Emitters Based on AIE-Active 2,3,4,5-Tetraphenylsiloles
DOI:10.1002/adfm.201303867 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:21 AU: Chen, Long;Jiang, Yibin;Nie, Han;Lu, Ping;Sung, Herman H. Y.;Williams, Ian D.;Kwok, Hoi Sing;Huang, Fei;Qin, Anjun;Zhao, Zujin;Tang, Ben Zhong;
2:10:110 Distinct Responses to Mechanical Grinding and Hydrostatic Pressure in Luminescent Chromism of Tetrathiazolylthiophene
DOI:10.1021/ja4055228 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:40 AU: Nagura, Kazuhiko;Saito, Shohei;Yusa, Hitoshi;Yamawaki, Hiroshi;Fujihisa, Hiroshi;Sato, Hiroyasu;Shimoikeda, Yuichi;Yamaguchi, Shigehiro;
2:10:111 Unimolecular Photoconversion of Multicolor Luminescence on Hierarchical Self-Assemblies
DOI:10.1021/ja400456h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:12 AU: Zhu, Liangliang;Li, Xin;Zhang, Quan;Ma, Xing;Li, Menghuan;Zhang, Huacheng;Luo, Zhong;Agren, Hans;Zhao, Yanli;
2:10:112 Covalent Attachment of Mechanoresponsive Luminescent Micelles to Glasses and Polymers in Aqueous Conditions
DOI:10.1021/ja412670g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Sagara, Yoshimitsu;Komatsu, Toru;Ueno, Tasuku;Hanaoka, Kenjiro;Kato, Takashi;Nagano, Tetsuo;
2:10:113 Stimuli-responsive europium-containing metallo-supramolecular polymers
DOI:10.1039/b915490f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:52 AU: Kumpfer, Justin R.;Jin, Jihzu;Rowan, Stuart J.;
2:10:114 High-T-g carbazole derivatives as a new class of aggregation-induced emission enhancement materials
DOI:10.1039/c0jm00712a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:51 AU: Yang, Zhiyong;Chi, Zhenguo;Xu, Bingjia;Li, Haiyin;Zhang, Xiqi;Li, Xiaofang;Liu, Siwei;Zhang, Yi;Xu, Jiarui;
2:10:115 Arene effects on difluoroboron beta-diketonate mechanochromic luminescence
DOI:10.1039/c0jm04326e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Liu, Tiandong;Chien, Alan D.;Lu, Jiwei;Zhang, Guoqing;Fraser, Cassandra L.;
2:10:116 Using tetraphenylethene and carbazole to create efficient luminophores with aggregation-induced emission, high thermal stability, and good hole-transporting property
DOI:10.1039/c2jm14914a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:29 AU: Zhao, Zujin;Chan, Carrie Y. K.;Chen, Shuming;Deng, Chunmei;Lam, Jacky W. Y.;Jim, Cathy K. W.;Hong, Yuning;Lu, Ping;Chang, Zhengfeng;Chen, Xiaopeng;Lu, Ping;Kwok, Hoi Sing;Qiu, Huayu;Tang, Ben Zhong;
2:10:117 Reversible piezochromic luminescence of 9, 10-bis[(N-alkylcarbazol-3-yl)vinyl]anthracenes and the dependence on N-alkyl chain length
DOI:10.1039/c2tc00470d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:43 AU: Wang, Yalong;Liu, Wei;Bu, Lingyu;Li, Jinfeng;Zheng, Meng;Zhang, Deteng;Sun, Mingxiao;Tao, Yong;Xue, Shanfeng;Yang, Wenjun;
2:10:118 Quinoacridine Derivatives with One-Dimensional Aggregation-Induced Red Emission Property
DOI:10.1021/la202755z JN:LANGMUIR PY:2012 TC:16 AU: Javed, Iqbal;Zhou, Tianlei;Muhammad, Faheem;Guo, Jianhua;Zhang, Hongyu;Wang, Yue;
2:10:119 Two-Component Molecular Materials of 2,5-Diphenyloxazole Exhibiting Tunable Ultraviolet/Blue Polarized Emission, Pump-enhanced Luminescence, and Mechanochromic Response
DOI:10.1002/adfm.201302072 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:20 AU: Yan, Dongpeng;Yang, Hejia;Meng, Qingyun;Lin, Heyang;Wei, Min;
2:10:120 Luminescent Color Conversion on Cyanostilbene-Functionalized Quantum Dots via In-situ Photo-Tuning
DOI:10.1002/adma.201200709 JN:ADVANCED MATERIALS PY:2012 TC:12 AU: Zhu, Liangliang;Ang, Chung Yen;Li, Xin;Kim Truc Nguyen;Tan, Si Yu;Agren, Hans;Zhao, Yanli;
2:10:121 Ultrabright Organic Dots with Aggregation-Induced Emission Characteristics for Real-Time Two-Photon Intravital Vasculature Imaging
DOI:10.1002/adma.201301938 JN:ADVANCED MATERIALS PY:2013 TC:44 AU: Ding, Dan;Goh, Chi Ching;Feng, Guangxue;Zhao, Zujin;Liu, Jie;Liu, Rongrong;Tomczak, Nikodem;Geng, Junlong;Tang, Ben Zhong;Ng, Lai Guan;Liu, Bin;
2:10:122 Salt-Responsive Self-Assembly of Luminescent Hydrogel with Intrinsic Gelation-Enhanced Emission
DOI:10.1021/am4049354 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Zhang, Chunqiu;Liu, Chang;Xue, Xiangdong;Zhang, Xu;Huo, Shuaidong;Jiang, Yonggang;Chen, Wei-Qiang;Zou, Guozhang;Liang, Xing-Jie;
2:10:123 Rational design of metallophosphors with tunable aggregation-induced phosphorescent emission and their promising applications in time-resolved luminescence assay and targeted luminescence imaging of cancer cells
DOI:10.1039/c2jm34512a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:29 AU: Liu, Shujuan;Sun, Huibin;Ma, Yun;Ye, Shanghui;Liu, Xiangmei;Zhou, Xinhui;Mou, Xin;Wang, Lianhui;Zhao, Qiang;Huang, Wei;
2:10:124 Aggregation induced emission in the rotatable molecules: the essential role of molecular interaction
DOI:10.1039/c2jm32405a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Yu, Zhipeng;Duan, Yaya;Cheng, Longhuai;Han, Zhili;Zheng, Zheng;Zhou, Hongping;Wu, Jieying;Tian, Yupeng;
2:10:125 Intramolecular pi-stacking in cationic iridium(III) complexes with a triazole-pyridine type ancillary ligand: synthesis, photophysics, electrochemistry properties and piezochromic behavior
DOI:10.1039/c2jm30480e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:26 AU: Shan, Guo-Gang;Li, Hai-Bin;Zhu, Dong-Xia;Su, Zhong-Min;Liao, Yi;
2:10:126 Tetraphenylethenyl-modified perylene bisimide: aggregation-induced red emission, electrochemical properties and ordered microstructures
DOI:10.1039/c2jm16613e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:41 AU: Zhao, Qiuli;Zhang, Shuang;Liu, Yi;Mei, Ju;Chen, Sijie;Lu, Ping;Qin, Anjun;Ma, Yuguang;Sun, Jing Zhi;Tang, Ben Zhong;
2:10:127 A conjugated hyperbranched polymer constructed from carbazole and tetraphenylethylene moieties: convenient synthesis through one-pot "A(2)+B-4" Suzuki polymerization, aggregation-induced enhanced emission, and application as explosive chemosensors and PLEDs
DOI:10.1039/c2jm16514g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:58 AU: Wu, Wenbo;Ye, Shanghui;Huang, Lijin;Xiao, Li;Fu, Yingjie;Huang, Qi;Yu, Gui;Liu, Yunqi;Qin, Jingui;Li, Qianqian;Li, Zhen;
2:10:128 Morphology-dependent fluorescence ON/OFF of a beryllium complex: ACQ in amorphous solids, AEE in crystalline powders and the dark/bright fluorescence switch
DOI:10.1039/c3tc31554a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Cheng, Xiao;Zhang, Houyu;Ye, Kaiqi;Zhang, Hongyu;Wang, Yue;
2:10:129 Full-colour luminescent compounds based on anthracene and 2,2 '-dipyridylamine
DOI:10.1039/c3tc31751j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Chen, Bin;Yu, Gang;Li, Xin;Ding, Yubin;Wang, Cheng;Liu, Zhiwei;Xie, Yongshu;
2:10:130 Schiff base particles with aggregation-induced enhanced emission: random aggregation preventing pi-pi stacking
DOI:10.1039/c3tc31626b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Wang, Lianke;Zheng, Zheng;Yu, Zhipeng;Zheng, Jun;Fang, Min;Wu, Jieying;Tian, Yupeng;Zhou, Hongping;
2:10:131 Fine-tuning the mechanofluorochromic properties of benzothiadiazole-cored cyano-substituted diphenylethene derivatives through D-A effect
DOI:10.1039/c4tc01457j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Zhang, Xiqi;Ma, Zhiyong;Yang, Yang;Zhang, Xiaoyong;Jia, Xinru;Wei, Yen;
2:10:132 A donor-acceptor cruciform pi-system: high contrast mechanochromic properties and multicolour electrochromic behavior
DOI:10.1039/c4tc00516c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Sun, Jingwei;Lv, Xiaojing;Wang, Pingjing;Zhang, Yujian;Dal, Yuyu;Wu, Qichao;Mi Ouyang;Zhang, Cheng;
2:10:133 Self-assembled tetraphenylethylene macrocycle nanofibrous materials for the visual detection of copper(II) in water
DOI:10.1039/c3tc32373k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:17 AU: Feng, Hai-Tao;Song, Song;Chen, Yi-Chang;Shen, Chang-Hong;Zheng, Yan-Song;
2:10:134 Construction of efficient blue AIE emitters with triphenylamine and TPE moieties for non-doped OLEDs
DOI:10.1039/c3tc32207f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Huang, Jing;Jiang, Yibin;Yang, Jie;Tang, Runli;Xie, Ni;Li, Qianqian;Kwok, Hoi Sing;Tang, Ben Zhong;Li, Zhen;
2:10:135 AIE-active, highly thermally and morphologically stable, mechanochromic and efficient solid emitters for low color temperature OLEDs
DOI:10.1039/c4tc00915k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Gong, Yongyang;Liu, Jun;Zhang, Yiren;He, Gufeng;Lu, Yang;Fan, Wen Bin;Yuan, Wang Zhang;Sun, Jing Zhi;Zhang, Yongming;
2:10:136 Two-photon excited fluorescence of BF2 complexes of curcumin analogues: toward NIR-to-NIR fluorescent organic nanoparticles
DOI:10.1039/c4tc00543k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: D'Aleo, Anthony;Felouat, Abdellah;Heresanu, Vasile;Ranguis, Alain;Chaudanson, Damien;Karapetyan, Artak;Giorgi, Michel;Fages, Frederic;
2:10:137 Dipolar versus Octupolar Triphenylamine-Based Fluorescent Organic Nanoparticles as Brilliant One- and Two-Photon Emitters for (Bio)imaging
DOI:10.1002/smll.201100726 JN:SMALL PY:2011 TC:29 AU: Parthasarathy, Venkatakrishnan;Fery-Forgues, Suzanne;Campioli, Elisa;Recher, Gaelle;Terenziani, Francesca;Blanchard-Desce, Mireille;
2:10:138 Cation-Anion Interaction-Directed Molecular Design Strategy for Mechanochromic Luminescence
DOI:10.1002/adfm.201302086 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:14 AU: Li, Gaocan;Song, Feijie;Wu, Di;Lan, Jingbo;Liu, Xingyan;Wu, Jie;Yang, Shuaijun;Xiao, Dan;You, Jingsong;
2:10:139 Spatiotemporal Drug Release Visualized through a Drug Delivery System with Tunable Aggregation-Induced Emission
DOI:10.1002/adma.201302365 JN:ADVANCED MATERIALS PY:2014 TC:22 AU: Xue, Xiangdong;Zhao, Yuanyuan;Dai, Luru;Zhang, Xu;Hao, Xiaohong;Zhang, Chunqiu;Huo, Shuaidong;Liu, Juan;Liu, Chang;Kumar, Anil;Chen, Wei-Qiang;Zou, Guozhang;Liang, Xing-Jie;
2:10:140 Fluorogenic Zn(II) and Chromogenic Fe(II) Sensors Based on Terpyridine-Substituted Tetraphenylethenes with Aggregation-Induced Emission Characteristics
DOI:10.1021/am2009162 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:63 AU: Hong, Yuning;Chen, Sijie;Leung, Chris Wai Tung;Lam, Jacky Wing Yip;Liu, Jianzhao;Tseng, Nai-Wen;Kwok, Ryan Tsz Kin;Yu, Yong;Wang, Zhengke;Tang, Ben Zhong;
2:10:141 Crystal Structures and Emission Properties of the BF2 Complex 1-Phenyl-3-(3,5-dimethoxyphenyl)-propane-1,3-dione: Multiple Chromisms, Aggregation- or Crystallization-Induced Emission, and the Self-Assembly Effect
DOI:10.1021/ja501977a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:14 AU: Galer, Petra;Korosec, Romana C.;Vidmar, Maja;Sket, Boris;
2:10:142 Targeted Theranostic Platinum(IV) Prodrug with a Built-In Aggregation-Induced Emission Light-Up Apoptosis Sensor for Noninvasive Early Evaluation of Its Therapeutic Responses in Situ
DOI:10.1021/ja411811w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:30 AU: Yuan, Youyong;Kwok, Ryan T. K.;Tang, Ben Zhong;Liu, Bin;
2:10:143 Piezochromic luminescence of amide and ester derivatives of tetraphenylpyrene-role of amide hydrogen bonds in sensitive piezochromic response
DOI:10.1039/c0jm03950k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:31 AU: Sase, Mitsutaka;Yamaguchi, Shingo;Sagara, Yoshimitsu;Yoshikawa, Isao;Mutai, Toshiki;Araki, Koji;
2:10:144 A ratiometric fluorescent pH probe based on aggregation-induced emission enhancement and its application in live-cell imaging
DOI:10.1039/c1jm12098k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:36 AU: Song, Panshu;Chen, Xiaotong;Xiang, Yu;Huang, Lei;Zhou, Zhaojuan;Wei, Ruirui;Tong, Aijun;
2:10:145 Vapochromic and mechanochromic films from square-planar platinum complexes in polymethacrylates
DOI:10.1039/c2jm32160b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Kumpfer, Justin R.;Taylor, Stephen D.;Connick, William B.;Rowan, Stuart J.;
2:10:146 Solid-state luminescence of tetraphenylpyrene derivatives: mechano/vapochromic luminescence of 1,3,6,8-tetra(4 '-carboxyphenyl) pyrene
DOI:10.1039/c2jm33690a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Yamaguchi, Shingo;Yoshikawa, Isao;Mutai, Toshiki;Araki, Koji;
2:10:147 Light-up bioprobe with aggregation-induced emission characteristics for real-time apoptosis imaging in target cancer cells
DOI:10.1039/c3tb21495h JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:17 AU: Ding, Dan;Liang, Jing;Shi, Haibin;Kwok, Ryan T. K.;Gao, Meng;Feng, Guangxue;Yuan, Youyong;Tang, Ben Zhong;Liu, Bin;
2:10:148 The AIEE effect and two-photon absorption (TPA) enhancement induced by polymerization: synthesis of a monomer with ICT and AIE effects and its homopolymer by ATRP and a study of their photophysical properties
DOI:10.1039/c3tc00738c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:19 AU: Gu, Pei-Yang;Lu, Cai-Jian;Hu, Zhi-Jun;Li, Na-Jun;Zhao, Ting-ting;Xu, Qing-Feng;Xu, Qing-Hua;Zhang, Jian-Dong;Lu, Jian-Mei;
2:10:149 Immobilization of polymeric fluorogen on PDVB nanotubes with the assistance of supercritical CO2 for functional films
DOI:10.1039/c3tc00827d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Xu, Guiheng;Xu, Qun;Qin, Anjun;Cheng, Jingtao;Wang, Nan;Wei, Junyi;Zhang, Chengliang;Yang, Zhenzhong;Tang, Ben Zhong;
2:10:150 Tetrahydro[5]helicene-based full-color emission dyes in both solution and solid states: synthesis, structures, photophysical properties and optical waveguide applications
DOI:10.1039/c4tc01562b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Li, Meng;Yao, Wei;Chen, Jun-Dao;Lu, Hai-Yan;Zhao, YongSheng;Chen, Chuan-Feng;
2:10:151 The Relationship of Solid-State Plasticity to Mechanochromic Luminescence in Difluoroboron Avobenzone Polymorphs
DOI:10.1002/adfm.201201896 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:24 AU: Krishna, Gamidi Rama;Kiran, Mangalampalli S. R. N.;Fraser, Cassandra L.;Ramamurty, Upadrasta;Reddy, Chilla Malla;
2:10:152 Bifunctional Star-Burst Amorphous Molecular Materials for OLEDs: Achieving Highly Efficient Solid-State Luminescence and Carrier Transport Induced by Spontaneous Molecular Orientation
DOI:10.1002/adma.201204902 JN:ADVANCED MATERIALS PY:2013 TC:22 AU: Kim, Jun Yun;Yasuda, Takuma;Yang, Yu Seok;Adachi, Chihaya;
2:10:153 General Synthetic Approach toward Geminal-Substituted Tetraarylethene Fluorophores with Tunable Emission Properties: X-ray Crystallography, Aggregation-Induced Emission and Piezofluorochromism
DOI:10.1021/cm501414b JN:CHEMISTRY OF MATERIALS PY:2014 TC:19 AU: Zhang, Guo-Feng;Wang, Hongfeng;Aldred, Matthew P.;Chen, Tao;Chen, Ze-Qiang;Meng, Xianggao;Zhu, Ming-Qiang;
2:10:154 A multi-sensing fluorescent compound derived from cyanoacrylic acid
DOI:10.1039/b910718e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:59 AU: Zhang, Xiqi;Yang, Zhiyong;Chi, Zhenguo;Chen, Meina;Xu, Bingjia;Wang, Chengcheng;Liu, Siwei;Zhang, Yi;Xu, Jiarui;
2:10:155 Mechanochromic systems for the detection of stress, strain and deformation in polymeric materials
DOI:10.1039/c0jm04237d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:33 AU: Roberts, David R. T.;Holder, Simon J.;
2:10:156 A facile and convenient fluorescence detection of gamma-ray radiation based on the aggregation-induced emission
DOI:10.1039/c1jm12400e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Liu, Zitong;Xue, Wangxin;Cai, Zhengxu;Zhang, Guanxin;Zhang, Deqing;
2:10:157 Mechanoresponsive Materials
DOI:10.1039/c1jm90068d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:37 AU: Weder, Christoph;
2:10:158 Influence of molecular weight on the aggregation-induced emission enhancement and spectral stability of vinyl polymers containing the fluorescent 2,4,6-triphenylpyridine pendant groups
DOI:10.1039/c2jm30455d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Lai, Chung Tin;Hong, Jin Long;
2:10:159 Using fluorine-containing amphiphilic random copolymers to manipulate the quantum yields of aggregation-induced emission fluorophores in aqueous solutions and the use of these polymers for fluorescent bioimaging
DOI:10.1039/c2jm30258f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Lu, Hongguang;Su, Fengyu;Mei, Qian;Tian, Yanqing;Tian, Wenjing;Johnson, Roger H.;Meldrum, Deirdre R.;
2:10:160 Aggregation-induced emission logic gates based on metal ion sensing of phenanthroline-tetraphenylethene conjugates
DOI:10.1039/c3tc31585a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Gong, Wen-Liang;Aldred, Matthew P.;Zhang, Guo-Feng;Li, Chong;Zhu, Ming-Qiang;
2:10:161 Multi-stimuli responsive fluorescence switching: the reversible piezochromism and protonation effect of a divinylanthracene derivative
DOI:10.1039/c3tc31553c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:20 AU: Dong, Yujie;Zhang, Jibo;Tan, Xiao;Wang, Lijuan;Chen, Jinlong;Li, Bao;Ye, Ling;Xu, Bin;Zou, Bo;Tian, Wenjing;
2:10:162 Pentacenequinone derivatives: aggregation-induced emission enhancement, mechanism and fluorescent aggregates for superamplified detection of nitroaromatic explosives
DOI:10.1039/c4tc01194e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Kaur, Sandeep;Gupta, Ankush;Bhalla, Vandana;Kumar, Manoj;
2:10:163 Twisted intramolecular charge transfer, aggregation-induced emission, supramolecular self-assembly and the optical waveguide of barbituric acid-functionalized tetraphenylethene
DOI:10.1039/c3tc32161d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Wang, Erjing;Lam, Jacky W. Y.;Hu, Rongrong;Zhang, Chuang;Zhao, Yong Sheng;Tang, Ben Zhong;
2:10:164 Cruciform 9,10-distyryl-2,6-bis(p-dialkylaminostyryl)anthracene homologues exhibiting alkyl length-tunable piezochromic luminescence and heat-recovery temperature of ground states
DOI:10.1039/c3tc32035a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Zheng, M.;Zhang, D. T.;Sun, M. X.;Li, Y. P.;Liu, T. L.;Xue, S. F.;Yang, W. J.;
2:10:165 Constitutional isomers of a C-3-symmetric molecule showing different piezochromic behaviours: on-off switching and colour tuning
DOI:10.1039/c4tc00822g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Lim, Yoonbin;Choi, Insil;Lee, Hyunpyo;Kim, Il Won;Chang, Ji Young;
2:10:166 Water-Dispersible, pH- Stable and Highly-Luminescent Organic Dye Nanoparticles with Amplifi ed Emissions for In Vitro and In Vivo Bioimaging
DOI:10.1002/smll.201302230 JN:SMALL PY:2014 TC:6 AU: Yu, Jia;Diao, Xiaojun;Zhang, Xiujuan;Chen, Xianfeng;Hao, Xiaojun;Li, Wei;Zhang, Xiaohong;Lee, Chun-Sing;
2:10:167 Concurrent supramolecular gelation and fluorescence turn-on triggered by coordination of silver ion
DOI:10.1039/c2sm25551k JN:SOFT MATTER PY:2012 TC:17 AU: Seo, Jangwon;Chung, Jong Won;Cho, Illhun;Park, Soo Young;
2:10:168 A Water-Soluble Mechanochromic Luminescent Pyrene Derivative Exhibiting Recovery of the Initial Photoluminescence Color in a High-Humidity Environment
DOI:10.1002/adfm.201300180 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:17 AU: Sagara, Yoshimitsu;Komatsu, Toru;Ueno, Tasuku;Hanaoka, Kenjiro;Kato, Takashi;Nagano, Tetsuo;
2:10:169 Imaging Intracellular Anticancer Drug Delivery by Self-Assembly Micelles with Aggregation-Induced Emission (AIE Micelles)
DOI:10.1021/am5005267 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:27 AU: Zhang, Chunqiu;Jin, Shubin;Li, Shengliang;Xue, Xiangdong;Liu, Juan;Huang, Yuran;Jiang, Yonggang;Chen, Wei-Qiang;Zou, Guozhang;Liang, Xing-Jie;
2:10:170 A Ratiometric Fluorescent Probe Based on ESIPT and AIE Processes for Alkaline Phosphatase Activity Assay and Visualization in Living Cells
DOI:10.1021/am505150d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:13 AU: Song, Zhegang;Kwok, Ryan T. K.;Zhao, Engui;He, Zikai;Hong, Yuning;Lam, Jacky W. Y.;Liu, Bin;Tang, Ben Zhong;
2:10:171 Selective photodynamic therapy based on aggregation-induced emission enhancement of fluorescent organic nanoparticles
DOI:10.1016/j.biomaterials.2011.10.018 JN:BIOMATERIALS PY:2012 TC:27 AU: Chang, Cheng-Chung;Hsieh, Meng-Chieh;Lin, Jung-Chih;Chang, Ta-Chau;
2:10:172 Near-infrared fluorescence imaging using organic dye nanoparticles
DOI:10.1016/j.biomaterials.2014.01.004 JN:BIOMATERIALS PY:2014 TC:4 AU: Yu, Jia;Zhang, Xiujuan;Hao, Xiaojun;Zhang, Xiaohong;Zhou, Mengjiao;Lee, Chun-Sing;Chen, Xianfeng;
2:10:173 Polyion complex micellar nanoparticles for integrated fluorometric detection and bacteria inhibition in aqueous media
DOI:10.1016/j.biomaterials.2013.10.077 JN:BIOMATERIALS PY:2014 TC:12 AU: Li, Yamin;Hu, Xianglong;Tian, Sidan;Li, Yang;Zhang, Guoqing;Zhang, Guoying;Liu, Shiyong;
2:10:174 Graphene-like Molecules Based on Tetraphenylethene Oligomers: Synthesis, Characterization, and Applications
DOI:10.1021/cm501590w JN:CHEMISTRY OF MATERIALS PY:2014 TC:10 AU: Ma, Ji;Lin, Tingting;Pan, Xiaoyong;Wang, Weizhi;
2:10:175 Highly Emitting Concomitant Polymorphic Crystals of a Dinuclear Rhenium Complex
DOI:10.1021/ja106772v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:46 AU: Procopio, Elsa Quartapelle;Mauro, Matteo;Panigati, Monica;Donghi, Daniela;Mercandelli, Pierluigi;Sironi, Angelo;D'Alfonso, Giuseppe;De Cola, Luisa;
2:10:176 Aggregation-enhanced two-photon absorption and up-converted fluorescence of quadrupolar 1,4-bis(cyanostyryl) benzene derivatives showing solvatochromic fluorescence
DOI:10.1039/c0jm00716a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:36 AU: Noh, Su Bum;Kim, Ran Hee;Kim, Won Jin;Kim, Sehoon;Lee, Kwang-Sup;Cho, Nam Sung;Shim, Hong-Ku;Pudavar, Haridas E.;Prasad, Paras N.;
2:10:177 Water-soluble bioprobes with aggregation-induced emission characteristics for light-up sensing of heparin
DOI:10.1039/c4tb00367e JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:9 AU: Kwok, Ryan T. K.;Geng, Junlong;Lam, Jacky W. Y.;Zhao, Engui;Wang, Guan;Zhan, Ruoyu;Liu, Bin;Tang, Ben Zhong;
2:10:178 Inexpensive and valuable: a series of new luminogenic molecules with the tetraphenylethene core having excellent aggregation induced emission properties
DOI:10.1039/c3tc31427h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Odabas, Serhat;Tekin, Emine;Turksoy, Figen;Tanyeli, Cihangir;
2:10:179 Rationally designed molecular D-A-D triad for piezochromic and acidochromic fluorescence on-off switching
DOI:10.1039/c3tc31938e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Kwon, Min Sang;Gierschner, Johannes;Seo, Jangwon;Park, Soo Young;
2:10:180 Fluorescence-Enhanced Organogels and Mesomorphic Superstructure Based on Hydrazine Derivatives
DOI:10.1021/la100325c JN:LANGMUIR PY:2010 TC:36 AU: Zhang, Peng;Wang, Haitao;Liu, Huimin;Li, Min;
2:10:181 Novel Fluorescent pH Sensors and a Biological Probe Based on Anthracene Derivatives with Aggregation-Induced Emission Characteristics
DOI:10.1021/la904727t JN:LANGMUIR PY:2010 TC:73 AU: Lu, Hongguang;Xu, Bin;Dong, Yujie;Chen, Feipeng;Li, Yaowen;Li, Zaifang;He, Jiating;Li, Hui;Tian, Wenjing;
2:10:182 Self-assembly of novel fluorescent silole derivatives into different supramolecular aggregates: fibre, liquid crystal and monolayer
DOI:10.1039/b925746b JN:SOFT MATTER PY:2010 TC:33 AU: Wan, Jun-Hua;Mao, Lin-Yan;Li, Yi-Bao;Li, Zhi-Fang;Qiu, Hua-Yu;Wang, Chen;Lai, Guo-Qiao;
2:10:183 Highly Fluorescent and Photostable Probe for Long-Term Bacterial Viability Assay Based on Aggregation-Induced Emission
DOI:10.1002/adhm.201200475 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:14 AU: Zhao, Engui;Hong, Yuning;Chen, Sijie;Leung, Chris W. T.;Chan, Carrie Y. K.;Kwok, Ryan T. K.;Lam, Jacky W. Y.;Tang, Ben Zhong;
2:10:184 Fluorogen-Peptide Conjugates with Tunable Aggregation-Induced Emission Characteristics for Bioprobe Design
DOI:10.1021/am5036048 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Zhang, Ruoyu;Yuan, Youyong;Liang, Jing;Kwok, Ryan T. K.;Zhu, Qing;Feng, Guangxue;Geng, Junlong;Tang, Ben Zhong;Liu, Bin;
2:10:185 Surface Modification of Self-Assembled One-Dimensional Organic Structures: White-Light Emission and Beyond
DOI:10.1021/ja106354m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:16 AU: Wang, Xiao;Yan, Jing;Zhou, Yan;Pei, Jian;
2:10:186 The Protease-Mediated Nucleus Shuttles of Subnanometer Gold Quantum Dots for Real-Time Monitoring of Apoptotic Cell Death
DOI:10.1021/ja100561k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:33 AU: Lin, Shu-Yi;Chen, Nai-Tzu;Sun, Shu-Pin;Chang, Jerry C.;Wang, Yu-Chao;Yang, Chung-Shi;Lo, Leu-Wei;
2:10:187 Control of Self-Assembly of a 3-Hexen-1,5-diyne Derivative: Toward Soft Materials with an Aggregation-Induced Enhancement in Emission
DOI:10.1021/ja2018898 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:23 AU: Perez, Ana;Luis Serrano, Jose;Sierra, Teresa;Ballesteros, Alfredo;de Saa, Diana;Barluenga, Jose;
2:10:188 Exploring the minimal structure of a wholly aromatic organogelator: simply adding two beta-cyano groups to distyrylbenzene
DOI:10.1039/c1jm14558d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:16 AU: Yoon, Seong-Jun;Kim, Jong H.;Chung, Jong Won;Park, Soo Young;
2:10:189 Aggregation-induced emission enhancement characteristics of naphthalimide derivatives and their applications in cell imaging
DOI:10.1039/c0jm02942d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:46 AU: Lin, Hsin-Hung;Chan, Yung-Chieh;Chen, Jyun-Wei;Chang, Cheng-Chung;
2:10:190 Highly sensitive and selective fluorometric off-on K+ probe constructed via host-guest molecular recognition and aggregation-induced emission
DOI:10.1039/c2jm16510d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:30 AU: Wang, Xiaorui;Hu, Jinming;Liu, Tao;Zhang, Guoying;Liu, Shiyong;
2:10:191 High efficiency luminescent liquid crystal: aggregation-induced emission strategy and biaxially oriented mesomorphic structure
DOI:10.1039/c2jm15712h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Yuan, Wang Zhang;Yu, Zhen-Qiang;Lu, Ping;Deng, Chunmei;Lam, Jacky W. Y.;Wang, Zhiming;Chen, Er-Qiang;Ma, Yuguang;Tang, Ben Zhong;
2:10:192 A fluorescent light-up probe with "AIE plus ESIPT" characteristics for specific detection of lysosomal esterase
DOI:10.1039/c4tb00345d JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:23 AU: Gao, Meng;Hu, Qinglian;Feng, Guangxue;Tang, Ben Zhong;Liu, Bin;
2:10:193 DMF-induced emission of an aryl-substituted pyrrole derivative: a solid thermo-responsive material to detect temperature in a specific range
DOI:10.1039/c3tc31573h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Han, Tianyu;Feng, Xiao;Shi, Jianbing;Tong, Bin;Dong, Yifan;Lam, Jacky W. Y.;Dong, Yuping;Tang, Ben Zhong;
2:10:194 Two dimensional restriction-induced luminescence of tetraphenyl ethylene within the layered double hydroxide ultrathin films and its fluorescence resonance energy transfer
DOI:10.1039/c3tc31164c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Li, Zhen;Lu, Jun;Qin, Yumei;Li, Shuangde;Qin, Shenghui;
2:10:195 Electrically switchable photoluminescence of fluorescent-molecule-dispersed liquid crystals prepared via photoisomerization-induced phase separation
DOI:10.1039/c3tc32174f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Lu, Hongbo;Qiu, Longzhen;Zhang, Guiyu;Ding, Aixiang;Xu, Weibing;Zhang, Guobing;Wang, Xianghua;Kong, Lin;Tian, Yupeng;Yang, Jiaxiang;
2:10:196 Preparation of 4-dicyanomethylene-2,6-distyryl-4H-pyran derivatives, their functional polystyrenes and study of their different aggregation induced emission behaviors
DOI:10.1039/c3tc32244k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Zhang, You-Hao;Gu, Pei-Yang;Zhou, Jie-Bo;Xu, Yu-Jie;Liu, Wu;Gu, Qian-Feng;Chen, Dong-Yun;Li, Na-Jun;Xu, Qing-Feng;Lu, Jian-Mei;
2:10:197 Large cyano- and triazine-substituted D-pi-A-pi-D structures as efficient AIEE solid emitters with large two-photon absorption cross sections
DOI:10.1039/c3tc31913j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:16 AU: Huang, Wei;Tang, Fansheng;Li, Bo;Su, Jianhua;Tian, He;
2:10:198 Heating and mechanical force-induced luminescence on-off switching of arylamine derivatives with highly distorted structures
DOI:10.1039/c3tc31416b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:16 AU: Zhang, Yujian;Sun, Jingwei;Zhuang, Guilin;Ouyang, Mi;Yu, Zhenwei;Cao, Feng;Pan, Guoxiang;Tang, Peisong;Zhang, Cheng;Ma, Yuguang;
2:10:199 Luminescent hydrogels based on di(4-propoxyphenyl)-dibenzofulvene exhibiting four emission colours and organic solvents/thermal dual-responsive properties
DOI:10.1039/c4tc00741g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Zheng, Heying;Li, Chenyu;He, Changcheng;Dong, Yong Qiang;Liu, Qisi;Qin, Peifeng;Zeng, Chen;Wang, Huiliang;
2:10:200 Facile tuning of the aggregation-induced emission wavelength in a common framework of a cyclometalated iridium(III) complex: micellar encapsulated probe in cellular imaging
DOI:10.1039/c4tc00466c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Alam, P.;Das, P.;Climent, C.;Karanam, M.;Casanova, D.;Choudhury, A. R.;Alemany, P.;Jana, N. R.;Laskar, I. R.;
2:10:201 Aggregation-induced and crystallization-enhanced emissions with time-dependence of a new Schiff-base family based on benzimidazole
DOI:10.1039/c3tc32551b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Cao, Yuanle;Yang, Mingdi;Wang, Yang;Zhou, HongPing;Zheng, Jun;Zhang, Xiuzhen;Wu, Jieying;Tian, Yupeng;Wu, Zongquan;
2:10:202 Color- and Morphology-Controlled Self-Assembly of New Electron-Donor-Substituted Aggregation-Induced Emission Compounds
DOI:10.1021/la404436v JN:LANGMUIR PY:2014 TC:10 AU: Niu, Caixia;Zhao, Liu;Fang, Tao;Deng, Xuebin;Ma, Hui;Zhang, Jiaxin;Na, Na;Han, Jingsa;Ouyang, Jin;
2:10:203 Highly Fluorescent and Color-Tunable Exciplex Emission from Poly(N-vinylcarbazole) Film Containing Nanostructured Supramolecular Acceptors
DOI:10.1002/adfm.201302924 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Kim, Jong H.;An, Byeong-Kwan;Yoon, Seong-Jun;Park, Sang Kyu;Kwon, Ji Eon;Lim, Chang-Keun;Park, Soo Young;
2:10:204 Bright and Photostable Organic Fluorescent Dots with Aggregation-Induced Emission Characteristics for Noninvasive Long-Term Cell Imaging
DOI:10.1002/adfm.201302114 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:18 AU: Qin, Wei;Li, Kai;Feng, Guangxue;Li, Min;Yang, Zhiyong;Liu, Bin;Tang, Ben Zhong;
2:10:205 High Contrast Fluorescence Patterning in Cyanostilbene-Based Crystalline Thin Films: Crystallization-Induced Mass Flow Via a Photo-Triggered Phase Transition
DOI:10.1002/adma.201304250 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Park, Jin Wook;Nagano, Shusaku;Yoon, Seong-Jun;Dohi, Tomoki;Seo, Jangwon;Seki, Takahiro;Park, Soo Young;
2:10:206 Organic Dots with Aggregation-Induced Emission (AIE Dots) Characteristics for Dual-Color Cell Tracing
DOI:10.1021/cm401709d JN:CHEMISTRY OF MATERIALS PY:2013 TC:20 AU: Li, Kai;Zhu, Zhenshu;Cai, Pingqiang;Liu, Rongrong;Tomczak, Nikodem;Ding, Dan;Liu, Jie;Qin, Wei;Zhao, Zujin;Hu, Yong;Chen, Xiaodong;Tang, Ben Zhong;Liu, Bin;
2:10:207 Facile synthesis of a new class of aggregation-induced emission materials derived from triphenylethylene
DOI:10.1039/c0jm00229a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:41 AU: Xu, Bingjia;Chi, Zhenguo;Yang, Zhiyong;Chen, Jingbo;Deng, Shaozhi;Li, Haiyin;Li, Xiaofang;Zhang, Yi;Xu, Ningsheng;Xu, Jiarui;
2:10:208 Tuning the electronic nature of aggregation-induced emission chromophores with enhanced electron-transporting properties
DOI:10.1039/c2jm16308j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Liu, Yang;Chen, Shuming;Lam, Jacky W. Y.;Mahtab, Faisal;Kwok, Hoi Sing;Tang, Ben Zhong;
2:10:209 Naphthalene-substituted 2,3,4,5-tetraphenylsiloles: synthesis, structure, aggregation-induced emission and efficient electroluminescence
DOI:10.1039/c2jm34621d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Jiang, Tao;Jiang, Yibing;Qin, Wei;Chen, Shuming;Lu, Yahong;Lam, Jacky W. Y.;He, Bairong;Lu, Ping;Sung, Herman H. Y.;Williams, Ian D.;Kwok, Hoi Sing;Zhao, Zujin;Qiu, Huayu;Tang, Ben Zhong;
2:10:210 A highly selective AIE fluorogen for lipid droplet imaging in live cells and green algae
DOI:10.1039/c3tb21675f JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:4 AU: Wang, Erjing;Zhao, Engui;Hong, Yuning;Lam, Jacky W. Y.;Tang, Ben Zhong;
2:10:211 A dual-mode fluorescence "turn-on" biosensor based on an aggregation-induced emission luminogen
DOI:10.1039/c3tb21576h JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:18 AU: Song, Zhegang;Hong, Yuning;Kwok, Ryan T. K.;Lam, Jacky W. Y.;Liu, Bin;Tang, Ben Zhong;
2:10:212 Design and synthesis of a highly sensitive "Turn-On" fluorescent organic nanoprobe for iron(III) detection and imaging
DOI:10.1039/c4tc01759e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Han, Cuiping;Huang, Tonghui;Liu, Qi;Xu, Huiting;Zhuang, Yinping;Li, Jingjing;Hu, Junfeng;Wang, Aming;Xu, Kai;
2:10:213 Deep-blue luminescent compound that emits efficiently both in solution and solid state with considerable blue-shift upon aggregation
DOI:10.1039/c3tc31825g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Liu, Yiwu;Zhang, Yi;Wu, Xinhui;Lan, Qi;Chen, Chuansen;Liu, Siwei;Chi, Zhenguo;Jiang, Long;Chen, Xudong;Xu, Jiarui;
2:10:214 Propeller-like D-pi-A architectures: bright solid emitters with AIEE activity and large two-photon absorption
DOI:10.1039/c4tc00933a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Huang, Wei;Wang, Huan;Sun, Lu;Li, Bo;Su, Jianhua;Tian, He;
2:10:215 Spontaneous Formation of Fluorescent Nanofibers and Reticulated Solid from Berberine Palmitate: A New Example of Aggregation-Induced Emission Enhancement in Organic Ion Pairs
DOI:10.1021/la104302d JN:LANGMUIR PY:2011 TC:18 AU: Chahine, Joe;Saffon, Nathalie;Cantuel, Martine;Fery-Forgues, Suzanne;
2:10:216 Microcrystals with Enhanced Emission Prepared from Hydrophobic Analogues of the Green Fluorescent Protein Chromophore via Reprecipitation
DOI:10.1021/la403909k JN:LANGMUIR PY:2013 TC:6 AU: Fery-Forgues, Suzanne;Veesler, Stephane;Fellows, W. Brett;Tolbert, Laren M.;Solntsev, Kyril M.;
2:10:217 Covalent Immobilization of Aggregation-Induced Emission Luminogens in Silica Nanoparticles Through Click Reaction
DOI:10.1002/smll.201002195 JN:SMALL PY:2011 TC:22 AU: Mahtab, Faisal;Lam, Jacky W. Y.;Yu, Yong;Liu, Jianzhao;Yuan, Wangzhang;Lu, Ping;Tang, Ben Zhong;
2:10:218 Gadolinium-Functionalized Aggregation-Induced Emission Dots as Dual-Modality Probes for Cancer Metastasis Study
DOI:10.1002/adhm.201300135 JN:ADVANCED HEALTHCARE MATERIALS PY:2013 TC:10 AU: Li, Kai;Ding, Dan;Prashant, Chandrasekharan;Qin, Wei;Yang, Chang-Tong;Tang, Ben Zhong;Liu, Bin;
2:10:219 Modularity Analysis of Tunable Solid-State Emission Based on a Twisted Conjugated Molecule Containing 9,9 '-Bianthracene Group
DOI:10.1002/adma.201301648 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Zhang, Peng;Dou, Wei;Ju, Zhenghua;Tang, Xiaoliang;Liu, Wei;Chen, Chunyang;Wang, Bei;Liu, Weisheng;
2:10:220 Thiol-Reactive Molecule with Dual-Emission-Enhancement Property for Specific Prestaining of Cysteine Containing Proteins in SDS-PAGE
DOI:10.1021/am401486h JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Yu, Yong;Li, Jie;Chen, Sijie;Hong, Yuning;Ng, Ka Ming;Luo, Kathy Qian;Tang, Ben Zhong;
2:10:221 Reversible Mechanochromism of a Luminescent Elastomer
DOI:10.1021/am4013648 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Bao, Suping;Li, Jianhua;Lee, Ka I.;Shao, Sijie;Hao, Jianhua;Fei, Bin;Xin, John H.;
2:10:222 Discriminative fluorescence detection of cysteine, homocysteine and glutathione via reaction-dependent aggregation of fluorophore-analyte adducts
DOI:10.1039/c2jm32892e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Mei, Ju;Tong, Jiaqi;Wang, Jian;Qin, Anjun;Sun, Jing Zhi;Tang, Ben Zhong;
2:10:223 Water-miscible organic J-aggregate nanoparticles as efficient two-photon fluorescent nano-probes for bio-imaging
DOI:10.1039/c2jm33081d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Xu, Zhenzhen;Liao, Qing;Wu, Yishi;Ren, Wenlu;Li, Wei;Liu, Libing;Wang, Shu;Gu, Zhanjun;Zhang, Haoli;Fu, Hongbing;
2:10:224 A highly sensitive, single selective, real-time and "turn-on'' fluorescent sensor for Al3+ detection in aqueous media
DOI:10.1039/c2jm33393g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:42 AU: Shi, Xiaoyan;Wang, Huan;Han, Tianyu;Feng, Xiao;Tong, Bin;Shi, Jianbing;Zhi, Junge;Dong, Yuping;
2:10:225 Full-color tunable organic nanoparticles with FRET-assisted enhanced two-photon excited fluorescence for bio-imaging
DOI:10.1039/c3tb20841a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:5 AU: Xu, Zhenzhen;Liao, Qing;Shi, Xingrui;Li, Hui;Zhang, Haoli;Fu, Hongbing;
2:10:226 Color-tunable organic composite nanoparticles based on perylene tetracarboxylic-diimides and a silicon-cored fluoranthene derivate
DOI:10.1039/c3tc31097c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Wang, Hua;Xie, Huanling;Liang, Yan;Feng, Linglong;Cheng, Xiyuan;Lu, Haifeng;Feng, Shengyu;
2:10:227 Highly ordered luminescent calix[4]azacrown films showing an emission response selective to volatile tetrahydrofuran
DOI:10.1039/c4tc01596g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Oueslati, Issam;Paixao, Jose A.;Shkurenko, Aleksander;Suwinska, Kinga;Seixas de Melo, J. Sergio;Batista de Carvalho, Luis A. E.;
2:10:228 Alkyl-triphenylamine end-capped triazines with AIE and large two-photon absorption cross-sections for bioimaging
DOI:10.1039/c4tc00910j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Gao, Yuting;Qu, Yi;Jiang, Tao;Zhang, Hao;He, Nannan;Li, Bo;Wu, Junchen;Hua, Jianli;
2:10:229 Structural features and optical properties of a carbazole-containing ethene as a highly emissive organic solid
DOI:10.1039/c3tc32145b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Liu, Yang;Ye, Xin;Liu, Guangfeng;Lv, Yun;Zhang, Xiying;Chen, Shuming;Lam, Jacky W. Y.;Kwok, Hoi Sing;Tao, Xutang;Tang, Ben Zhong;
2:10:230 Unlimited water-soluble white emitter with two-photon absorption
DOI:10.1039/c4tc00795f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Yang, Junsong;Wang, Jiyin;Tian, Yupeng;Xu, Gewen;Zhang, Shengyi;Wu, Jieying;Jin, Baokang;
2:10:231 Photoluminescent Color Tuning in Fluorene Derivative/Copolymer Composite Films Based on H-Bonds
DOI:10.1021/la205035s JN:LANGMUIR PY:2012 TC:4 AU: Kawatsuki, Nobuhiro;Miki, Hisako;Kondo, Mizuho;Nakamura, Mitsunobu;
2:10:232 Solution-processed organic thin films based on aggregation-induced emission materials
DOI:10.1016/j.tsf.2012.09.012 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Chen, Jingbo;Chi, Zhenguo;Yang, Zhiyong;Deng, Shaozhi;She, Juncong;Xu, Bingjia;Chen, Jun;Xu, Jiarui;Xu, Ningsheng;
2:10:233 Optical Waveguides Based on Single-Crystalline Organic Micro-Tiles
DOI:10.1002/adma.201000444 JN:ADVANCED MATERIALS PY:2010 TC:19 AU: Heng, Liping;Wang, Xinyi;Tian, Dongliang;Zhai, Jin;Tang, Benzhong;Jiang, Lei;
2:10:234 Polymerizing Nonfluorescent Monomers without Incorporating any Fluorescent Agent Produces Strong Fluorescent Polymers
DOI:10.1002/adma.201202201 JN:ADVANCED MATERIALS PY:2012 TC:8 AU: Yan, Jun-Jie;Wang, Zhong-Kai;Lin, Xiang-Song;Hong, Chun-Yan;Liang, Hao-Jun;Pan, Cai-Yuan;You, Ye-Zi;
2:10:235 Tuning Solid-State Fluorescence to the Near-Infrared: A Combinatorial Approach to Discovering Molecular Nanoprobes for Biomedical Imaging
DOI:10.1021/am4012066 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Singh, Ajay;Lim, Chang-Keun;Lee, Yong-Deok;Maeng, Joon-ho;Lee, Sangyoup;Koh, Joonseok;Kim, Sehoon;
2:10:236 Fluorescent Light-up Probe with Aggregation-Induced Emission Characteristics for Alkaline Phosphatase Sensing and Activity Study
DOI:10.1021/am4026517 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:26 AU: Liang, Jing;Kwok, Ryan Tsz Kin;Shi, Haibin;Tang, Ben Zhong;Liu, Bin;
2:10:237 Near-Infrared Solid-State Emitters Based on Isophorone: Synthesis, Crystal Structure and Spectroscopic Properties.
DOI:10.1021/cm102165r JN:CHEMISTRY OF MATERIALS PY:2011 TC:29 AU: Massin, Julien;Dayoub, Wissam;Mulatier, Jean-Christophe;Aronica, Christophe;Bretonniere, Yann;Andraud, Chantal;
2:10:238 Porphyrin FRET Acceptors for Apoptosis Induction and Monitoring
DOI:10.1021/ja2083569 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:15 AU: Lovell, Jonathan F.;Chan, Michael W.;Qi, Qiaochu;Chen, Juan;Zheng, Gang;
2:10:239 Semiconducting Organic Assemblies Prepared from Tetraphenylethylene Tetracarboxylic Acid and Bis(pyridine)s via Charge-Assisted Hydrogen Bonding
DOI:10.1021/ja203001z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:34 AU: Kapadia, Pradeep P.;Ditzler, Lindsay R.;Baltrusaitis, Jonas;Swenson, Dale C.;Tivanski, Alexei V.;Pigge, F. Christopher;
2:10:240 Selected-area in situ generation of highly fluorescent organic nanowires embedded in a polymer film: the solvent-vapor-induced self-assembly process
DOI:10.1039/c0jm00896f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Chung, Jong Won;An, Byeong-Kwan;Hirato, Fumio;Kim, Jong H.;Jinnai, Hiroshi;Park, Soo Young;
2:10:241 Syntheses, optical properties, and bioapplications of the aggregation-induced emission of 2,3,4,5-tetraphenylcyclopenta-2,4-dienyl benzene derivatives
DOI:10.1039/c2jm32755d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Anariba, Franklin;Chng, Leng Leng;Abdullah, Nur Sharalyn;Tay, Francis E. H.;
2:10:242 Aggregation induced photodynamic therapy enhancement based on linear and nonlinear excited FRET of fluorescent organic nanoparticles
DOI:10.1039/c3tb00345k JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:13 AU: Hsieh, Meng-Chieh;Chien, Cheng-Hao;Chang, Cheng-Chung;Chang, Ta-Chau;
2:10:243 A unique fluorescence response of hexaphenylsilole to methyl parathion hydrolase: a new signal generating system for the enzyme label
DOI:10.1039/c4tb00624k JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:3 AU: Zhao, Ge Ning;Tang, Biao;Dong, Yong Qiang;Xie, Wei Hong;Tang, Ben Zhong;
2:10:244 Thermosensitivity and luminescent properties of new tetraphenylethylene derivatives bearing peripheral oligo(ethylene glycol) chains
DOI:10.1039/c3tc31482k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Yin, Xiuxiu;Meng, Fanxing;Wang, Liyan;
2:10:245 Tunable solid-state photoluminescence based on proton-triggered structural transformation of 4,4 '-bipyridinium derivative
DOI:10.1039/c2tc00111j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Zhou, Xue-Jun;Chen, Cheng;Ren, Cai-Xia;Sun, Jian-Ke;Zhang, Jie;
2:10:246 Reversible vapochromic response of polymer films doped with a highly emissive molecular rotor
DOI:10.1039/c4tc01737d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Minei, Pierpaolo;Koenig, Matthias;Battisti, Antonella;Ahmad, Muzaffer;Barone, Vincenzo;Torres, Tomas;Guldi, Dirk M.;Brancato, Giuseppe;Bottari, Giovanni;Pucci, Andrea;
2:10:247 CEE-active red/near-infrared fluorophores with triple-channel solid-state "ON/OFF" fluorescence switching
DOI:10.1039/c4tc01099j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Cheng, Xiao;Zhang, Zhenyu;Zhang, Houyu;Han, Shenghua;Ye, Kaiqi;Wang, Lu;Zhang, Hongyu;Wang, Yue;
2:10:248 Synthesis, properties, and applications of poly(ethylene glycol)-decorated tetraphenylethenes
DOI:10.1039/c4tc00923a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Chen, Yilong;Lam, Jacky W. Y.;Chen, Sijie;Tang, Ben Zhong;
2:10:249 Emission enhancement and color adjustment of silicon-cored structure in tetraphenyl benzene with aggregation-enhanced emission
DOI:10.1039/c4tc00570h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Wang, Hua;Liang, Yan;Xie, Huanling;Feng, Linglong;Lu, Haifeng;Feng, Shengyu;
2:10:250 Crafting NPB with tetraphenylethene: a win-win strategy to create stable and efficient solid-state emitters with aggregation-induced emission feature, high hole-transporting property and efficient electroluminescence
DOI:10.1039/c4tc00145a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Qin, Wei;Liu, Jianzhao;Chen, Shuming;Lam, Jacky W. Y.;Arseneault, Mathieu;Yang, Zhiyong;Zhao, Qiuli;Kwok, Hoi Sing;Tang, Ben Zhong;
2:10:251 Schiff base derivatives containing heterocycles with aggregation-induced emission and recognition ability
DOI:10.1039/c3tc32591a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Liu, Gang;Yang, Mingdi;Wang, Lianke;Zheng, Jun;Zhou, Hongping;Wu, Jieying;Tian, Yupeng;
2:10:252 Aggregation-Induced Emission Enhancement in Organic Ion Pairs
DOI:10.1021/la100349d JN:LANGMUIR PY:2010 TC:24 AU: Lamere, Jean-Francois;Saffon, Nathalie;Dos Santos, Isabelle;Fery-Forgues, Suzanne;
2:10:253 Flexible Free-Standing Luminescent Two-Component Fiber Films with Tunable Hierarchical Structures Based on Hydrogen-Bonding Architecture
DOI:10.1021/la4034657 JN:LANGMUIR PY:2013 TC:3 AU: Yan, Dongpeng;Williams, Gareth R.;Zhao, Min;Li, Changming;Fan, Guoling;Yang, Hejia;
2:10:254 New tetraphenylethylene-containing conjugated polymers: Facile synthesis, aggregation-induced emission enhanced characteristics and application as explosive chemsensors and PLEDs
DOI:10.1016/j.polymer.2012.05.035 JN:POLYMER PY:2012 TC:30 AU: Wu, Wenbo;Ye, Shanghui;Tang, Runli;Huang, Lijin;Li, Qianqian;Yu, Gui;Liu, Yunqi;Qin, Jingui;Li, Zhen;
2:10:255 Mechanochromic polyurethane strain sensor
DOI:10.1063/1.4893010 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Cellini, F.;Khapli, S.;Peterson, S. D.;Porfiri, M.;
2:10:256 Colorless, Transparent, Dye-Doped Polymer Films Exhibiting Tunable Luminescence Color: Controlling the Dual-Color Luminescence of 2-(2 '-Hydroxyphenyl)imidazo[1,2-a]pyridine Derivatives with the Surrounding Matrix
DOI:10.1021/am503956t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Furukawa, Shintaro;Shono, Hideaki;Mutai, Toshiki;Araki, Koji;
2:10:257 From Stimuli-Responsive Polymorphic Organic Dye Crystals to Photoluminescent Cationic Open-Framework Metal Phosphate
DOI:10.1021/ja302009h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:16 AU: Chang, Yu-Chuan;Wang, Sue-Lein;
2:10:258 New aggregation-induced emission enhancement materials combined triarylamine and dicarbazolyl triphenylethylene moieties
DOI:10.1039/c0jm00599a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:42 AU: Li, Haiyin;Chi, Zhenguo;Xu, Bingjia;Zhang, Xiqi;Yang, Zhiyong;Li, Xiaofang;Liu, Siwei;Zhang, Yi;Xu, Jiarui;
2:10:259 Supramolecular interaction-induced self-assembly of organic molecules into ultra-long tubular crystals with wave guiding and amplified spontaneous emission
DOI:10.1039/c1jm14815j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Xu, Yuanxiang;Zhang, Houyu;Li, Feng;Shen, Fangzhong;Wang, Huan;Li, Xianjie;Yu, Yang;Ma, Yuguang;
2:10:260 Pentacenequinone derivatives for preparation of gold nanoparticles: facile synthesis and catalytic application
DOI:10.1039/c4ta00397g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Sharma nee Kamaldeep, Kamaldeep;Kaur, Sandeep;Bhalla, Vandana;Kumar, Manoj;Gupta, Ankush;
2:10:261 Distinct optical and kinetic responses from E/Z isomers of caspase probes with aggregation-induced emission characteristics
DOI:10.1039/c4tb00405a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:6 AU: Liang, Jing;Shi, Haibin;Kwok, Ryan T. K.;Gao, Meng;Yuan, Youyong;Zhang, Wenhua;Tang, Ben Zhong;Liu, Bin;
2:10:262 Defect-sensitive crystals based on diaminomaleonitrile-functionalized Schiff base with aggregation-enhanced emission
DOI:10.1039/c3tc31562b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Han, Tianyu;Hong, Yuning;Xie, Ni;Chen, Sijie;Zhao, Na;Zhao, Engui;Lam, Jacky W. Y.;Sung, Herman H. Y.;Dong, Yuping;Tong, Bin;Tang, Ben Zhong;
2:10:263 Tuning optical properties of phenanthroline derivatives through varying excitation wavelength and pH values
DOI:10.1039/c3tc32025a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Gu, Pei-Yang;Gao, Junkuo;Zhang, Qichun;Liu, Gaoyan;Zhou, Feng;Xu, Qing-Feng;Lu, Jian-Mei;
2:10:264 Aggregation-enhanced emission in fluorophores containing pyridine and triphenylamine terminals: restricted molecular rotation and hydrogen-bond interaction
DOI:10.1039/c3tc31592d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:16 AU: Deng, Shiang-Lin;Chen, Tai-Lin;Chien, Wei-Lun;Hong, Jin-Long;
2:10:265 Synthesis and aggregation-induced emissions of thienyl substituted cyclobutene derivatives
DOI:10.1039/c4tc00221k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Zhang, Xiaotao;Lu, Xiuqiang;Zhen, Yonggang;Liu, Jie;Dong, Huanli;Zhao, Guangyao;He, Ping;Wang, Zongrui;Jiang, Lang;Hu, Wenping;
2:10:266 Crystallization-enhanced emission through hydrogen-bond interactions in blends containing hydroxyl-functionalized azine and poly(4-vinyl pyridine)
DOI:10.1039/c4tc00005f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Hsiao, Tai-Shen;Deng, Shiang-Lin;Shih, Ke-Ying;Hong, Jin-Long;
2:10:267 Carbazole-Based Cyano-Stilbene Highly Fluorescent Microcrystals
DOI:10.1021/la103894x JN:LANGMUIR PY:2011 TC:25 AU: Upamali, Karasinghe A. N.;Estrada, Leandro A.;De, Puran K.;Cai, Xichen;Krause, Jeanette A.;Neekers, Douglas C.;
2:10:268 Facile Access to Highly Fluorescent Nanofibers and Microcrystals via Reprecipitation of 2-Phenyl-benzoxazole Derivatives
DOI:10.1021/la2036554 JN:LANGMUIR PY:2012 TC:7 AU: Ghodbane, Abdelhamid;D'Alterio, Sebastien;Saffon, Nathalie;McClenaghan, Nathan D.;Scarpantonio, Luca;Jolinat, Pascale;Fery-Forgues, Suzanne;
2:10:269 Dye/Peroxalate Aggregated Nanoparticles with Enhanced and Tunable Chemiluminescence for Biomedical Imaging of Hydrogen Peroxide
DOI:10.1021/nn3014905 JN:ACS NANO PY:2012 TC:21 AU: Lee, Yong-Deok;Lim, Chang-Keun;Singh, Ajay;Koh, Joonseok;Kim, Jungahn;Kwon, Ick Chan;Kim, Sehoon;
2:10:270 Precise and Long-Term Tracking of Adipose-Derived Stem Cells and Their Regenerative Capacity via Superb Bright and Stable Organic Nanodots
DOI:10.1021/nn505554y JN:ACS NANO PY:2014 TC:6 AU: Ding, Dan;Mao, Duo;Li, Kai;Wang, Xiaomin;Qin, Wei;Liu, Rongrong;Chiam, David Shunzhong;Tomczak, Nikodem;Yang, Zhimou;Tang, Ben Zhong;Kong, Deling;Liu, Bin;
2:10:271 Vitamin B-1 Derived Blue and Green Fluorescent Carbon Nanoparticles for Cell-Imaging Application
DOI:10.1021/am500964d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Bhunia, Susanta Kumar;Pradhan, Nibedita;Jana, Nikhil R.;
2:10:272 Ultrabright organic dots with aggregation-induced emission characteristics for cell tracking
DOI:10.1016/j.biomaterials.2014.06.023 JN:BIOMATERIALS PY:2014 TC:10 AU: Feng, Guangxue;Tay, Chor Yong;Chui, Qi Xiang;Liu, Rongrong;Tomczak, Nikodem;Liu, Jie;Tang, Ben Zhong;Leong, David Tai;Liu, Bin;
2:10:273 Threshold temperature luminescent indicators from biodegradable poly(lactic acid)/poly(butylene succinate) blends
DOI:10.1039/c0jm00057d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:12 AU: Pucci, Andrea;Signori, Francesca;Bizzarri, Ranieri;Bronco, Simona;Ruggeri, Giacomo;Ciardelli, Francesco;
2:10:274 Monitoring layer-by-layer self-assembly process of natural polyelectrolytes by fluorescent bioconjugate with aggregation-induced emission characteristic
DOI:10.1039/c4tb01158a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:3 AU: Jia, Jingwei;Wang, Zhengke;Lu, Wentao;Yang, Ling;Wu, Qingwen;Qin, Wei;Hu, Qiaoling;Tang, Ben Zhong;
2:10:275 A series of triphenylamine-based two-photon absorbing materials with AIE property for biological imaging
DOI:10.1039/c4tb00464g JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:4 AU: Liu, Yanqiu;Kong, Ming;Zhang, Qiong;Zhang, Zhiwen;Zhou, Hongping;Zhang, Shengyi;Li, Shengli;Wu, Jieying;Tian, Yupeng;
2:10:276 Four new two-photon absorbing imidazo[4,5-f] 1,10-phenanthroline dye derivatives with different dipole moment orientation based on different groups: synthesis, optical characterization and bioimaging
DOI:10.1039/c2tc00175f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Zheng, Zheng;Zhang, Qiong;Yu, Zhipeng;Yang, Mingdi;Zhou, Hongping;Wu, Jieying;Tian, Yupeng;
2:10:277 Mechanochromic luminescence of 4-[bis(4-methylphenyl)amino]benzaldehyde
DOI:10.1016/j.matlet.2011.05.068 JN:MATERIALS LETTERS PY:2011 TC:16 AU: Mizuguchi, Kei;Kageyama, Hiroshi;Nakano, Hideyuki;
2:10:278 Self-assembly and luminescence of pyrazole supergelators
DOI:10.1039/c2sm25726b JN:SOFT MATTER PY:2012 TC:8 AU: Moyano, Sandra;Luis Serrano, Jose;Elduque, Anabel;Gimenez, Raquel;
2:10:279 Amino-Modified Tetraphenylethene Derivatives as Nucleic Acid Stain: Relationship between the Structure and Sensitivity
DOI:10.1021/am505791f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Xu, Li;Zhu, Zece;Wei, Danqing;Zhou, Xiang;Qin, Jingui;Yang, Chuluo;
2:10:280 Fabrication of Nano/Microstructure of Cyano Substituted Oligo(para-phenylenevinylene) with Aggregation-Induced Emission and Morphology Dependent Luminescence
DOI:10.1080/10584587.2014.902670 JN:INTEGRATED FERROELECTRICS PY:2014 TC:0 AU: Sun, Jingwei;Lv, Xiaojing;Ouyang, Mi;Wu, Qichao;Zhang, Cheng;
2:10:281 Dual optical responses of phenothiazine derivatives: near-IR chromophore and water-soluble fluorescent organic nanoparticles
DOI:10.1039/c0jm01303j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:11 AU: Su, Sheng-Yuan;Lin, Hsin-Hung;Chang, Cheng-Chung;
2:10:282 Discrimination of homocysteine, cysteine and glutathione using an aggregation-induced-emission-active hemicyanine dye
DOI:10.1039/c4tb00551a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:5 AU: Chen, Sijie;Hong, Yuning;Liu, Jianzhao;Tseng, Nai-Wen;Liu, Yang;Zhao, Engui;Lam, Jacky Wing Yip;Tang, Ben Zhong;
2:10:283 How do substituents affect silole emission?
DOI:10.1039/c3tc30880d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Zhao, Engui;Lam, Jacky W. Y.;Hong, Yuning;Liu, Jianzhao;Peng, Qian;Hao, Jianhua;Sung, Herman H. Y.;Williams, Ian D.;Tang, Ben Zhong;
2:10:284 First example of a non-toxic thermochromic polymer material-based on a novel mechanism
DOI:10.1039/c3tc30094c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Seeboth, Arno;Loetzsch, Detlef;Ruhmann, Ralf;
2:10:285 Enhanced emission of organic and polymeric luminogens containing 2,4,6-triphenylpyridine moieties: crystallization- and aggregation-enhanced emission
DOI:10.1039/c3tc00851g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Yang, Chih-Min;Lee, I-Wei;Chen, Tai-Lin;Chien, Wei-Lun;Hong, Jin-Long;
2:10:286 Aggregation-induced emission, mechanochromism and blue electroluminescence of carbazole and triphenylamine-substituted ethenes
DOI:10.1039/c4tc00097h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Chan, Carrie Y. K.;Lam, Jacky W. Y.;Zhao, Zujin;Chen, Shuming;Lu, Ping;Sung, Herman H. Y.;Kwok, Hoi Sing;Ma, Yuguang;Williams, Ian D.;Tang, Ben Zhong;
2:10:287 Design and Application of Anthracene Derivative with Aggregation-Induced Emission Charateristics for Visualization and Monitoring of Erythropoietin Unfolding
DOI:10.1021/la3048278 JN:LANGMUIR PY:2013 TC:10 AU: Sun, Binjie;Yang, Xiaojun;Ma, Lin;Niu, Caixia;Wang, Fangfang;Na, Na;Wen, Jiying;Ouyang, Jin;
2:10:288 An Easy Method To Monitor Lactide Polymerization with a Boron Fluorescent Probe
DOI:10.1021/am1005783 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:6 AU: Zhang, Guoqing;Xu, Songpan;Zestos, Alexander G.;Evans, Ruffin E.;Lu, Jiwei;Fraser, Cassandra L.;
2:10:289 One-step fabrication of organic nanoparticles as scattering media for extracting substrate waveguide light from organic light-emitting diodes
DOI:10.1039/c2jm32273k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Chen, Shuming;Qin, Wei;Zhao, Zujin;Tang, Ben Zhong;Kwok, Hoi-Sing;
2:10:290 Organogels from Functionalized T-Shaped pi-Conjugated Bisphenazines
DOI:10.1021/la101921c JN:LANGMUIR PY:2010 TC:16 AU: Jang, Kyoungmi;Ranasinghe, Asanga D.;Heske, Clemens;Lee, Dong-Chan;
2:10:291 Complexation of Fluorescent Tetraphenylthiophene-Derived Ammonium Chloride to Poly(N-isopropylacrylamide) with Sulfonate Terminal: Aggregation-Induced Emission, Critical Micelle Concentration, and Lower Critical Solution Temperature
DOI:10.1021/la303783n JN:LANGMUIR PY:2012 TC:15 AU: Yang, Chih-Min;Lai, Yi-Wei;Kuo, Shiao-Wei;Hong, Jin-Long;
2:10:292 Synthesis and photophysical properties of a new two-photon absorbing chromophor containing imidazo[4,5-f][1,10]phenanthroline
DOI:10.1016/j.synthmet.2010.12.003 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Zhang, Hai-Guang;Tao, Xu-Tang;Chen, Kao-Shan;Yuan, Chun-Xue;Jiang, Min-Hua;
2:10:293 Preface: Forum on Biomedical Applications of Colloidal Photoluminescent Quantum Dots
DOI:10.1021/am401177w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Yu, Kui;Schanze, Kirk S.;
2:10:294 Design, preparation and assessment of surface-immobilised tetraphenylethenes for biosensing applications
DOI:10.1016/j.apsusc.2014.04.061 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Brennecke, Johannes;Ochs, Christopher J.;Boudhar, Aicha;Reux, Bastien;Subramanian, Gomathy Sandhya;Lear, Martin J.;Trau, Dieter;Hobley, Jonathan;
2:10:295 Small Molecule Microarrays Enable the Discovery of Compounds That Bind the Alzheimer's A beta Peptide and Reduce its Cytotoxicity
DOI:10.1021/ja107552s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:30 AU: Chen, Jermont;Armstrong, Anne H.;Koehler, Angela N.;Hecht, Michael H.;
2:10:296 Molten Globule Precursor States Are Conformationally Correlated to Amyloid Fibrils of Human beta-2-Microglobulin
DOI:10.1021/ja100453e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:20 AU: Skora, Lukasz;Becker, Stefan;Zweckstetter, Markus;
2:10:297 Sunlight-Induced Covalent Marriage of Two Triply Interlocked Pd-6 Cages and Their Facile Thermal Separation
DOI:10.1021/ja511360e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Samanta, Dipak;Mukherjee, Partha Sarathi;
2:10:298 Full-Range Intracellular pH Sensing by an Aggregation-Induced Emission-Active Two-Channel Ratiometric Fluorogen (vol 135, pg 4926, 2013)
DOI:10.1021/ja506638j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Chen, Sijie;Hong, Yuning;Liu, Yang;Liu, Jianzhao;Leung, Chris W. T.;Li, Min;Kwok, Ryan T. K.;Zhao, Engui;Lam, Jacky W. Y.;Yu, Yong;Tang, Ben Zhong;
2:10:299 Axial Chiral Bisbenzophenazines: Solid-State Self-Assembly via Halide Hydrogen Bonds Triggered by Linear Alkanes
DOI:10.1021/ja506137j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Metz, Alison E.;Podlesny, Erin E.;Carroll, Patrick J.;Klinghoffer, Ariel N.;Kozlowski, Marisa C.;
2:10:300 Photoinduced Orientation of Liquid Crystalline Copolymer Films with Cinnamic Acid Side Groups Synthesized by RAFT Polymerization
DOI:10.1080/15421406.2010.495647 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Kawatsuki, Nobuhiro;Matsuda, Takehiro;Kondo, Mizuho;
2:10:301 Theoretical Studies of DCM Derivatives with Dual Electron Donating Group
DOI:10.1080/15421406.2011.563629 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Jung, Kyung Yoon;Kim, Young Sik;
2:10:302 Microscoop for Manipulation of Micro-objects: Use of Fabricated Cantilever with Atomic Force Microscope
DOI:10.1002/smll.201001632 JN:SMALL PY:2010 TC:6 AU: Watanabe-Nakayama, Takahiro;Machida, Shin-ichi;Afrin, Rehana;Ikai, Atsushi;
2:10:303 Retrieval of a Metabolite from Cells with Polyelectrolyte Microcapsules
DOI:10.1002/smll.200901997 JN:SMALL PY:2010 TC:6 AU: Studer, Deborah;Palankar, Raghavendra;Bedard, Matthieu;Winterhalter, Mathias;Springer, Sebastian;
2:10:304 A sensor for selective detection of Al3+ based on quinoline Schiff-base in aqueous media
DOI:10.1016/j.synthmet.2014.06.002 JN:SYNTHETIC METALS PY:2014 TC:7 AU: Qin, Jing-can;Li, Tian-rong;Wang, Bao-dui;Yang, Zheng-yin;Fan, Long;
2:10:305 Luminescence features of nanocomposites of silicon-organic polymer/porous SiO2 and TiO2 films
DOI:10.1016/j.synthmet.2013.10.025 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Ostapenko, N.;Ostapenko, Yu;Kerita, O.;Peckus, D.;Gulbinas, V.;Eremenko, A.;Smirnova, N.;Surovtseva, N.;
2:10:306 Synthesis and properties of solution-processible oligomers for the use of organic light-emitting diodes (OLEDs)
DOI:10.1016/j.tsf.2011.06.019 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Sun, Jing;Lai, Hua;Zhong, Hongliang;Fang, Qiang;
2:11:1 Efficient, Air-Stable Bulk Heterojunction Polymer Solar Cells Using MoOx as the Anode Interfacial Layer
DOI:10.1002/adma.201100038 JN:ADVANCED MATERIALS PY:2011 TC:291 AU: Sun, Yanming;Takacs, Christopher J.;Cowan, Sarah R.;Seo, Jung Hwa;Gong, Xiong;Roy, Anshuman;Heeger, Alan J.;
2:11:2 Transition Metal Oxides for Organic Electronics: Energetics, Device Physics and Applications
DOI:10.1002/adma.201201630 JN:ADVANCED MATERIALS PY:2012 TC:195 AU: Meyer, Jens;Hamwi, Sami;Kroeger, Michael;Kowalsky, Wolfgang;Riedl, Thomas;Kahn, Antoine;
2:11:3 Solution processed metal-oxides for organic electronic devices
DOI:10.1039/c3tc30930d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:24 AU: Zilberberg, Kirill;Meyer, Jens;Riedl, Thomas;
2:11:4 MoO3 Films Spin-Coated from a Nanoparticle Suspension for Efficient Hole-Injection in Organic Electronics
DOI:10.1002/adma.201003065 JN:ADVANCED MATERIALS PY:2011 TC:131 AU: Meyer, Jens;Khalandovsky, Rebecca;Goerrn, Patrick;Kahn, Antoine;
2:11:5 Enhanced Efficiency in Plastic Solar Cells via Energy Matched Solution Processed NiOx Interlayers
DOI:10.1002/aenm.201100234 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:136 AU: Steirer, K. Xerxes;Ndione, Paul F.;Widjonarko, N. Edwin;Lloyd, Matthew T.;Meyer, Jens;Ratcliff, Erin L.;Kahn, Antoine;Armstrong, Neal R.;Curtis, Calvin J.;Ginley, David S.;Berry, Joseph J.;Olson, Dana C.;
2:11:6 Solution-Processed MoO3 Thin Films As a Hole-Injection Layer for Organic Solar Cells
DOI:10.1021/am200729k JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:110 AU: Girotto, Claudio;Voroshazi, Eszter;Cheyns, David;Heremans, Paul;Rand, Barry P.;
2:11:7 Metal oxides for interface engineering in polymer solar cells
DOI:10.1039/c2jm33838f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:90 AU: Chen, Song;Manders, Jesse R.;Tsang, Sai-Wing;So, Franky;
2:11:8 Solution Processed MoO3 Interfacial Layer for Organic Photovoltaics Prepared by a Facile Synthesis Method
DOI:10.1002/adma.201104771 JN:ADVANCED MATERIALS PY:2012 TC:107 AU: Murase, Seiichiro;Yang, Yang;
2:11:9 Solution Processed Vanadium Pentoxide as Charge Extraction Layer for Organic Solar Cells
DOI:10.1002/aenm.201100076 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:100 AU: Zilberberg, Kirill;Trost, Sara;Schmidt, Hans;Riedl, Thomas;
2:11:10 A Solution-Processed MoOx Anode Interlayer for Use within Organic Photovoltaic Devices
DOI:10.1002/adfm.201102622 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:76 AU: Jasieniak, Jacek J.;Seifter, Jason;Jo, Jang;Mates, Tom;Heeger, Alan J.;
2:11:11 Effect of contamination on the electronic structure and hole-injection properties of MoO3/organic semiconductor interfaces
DOI:10.1063/1.3374333 JN:APPLIED PHYSICS LETTERS PY:2010 TC:84 AU: Meyer, J.;Shu, A.;Kroeger, M.;Kahn, A.;
2:11:12 Degradation Mechanisms in Small-Molecule and Polymer Organic Light-Emitting Diodes
DOI:10.1002/adma.200902624 JN:ADVANCED MATERIALS PY:2010 TC:130 AU: So, Franky;Kondakov, Denis;
2:11:13 Transition Metal Oxide Work Functions: The Influence of Cation Oxidation State and Oxygen Vacancies
DOI:10.1002/adfm.201200615 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:95 AU: Greiner, Mark T.;Chai, Lily;Helander, Michael G.;Tang, Wing-Man;Lu, Zheng-Hong;
2:11:14 Evidence for near-Surface NiOOH Species in Solution-Processed NiOx Selective Interlayer Materials: Impact on Energetics and the Performance of Polymer Bulk Heterojunction Photovoltaics
DOI:10.1021/cm202296p JN:CHEMISTRY OF MATERIALS PY:2011 TC:78 AU: Ratcliff, Erin L.;Meyer, Jens;Steirer, K. Xerxes;Garcia, Andres;Berry, Joseph J.;Ginley, David S.;Olson, Dana C.;Kahn, Antoine;Armstrong, Neal R.;
2:11:15 Anode Interfacial Tuning via Electron-Blocking/Hole-Transport Layers and Indium Tin Oxide Surface Treatment in Bulk-Heterojunction Organic Photovoltaic Cells
DOI:10.1002/adfm.200901045 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:101 AU: Hains, Alexander W.;Liu, Jun;Martinson, Alex B. F.;Irwin, Michael D.;Marks, Tobin J.;
2:11:16 Inverted Organic Solar Cells with Sol-Gel Processed High Work-Function Vanadium Oxide Hole-Extraction Layers
DOI:10.1002/adfm.201101402 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:73 AU: Zilberberg, Kirill;Trost, Sara;Meyer, Jens;Kahn, Antoine;Behrendt, Andreas;Luetzenkirchen-Hecht, Dirk;Frahm, Ronald;Riedl, Thomas;
2:11:17 Thin-film metal oxides in organic semiconductor devices: their electronic structures, work functions and interfaces
DOI:10.1038/am.2013.29 JN:NPG ASIA MATERIALS PY:2013 TC:28 AU: Greiner, Mark T.;Lu, Zheng-Hong;
2:11:18 Efficient, Large Area ITO-and-PEDOT-free Organic Solar Cell Sub-modules
DOI:10.1002/adma.201104896 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Jin, Hui;Tao, Chen;Velusamy, Marappan;Aljada, Muhsen;Zhang, Yuliang;Hambsch, Mike;Burn, Paul L.;Meredith, Paul;
2:11:19 Low-temperature, solution-processed molybdenum oxide hole-collection layer for organic photovoltaics
DOI:10.1039/c2jm14911g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:64 AU: Hammond, Scott R.;Meyer, Jens;Widjonarko, N. Edwin;Ndione, Paul F.;Sigdel, Ajaya K.;Garcia, Andres;Miedaner, Alexander;Lloyd, Matthew T.;Kahn, Antoine;Ginley, David S.;Berry, Joseph J.;Olson, Dana C.;
2:11:20 Efficient polymer photovoltaic cells using solution-processed MoO3 as anode buffer layer
DOI:10.1016/j.solmat.2010.01.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:86 AU: Liu, Fengmin;Shao, Shuyan;Guo, Xiaoyang;Zhao, Yun;Xie, Zhiyuan;
2:11:21 In situ growth of double-layer MoO3/MoS2 film from MoS2 for hole-transport layers in organic solar
DOI:10.1039/c3ta13579a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:12 AU: Qin, Pingli;Fang, Guojia;Ke, Weijun;Cheng, Fei;Zheng, Qiao;Wan, Jiawei;Lei, Hongwei;Zhao, Xingzhong;
2:11:22 Low-Temperature, Solution-Processed MoOx for Efficient and Stable Organic Solar Cells
DOI:10.1021/am201825t JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:54 AU: Zilberberg, Kirill;Gharbi, Houssem;Behrendt, Andreas;Trost, Sara;Riedl, Thomas;
2:11:23 Solution-Processed Nickel Oxide Hole Transport Layers in High Efficiency Polymer Photovoltaic Cells
DOI:10.1002/adfm.201202269 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:80 AU: Manders, Jesse R.;Tsang, Sai-Wing;Hartel, Michael J.;Lai, Tzung-Han;Chen, Song;Amb, Chad M.;Reynolds, John R.;So, Franky;
2:11:24 High-Performance and Highly Durable Inverted Organic Photovoltaics Embedding Solution-Processable Vanadium Oxides as an Interfacial Hole-Transporting Layer
DOI:10.1002/adma.201102142 JN:ADVANCED MATERIALS PY:2011 TC:85 AU: Chen, Chih-Ping;Chen, Yeu-Ding;Chuang, Shih-Ching;
2:11:25 Role of molybdenum oxide for organic electronics: Surface analytical studies
DOI:10.1116/1.4886364 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:8 AU: Wang, Chenggong;Irfan, Irfan;Liu, Xiaoliang;Gao, Yongli;
2:11:26 High shunt resistance in polymer solar cells comprising a MoO3 hole extraction layer processed from nanoparticle suspension
DOI:10.1063/1.3601921 JN:APPLIED PHYSICS LETTERS PY:2011 TC:56 AU: Stubhan, Tobias;Ameri, Tayebeh;Salinas, Michael;Krantz, Johannes;Machui, Florian;Halik, Marcus;Brabec, Christoph J.;
2:11:27 High Fill Factor Polymer Solar Cells Incorporating a Low Temperature Solution Processed WO3 Hole Extraction Layer
DOI:10.1002/aenm.201200330 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:53 AU: Stubhan, Tobias;Li, Ning;Luechinger, Norman A.;Halim, Samuel C.;Matt, Gebhard J.;Brabec, Christoph J.;
2:11:28 Polymer Solar Cells with a Low-Temperature-Annealed Sol-Gel-Derived MoOx Film as a Hole Extraction Layer
DOI:10.1002/aenm.201100598 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:52 AU: Yang, Tingbin;Wang, Ming;Cao, Yan;Huang, Fei;Huang, Lin;Peng, Junbiao;Gong, Xiong;Cheng, Stephen Z. D.;Cao, Yong;
2:11:29 Structural and Electrical Functionality of NiO Interfacial Films in Bulk Heterojunction Organic Solar Cells
DOI:10.1021/cm200229e JN:CHEMISTRY OF MATERIALS PY:2011 TC:62 AU: Irwin, Michael D.;Servaites, Jonathan D.;Buchholz, D. Bruce;Leever, Benjamin J.;Liu, Jun;Emery, Jonathan D.;Zhang, Ming;Song, Jung-Hwan;Durstock, Michael F.;Freeman, Arthur J.;Bedzyk, Michael J.;Hersam, Mark C.;Chang, Robert P. H.;Ratner, Mark A.;Marks, Tobin J.;
2:11:30 Electronic structure of Vanadium pentoxide: An efficient hole injector for organic electronic materials
DOI:10.1063/1.3611392 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:64 AU: Meyer, J.;Zilberberg, K.;Riedl, T.;Kahn, A.;
2:11:31 Origins of Improved Hole-Injection Efficiency by the Deposition of MoO3 on the Polymeric Semiconductor Poly(dioctylfluorene-alt-benzothiadiazole) (vol 19, pg 3746, 2009)
DOI:10.1002/adfm.200901022 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:0 AU: Nakayama, Yasuo;Morii, Katsuyuki;Suzuki, Yuuichirou;Machida, Hiroyuki;Kera, Satoshi;Ueno, Nobuo;Kitagawa, Hiroshi;Noguchi, Yutaka;Ishii, Hisao;
2:11:32 Low-Temperature Solution-Processed Hydrogen Molybdenum and Vanadium Bronzes for an Efficient Hole-Transport Layer in Organic Electronics
DOI:10.1002/adma.201204425 JN:ADVANCED MATERIALS PY:2013 TC:44 AU: Xie, Fengxian;Choy, Wallace C. H.;Wang, Chuandao;Li, Xinchen;Zhang, Shaoqing;Hou, Jianhui;
2:11:33 Sulfur-Doped Molybdenum Oxide Anode Interface Layer for Organic Solar Cell Application
DOI:10.1021/am405571a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Qiu, Pingli;Fang, Guojia;Cheng, Fei;Ke, Weijun;Lei, Hongwei;Wang, Haoning;Zhao, Xingzhong;
2:11:34 The Influence of Hydrogenation and Oxygen Vacancies on Molybdenum Oxides Work Function and Gap States for Application in Organic Optoelectronics
DOI:10.1021/ja3026906 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:41 AU: Vasilopoulou, Maria;Douvas, Antonios M.;Georgiadou, Dimitra G.;Palilis, Leonidas C.;Kennou, Stella;Sygellou, Labrini;Soultati, Anastasia;Kostis, Ioannis;Papadimitropoulos, Giorgos;Davazoglou, Dimitris;Argitis, Panagiotis;
2:11:35 Efficient and stable polymer solar cells with solution-processed molybdenum oxide interfacial layer
DOI:10.1039/c2ta00325b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:45 AU: Tan, Zhan'ao;Qian, Deping;Zhang, Wenqing;Li, Liangjie;Ding, Yuqin;Xu, Qi;Wang, Fuzhi;Li, Yongfang;
2:11:36 In Situ Formation of MoO3 in PEDOT:PSS Matrix: A Facile Way to Produce a Smooth and Less Hygroscopic Hole Transport Layer for Highly Stable Polymer Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201200609 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:21 AU: Shao, Shuyan;Liu, Jian;Bergqvist, Jonas;Shi, Shengwei;Veit, Clemens;Wuerfel, Uli;Xie, Zhiyuan;Zhang, Fengling;
2:11:37 Solution-Processed Hydrogen Molybdenum Bronzes as Highly Conductive Anode Interlayers in Efficient Organic Photovoltaics
DOI:10.1002/aenm.201300896 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:9 AU: Soultati, Anastasia;Douvas, Antonios M.;Georgiadou, Dimitra G.;Palilis, Leonidas C.;Bein, Thomas;Feckl, Johann M.;Gardelis, Spyros;Fakis, Mihalis;Kennou, Stella;Falaras, Polycarpos;Stergiopoulos, Thomas;Stathopoulos, Nikolaos A.;Davazoglou, Dimitris;Argitis, Panagiotis;Vasilopoulou, Maria;
2:11:38 Low-Temperature, Solution-Processed Hole Selective Layers for Polymer Solar Cells
DOI:10.1021/am302878m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Yao, Chuang;Xu, Xinjun;Wang, Jinshan;Shi, Leilei;Li, Lidong;
2:11:39 Preparation and characterization of MoO3 hole-injection layer for organic solar cell fabrication and optimization
DOI:10.1016/j.solmat.2013.10.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Wang, Guojie;Jiu, Tonggang;Li, Pandeng;Li, Jun;Sun, Chunming;Lu, Fushen;Fang, Junfeng;
2:11:40 Hot-wire vapor deposited tungsten and molybdenum oxide films used for carrier injection/transport in organic optoelectronic devices
DOI:10.1016/j.mssp.2013.02.006 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2013 TC:5 AU: Vasilopoulou, Maria;Davazoglou, Dimitris;
2:11:41 Doping of Organic Semiconductors Using Molybdenum Trioxide: a Quantitative Time-Dependent Electrical and Spectroscopic Study
DOI:10.1002/adfm.201002696 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:56 AU: Gwinner, Michael C.;Di Pietro, Riccardo;Vaynzof, Yana;Greenberg, Kathryn J.;Ho, Peter K. H.;Friend, Richard H.;Sirringhaus, Henning;
2:11:42 Ultrathin Ammonium Heptamolybdate Films as Efficient Room-Temperature Hole Transport Layers for Organic Solar Cells
DOI:10.1021/am504606u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Qiu, Weiming;Hadipour, Afshin;Muller, Robert;Conings, Bert;Boyen, Hans-Gerd;Heremans, Paul;Froyen, Ludo;
2:11:43 Solution-Processed (Graphene Oxide)-(d(0) Transition Metal Oxide) Composite Anodic Buffer Layers toward High-Performance and Durable Inverted Polymer Solar Cells
DOI:10.1002/aenm.201300430 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:10 AU: Chao, Yi-Hsiang;Wu, Jhong-Sian;Wu, Chen-En;Jheng, Jyun-Fong;Wang, Chien-Lung;Hsu, Chain-Shu;
2:11:44 Colloidal Indium-Doped Zinc Oxide Nanocrystals with Tunable Work Function: Rational Synthesis and Optoelectronic Applications
DOI:10.1021/cm502812c JN:CHEMISTRY OF MATERIALS PY:2014 TC:10 AU: Liang, Xiaoyong;Ren, Yuping;Bai, Sai;Zhang, Na;Dai, Xingliang;Wang, Xin;He, Haiping;Jin, Chuanhong;Ye, Zhizhen;Chen, Qi;Chen, Liwei;Wang, Jianpu;Jin, Yizheng;
2:11:45 Universal energy-level alignment of molecules on metal oxides
DOI:10.1038/NMAT3159 JN:NATURE MATERIALS PY:2012 TC:197 AU: Greiner, Mark T.;Helander, Michael G.;Tang, Wing-Man;Wang, Zhi-Bin;Qiu, Jacky;Lu, Zheng-Hong;
2:11:46 Barrierless hole injection through sub-bandgap occupied states in organic light emitting diodes using substoichiometric MoOx anode interfacial layer
DOI:10.1063/1.3673283 JN:APPLIED PHYSICS LETTERS PY:2012 TC:27 AU: Vasilopoulou, Maria;Palilis, Leonidas C.;Georgiadou, Dimitra G.;Kennou, Stella;Kostis, Ioannis;Davazoglou, Dimitris;Argitis, Panagiotis;
2:11:47 Solution-processed-MoO3 hole extraction layer on oxygen plasma-treated indium tin oxide in organic photovoltaics
DOI:10.1016/j.solmat.2013.04.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Dong, Wan Jae;Jung, Gwan Ho;Lee, Jong-Lam;
2:11:48 Efficient Polymer Solar Cells Based on Poly(3-hexylthiophene):Indene-C70 Bisadduct with a MoO3 Buffer Layer
DOI:10.1002/adfm.201102054 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:51 AU: Fan, Xi;Cui, Chaohua;Fang, Guojia;Wang, Jinzhao;Li, Songzhan;Cheng, Fei;Long, Hao;Li, Yongfang;
2:11:49 Hydrogenated under-stoichiometric tungsten oxide anode interlayers for efficient and stable organic photovoltaics
DOI:10.1039/c3ta13975a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:17 AU: Vasilopoulou, M.;Soultati, A.;Georgiadou, D. G.;Stergiopoulos, T.;Palilis, L. C.;Kennou, S.;Stathopoulos, N. A.;Davazoglou, D.;Argitis, P.;
2:11:50 Metal/Metal-Oxide Interfaces: How Metal Contacts Affect the Work Function and Band Structure of MoO3
DOI:10.1002/adfm.201200993 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:43 AU: Greiner, Mark T.;Chai, Lily;Helander, Michael G.;Tang, Wing-Man;Lu, Zheng-Hong;
2:11:51 Highly Efficient Organic Photovoltaics via Incorporation of Solution-Processed Cesium Stearate as the Cathode Interfacial Layer
DOI:10.1021/am403829k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Wang, Guojie;Jiu, Tonggang;Sun, Chunming;Li, Jun;Li, Pandeng;Lu, Fushen;Fang, Junfeng;
2:11:52 Room-temperature solution-processed molybdenum oxide as a hole transport layer with Ag nanoparticles for highly efficient inverted organic solar cells
DOI:10.1039/c3ta10531h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:24 AU: Li, Xinchen;Choy, Wallace C. H.;Xie, Fengxian;Zhang, Shaoqing;Hou, Jianhui;
2:11:53 Low-Temperature Combustion-Synthesized Nickel Oxide Thin Films as Hole-Transport Interlayers for SolutionProcessed Optoelectronic Devices
DOI:10.1002/aenm.201301460 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:12 AU: Bai, Sai;Cao, Motao;Jin, Yizheng;Dai, Xinliang;Liang, Xiaoyong;Ye, Zhizhen;Li, Min;Cheng, Jipeng;Xiao, Xuezhang;Wu, Zhongwei;Xia, Zhouhui;Sun, Baoquan;Wang, Ergang;Mo, Yueqi;Gao, Feng;Zhang, Fengling;
2:11:54 Reduction of Tungsten Oxide: A Path Towards Dual Functionality Utilization for Efficient Anode and Cathode Interfacial Layers in Organic Light-Emitting Diodes
DOI:10.1002/adfm.201002171 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:50 AU: Vasilopoulou, Maria;Palilis, Leonidas C.;Georgiadou, Dimitra G.;Douvas, Antonios M.;Argitis, Panagiotis;Kennou, Stella;Sygellou, Labrini;Papadimitropoulos, Georgios;Kostis, Ioannis;Stathopoulos, Nikos A.;Davazoglou, Dimitris;
2:11:55 Design of broadband transparent electrodes for flexible organic solar cells
DOI:10.1039/c2ta00946c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:13 AU: Ham, Juyoung;Kim, Sungjun;Jung, Gwan Ho;Dong, Wan Jae;Lee, Jong-Lam;
2:11:56 Linking Vertical Bulk-Heterojunction Composition and Transient Photocurrent Dynamics in Organic Solar Cells with Solution- Processed MoO x Contact Layers
DOI:10.1002/aenm.201301290 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:6 AU: de Villers, Bertrand J. Tremolet;MacKenzie, Roderick C. I.;Jasieniak, Jacek J.;Treat, Neil D.;Chabinyc, Michael L.;
2:11:57 Interface modification of a highly air-stable polymer solar cell
DOI:10.1016/j.solmat.2011.11.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:25 AU: Yang, Po-Ching;Sun, Jen-Yu;Ma, Shou-Yuan;Shen, Yu-Min;Lin, Yu-Hong;Chen, Chih-Ping;Lin, Ching-Fuh;
2:11:58 Greatly Reduced Processing Temperature for a Solution-Processed NiOx Buffer Layer in Polymer Solar Cells
DOI:10.1002/aenm.201300272 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:17 AU: Zhai, Zhichun;Huang, Xiaodong;Xu, Meifeng;Yuan, Jianyu;Peng, Jun;Ma, Wanli;
2:11:59 Room temperature solution processed tungsten carbide as an efficient hole extraction layer for organic photovoltaics
DOI:10.1039/c3ta13473c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Cui, Wei;Wu, Zhongwei;Liu, Changhai;Wu, Mingxing;Ma, Tingli;Wang, Suidong;Lee, Shuit-Tong;Sun, Baoquan;
2:11:60 Sputtered NiO as electron blocking layer in P3HT:PCBM solar cells fabricated in ambient air
DOI:10.1016/j.solmat.2010.10.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:38 AU: Betancur, Rafael;Maymo, Marc;Elias, Xavier;Vuong, Luat T.;Martorell, Jordi;
2:11:61 Highly-Tunable Nickel Cobalt Oxide as a Low-Temperature P-Type Contact in Organic Photovoltaic Devices
DOI:10.1002/aenm.201200742 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:4 AU: Ndione, Paul F.;Garcia, Andres;Widjonarko, N. Edwin;Sigdel, Ajaya K.;Steirer, K. Xerxes;Olson, Dana C.;Parilla, Philip A.;Ginley, David S.;Armstong, Neal R.;Richards, Robin E.;Ratcliff, Erin L.;Berry, Joseph J.;
2:11:62 Efficient and stable polymer solar cells with annealing-free solution-processible NiO nanoparticles as anode buffer layers
DOI:10.1039/c4tc01302f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Zhang, Jun;Wang, Jiantai;Fu, Yingying;Zhang, Baohua;Xie, Zhiyuan;
2:11:63 Energy level evolution of air and oxygen exposed molybdenum trioxide films
DOI:10.1063/1.3454779 JN:APPLIED PHYSICS LETTERS PY:2010 TC:31 AU: Irfan;Ding, Huanjun;Gao, Yongli;Small, Cephas;Kim, Do Young;Subbiah, Jegadesan;So, Franky;
2:11:64 Air processed organic photovoltaic devices incorporating a MoOx anode buffer layer
DOI:10.1063/1.4804294 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Bovill, Edward S. R.;Griffin, Jonathan;Wang, Tao;Kingsley, James W.;Yi, Hunan;Iraqi, Ahmed;Buckley, Alastair R.;Lidzey, David G.;
2:11:65 Interfacial degradation effects of aqueous solution-processed molybdenum trioxides on the stability of organic solar cells evaluated by a differential method
DOI:10.1063/1.4895805 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Lou, Yan-Hui;Wang, Zhao-Kui;Yuan, Da-Xing;Okada, Hiroyuki;Liao, Liang-Sheng;
2:11:66 Aqueous Solution-Processed GeO2: An Anode Interfacial Layer for High Performance and Air-Stable Organic Solar Cells
DOI:10.1021/am4030565 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Xu, Mei-Feng;Shi, Xiao-Bo;Jin, Zhi-Ming;Zu, Feng-Shuo;Liu, Yang;Zhang, Lei;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:11:67 Room-Temperature Sol-Gel Derived Molybdenum Oxide Thin Films for Efficient and Stable Solution-Processed Organic Light-Emitting Diodes
DOI:10.1021/am4007319 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Fu, Qiang;Chen, Jiangshan;Shi, Changsheng;Ma, Dongge;
2:11:68 Finding the Lost Open-Circuit Voltage in Polymer Solar Cells by UV-Ozone Treatment of the Nickel Acetate Anode Buffer Layer
DOI:10.1021/am5017705 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Wang, Fuzhi;Sun, Gang;Li, Cong;Liu, Jiyan;Hu, Siqian;Zheng, Hua;Tan, Zhan'ao;Li, Yongfang;
2:11:69 Soluble Transition Metal Oxide/Polymeric Acid Composites for Efficient Hole-Transport Layers in Polymer Solar Cells
DOI:10.1021/am404353y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Kim, Junghwan;Kim, Heejoo;Kim, Geunjin;Back, Hyungcheol;Lee, Kwanghee;
2:11:70 Room-temperature solution processed SnOx as an electron extraction layer for inverted organic solar cells with superior thermal stability
DOI:10.1039/c2jm33445c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Trost, Sara;Zilberberg, Kirill;Behrendt, Andreas;Riedl, Thomas;
2:11:71 Organic solar cells employing magnetron sputtered p-type nickel oxide thin film as the anode buffer layer
DOI:10.1016/j.solmat.2010.08.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:39 AU: Park, Sun-Young;Kim, Hye-Ri;Kang, Yong-Jin;Kim, Dong-Ho;Kang, Jae-Wook;
2:11:72 Organic solar cells employing electrodeposited nickel oxide nanostructures as the anode buffer layer
DOI:10.1016/j.solmat.2012.01.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:14 AU: Yang, Hongbin;Gong, Cheng;Guai, Guan Hong;Li, Chang Ming;
2:11:73 Low-Temperature Solution-Processed Molybdenum Oxide Nanoparticle Hole Transport Layers for Organic Photovoltaic Devices
DOI:10.1002/aenm.201200229 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:33 AU: Lee, Yun-Ju;Yi, Juan;Gao, Galen F.;Koerner, Hilmar;Park, Kyoungweon;Wang, Jian;Luo, Kaiyuan;Vaia, Richard A.;Hsu, Julia W. P.;
2:11:74 Enhancing the incorporation compatibility of molybdenum oxides in organic light emitting diodes with gap state formations
DOI:10.1063/1.4817423 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Wang, Po-Sheng;Lo, Yuan-Yen;Tseng, Wei-Hsuan;Chen, Mei-Hsin;Wu, Chih-I;
2:11:75 Overcoming interface losses in organic solar cells by applying low temperature, solution processed aluminum-doped zinc oxide electron extraction layers
DOI:10.1039/c3ta10987a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:20 AU: Stubhan, Tobias;Litzov, Ivan;Li, Ning;Salinas, Michael;Steidl, Matthias;Sauer, Gerhard;Forberich, Karen;Matt, Gebhard J.;Halik, Marcus;Brabec, Christoph J.;
2:11:76 Ultrathin molybdenum oxide anode buffer layer for organic photovoltaic cells formed using atomic layer deposition
DOI:10.1016/j.solmat.2011.12.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:30 AU: Tseng, Yu-Chih;Mane, Anil U.;Elam, Jeffrey W.;Darling, Seth B.;
2:11:77 Electrical Property Heterogeneity at Transparent Conductive Oxide/Organic Semiconductor Interfaces: Mapping Contact Ohmicity Using Conducting-Tip Atomic Force Microscopy
DOI:10.1021/nn303043y JN:ACS NANO PY:2012 TC:20 AU: MacDonald, Gordon A.;Veneman, R. Alexander;Placencia, Diogenes;Armstrong, Neal R.;
2:11:78 Solution-Processed Rhenium Oxide: A Versatile Anode Buffer Layer for High Performance Polymer Solar Cells with Enhanced Light Harvest
DOI:10.1002/aenm.201300884 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:26 AU: Tan, Zhan'ao;Li, Liangjie;Wang, Fuzhi;Xu, Qi;Li, Shusheng;Sun, Gang;Tu, Xiaohe;Hou, Xuliang;Hou, Jianhui;Li, Yongfang;
2:11:79 Over 1.1 eV Workfunction Tuning of Cesium Intercalated Metal Oxides for Functioning as Both Electron and Hole Transport Layers in Organic Optoelectronic Devices
DOI:10.1002/adfm.201401969 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Li, Xinchen;Xie, Fengxian;Zhang, Shaoqing;Hou, Jianhui;Choy, Wallace C. H.;
2:11:80 A metallic molybdenum suboxide buffer layer for organic electronic devices
DOI:10.1063/1.3432447 JN:APPLIED PHYSICS LETTERS PY:2010 TC:31 AU: Greiner, M. T.;Helander, M. G.;Wang, Z. B.;Tang, W. M.;Qiu, J.;Lu, Z. H.;
2:11:81 Utilizing n-type vanadium oxide films as hole-extracting layers for small molecule organic photovoltaics
DOI:10.1063/1.3607478 JN:APPLIED PHYSICS LETTERS PY:2011 TC:29 AU: Hancox, I.;Rochford, L. A.;Clare, D.;Sullivan, P.;Jones, T. S.;
2:11:82 Improving the Stability of Bulk Heterojunction Solar Cells by Incorporating pH-Neutral PEDOT:PSS as the Hole Transport Layer
DOI:10.1021/am500336s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Meng, Yanhong;Hu, Zhanhao;Ai, Na;Jiang, Zhixiong;Wang, Jian;Peng, Junbiao;Cao, Yong;
2:11:83 Solution Processed, White Emitting Tandem Organic Light-Emitting Diodes with Inverted Device Architecture
DOI:10.1002/adma.201400332 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Hoefle, Stefan;Schienle, Alexander;Bernhard, Christoph;Bruns, Michael;Lemmer, Uli;Colsmann, Alexander;
2:11:84 Energy level evolution of molybdenum trioxide interlayer between indium tin oxide and organic semiconductor
DOI:10.1063/1.3309600 JN:APPLIED PHYSICS LETTERS PY:2010 TC:26 AU: Irfan;Ding, Huanjun;Gao, Yongli;Kim, Do Young;Subbiah, Jegadesan;So, Franky;
2:11:85 Rhenium oxide as an efficient p-dopant to overcome S-shaped current density-voltage curves in organic photovoltaics with a deep highest occupied molecular orbital level donor layer
DOI:10.1063/1.4758681 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Kim, Dae-Ho;Kim, Tae-Min;Jeong, Won-Ik;Kim, Jang-Joo;
2:11:86 Work function recovery of air exposed molybdenum oxide thin films
DOI:10.1063/1.4748978 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Irfan, Irfan;Turinske, Alexander James;Bao, Zhenan;Gao, Yongli;
2:11:87 Carbazole linked phenylquinoline-based fullerene derivatives as acceptors for bulk heterojunction polymer solar cells: effect of interfacial contacts on device performance
DOI:10.1039/c4ta00013g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Sakthivel, Pachagounder;Kranthiraja, Kakaraparthi;Saravanan, Chinnusamy;Gunasekar, Kumarasamy;Kim, Hong Il;Shin, Won Suk;Jeong, Ji-Eun;Woo, Han Young;Jin, Sung-Ho;
2:11:88 Efficient polymer solar cells with a solution-processed and thermal annealing-free RuO2 anode buffer layer
DOI:10.1039/c3ta13680a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:14 AU: Wang, Fuzhi;Xu, Qi;Tan, Zhan'ao;Li, Liangjie;Li, Shusheng;Hou, Xuliang;Sun, Gang;Tu, Xiaohe;Hou, Jianhui;Li, Yongfang;
2:11:89 Consequences of Anode Interfacial Layer Deletion. HCl-Treated ITO in P3HT:PCBM-Based Bulk-Heterojunction Organic Photovoltaic Devices
DOI:10.1021/la902879h JN:LANGMUIR PY:2010 TC:29 AU: Irwin, Michael D.;Liu, Jun;Leever, Benjamin J.;Servaites, Jonathan D.;Hersam, Mark C.;Durstock, Michael F.;Marks, Tobin J.;
2:11:90 Effect of NiOx thin layer fabricated by oxygen-plasma treatment on polymer photovoltaic cell
DOI:10.1016/j.solmat.2010.04.077 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:31 AU: Wang, Zhen Yi;Lee, Su-Hwan;Kim, Dal-Ho;Kim, Ji-Heon;Park, Jea-Gun;
2:11:91 Efficient bulk heterojunction polymer solar cells using PEDOT/PSS doped with solution-processed MoO3 as anode buffer layer
DOI:10.1016/j.solmat.2012.03.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:21 AU: Chen, Lie;Wang, Peishan;Li, Fan;Yu, Shuxian;Chen, Yiwang;
2:11:92 Organic solar cells using a reduced graphene oxide anode buffer layer
DOI:10.1016/j.solmat.2012.12.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:15 AU: Kim, Hyeong Pil;Yusoff, Abd Rashid bin Mohd;Jang, Jin;
2:11:93 Improved Performance in Bulk Heterojunction Organic Solar Cells with a Sol-Gel MgZnO Electron-Collecting Layer
DOI:10.1002/aenm.201400073 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: MacLeod, Bradley A.;Schulz, Philip;Cowan, Sarah R.;Garcia, Andres;Ginley, David S.;Kahn, Antoine;Olson, Dana C.;
2:11:94 Reduced molybdenum oxide as an efficient electron injection layer in polymer light-emitting diodes
DOI:10.1063/1.3557502 JN:APPLIED PHYSICS LETTERS PY:2011 TC:22 AU: Vasilopoulou, Maria;Palilis, Leonidas C.;Georgiadou, Dimitra G.;Argitis, Panagiotis;Kennou, Stella;Sygellou, Labrini;Kostis, Ioannis;Papadimitropoulos, Giorgos;Konofaos, Nikos;Iliadis, Agis A.;Davazoglou, Dimitris;
2:11:95 High-Performance Polymer Solar Cells with Solution-Processed and Environmentally Friendly CuOx Anode Buffer Layer
DOI:10.1021/am402745t JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:15 AU: Xu, Qi;Wang, Fuzhi;Tan, Zhan'ao;Li, Liangjie;Li, Shusheng;Hou, Xuliang;Sun, Gang;Tu, Xiaohe;Hou, Jianhui;Li, Yongfang;
2:11:96 Phase-controllable copper oxides for an efficient anode interfacial layer in organic light-emitting diodes
DOI:10.1039/c1jm14218f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Kim, Sungjun;Hong, Kihyon;Kim, Kisoo;Lee, Illhwan;Lee, Jong-Lam;
2:11:97 Origin of Enhanced Hole Injection in Inverted Organic Devices with Electron Accepting Interlayer
DOI:10.1002/adfm.201200185 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:32 AU: Small, Cephas E.;Tsang, Sai-Wing;Kido, Junji;So, Shu Kong;So, Franky;
2:11:98 Nature of the Interfaces Between Stoichiometric and Under-Stoichiometric MoO3 and 4,4 ''-N,N '-dicarbazole-biphenyl: A Combined Theoretical and Experimental Study
DOI:10.1002/adfm.201301466 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:6 AU: Papadopoulos, Theodoros A.;Meyer, Jens;Li, Hong;Guan, Zelei;Kahn, Antoine;Bredas, Jean-Luc;
2:11:99 Electropolymerized Conjugated Polyelectrolytes with Tunable Work Function and Hydrophobicity as an Anode Buffer in Organic Optoelectronics
DOI:10.1021/am306366d JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Lacher, Sebastian;Obata, Naoki;Luo, Shyh-Chyang;Matsuo, Yutaka;Zhu, Bo;Yu, Hsiao-hua;Nakamura, Eiichi;
2:11:100 p-Channel Field-Effect Transistors Based on C-60 Doped with Molybdenum Trioxide
DOI:10.1021/am3026568 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Lee, Tae Hoon;Luessem, Bjoern;Kim, Kwanpyo;Giri, Gaurav;Nishi, Yoshio;Bao, Zhenan;
2:11:101 Solution-Processed White Organic Light-Emitting Diodes with Enhanced Efficiency by Using Quaternary Ammonium Salt Doped Conjugated Polyelectrolyte
DOI:10.1021/am501466y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Tian, Yuan;Xu, Xinjun;Wang, Jinshan;Yao, Chuang;Li, Lidong;
2:11:102 Assistance of partially reduced MoO3 interlayer to hole-injection at iron phthalocyanine/ITO interface evidenced by photoemission study
DOI:10.1016/j.apsusc.2013.01.200 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Liu, L. Y.;Wan, L.;Cao, L.;Han, Y. Y.;Zhang, W. H.;Chen, T. X.;Guo, P. P.;Wang, K.;Xu, F. Q.;
2:11:103 Enhanced power conversion efficiency of inverted organic solar cells by using solution processed Sn-doped TiO2 as an electron transport layer
DOI:10.1039/c4ta00531g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Thambidurai, M.;Kim, Jun Young;Song, Hyung-jun;Ko, Youngjun;Muthukumarasamy, N.;Velauthapillai, Dhayalan;Bergmann, Victor W.;Weber, Stefan A. L.;Lee, Changhee;
2:11:104 A cost-effective commercial soluble oxide cluster for highly efficient and stable organic solar cells
DOI:10.1039/c3ta13762g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Zhu, Yawen;Yuan, Zhongcheng;Cui, Wei;Wu, Zhongwei;Sun, Qijun;Wang, Suidong;Kang, Zhenhui;Sun, Baoquan;
2:11:105 Low-temperature MoO3 film from a facile synthetic route for an efficient anode interfacial layer in organic optoelectronic devices
DOI:10.1039/c3tc31580k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Liu, Jun;Wu, Xinkai;Chen, Sujie;Shi, Xingdong;Wang, Jing;Huang, Saijun;Guo, Xiaojun;He, Gufeng;
2:11:106 Bulk heterojunction solar cells with NiO hole transporting layer based on AZO anode
DOI:10.1016/j.solmat.2010.08.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:34 AU: Sun, Nanhai;Fang, Guojia;Qin, Pingli;Zheng, Qiao;Wang, Mingjun;Fan, Xi;Cheng, Fei;Wan, Jiawei;Zhao, Xingzhong;
2:11:107 Exfoliated and Partially Oxidized MoS2 Nanosheets by One-Pot Reaction for Efficient and Stable Organic Solar Cells
DOI:10.1002/smll.201303648 JN:SMALL PY:2014 TC:5 AU: Yun, Jin-Mun;Noh, Yong-Jin;Lee, Cheol-Ho;Na, Seok-In;Lee, Sungho;Jo, Seung Mu;Joh, Han-Ik;Kim, Dong-Yu;
2:11:108 Impact of Hole Transport Layer Surface Properties on the Morphology of a Polymer-Fullerene Bulk Heterojunction
DOI:10.1002/aenm.201301879 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:3 AU: Widjonarko, N. Edwin;Schulz, Philip;Parilla, Philip A.;Perkins, Craig L.;Ndione, Paul F.;Sigdel, Ajaya K.;Olson, Dana C.;Ginley, David S.;Kahn, Antoine;Toney, Michael F.;Berry, Joseph J.;
2:11:109 NiOX/MoO3 Bi-Layers as Efficient Hole Extraction Contacts in Organic Solar Cells
DOI:10.1002/adfm.201302477 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Schulz, Philip;Cowan, Sarah R.;Guan, Ze-Lei;Garcia, Andres;Olson, Dana C.;Kahn, Antoine;
2:11:110 High-Performance of PEDOT/PSS Free Organic Solar Cells on an Air-Plasma-Treated ITO Substrate
DOI:10.1021/am4049964 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Choi, Jong Kil;Jin, Ming Liang;An, Cheng Jin;Kim, Dae Woo;Jung, Hee-Tae;
2:11:111 Electronic structure evolution and energy level alignment at C-60/4,4 '-cyclohexylidenebis[N,N-bis(4-methylphenyl) benzenamine]/MoOx/indium tin oxide interfaces
DOI:10.1063/1.4873959 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:6 AU: Liu, Xiaoliang;Yi, Shijuan;Wang, Chenggong;Wang, Congcong;Gao, Yongli;
2:11:112 Investigating the stability of defects in MoO3 and its role in organic solar cells
DOI:10.1016/j.solmat.2011.11.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:14 AU: Chiam, S. Y.;Dasgupta, B.;Soler, D.;Leung, M. Y.;Liu, H.;Ooi, Z. E.;Wong, L. M.;Jiang, C. Y.;Chang, K. L.;Zhang, J.;
2:11:113 Electrodeposited NiO anode interlayers: Enhancement of the charge carrier selectivity in organic solar cells
DOI:10.1016/j.solmat.2013.07.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Ripolles-Sanchis, Teresa;Guerrero, Antonio;Azaceta, Eneko;Tena-Zaera, Ramon;Garcia-Belmonte, Germa;
2:11:114 Effect of Copper Oxide Oxidation State on the Polymer-Based Solar Cell Buffer Layers
DOI:10.1021/am5064469 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Lien, Hsiang-Ting;Wong, Deniz P.;Tsao, Nai-Hung;Huang, Ching-I;Su, Chaochin;Chen, Kuei-Hsien;Chen, Li-Chyong;
2:11:115 Influences of evaporation temperature on electronic structures and electrical properties of molybdenum oxide in organic light emitting devices
DOI:10.1063/1.3309783 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Lin, Chang-Ting;Yeh, Cheng-Hung;Chen, Mei-Hsin;Hsu, Shu-Han;Wu, Chih-I;Pi, Tun-Wen;
2:11:116 Using Water-Soluble Nickel Acetate as Hole Collection Layer for Stable Polymer Solar Cells
DOI:10.1002/app.38251 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Zhang, Wenqing;Tan, Zhan'ao;Qian, Deping;Xu, Qi;Li, Liangjie;Li, Shusheng;Wang, Fuzhi;Zheng, Hua;Li, Yongfang;
2:11:117 Organic photovoltaic cells utilising ZnO electron extraction layers produced through thermal conversion of ZnSe
DOI:10.1039/c4ta04459b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: New, Edward;Hancox, Ian;Rochford, Luke A.;Walker, Marc;Dearden, Chloe Argent;McConville, Chris F.;Jones, Tim. S.;
2:11:118 Synthesis of Unstable Colloidal Inorganic Nanocrystals through the Introduction of a Protecting Ligand
DOI:10.1021/nl501763z JN:NANO LETTERS PY:2014 TC:5 AU: Liang, Xiaoyong;Yi, Qing;Bai, Sai;Dai, Xingliang;Wang, Xin;Ye, Zhizhen;Gao, Feng;Zhang, Fengling;Sun, Baoquan;Jin, Yizheng;
2:11:119 Effect of the deposition conditions of NiO anode buffer layers in organic solar cells, on the properties of these cells
DOI:10.1016/j.apsusc.2014.05.020 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Nguyen, D. T.;Ferrec, A.;Keraudy, J.;Bernede, J. C.;Stephant, N.;Cattin, L.;Jouan, P. -Y.;
2:11:120 Work function control of hole-selective polymer/ITO anode contacts: an electrochemical doping study
DOI:10.1039/b923201j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:31 AU: Ratcliff, Erin L.;Lee, Paul A.;Armstrong, Neal R.;
2:11:121 Sol-gel synthesized, low-temperature processed, reduced molybdenum peroxides for organic optoelectronics applications
DOI:10.1039/c4tc00301b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Douvas, Antonios M.;Vasilopoulou, Maria;Georgiadou, Dimitra G.;Soultati, Anastasia;Davazoglou, Dimitris;Vourdas, Nikolaos;Giannakopoulos, Konstantinos P.;Kontos, Athanassios G.;Kennou, Stella;Argitis, Panagiotis;
2:11:122 Inverted organic solar cells with TiOx cathode and graphene oxide anode buffer layers
DOI:10.1016/j.solmat.2012.09.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:18 AU: Yusoff, Abd Rashid bin Mohd;Kim, Hyeong Pil;Jang, Jin;
2:11:123 Performance enhancement in inverted polymer photovoltaics with solution-processed MoOX and air-plasma treatment for anode modification
DOI:10.1016/j.solmat.2012.10.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Sun, Jen-Yu;Tseng, Wei-Hsuan;Lan, Shiang;Lin, Shang-Hong;Yang, Po-Ching;Wu, Chih-I;Lin, Ching-Fuh;
2:11:124 Improved stability of non-ITO stacked electrodes for large area flexible organic solar cells
DOI:10.1016/j.solmat.2014.06.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Hambsch, Mike;Jin, Hui;Clulow, Andrew J.;Nelson, Andrew;Yamada, Norifumi L.;Velusamy, Marappan;Yang, Qingyi;Zhu, Furong;Burn, Paul L.;Gentle, Ian R.;Meredith, Paul;
2:11:125 Solution-processable bismuth iodide nanosheets as hole transport layers for organic solar cells
DOI:10.1016/j.solmat.2013.10.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Boopathi, Karunakara Moorthy;Raman, Sankar;Mohanraman, Rajeshkumar;Chou, Fang-Cheng;Chen, Yang-Yuang;Lee, Chih-Hao;Chang, Feng-Chih;Chu, Chih-Wei;
2:11:126 Doping-free silicon thin film solar cells using a vanadium pentoxide window layer and a LiF/Al back electrode
DOI:10.1063/1.4818714 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Jung, Hyung Hwan;Kwon, Jung-Dae;Lee, Sunghun;Kim, Chang Su;Nam, Kee-Seok;Jeong, Yongsoo;Chung, Kwun-Bum;Ryu, Seung Yoon;Ocak, Tulay;Eray, Aynur;Kim, Dong-Ho;Park, Sung-Gyu;
2:11:127 Nickel Oxide Hole Injection/Transport Layers for Efficient Solution-Processed Organic Light-Emitting Diodes
DOI:10.1021/cm501898y JN:CHEMISTRY OF MATERIALS PY:2014 TC:6 AU: Liu, Shuyi;Liu, Rui;Chen, Ying;Ho, Szuheng;Kim, Jong H.;So, Franky;
2:11:128 Porous hot-wire deposited WO3 films with high optical transmission
DOI:10.1063/1.3585839 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:23 AU: Papadimitropoulos, G.;Vourdas, N.;Giannakopoulos, K.;Vasilopoulou, M.;Davazoglou, D.;
2:11:129 Solution processed nickel oxide anodes for organic photovoltaic devices
DOI:10.1063/1.4865090 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Mustafa, Bestoon;Griffin, Jonathan;Alsulami, Abdullah S.;Lidzey, David G.;Buckley, Alastair R.;
2:11:130 Investigation of hole injection enhancement by MoO3 buffer layer in organic light emitting diodes
DOI:10.1063/1.4852835 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Xu Haitao;Zhou Xiang;
2:11:131 The effect of the hole injection layer on the performance of single layer organic light-emitting diodes
DOI:10.1063/1.4903752 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Zeng Wenjin;Bi Ran;Zhang Hongmei;Huang Wei;
2:11:132 The effects of MoO3 treatment on inverted PBDTIT-C:PC71BM solar cells
DOI:10.1016/j.solmat.2013.07.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Ho, Ping-Yi;Sun, Jen-Yu;Kao, Shao-Hsuan;Kao, Chia-Yu;Lin, Shang-Hong;Lan, Shiang;Tseng, Wei-Hsuan;Wu, Chih-I;Lin, Ching-Fuh;
2:11:133 Tungsten oxide/PEDOT:PSS hybrid cascade hole extraction layer for polymer solar cells with enhanced long-term stability and power conversion efficiency
DOI:10.1016/j.solmat.2013.11.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Kim, Wanjung;Kim, Jung Kyu;Lim, Younhee;Park, Insun;Choi, Yeong Suk;Park, Jong Hyeok;
2:11:134 Organic photovoltaic with PEDOT:PSS and V2O5 mixture as hole transport layer
DOI:10.1016/j.solmat.2013.09.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:9 AU: Lee, Seung Joo;Kim, Hyeong Pil;Yusoff, Abd Rashid Bin Mohd;Jang, Jin;
2:11:135 Sputtered nickel oxide thin film for efficient hole transport layer in polymer-fullerene bulk-heterojunction organic solar cell
DOI:10.1016/j.tsf.2011.10.059 JN:THIN SOLID FILMS PY:2012 TC:9 AU: Widjonarko, N. Edwin;Ratcliff, Erin L.;Perkins, Craig L.;Sigdel, Ajaya K.;Zakutayev, Andriy;Ndione, Paul F.;Gillaspie, Dane T.;Ginley, David S.;Olson, Dana C.;Berry, Joseph J.;
2:11:136 Tungsten Oxide Buffer Layers Fabricated in an Inert Sol-Gel Process at Room-Temperature for Blue Organic Light-Emitting Diodes
DOI:10.1002/adma.201301627 JN:ADVANCED MATERIALS PY:2013 TC:14 AU: Hoefle, Stefan;Bruns, Michael;Straessle, Stefan;Feldmann, Claus;Lemmer, Uli;Colsmann, Alexander;
2:11:137 Enhancement of current injection in organic light emitting diodes with sputter treated molybdenum oxides as hole injection layers
DOI:10.1063/1.3579532 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Wang, Po-Sheng;Wu, I-Wen;Tseng, Wei-Hsuan;Chen, Mei-Hsin;Wu, Chih-I;
2:11:138 Improved cation valence state in molybdenum oxides by ultraviolet-ozone treatments and its applications in organic light-emitting diodes
DOI:10.1063/1.4811267 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Shi, Xiao-Bo;Xu, Mei-Feng;Zhou, Dong-Ying;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:11:139 Air-Stable, Solution-Processed Oxide p-n Heterojunction Ultraviolet Photodetector
DOI:10.1021/am4050019 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Kim, Do Young;Ryu, Jiho;Manders, Jesse;Lee, Jaewoong;So, Franky;
2:11:140 An electroless-plating-like solution deposition approach for large-area flexible thin films of transition metal oxide nanocrystals
DOI:10.1039/c3tc32146k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wu, Liangzhuan;Yu, Yuan;Han, Xianying;Zhang, Yuan;Zhang, Yang;Li, Yuzhen;Zhi, Jinfang;
2:11:141 Organic solar cells incorporating buffer layers from indium doped zinc oxide nanoparticles
DOI:10.1016/j.solmat.2010.09.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Puetz, Andreas;Stubhan, Tobias;Reinhard, Manuel;Loesch, Oliver;Hammarberg, Elin;Wolf, Silke;Feldmann, Claus;Kalt, Heinz;Colsmann, Alexander;Lemmer, Uli;
2:11:142 Stability enhancement of organic solar cells with solution-processed nickel oxide thin films as hole transport layers
DOI:10.1016/j.solmat.2012.03.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:12 AU: Jung, Joohye;Kim, Dong Lim;Oh, Sang Hoon;Kim, Hyun Jae;
2:11:143 Comparison of metal oxides as anode buffer layer for small molecule organic photovoltaic cells
DOI:10.1016/j.solmat.2011.11.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Varnamkhasti, Mohsen Ghasemi;Fallah, Hamid Reza;Mostajaboddavati, Mojtaba;Ghasemi, Rasool;Hassanzadeh, Ali;
2:11:144 Substoichiometric hot-wire WOx films deposited in reducing environment
DOI:10.1016/j.tsf.2011.12.070 JN:THIN SOLID FILMS PY:2012 TC:18 AU: Vourdas, N.;Papadimitropoulos, G.;Kostis, I.;Vasilopoulou, M.;Davazoglou, D.;
2:11:145 Efficient Polymer Solar Cells Fabricated on Poly(3,4-ethylenedioxythiophene):Poly(styrenesulfonate)-Etched Old Indium Tin Oxide Substrates
DOI:10.1021/am5037884 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Elshobaki, Moneim;Anderegg, James;Chaudhary, Sumit;
2:11:146 Role of Vanadium Pentoxide Hole-Extracting Nanolayer in Rubrene/C-70-Based Small Molecule Organic Solar Cells
DOI:10.1155/2014/964548 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Zhan, Zhen;Cao, Jing;Xie, Weiguang;Hou, Lintao;Ye, Qin;Liu, Pengyi;
2:11:147 Formation of stoichiometric, sub-stoichiometric undoped and hydrogen doped tungsten oxide films, enabled by pulsed introduction of O-2 or H-2 during hot-wire vapor deposition
DOI:10.1016/j.tsf.2013.04.021 JN:THIN SOLID FILMS PY:2013 TC:7 AU: Kostis, I.;Vourdas, N.;Vasilopoulou, M.;Douvas, A.;Papadimitropoulos, G.;Konofaos, N.;Iliadis, A.;Davazoglou, D.;
2:11:148 Experimental demonstration of the universal energy level alignment rule at oxide/organic semiconductor interfaces
DOI:10.1103/PhysRevB.89.035202 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Chai, L.;White, R. T.;Greiner, M. T.;Lu, Z. H.;
2:11:149 Interface energetics at WOX/organic interfaces: The role of oxygen vacancies
DOI:10.1063/1.4822173 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zhang, Zheng;Wei, Huai-Xin;Ma, Guo-Fu;Li, Yan-Qing;Lee, Shuit-Tong;Tang, Jian-Xin;
2:11:150 Protection of MoO3 high work function by organic thin film
DOI:10.1063/1.4901164 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Chenggong;Irfan, Irfan;Gao, Yongli;
2:11:151 Effects of Postannealing Process on the Properties of RuO2 Films and Their Performance As Electrodes in Organic Thin Film Transistors or Solar Cells
DOI:10.1021/am300949h JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Yun, Dong-Jin;Ra, Hye-min;Jo, Sae Byeok;Maeng, Wanjoo;Lee, Seung-hyup;Park, Sunghoon;Jang, Ji-Wook;Cho, Kilwon;Rhee, Shi-Woo;
2:11:152 Solution-Processed Fe3O4 Magnetic Nanoparticle Thin Film Aligned by an External Magnetostatic Field as a Hole Extraction Layer for Polymer Solar Cells
DOI:10.1021/am4033179 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Wang, Kai;Ren, He;Yi, Chao;Liu, Chang;Wang, Hangxing;Huang, Lin;Zhang, Haoli;Karim, Alamgir;Gong, Xiong;
2:11:153 Manipulating surface ligands of Copper Sulfide nanocrystals: Synthesis, characterization, and application to organic solar cells
DOI:10.1016/j.jcis.2013.12.057 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:3 AU: Li, Jun;Jiu, Tonggang;Tao, Guo-Hong;Wang, Guojie;Sun, Chunming;Li, Pandeng;Fang, Junfeng;He, Ling;
2:11:154 Extremely stable organic photovoltaic incorporated with WOx doped PEDOT:PSS anode buffer layer
DOI:10.1039/c3tc31900h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Kanwat, Anil;Jang, Jin;
2:11:155 Polymer solar cells with electrodeposited CuSCN nanowires as new efficient hole transporting layer
DOI:10.1016/j.solmat.2013.08.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Chappaz-Gillot, Cyril;Berson, Solenn;Salazar, Raul;Lechene, Balthazar;Aldakov, Dmitry;Delaye, Vincent;Guillerez, Stephane;Ivanova, Valentina;
2:11:156 The Influence of MoOx Anode Stoicheometry on the Performance of Bulk Heterojunction Polymer Solar Cells
DOI:10.1002/aenm.201200886 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:2 AU: Griffin, Jonathan;Watters, Darren C.;Yi, Hunan;Iraqi, Ahmed;Lidzey, David;Buckley, Alastair R.;
2:11:157 Enhanced performance of organic photovoltaics by TiO2-interlayer with precisely controlled thickness between ZnO electron collecting and active layers
DOI:10.1016/j.apsusc.2013.04.119 JN:APPLIED SURFACE SCIENCE PY:2013 TC:7 AU: Kim, Kwang-Dae;Lim, Dong Chan;Seo, Hyun Ook;Lee, Joo Yul;Seo, Bo Yeol;Lee, Da Ji;Song, Youngsup;Cho, Shinuk;Lim, Jae-Hong;Kim, Young Dok;
2:11:158 Hole injection in tri-arylamine containing polyfluorene co-polymer devices with molybdenum oxide contacts
DOI:10.1063/1.3562184 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:11 AU: Buckley, Alastair;Pickup, David;Yates, Chris;Zhao, Yi;Lidzey, David;
2:11:159 Enhancing efficiency with fluorinated interlayers in small molecule organic solar cells
DOI:10.1039/c2jm34091g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Han, Hsieh-Cheng;Tseng, Chi-Ang;Du, Chan-Yi;Ganguly, Abhijit;Chong, Cheong-Wei;Wang, Sheng-Bo;Lin, Chi-Feng;Chang, Sheng-Hsiung;Su, Chao-Chin;Lee, Jiun-Haw;Chen, Kuei-Hsien;Chen, Li-Chyong;
2:11:160 MoO3 as combined hole injection layer and tapered spacer in combinatorial multicolor microcavity organic light emitting diodes
DOI:10.1063/1.3623482 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Liu, Rui;Xu, Chun;Biswas, Rana;Shinar, Joseph;Shinar, Ruth;
2:11:161 Polymer photovoltaic cells with a graded active region achieved using double stamp transfer printing
DOI:10.1063/1.4829040 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Cho, Yong Joo;Lee, Jun Yeob;Forrest, Stephen R.;
2:11:162 Stability improvement of organic light emitting diodes by the insertion of hole injection materials on the indium tin oxide substrate
DOI:10.1063/1.4869183 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Chang, Jung-Hung;Liu, Shang-Yi;Wu, I-Wen;Chen, Tsung-Chin;Liu, Chia-Wei;Wu, Chih-I;
2:11:163 Self-Assembled Monolayers of C-60-Triphenylamine Dyads as Photo-Switched Interfacial Layers for Potential Application in Photovoltaic Cells
DOI:10.1021/am500049q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Hosseini, Mahsa;Rivera-Nazario, Danisha M.;Echegoyen, Luis A.;
2:11:164 Discharge amplified photo-emission from ultra-thin films applied to tuning work function of transparent electrodes in organic opto-electronic devices
DOI:10.1016/j.apsusc.2013.07.161 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Gentle, A. R.;Smith, G. B.;Watkins, S. E.;
2:11:165 Polymer photovoltaic cell embedded with p-type single walled carbon nanotubes fabricated by spray process
DOI:10.1088/0957-4484/23/32/325401 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Kim, Dal-Ho;Park, Jea-Gun;
2:11:166 Comment on "Observation of space-charge-limited current due to charge generation at interface of molybdenum dioxide and organic layer" [Appl. Phys. Lett. 95, 203306 (2009)]
DOI:10.1063/1.3459962 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Yi, Yeonjin;Cho, Sang Wan;Kang, Seong Jun;
2:11:167 The insulator to correlated metal phase transition in molybdenum oxides
DOI:10.1063/1.4817588 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Smith, G. B.;Golestan, D.;Gentle, A. R.;
2:11:168 Surface morphology and crystalline structure of high-stable polycrystalline transparent conductive zinc oxide films
DOI:10.1016/j.apsusc.2011.09.112 JN:APPLIED SURFACE SCIENCE PY:2011 TC:5 AU: Kuchiyama, Takashi;Yamamoto, Kenji;Hasegawa, Shigehiko;Asahi, Hajime;
2:11:169 Influence of NiO anode buffer layer prepared by solution on performance of bulk-heterojunction solar cells
DOI:10.1016/j.apsusc.2012.04.017 JN:APPLIED SURFACE SCIENCE PY:2012 TC:4 AU: Kim, Kyung Ho;Takahashi, Chiaki;Okubo, Takashi;Abe, Yoshio;Kawamura, Midori;
2:11:170 Effect of Nano-Porosity on High Gain Permeable Metal-Base Transistors
DOI:10.1002/adfm.201400634 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Yu, Hyeonggeun;Kim, Jong H.;Chen, Wenchao;Kim, Doyoung;Guo, Jing;So, Franky;
2:11:171 Electrochemical deposition and behavior of mixed-valent molybdenum oxide film at glassy carbon and ITO electrodes
DOI:10.1016/j.apsusc.2012.10.170 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Kocak, Suleyman;Ertas, Fatma Nil;Dursun, Zekerya;
2:11:172 Interface engineering of organic electronics
DOI:10.1039/c002978p JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:2 AU: Jen, Alex K. -Y.;
2:11:173 NiO/Si heterostructures formed by UV oxidation of nickel deposited on Si substrates
DOI:10.1116/1.4868634 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:1 AU: Zhang, Dongyuan;Nozaki, Shinji;Uchida, Kazuo;
2:11:174 On the coexistence of copper-molybdenum bronzes: CuxMoO3 (0.2 < x < 0.25; typically x similar to 0.23) and CuyMoO3-z (0.1 < y < 0.2; typically y similar to 0.15) in the Cu-MoO2-O quasi-ternary system
DOI:10.1016/j.materresbull.2010.07.004 JN:MATERIALS RESEARCH BULLETIN PY:2010 TC:1 AU: Warner, T. E.;Skou, E. M.;
2:11:175 Pinning of fullerene lowest unoccupied molecular orbital edge at the interface with standing up copper phthalocyanine
DOI:10.1016/j.tsf.2012.10.065 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Wang, Chenggong;Irfan, Irfan;Turinske, Alexander J.;Gao, Yongli;
2:11:176 Wettability and photochromic behaviour of Molybdenum oxide thin films
DOI:10.1016/j.tsf.2011.09.068 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Allogho, Guy-Germain;Ashrit, P. V.;
2:12:1 25th Anniversary Article: The Evolution of Electronic Skin (E-Skin): A Brief History, Design Considerations, and Recent Progress
DOI:10.1002/adma.201302240 JN:ADVANCED MATERIALS PY:2013 TC:107 AU: Hammock, Mallory L.;Chortos, Alex;Tee, Benjamin C-K;Tok, Jeffrey B-H;Bao, Zhenan;
2:12:2 Stretchable, Large-area Organic Electronics
DOI:10.1002/adma.200904054 JN:ADVANCED MATERIALS PY:2010 TC:216 AU: Sekitani, Tsuyoshi;Someya, Takao;
2:12:3 Stretchable Organic Solar Cells
DOI:10.1002/adma.201004426 JN:ADVANCED MATERIALS PY:2011 TC:202 AU: Lipomi, Darren J.;Tee, Benjamin C. -K.;Vosgueritchian, Michael;Bao, Zhenan;
2:12:4 Highly Conductive and Stretchable Silver Nanowire Conductors
DOI:10.1002/adma.201201886 JN:ADVANCED MATERIALS PY:2012 TC:162 AU: Xu, Feng;Zhu, Yong;
2:12:5 Materials and Structures for Stretchable Energy Storage and Conversion Devices
DOI:10.1002/adma.201305919 JN:ADVANCED MATERIALS PY:2014 TC:32 AU: Xie, Keyu;Wei, Bingqing;
2:12:6 25th Anniversary Article: A Soft Future: From Robots and Sensor Skin to Energy Harvesters
DOI:10.1002/adma.201303349 JN:ADVANCED MATERIALS PY:2014 TC:44 AU: Bauer, Siegfried;Bauer-Gogonea, Simona;Graz, Ingrid;Kaltenbrunner, Martin;Keplinger, Christoph;Schwoediauer, Reinhard;
2:12:7 Intrinsically Stretchable Polymer Light-Emitting Devices Using Carbon Nanotube-Polymer Composite Electrodes
DOI:10.1002/adma.201101986 JN:ADVANCED MATERIALS PY:2011 TC:120 AU: Yu, Zhibin;Niu, Xiaofan;Liu, Zhitian;Pei, Qibing;
2:12:8 Stretchable, Curvilinear Electronics Based on Inorganic Materials
DOI:10.1002/adma.200902927 JN:ADVANCED MATERIALS PY:2010 TC:144 AU: Kim, Dae-Hyeong;Xiao, Jianliang;Song, Jizhou;Huang, Yonggang;Rogers, John A.;
2:12:9 A flexible and highly sensitive strain-gauge sensor using reversible interlocking of nanofibres
DOI:10.1038/NMAT3380 JN:NATURE MATERIALS PY:2012 TC:145 AU: Pang, Changhyun;Lee, Gil-Yong;Kim, Tae-il;Kim, Sang Moon;Kim, Hong Nam;Ahn, Sung-Hoon;Suh, Kahp-Yang;
2:12:10 Molecularly Stretchable Electronics
DOI:10.1021/cm501021v JN:CHEMISTRY OF MATERIALS PY:2014 TC:25 AU: Savagatrup, Suchol;Printz, Adam D.;O'Connor, Timothy F.;Zaretski, Aliaksandr V.;Lipomi, Darren J.;
2:12:11 Stretchable GaAs Photovoltaics with Designs That Enable High Areal Coverage
DOI:10.1002/adma.201003961 JN:ADVANCED MATERIALS PY:2011 TC:85 AU: Lee, Jongho;Wu, Jian;Shi, Mingxing;Yoon, Jongseung;Park, Sang-Il;Li, Ming;Liu, Zhuangjian;Huang, Yonggang;Rogers, John A.;
2:12:12 Materials for stretchable electronics
DOI:10.1557/mrs.2012.37 JN:MRS BULLETIN PY:2012 TC:78 AU: Wagner, Sigurd;Bauer, Siegfried;
2:12:13 Elastomeric Conductive Composites Based on Carbon Nanotube Forests
DOI:10.1002/adma.200904270 JN:ADVANCED MATERIALS PY:2010 TC:102 AU: Shin, Min Kyoon;Oh, Jiyoung;Lima, Marcio;Kozlov, Mikhail E.;Kim, Seon Jeong;Baughman, Ray H.;
2:12:14 Stretchable, Transparent Graphene Interconnects for Arrays of Microscale Inorganic Light Emitting Diodes on Rubber Substrates
DOI:10.1021/nl202000u JN:NANO LETTERS PY:2011 TC:104 AU: Kim, Rak-Hwan;Bae, Myung-Ho;Kim, Dae Gon;Cheng, Huanyu;Kim, Bong Hoon;Kim, Dae-Hyeong;Li, Ming;Wu, Jian;Du, Frank;Kim, Hoon-Sik;Kim, Stanley;Estrada, David;Hong, Suck Won;Huang, Yonggang;Pop, Eric;Rogers, John A.;
2:12:15 Electronic Properties of Transparent Conductive Films of PEDOT:PSS on Stretchable Substrates
DOI:10.1021/cm203216m JN:CHEMISTRY OF MATERIALS PY:2012 TC:66 AU: Lipomi, Darren J.;Lee, Jennifer A.;Vosgueritchian, Michael;Tee, Benjamin C. -K.;Bolander, John A.;Bao, Zhenan;
2:12:16 Dynamic and Galvanic Stability of Stretchable Supercapacitors
DOI:10.1021/nl303631e JN:NANO LETTERS PY:2012 TC:54 AU: Li, Xin;Gu, Taoli;Wei, Bingqing;
2:12:17 Microstructured Graphene Arrays for Highly Sensitive Flexible Tactile Sensors
DOI:10.1002/smll.201401207 JN:SMALL PY:2014 TC:20 AU: Zhu, Bowen;Niu, Zhiqiang;Wang, Hong;Leow, Wan Ru;Wang, Hua;Li, Yuangang;Zheng, Liyan;Wei, Jun;Huo, Fengwei;Chen, Xiaodong;
2:12:18 Arrays of Ultracompliant Electrochemical Dry Gel Cells for Stretchable Electronics
DOI:10.1002/adma.200904068 JN:ADVANCED MATERIALS PY:2010 TC:69 AU: Kaltenbrunner, Martin;Kettlgruber, Gerald;Siket, Christian;Schwoediauer, Reinhard;Bauer, Siegfried;
2:12:19 Toward mechanically robust and intrinsically stretchable organic solar cells: Evolution of photovoltaic properties with tensile strain
DOI:10.1016/j.solmat.2012.07.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:27 AU: Lipomi, Darren J.;Chong, Halbert;Vosgueritchian, Michael;Mei, Jianguo;Bao, Zhenan;
2:12:20 Stretchable Energy Storage and Conversion Devices
DOI:10.1002/smll.201302806 JN:SMALL PY:2014 TC:6 AU: Yan, Chaoyi;Lee, Pooi See;
2:12:21 Soft, Highly Conductive Nanotube Sponges and Composites with Controlled Compressibility
DOI:10.1021/nn100114d JN:ACS NANO PY:2010 TC:78 AU: Gui, Xuchun;Cao, Anyuan;Wei, Jinquan;Li, Hongbian;Jia, Yi;Li, Zhen;Fan, Lili;Wang, Kunlin;Zhu, Hongwei;Wu, Dehai;
2:12:22 Single-Walled Carbon Nanotube Aerogel-Based Elastic Conductors
DOI:10.1002/adma.201100310 JN:ADVANCED MATERIALS PY:2011 TC:66 AU: Kim, Kyu Hun;Vural, Mert;Islam, Mohammad F.;
2:12:23 Three-Dimensional Highly Conductive Graphene-Silver Nanowire Hybrid Foams for Flexible and Stretchable Conductors
DOI:10.1021/am505908d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Wu, Chao;Fang, Lijun;Huang, Xingyi;Jiang, Pingkai;
2:12:24 Compliant Silver Nanowire-Polymer Composite Electrodes for Bistable Large Strain Actuation
DOI:10.1002/adma.201104101 JN:ADVANCED MATERIALS PY:2012 TC:55 AU: Yun, Sungryul;Niu, Xiaofan;Yu, Zhibin;Hu, Weili;Brochu, Paul;Pei, Qibing;
2:12:25 Materials for stretchable electronics in bioinspired and biointegrated devices
DOI:10.1557/mrs.2012.36 JN:MRS BULLETIN PY:2012 TC:52 AU: Kim, Dae-Hyeong;Lu, Nanshu;Huang, Yonggang;Rogers, John A.;
2:12:26 Polymer-Embedded Carbon Nanotube Ribbons for Stretchable Conductors
DOI:10.1002/adma.200904426 JN:ADVANCED MATERIALS PY:2010 TC:88 AU: Zhang, Yingying;Sheehan, Chris J.;Zhai, Junyi;Zou, Guifu;Luo, Hongmei;Xiong, Jie;Zhu, Y. T.;Jia, Q. X.;
2:12:27 Buckling of Aligned Carbon Nanotubes as Stretchable Conductors: A New Manufacturing Strategy
DOI:10.1002/adma.201103382 JN:ADVANCED MATERIALS PY:2012 TC:45 AU: Zhu, Yong;Xu, Feng;
2:12:28 High-Performance and Tailorable Pressure Sensor Based on Ultrathin Conductive Polymer Film
DOI:10.1002/smll.201303601 JN:SMALL PY:2014 TC:13 AU: Shao, Qi;Niu, Zhiqiang;Hirtz, Michael;Jiang, Lin;Liu, Yuanjun;Wang, Zhaohui;Chen, Xiaodong;
2:12:29 Stretchable Conductors with Ultrahigh Tensile Strain and Stable Metallic Conductance Enabled by Prestrained Polyelectrolyte Nanoplatforms
DOI:10.1002/adma.201101120 JN:ADVANCED MATERIALS PY:2011 TC:54 AU: Wang, Xiaolong;Hu, Hong;Shen, Youde;Zhou, Xuechang;Zheng, Zijian;
2:12:30 Highly Stretchable Alkaline Batteries Based on an Embedded Conductive Fabric
DOI:10.1002/adma.201201329 JN:ADVANCED MATERIALS PY:2012 TC:41 AU: Gaikwad, Abhinav M.;Zamarayeva, Alla M.;Rousseau, Jamesley;Chu, Howie;Derin, Irving;Steingart, Daniel A.;
2:12:31 Recent advances in flexible sensors for wearable and implantable devices
DOI:10.1002/app.39461 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:33 AU: Pang, Changhyun;Lee, Chanseok;Suh, Kahp-Yang;
2:12:32 Intrinsically stretchable transparent electrodes based on silver-nanowire-crosslinked-polyacrylate composites
DOI:10.1088/0957-4484/23/34/344002 JN:NANOTECHNOLOGY PY:2012 TC:43 AU: Hu, Weili;Niu, Xiaofan;Li, Lu;Yun, Sungryul;Yu, Zhibin;Pei, Qibing;
2:12:33 Wavy Ribbons of Carbon Nanotubes for Stretchable Conductors
DOI:10.1002/adfm.201102032 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:40 AU: Xu, Feng;Wang, Xin;Zhu, Yuntian;Zhu, Yong;
2:12:34 Mechanical Properties of Conjugated Polymers and Polymer-Fullerene Composites as a Function of Molecular Structure
DOI:10.1002/adfm.201302646 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:28 AU: Savagatrup, Suchol;Makaram, Aditya S.;Burke, Daniel J.;Lipomi, Darren J.;
2:12:35 Buckled, Stretchable Polypyrrole Electrodes for Battery Applications
DOI:10.1002/adma.201101067 JN:ADVANCED MATERIALS PY:2011 TC:62 AU: Wang, Caiyun;Zheng, Wen;Yue, Zhilian;Too, Chee O.;Wallace, Gordon G.;
2:12:36 Tailoring the Electrical Properties of Carbon Nanotube-Polymer Composites
DOI:10.1002/adfm.201000861 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:49 AU: Huang, Yan Y.;Terentjev, Eugene M.;
2:12:37 Fabrication of a Stretchable Solid-State Micro-Supercapacitor Array
DOI:10.1021/nn403068d JN:ACS NANO PY:2013 TC:35 AU: Kim, Daeil;Shin, Gunchul;Kang, Yu Jin;Kim, Woong;Ha, Jeong Sook;
2:12:38 Three-Dimensional Compressible and Stretchable Conductive Composites
DOI:10.1002/adma.201303662 JN:ADVANCED MATERIALS PY:2014 TC:16 AU: Yu, You;Zeng, Jifang;Chen, Chaojian;Xie, Zhuang;Guo, Ruisheng;Liu, Zhilu;Zhou, Xuechang;Yang, Yong;Zheng, Zijian;
2:12:39 Biaxially stretchable transparent conductors that use nanowire networks
DOI:10.1557/jmr.2014.338 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:3 AU: Ho, Xinning;Cheng, Chek Kweng;Tey, Ju Nie;Wei, Jun;
2:12:40 Biaxially stretchable silver nanowire transparent conductors
DOI:10.1063/1.4789795 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:12 AU: Ho, Xinning;Tey, Ju Nie;Liu, Wenjun;Cheng, Chek Kweng;Wei, Jun;
2:12:41 An Intrinsically Stretchable Nanowire Photodetector with a Fully Embedded Structure
DOI:10.1002/adma.201304226 JN:ADVANCED MATERIALS PY:2014 TC:22 AU: Yan, Chaoyi;Wang, Jiangxin;Wang, Xu;Kang, Wenbin;Cui, Mengqi;Foo, Ce Yao;Lee, Pooi See;
2:12:42 Ordered Zigzag Stripes of Polymer Gel/Metal Nanoparticle Composites for Highly Stretchable Conductive Electrodes
DOI:10.1002/adma.201100639 JN:ADVANCED MATERIALS PY:2011 TC:36 AU: Hyun, Dong Choon;Park, Minwoo;Park, ChooJin;Kim, Bongsoo;Xia, Younan;Hur, Jae Hyun;Kim, Jong Min;Park, Jong Jin;Jeong, Unyong;
2:12:43 Transparent, Optical, Pressure-Sensitive Artificial Skin for Large-Area Stretchable Electronics
DOI:10.1002/adma.201200523 JN:ADVANCED MATERIALS PY:2012 TC:64 AU: Ramuz, Marc;Tee, Benjamin C-K.;Tok, Jeffrey B. -H.;Bao, Zhenan;
2:12:44 Matrix-Assisted Catalytic Printing for the Fabrication of Multiscale, Flexible, Foldable, and Stretchable Metal Conductors
DOI:10.1002/adma.201301184 JN:ADVANCED MATERIALS PY:2013 TC:26 AU: Guo, Ruisheng;Yu, You;Xie, Zhuang;Liu, Xuqing;Zhou, Xuechang;Gao, Yufan;Liu, Zhilu;Zhou, Feng;Yang, Yong;Zheng, Zijian;
2:12:45 Intrinsically Stretchable Supercapacitors Composed of Polypyrrole Electrodes and Highly Stretchable Gel Electrolyte
DOI:10.1021/am402130j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:25 AU: Zhao, Chen;Wang, Caiyun;Yue, Zhilian;Shu, Kewei;Wallace, Gordon G.;
2:12:46 Controlled 3D Buckling of Silicon Nanowires for Stretchable Electronics
DOI:10.1021/nn103189z JN:ACS NANO PY:2011 TC:49 AU: Xu, Feng;Lu, Wei;Zhu, Yong;
2:12:47 Stretchable Ferroelectric Nanoribbons with Wavy Configurations on Elastomeric Substrates
DOI:10.1021/nn200477q JN:ACS NANO PY:2011 TC:57 AU: Feng, Xue;Yang, Byung Duk;Liu, Yuanming;Wang, Yong;Dagdeviren, Canan;Liu, Zhuangjian;Carlson, Andrew;Li, Jiangyu;Huang, Yonggang;Rogers, John A.;
2:12:48 Cross-Stacked Superaligned Carbon Nanotube Films for Transparent and Stretchable Conductors
DOI:10.1002/adfm.201100306 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:51 AU: Liu, Kai;Sun, Yinghui;Liu, Peng;Lin, Xiaoyang;Fan, Shoushan;Jiang, Kaili;
2:12:49 Flexible and Transparent Nanocomposite of Reduced Graphene Oxide and P(VDF-TrFE) Copolymer for High Thermal Responsivity in a Field-Effect Transistor
DOI:10.1002/adfm.201304224 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Tran Quang Trung;Ramasundaram, Subramanian;Hong, Seok Won;Lee, Nae-Eung;
2:12:50 High stretchable MWNTs/polyurethane conductive nanocomposites
DOI:10.1039/c1jm10255a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:45 AU: Shang, Songmin;Zeng, Wei;Tao, Xiao-ming;
2:12:51 Highly Transparent and Conductive Stretchable Conductors Based on Hierarchical Reticulate Single-Walled Carbon Nanotube Architecture
DOI:10.1002/adfm.201201013 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:32 AU: Cai, Le;Li, Jinzhu;Luan, Pingshan;Dong, Haibo;Zhao, Duan;Zhang, Qiang;Zhang, Xiao;Tu, Min;Zeng, Qingsheng;Zhou, Weiya;Xie, Sishen;
2:12:52 Water Surface Assisted Synthesis of Large-Scale Carbon Nanotube Film for High-Performance and Stretchable Supercapacitors
DOI:10.1002/adma.201401196 JN:ADVANCED MATERIALS PY:2014 TC:21 AU: Yu, Minghao;Zhang, Yangfan;Zeng, Yinxiang;Balogun, Muhammad-Sadeeq;Mai, Kancheng;Zhang, Zishou;Lu, Xihong;Tong, Yexiang;
2:12:53 An elastomeric transparent composite electrode based on copper nanowires and polyurethane
DOI:10.1039/c3tc31647e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:15 AU: Hu, Weili;Wang, Ranran;Lu, Yunfeng;Pei, Qibing;
2:12:54 Intrinsically stretchable and rechargeable batteries for self-powered stretchable electronics
DOI:10.1039/c3ta00019b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:25 AU: Kettlgruber, Gerald;Kaltenbrunner, Martin;Siket, Christian M.;Moser, Richard;Graz, Ingrid M.;Schwoediauer, Reinhard;Bauer, Siegfried;
2:12:55 Transparent, stretchable, carbon-nanotube-inlaid conductors enabled by standard replication technology for capacitive pressure, strain and touch sensors
DOI:10.1039/c3ta00079f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:14 AU: Wang, Xiaolong;Li, Tingjie;Adam, Jillian;Yang, Jun;
2:12:56 Micromechanics and Advanced Designs for Curved Photodetector Arrays in Hemispherical Electronic-Eye Cameras
DOI:10.1002/smll.200901350 JN:SMALL PY:2010 TC:39 AU: Shin, Gunchul;Jung, Inhwa;Malyarchuk, Viktor;Song, Jizhou;Wang, Shuodao;Ko, Heung Cho;Huang, Yonggang;Ha, Jeong Sook;Rogers, John A.;
2:12:57 Super-Stretchable Spring-Like Carbon Nanotube Ropes
DOI:10.1002/adma.201200576 JN:ADVANCED MATERIALS PY:2012 TC:27 AU: Shang, Yuanyuan;He, Xiaodong;Li, Yibin;Zhang, Luhui;Li, Zhen;Ji, Chunyan;Shi, Enzheng;Li, Peixu;Zhu, Ke;Peng, Qingyu;Wang, Chao;Zhang, Xinjiang;Wang, Rongguo;Wei, Jinquan;Wang, Kunlin;Zhu, Hongwei;Wu, Dehai;Cao, Anyuan;
2:12:58 A Flexible and Highly Pressure-Sensitive Graphene-Polyurethane Sponge Based on Fractured Microstructure Design
DOI:10.1002/adma.201303041 JN:ADVANCED MATERIALS PY:2013 TC:56 AU: Yao, Hong-Bin;Ge, Jin;Wang, Chang-Feng;Wang, Xu;Hu, Wei;Zheng, Zhi-Jun;Ni, Yong;Yu, Shu-Hong;
2:12:59 Multifunctional Epidermal Electronics Printed Directly Onto the Skin
DOI:10.1002/adma.201204426 JN:ADVANCED MATERIALS PY:2013 TC:63 AU: Yeo, Woon-Hong;Kim, Yun-Soung;Lee, Jongwoo;Ameen, Abid;Shi, Luke;Li, Ming;Wang, Shuodao;Ma, Rui;Jin, Sung Hun;Kang, Zhan;Huang, Yonggang;Rogers, John A.;
2:12:60 Elastomeric transparent capacitive sensors based on an interpenetrating composite of silver nanowires and polyurethane
DOI:10.1063/1.4794143 JN:APPLIED PHYSICS LETTERS PY:2013 TC:33 AU: Hu, Weili;Niu, Xiaofan;Zhao, Ran;Pei, Qibing;
2:12:61 Reversible Sliding in Networks of Nanowires
DOI:10.1021/nl4000739 JN:NANO LETTERS PY:2013 TC:21 AU: Wu, Jianghong;Zang, Jianfeng;Rathmell, Aaron R.;Zhao, Xuanhe;Wiley, Benjamin J.;
2:12:62 Strain-Release Assembly of Nanowires on Stretchable Substrates
DOI:10.1021/nn103183d JN:ACS NANO PY:2011 TC:32 AU: Xu, Feng;Durham, John W., III;Wiley, Benjamin J.;Zhu, Yong;
2:12:63 Materials and Optimized Designs for Human-Machine Interfaces Via Epidermal Electronics
DOI:10.1002/adma.201301921 JN:ADVANCED MATERIALS PY:2013 TC:43 AU: Jeong, Jae-Woong;Yeo, Woon-Hong;Akhtar, Aadeel;Norton, James J. S.;Kwack, Young-Jin;Li, Shuo;Jung, Sung-Young;Su, Yewang;Lee, Woosik;Xia, Jing;Cheng, Huanyu;Huang, Yonggang;Choi, Woon-Seop;Bretl, Timothy;Rogers, John A.;
2:12:64 Highly Stretchable Patterned Gold Electrodes Made of Au Nanosheets
DOI:10.1002/adma.201300794 JN:ADVANCED MATERIALS PY:2013 TC:32 AU: Moon, Geon Dae;Lim, Guh-Hwan;Song, Jun Hyuk;Shin, Minkwan;Yu, Taekyung;Lim, Byungkwon;Jeong, Unyong;
2:12:65 Embedded 3D Printing of Strain Sensors within Highly Stretchable Elastomers
DOI:10.1002/adma.201400334 JN:ADVANCED MATERIALS PY:2014 TC:29 AU: Muth, Joseph T.;Vogt, Daniel M.;Truby, Ryan L.;Menguec, Yigit;Kolesky, David B.;Wood, Robert J.;Lewis, Jennifer A.;
2:12:66 High-performance stretchable transparent electrodes based on silver nanowires synthesized via an eco-friendly halogen-free method
DOI:10.1039/c4tc01959h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Cheng, Tao;Zhang, Yi-Zhou;Lai, Wen-Yong;Chen, Yao;Zeng, Wen-Jin;Huang, Wei;
2:12:67 High-Density, Stretchable, All-Solid-State Microsupercapacitor Arrays
DOI:10.1021/nn503799j JN:ACS NANO PY:2014 TC:13 AU: Hong, Soo Yeong;Yoon, Jangyeol;Jin, Sang Woo;Lim, Yein;Lee, Seung-Jung;Zi, Goangseup;Ha, Jeong Sook;
2:12:68 A Stretchable Polymer-Carbon Nanotube Composite Electrode for Flexible Lithium-Ion Batteries: Porosity Engineering by Controlled Phase Separation
DOI:10.1002/aenm.201100725 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:31 AU: Lee, Hojun;Yoo, Jung-Keun;Park, Jong-Hyun;Kim, Jin Ho;Kang, Kisuk;Jung, Yeon Sik;
2:12:69 A Rapid and Facile Soft Contact Lamination Method: Evaluation of Polymer Semiconductors for Stretchable Transistors
DOI:10.1021/cm502271j JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Wu, Hung-Chin;Benight, Stephanie J.;Chortos, Alex;Lee, Wen-Ya;Mei, Jianguo;To, John W. F.;Lu, Chien;He, Mingqian;Tok, Jeffery B. -H.;Chen, Wen-Chang;Bao, Zhenan;
2:12:70 Highly Sensitive and Stretchable Multidimensional Strain Sensor with Prestrained Anisotropic Metal Nanowire Percolation Networks
DOI:10.1021/acs.nanolett.5b01505 JN:NANO LETTERS PY:2015 TC:0 AU: Kim, Kyun Kyu;Hong, Sukjoon;Cho, Hyun Min;Lee, Jinhwan;Suh, Young Duk;Ham, Jooyeun;Ko, Seung Hwan;
2:12:71 Stretchable Field-Effect-Transistor Array of Suspended SnO2 Nanowires
DOI:10.1002/smll.201100116 JN:SMALL PY:2011 TC:25 AU: Shin, Gunchul;Yoon, Chang Hoon;Bae, Min Young;Kim, Yoon Chul;Hong, Sahng Ki;Rogers, John A.;Ha, Jeong Sook;
2:12:72 Materials and Designs for Wirelessly Powered Implantable Light-Emitting Systems
DOI:10.1002/smll.201200943 JN:SMALL PY:2012 TC:36 AU: Kim, Rak-Hwan;Tao, Hu;Kim, Tae-il;Zhang, Yihui;Kim, Stanley;Panilaitis, Bruce;Yang, Miaomiao;Kim, Dae-Hyeong;Jung, Yei Hwan;Kim, Bong Hoon;Li, Yuhang;Huang, Yonggang;Omenetto, Fiorenzo G.;Rogers, John A.;
2:12:73 Stretchable Semiconductor Technologies with High Areal Coverages and Strain-Limiting Behavior: Demonstration in High-Efficiency Dual-Junction GaInP/GaAs Photovoltaics
DOI:10.1002/smll.201102437 JN:SMALL PY:2012 TC:25 AU: Lee, Jongho;Wu, Jian;Ryu, Jae Ha;Liu, Zhuangjian;Meitl, Matthew;Zhang, Yong-Wei;Huang, Yonggang;Rogers, John A.;
2:12:74 Stretchable Silver-Zinc Batteries Based on Embedded Nanowire Elastic Conductors
DOI:10.1002/aenm.201301396 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:12 AU: Yan, Chaoyi;Wang, Xu;Cui, Mengqi;Wang, Jiangxin;Kang, Wenbin;Foo, Ce Yao;Lee, Pooi See;
2:12:75 Highly Sensitive Skin-Mountable Strain Gauges Based Entirely on Elastomers
DOI:10.1002/adfm.201200498 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:55 AU: Lu, Nanshu;Lu, Chi;Yang, Shixuan;Rogers, John;
2:12:76 Woven Electronic Fibers with Sensing and Display Functions for Smart Textiles
DOI:10.1002/adma.201002159 JN:ADVANCED MATERIALS PY:2010 TC:80 AU: Cherenack, Kunigunde;Zysset, Christoph;Kinkeldei, Thomas;Muenzenrieder, Niko;Troester, Gerhard;
2:12:77 Stretchable Inorganic-Semiconductor Electronic Systems
DOI:10.1002/adma.201100144 JN:ADVANCED MATERIALS PY:2011 TC:41 AU: Hu, Xiaolong;Krull, Peter;de Graff, Bassel;Dowling, Kevin;Rogers, John A.;Arora, William J.;
2:12:78 Stretchable Light-Emitting Electrochemical Cells Using an Elastomeric Emissive Material
DOI:10.1002/adma.201200448 JN:ADVANCED MATERIALS PY:2012 TC:26 AU: Filiatrault, Heather L.;Porteous, Gyllian C.;Carmichael, R. Stephen;Davidson, Gregory J. E.;Carmichael, Tricia Breen;
2:12:79 Design and Fabrication of Novel Stretchable Device Arrays on a Deformable Polymer Substrate with Embedded Liquid-Metal Interconnections
DOI:10.1002/adma.201402588 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Yoon, Jangyeol;Hong, Soo Yeong;Lim, Yein;Lee, Seung-Jung;Zi, Goangseup;Ha, Jeong Sook;
2:12:80 Highly Stretchable Transistors Using a Microcracked Organic Semiconductor
DOI:10.1002/adma.201305462 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Chortos, Alex;Lim, Josh;To, John W. F.;Vosgueritchian, Michael;Dusseault, Thomas J.;Kim, Tae-Ho;Hwang, Sungwoo;Bao, Zhenan;
2:12:81 Cohesion and device reliability in organic bulk heterojunction photovoltaic cells
DOI:10.1016/j.solmat.2011.11.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:30 AU: Brand, Vitali;Bruner, Christopher;Dauskardt, Reinhold H.;
2:12:82 Buckling in serpentine microstructures and applications in elastomer-supported ultra-stretchable electronics with high areal coverage
DOI:10.1039/c3sm51360b JN:SOFT MATTER PY:2013 TC:25 AU: Zhang, Yihui;Xu, Sheng;Fu, Haoran;Lee, Juhwan;Su, Jessica;Hwang, Keh-Chih;Rogers, John A.;Huang, Yonggang;
2:12:83 Tactile-Direction-Sensitive and Stretchable Electronic Skins Based on Human-Skin-Inspired Interlocked Microstructures
DOI:10.1021/nn505953t JN:ACS NANO PY:2014 TC:7 AU: Park, Jonghwa;Lee, Youngoh;Hong, Jaehyung;Lee, Youngsu;Ha, Minjeong;Jung, Youngdo;Lim, Hyuneui;Kim, Sung Youb;Ko, Hyunhyub;
2:12:84 Carbon Nanotube Fiber Based Stretchable Conductor
DOI:10.1002/adfm.201202174 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:25 AU: Zu, Mei;Li, Qingwen;Wang, Guojian;Byun, Joon-Hyung;Chou, Tsu-Wei;
2:12:85 Polymer-Assisted Metal Deposition (PAMD): A Full-Solution Strategy for Flexible, Stretchable, Compressible, and Wearable Metal Conductors
DOI:10.1002/adma.201305558 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Yu, You;Yan, Casey;Zheng, Zijian;
2:12:86 Strain-Driven and Ultrasensitive Resistive Sensor/Switch Based on Conductive Alginate/Nitrogen-Doped Carbon-Nanotube-Supported Ag Hybrid Aerogels with Pyramid Design
DOI:10.1021/am5069936 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Zhao, Songfang;Zhang, Guoying;Gao, Yongju;Deng, Libo;Li, Jinhui;Sun, Rong;Wong, Ching-Ping;
2:12:87 Stretchable Conductive Polypyrrole/Polyurethane (PPy/PU) Strain Sensor with Netlike Microcracks for Human Breath Detection
DOI:10.1021/am4053305 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Li, Mufang;Li, Haiying;Zhong, Weibing;Zhao, Qinghua;Wang, Dong;
2:12:88 Mechanics of stretchable electronics and soft machines
DOI:10.1557/mrs.2012.32 JN:MRS BULLETIN PY:2012 TC:38 AU: Suo, Zhigang;
2:12:89 Multifunctional, flexible electronic systems based on engineered nanostructured materials
DOI:10.1088/0957-4484/23/34/344001 JN:NANOTECHNOLOGY PY:2012 TC:12 AU: Ko, Hyunhyub;Kapadia, Rehan;Takei, Kuniharu;Takahashi, Toshitake;Zhang, Xiaobo;Javey, Ali;
2:12:90 FLEXIBLE ELECTRONICS Within touch of artificial skin
DOI:10.1038/nmat2861 JN:NATURE MATERIALS PY:2010 TC:43 AU: Boland, John J.;
2:12:91 A Highly Elastic, Capacitive Strain Gauge Based on Percolating Nanotube Networks
DOI:10.1021/nl204052z JN:NANO LETTERS PY:2012 TC:43 AU: Cohen, Daniel J.;Mitra, Debkishore;Peterson, Kevin;Maharbiz, Michel M.;
2:12:92 Highly conductive and stretchable conductors fabricated from bacterial cellulose
DOI:10.1038/am.2012.34 JN:NPG ASIA MATERIALS PY:2012 TC:48 AU: Liang, Hai-Wei;Guan, Qing-Fang;Zhu-Zhu;Song, Lu-Ting;Yao, Hong-Bin;Lei, Xuan;Yu, Shu-Hong;
2:12:93 Highly Stretchable Polymer Transistors Consisting Entirely of Stretchable Device Components
DOI:10.1002/adma.201400009 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Shin, Minkwan;Song, Jun Hyuk;Lim, Guh-Hwan;Lim, Byungkwon;Park, Jong-Jin;Jeong, Unyong;
2:12:94 Micropatterned Stretchable Circuit and Strain Sensor Fabricated by Lithography on an Electrospun Nanofiber Mat
DOI:10.1021/am4026032 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Park, Minwoo;Im, Jungkyun;Park, JongJin;Jeong, Unyong;
2:12:95 Fabrication of Stretchable Single-Walled Carbon Nanotube Logic Devices
DOI:10.1002/smll.201303779 JN:SMALL PY:2014 TC:1 AU: Yoon, Jangyeol;Shin, Gunchul;Kim, Joonsung;Moon, Young Sun;Lee, Seung-Jung;Zi, Goangseup;Ha, Jeong Sook;
2:12:96 Correlations between Mechanical and Electrical Properties of Polythiophenes
DOI:10.1021/nn1018768 JN:ACS NANO PY:2010 TC:38 AU: O'Connor, Brendan;Chan, Edwin P.;Chan, Calvin;Conrad, Brad R.;Richter, Lee J.;Kline, R. Joseph;Heeney, Martin;McCulloch, Iain;Soles, Christopher L.;DeLongchamp, Dean M.;
2:12:97 Encapsulating Elastically Stretchable Neural Interfaces: Yield, Resolution, and Recording/Stimulation of Neural Activity
DOI:10.1002/adfm.201102290 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:19 AU: Graudejus, Oliver;Morrison, Barclay, III;Goletiani, Cezar;Yu, Zhe;Wagner, Sigurd;
2:12:98 Highly Stretchable Conductors Integrated with a Conductive Carbon Nanotube/Graphene Network and 3D Porous Poly(dimethylsiloxane)
DOI:10.1002/adfm.201401886 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:9 AU: Chen, Mengting;Zhang, Ling;Duan, Shasha;Jing, Shilong;Jiang, Hao;Li, Chunzhong;
2:12:99 Highly Conductive, Flexible, and Compressible All-Graphene Passive Electronic Skin for Sensing Human Touch
DOI:10.1002/adma.201401367 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Hou, Chengyi;Wang, Hongzhi;Zhang, Qinghong;Li, Yaogang;Zhu, Meifang;
2:12:100 Giant Tunneling Piezoresistance of Composite Elastomers with Interlocked Microdome Arrays for Ultrasensitive and Multimodal Electronic Skins
DOI:10.1021/nn500441k JN:ACS NANO PY:2014 TC:24 AU: Park, Jonghwa;Lee, Youngoh;Hong, Jaehyung;Ha, Minjeong;Jung, Young-Do;Lim, Hyuneui;Kim, Sung Youb;Ko, Hyunhyub;
2:12:101 Stretchable, Transparent Zinc Oxide Thin Film Transistors
DOI:10.1002/adfm.201001107 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:38 AU: Park, Kyungyea;Lee, Deok-Kyou;Kim, Byung-Sung;Jeon, Haseok;Lee, Nae-Eung;Whang, Dongmok;Lee, Hoo-Jeong;Kim, Youn Jea;Ahn, Jong-Hyun;
2:12:102 Macroscale Elastomeric Conductors Generated from Hydrothermally Synthesized Metal-Polymer Hybrid Nanocable Sponges
DOI:10.1002/adma.201102002 JN:ADVANCED MATERIALS PY:2011 TC:24 AU: Yao, Hong-Bin;Huang, Gang;Cui, Chun-Hua;Wang, Xiao-Han;Yu, Shu-Hong;
2:12:103 Highly Stretchable Carbon Nanotube Transistors with Ion Gel Gate Dielectrics
DOI:10.1021/nl403941a JN:NANO LETTERS PY:2014 TC:17 AU: Xu, Feng;Wu, Meng-Yin;Safron, Nathaniel S.;Roy, Susmit Singha;Jacobberger, Robert M.;Bindl, Dominick J.;Seo, Jung-Hun;Chang, Tzu-Hsuan;Ma, Zhenqiang;Arnold, Michael S.;
2:12:104 All-Elastomeric, Strain-Responsive Thermochromic Color Indicators
DOI:10.1002/smll.201302646 JN:SMALL PY:2014 TC:3 AU: Yu, Cunjiang;Zhang, Yihui;Cheng, Dongkai;Li, Xuetong;Huang, Yonggang;Rogers, John A.;
2:12:105 SnO2 Nanowire Logic Devices on Deformable Nonplanar Substrates
DOI:10.1021/nn203790a JN:ACS NANO PY:2011 TC:17 AU: Shin, Gunchul;Bae, Min Young;Lee, Hyun Jin;Hong, Sahng Ki;Yoon, Chang Hoon;Zi, Goangseup;Rogers, John A.;Ha, Jeong Sook;
2:12:106 Graphene-Based Conformal Devices
DOI:10.1021/nn503446f JN:ACS NANO PY:2014 TC:6 AU: Park, Yong Ju;Lee, Seoung-Ki;Kim, Min-Seok;Kim, Hyunmin;Ahn, Jong-Hyun;
2:12:107 Manufacturable Conducting Rubber Ambers and Stretchable Conductors from Copper Nanowire Aerogel Monoliths
DOI:10.1021/nn502702a JN:ACS NANO PY:2014 TC:14 AU: Tang, Yue;Gong, Shu;Chen, Yi;Yap, Lim Wei;Cheng, Wenlong;
2:12:108 Mechanically Gated Electrical Switches by Creasing of Patterned Metal/Elastomer Bilayer Films
DOI:10.1002/adma.201400992 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Xu, Ben;Chen, Dayong;Hayward, Ryan C.;
2:12:109 Controlling the Morphology of Gold Films on Poly(dimethylsiloxane)
DOI:10.1021/am1002537 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:30 AU: Graudejus, Oliver;Goerrn, Patrick;Wagner, Sigurd;
2:12:110 Dispersed, Porous Nanoislands Landing on Stretchable Nanocrack Gold Films: Maintenance of Stretchability and Controllable Impedance
DOI:10.1021/am502454t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Liu, Zhiyuan;Yu, Mei;Lv, Junhui;Li, Yuchun;Yu, Zhe;
2:12:111 Stretchable Carbon Nanotube/Ion-Gel Supercapacitors with High Durability Realized through Interfacial Microroughness
DOI:10.1021/am502953g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Lee, Jiho;Kim, Wonbin;Kim, Woong;
2:12:112 Static Friction between Silicon Nanowires and Elastomeric Substrates
DOI:10.1021/nn202343w JN:ACS NANO PY:2011 TC:12 AU: Qin, Qingquan;Zhu, Yong;
2:12:113 Room Temperature Fluorescent Conjugated Polymer Gums
DOI:10.1002/adfm.201302829 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Jin, Young-Jae;Bae, Jung-Eun;Cho, Kwang-Soo;Lee, Wang-Eun;Hwang, Dong-Yeon;Kwak, Giseop;
2:12:114 Stretchable, Wearable Dye-Sensitized Solar Cells
DOI:10.1002/adma.201400152 JN:ADVANCED MATERIALS PY:2014 TC:20 AU: Yang, Zhibin;Deng, Jue;Sun, Xuemei;Li, Houpu;Peng, Huisheng;
2:12:115 Flexible Three-Axial Force Sensor for Soft and Highly Sensitive Artificial Touch
DOI:10.1002/adma.201305064 JN:ADVANCED MATERIALS PY:2014 TC:14 AU: Viry, Lucie;Levi, Alessandro;Totaro, Massimo;Mondini, Alessio;Mattoli, Virgilio;Mazzolai, Barbara;Beccai, Lucia;
2:12:116 Stretchable organic integrated circuits for large-area electronic skin surfaces
DOI:10.1557/mrs.2012.42 JN:MRS BULLETIN PY:2012 TC:30 AU: Sekitani, Tsuyoshi;Someya, Takao;
2:12:117 Stretchable organic memory: toward learnable and digitized stretchable electronic applications
DOI:10.1038/am.2013.85 JN:NPG ASIA MATERIALS PY:2014 TC:6 AU: Lai, Ying-Chih;Huang, Yi-Chuan;Lin, Tai-Yuan;Wang, Yi-Xian;Chang, Chun-Yu;Li, Yaoxuan;Lin, Tzu-Yao;Ye, Bo-Wei;Hsieh, Ya-Ping;Su, Wei-Fang;Yang, Ying-Jay;Chen, Yang-Fang;
2:12:118 Giant stretchability of thin gold films on rough elastomeric substrates
DOI:10.1016/j.actamat.2012.10.001 JN:ACTA MATERIALIA PY:2013 TC:14 AU: Lambricht, N.;Pardoen, T.;Yunus, S.;
2:12:119 Multifunctional Skin-Like Electronics for Quantitative, Clinical Monitoring of Cutaneous Wound Healing
DOI:10.1002/adhm.201400073 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:10 AU: Hattori, Yoshiaki;Falgout, Leo;Lee, Woosik;Jung, Sung-Young;Poon, Emily;Lee, Jung Woo;Na, Ilyoun;Geisler, Amelia;Sadhwani, Divya;Zhang, Yihui;Su, Yewang;Wang, Xiaoqi;Liu, Zhuangjian;Xia, Jing;Cheng, Huanyu;Webb, R. Chad;Bonifas, Andrew P.;Won, Philip;Jeong, Jae-Woong;Jang, Kyung-In;Song, Young Min;Nardone, Beatrice;Nodzenski, Michael;Fan, Jonathan A.;Huang, Yonggang;West, Dennis P.;Paller, Amy S.;Alam, Murad;Yeo, Woon-Hong;Rogers, John A.;
2:12:120 Silk-Molded Flexible, Ultrasensitive, and Highly Stable Electronic Skin for Monitoring Human Physiological Signals
DOI:10.1002/adma.201304248 JN:ADVANCED MATERIALS PY:2014 TC:40 AU: Wang, Xuewen;Gu, Yang;Xiong, Zuoping;Cui, Zheng;Zhang, Ting;
2:12:121 A Flexible Bimodal Sensor Array for Simultaneous Sensing of Pressure and Temperature
DOI:10.1002/adma.201302869 JN:ADVANCED MATERIALS PY:2014 TC:23 AU: Nguyen Thanh Tien;Jeon, Sanghun;Kim, Do-Il;Tran Quang Trung;Jang, Mi;Hwang, Byeong-Ung;Byun, Kyung-Eun;Bae, Jihyun;Lee, Eunha;Tok, Jeffrey B. -H.;Bao, Zhenan;Lee, Nae-Eung;Park, Jong-Jin;
2:12:122 Paraboloid electronic eye cameras using deformable arrays of photodetectors in hexagonal mesh layouts
DOI:10.1063/1.3290244 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Jung, Inhwa;Shin, Gunchul;Malyarchuk, Viktor;Ha, Jeong Sook;Rogers, John A.;
2:12:123 Large-sized out-of-plane stretchable electrodes based on poly-dimethylsiloxane substrate
DOI:10.1063/1.4904395 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chou, Namsun;Lee, Jongho;Kim, Sohee;
2:12:124 Fabrication of Functional Nanowire Devices on Unconventional Substrates Using Strain-Release Assembly
DOI:10.1021/am302384z JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Durham, John W., III;Zhu, Yong;
2:12:125 Elastomer-Infiltrated Vertically Aligned Carbon Nanotube Film-Based Wavy-Configured Stretchable Conductors
DOI:10.1021/am502851e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Shin, Ung-Hui;Jeong, Dong-Wook;Kim, Soo-Hyung;Lee, Hyung Woo;Kim, Jong-Man;
2:12:126 Smart textiles: Challenges and opportunities
DOI:10.1063/1.4742728 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:37 AU: Cherenack, Kunigunde;van Pieterson, Liesbeth;
2:12:127 Adhesion in flexible organic and hybrid organic/inorganic light emitting device and solar cells
DOI:10.1063/1.4892393 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Yu, D.;Oyewole, O. K.;Kwabi, D.;Tong, T.;Anye, V. C.;Asare, J.;Rwenyagila, E.;Fashina, A.;Akogwu, O.;Du, J.;Soboyejo, W. O.;
2:12:128 Isotropically stretchable gold conductors on elastomeric substrates
DOI:10.1039/c1sm05705g JN:SOFT MATTER PY:2011 TC:13 AU: Goerrn, Patrick;Cao, Wenzhe;Wagner, Sigurd;
2:12:129 Experimental and Theoretical Studies of Serpentine Microstructures Bonded To Prestrained Elastomers for Stretchable Electronics
DOI:10.1002/adfm.201302957 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:18 AU: Zhang, Yihui;Wang, Shuodao;Li, Xuetong;Fan, Jonathan A.;Xu, Sheng;Song, Young Min;Choi, Ki-Joong;Yeo, Woon-Hong;Lee, Woosik;Nazaar, Sharaf Nafees;Lu, Bingwei;Yin, Lan;Hwang, Keh-Chih;Rogers, John A.;Huang, Yonggang;
2:12:130 Highly Stretchable Resistive Pressure Sensors Using a Conductive Elastomeric Composite on a Micropyramid Array
DOI:10.1002/adma.201305182 JN:ADVANCED MATERIALS PY:2014 TC:28 AU: Choong, Chwee-Lin;Shim, Mun-Bo;Lee, Byoung-Sun;Jeon, Sanghun;Ko, Dong-Su;Kang, Tae-Hyung;Bae, Jihyun;Lee, Sung Hoon;Byun, Kyung-Eun;Im, Jungkyun;Jeong, Yong Jin;Park, Chan Eon;Park, Jong-Jin;Chung, U-In;
2:12:131 Silicone substrate with in situ strain relief for stretchable thin-film transistors
DOI:10.1063/1.3570661 JN:APPLIED PHYSICS LETTERS PY:2011 TC:19 AU: Graz, Ingrid M.;Cotton, Darryl P. J.;Robinson, Adam;Lacour, Stephanie P.;
2:12:132 FLEXIBLE ELECTRONICS Sophisticated skin
DOI:10.1038/nmat3759 JN:NATURE MATERIALS PY:2013 TC:21 AU: Bauer, Siegfried;
2:12:133 Knitted Fabrics Made from Highly Conductive Stretchable Fibers
DOI:10.1021/nl404801t JN:NANO LETTERS PY:2014 TC:7 AU: Ma, Rujun;Lee, Jiyong;Choi, Dongmin;Moon, Hyungpil;Baik, Seunghyun;
2:12:134 Thin, Flexible Sensors and Actuators as 'Instrumented' Surgical Sutures for Targeted Wound Monitoring and Therapy
DOI:10.1002/smll.201200933 JN:SMALL PY:2012 TC:20 AU: Kim, Dae-Hyeong;Wang, Shuodao;Keum, Hohyun;Ghaffari, Roozbeh;Kim, Yun-Soung;Tao, Hu;Panilaitis, Bruce;Li, Ming;Kang, Zhan;Omenetto, Fiorenzo;Huang, Yonggang;Rogers, John A.;
2:12:135 Physically Responsive Field-Effect Transistors with Giant Electromechanical Coupling Induced by Nanocomposite Gate Dielectrics
DOI:10.1021/nn2017827 JN:ACS NANO PY:2011 TC:14 AU: Nguyen Thanh Tien;Tran Quang Hung;Seoul, Young Gug;Kim, Do Il;Lee, Nae-Eung;
2:12:136 Mechanics of ultra-stretchable self-similar serpentine interconnects
DOI:10.1016/j.actamat.2013.09.020 JN:ACTA MATERIALIA PY:2013 TC:11 AU: Zhang, Yihui;Fu, Haoran;Su, Yewang;Xu, Sheng;Cheng, Huanyu;Fan, Jonathan A.;Hwang, Keh-Chih;Rogers, John A.;Huang, Yonggang;
2:12:137 High-Density Stretchable Electronics: Toward an Integrated Multilayer Composite
DOI:10.1002/adma.201000515 JN:ADVANCED MATERIALS PY:2010 TC:18 AU: Guo, Liang;DeWeerth, Stephen P.;
2:12:138 Localization of Folds and Cracks in Thin Metal Films Coated on Flexible Elastomer Foams
DOI:10.1002/adma.201300587 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Vandeparre, Hugues;Liu, Qihan;Minev, Ivan R.;Suo, Zhigang;Lacour, Stephanie P.;
2:12:139 Inkjet-printed stretchable silver electrode on wave structured elastomeric substrate
DOI:10.1063/1.3578398 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Chung, Seungjun;Lee, Jaemyon;Song, Hyunsoo;Kim, Sangwoo;Jeong, Jaewook;Hong, Yongtaek;
2:12:140 Photopatterning the mechanical properties of polydimethylsiloxane films
DOI:10.1063/1.3552917 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:15 AU: Cotton, D. P. J.;Popel, A.;Graz, I. M.;Lacour, S. P.;
2:12:141 Stretchable conductive polyurethane elastomer in situ polymerized with multi-walled carbon nanotubes
DOI:10.1039/c3tc30126e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Wang, Dong;Li, Haiying;Li, Mufang;Jiang, Haiqing;Xia, Ming;Zhou, Zhou;
2:12:142 Microstructured Silicone Substrate for Printable and Stretchable Metallic Films
DOI:10.1021/la103213n JN:LANGMUIR PY:2011 TC:21 AU: Robinson, Adam P.;Minev, Ivan;Graz, Ingrid M.;Lacour, Stephanie P.;
2:12:143 Fully Printed, Highly Sensitive Multifunctional Artificial Electronic Whisker Arrays Integrated with Strain and Temperature Sensors
DOI:10.1021/nn500845a JN:ACS NANO PY:2014 TC:14 AU: Harada, Shingo;Honda, Wataru;Arie, Takayuki;Akita, Seiji;Takei, Kuniharu;
2:12:144 Reverse-Micelle-Induced Porous Pressure-Sensitive Rubber for Wearable Human-Machine Interfaces
DOI:10.1002/adma.201401364 JN:ADVANCED MATERIALS PY:2014 TC:21 AU: Jung, Sungmook;Kim, Ji Hoon;Kim, Jaemin;Choi, Suji;Lee, Jongsu;Park, Inhyuk;Hyeon, Taeghwan;Kim, Dae-Hyeong;
2:12:145 Highly sensitive tactile sensors integrated with organic transistors
DOI:10.1063/1.4751354 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Kim, Jiseok;Ng, Tse Nga;Kim, Woo Soo;
2:12:146 Hybrid stretchable circuits on silicone substrate
DOI:10.1063/1.4871279 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Robinson, A.;Aziz, A.;Liu, Q.;Suo, Z.;Lacour, S. P.;
2:12:147 Printed circuit board technology inspired stretchable circuits
DOI:10.1557/mrs.2012.48 JN:MRS BULLETIN PY:2012 TC:25 AU: Vanfleteren, J.;Gonzalez, M.;Bossuyt, F.;Hsu, Y. -Y.;Vervust, T.;De Wolf, I.;Jablonski, M.;
2:12:148 Free-standing nanocomposites with high conductivity and extensibility
DOI:10.1088/0957-4484/24/16/165401 JN:NANOTECHNOLOGY PY:2013 TC:5 AU: Chun, Kyoung-Yong;Kim, Shi Hyeong;Shin, Min Kyoon;Kim, Youn Tae;Spinks, Geoffrey M.;Aliev, Ali E.;Baughman, Ray H.;Kim, Seon Jeong;
2:12:149 Spatially digitized tactile pressure sensors with tunable sensitivity and sensing range
DOI:10.1088/0957-4484/25/42/425504 JN:NANOTECHNOLOGY PY:2014 TC:0 AU: Choi, Eunsuk;Sul, Onejae;Hwang, Soonhyung;Cho, Joonhyung;Chun, Hyunsuk;Kim, Hongjun;Lee, Seung-Beck;
2:12:150 FLEXIBLE ELECTRONICS Tiny lamps to illuminate the body
DOI:10.1038/nmat2886 JN:NATURE MATERIALS PY:2010 TC:7 AU: Someya, Takao;
2:12:151 User-interactive electronic skin for instantaneous pressure visualization
DOI:10.1038/NMAT3711 JN:NATURE MATERIALS PY:2013 TC:103 AU: Wang, Chuan;Hwang, David;Yu, Zhibin;Takei, Kuniharu;Park, Junwoo;Chen, Teresa;Ma, Biwu;Javey, Ali;
2:12:152 Fully Printed Flexible Fingerprint-like Three-Axis Tactile and Slip Force and Temperature Sensors for Artificial Skin
DOI:10.1021/nn506293y JN:ACS NANO PY:2014 TC:5 AU: Harada, Shingo;Kanao, Kenichiro;Yamamoto, Yuki;Arie, Takayuki;Akita, Seiji;Takei, Kuniharu;
2:12:153 Stretching-Induced Growth of PEDOT-Rich Cores: A New Mechanism for Strain-Dependent Resistivity Change in PEDOT:PSS Films
DOI:10.1002/adfm.201203670 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:8 AU: Lee, Yoo-Yong;Lee, Ji-Hoon;Cho, Ju-Young;Kim, Na-Rae;Nam, Dae-Hyun;Choi, In-Suk;Nam, Ki Tae;Joo, Young-Chang;
2:12:154 Tunable Flexible Pressure Sensors using Microstructured Elastomer Geometries for Intuitive Electronics
DOI:10.1002/adfm.201400712 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Tee, Benjamin C. -K.;Chortos, Alex;Dunn, Roger R.;Schwartz, Gregory;Eason, Eric;Bao, Zhenan;
2:12:155 Wearable, Human-Interactive, Health-Monitoring, Wireless Devices Fabricated by Macroscale Printing Techniques
DOI:10.1002/adfm.201303874 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:16 AU: Honda, Wataru;Harada, Shingo;Arie, Takayuki;Akita, Seiji;Takei, Kuniharu;
2:12:156 Flexible Wireless Temperature Sensors Based on Ni Microparticle-Filled Binary Polymer Composites
DOI:10.1002/adma.201204082 JN:ADVANCED MATERIALS PY:2013 TC:20 AU: Jeon, Jin;Lee, Han-Bo-Ram;Bao, Zhenan;
2:12:157 Polymer-Waveguide-Based Flexible Tactile Sensor Array for Dynamic Response
DOI:10.1002/adma.201305850 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Yun, Sungryul;Park, Suntak;Park, Bongje;Kim, Youngsung;Park, Seung Koo;Nam, Saekwang;Kyung, Ki-Uk;
2:12:158 Highly flexible, hybrid-structured indium tin oxides for transparent electrodes on polymer substrates
DOI:10.1063/1.4812187 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Triambulo, Ross E.;Kim, Jung-Hoon;Na, Min-Young;Chang, Hye-Jung;Park, Jin-Woo;
2:12:159 Elastomeric substrates with embedded stiff platforms for stretchable electronics
DOI:10.1063/1.4799653 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Romeo, Alessia;Liu, Qihan;Suo, Zhigang;Lacour, Stephanie P.;
2:12:160 Inkjet-printed stretchable single-walled carbon nanotube electrodes with excellent mechanical properties
DOI:10.1063/1.4868633 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Kim, Taehoon;Song, Hyunsoo;Ha, Jaeheung;Kim, Sangwoo;Kim, Donghyun;Chung, Seungjun;Lee, Jaemyon;Hong, Yongtaek;
2:12:161 Topographies of plasma-hardened surfaces of poly(dimethylsiloxane)
DOI:10.1063/1.3482020 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Goerrn, Patrick;Wagner, Sigurd;
2:12:162 Electrical, morphological, and electromagnetic interference shielding properties of silver nanowires and nanoparticles conductive composites
DOI:10.1016/j.matchemphys.2012.05.024 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:12 AU: Yu, Yi-Hsiuan;Ma, Chen-Chi M.;Teng, Chih-Chun;Huang, Yuan-Li;Lee, Shie-Heng;Wang, Ikai;Wei, Ming-Hsiung;
2:12:163 LEGO-like assembly of peelable, deformable components for integrated devices
DOI:10.1038/am.2013.51 JN:NPG ASIA MATERIALS PY:2013 TC:4 AU: Lee, Sangkyu;Ha, Jaehwan;Jo, Sungjin;Choi, Junghyun;Song, Taeseup;Il Park, Won;Rogers, John A.;Paik, Ungyu;
2:12:164 An Effective Lift-Off Method for Patterning High-Density Gold Interconnects on an Elastomeric Substrate
DOI:10.1002/smll.201001456 JN:SMALL PY:2010 TC:12 AU: Guo, Liang;DeWeerth, Stephen P.;
2:12:165 Materials and Designs for Wireless Epidermal Sensors of Hydration and Strain
DOI:10.1002/adfm.201303886 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:19 AU: Huang, Xian;Liu, Yuhao;Cheng, Huanyu;Shin, Woo-Jung;Fan, Jonathan A.;Liu, Zhuangjian;Lu, Ching-Jui;Kong, Gil-Woo;Chen, Kaile;Patnaik, Dwipayan;Lee, Sang-Heon;Hage-Ali, Sami;Huang, Yonggang;Rogers, John A.;
2:12:166 Mechanical Cycling Stability of Organic Thin Film Transistors on Shape Memory Polymers
DOI:10.1002/adma.201203976 JN:ADVANCED MATERIALS PY:2013 TC:4 AU: Avendano-Bolivar, Adrian;Ware, Taylor;Arreaga-Salas, David;Simon, Dustin;Voit, Walter;
2:12:167 Mechanically Adaptive Organic Transistors for Implantable Electronics
DOI:10.1002/adma.201400420 JN:ADVANCED MATERIALS PY:2014 TC:10 AU: Reeder, Jonathan;Kaltenbrunner, Martin;Ware, Taylor;Arreaga-Salas, David;Avendano-Bolivar, Adrian;Yokota, Tomoyuki;Inoue, Yusuke;Sekino, Masaki;Voit, Walter;Sekitani, Tsuyoshi;Someya, Takao;
2:12:168 Stretchable Optoelectronic Circuits Embedded in a Polymer Network
DOI:10.1002/adma.201304447 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Ruh, Dominic;Reith, Patrick;Sherman, Stanislav;Theodor, Michael;Ruhhammer, Johannes;Seifert, Andreas;Zappe, Hans;
2:12:169 Carbon nanotube film piezoresistors embedded in polymer membranes
DOI:10.1063/1.3272686 JN:APPLIED PHYSICS LETTERS PY:2010 TC:16 AU: Lee, Kangwon;Lee, Seung S.;Lee, Jung A.;Lee, Kwang-Cheol;Ji, Seungmuk;
2:12:170 In situ studies of strain dependent transport properties of conducting polymers on elastomeric substrates
DOI:10.1063/1.3580514 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Vijay, Venugopalan;Rao, Arun D.;Narayan, K. S.;
2:12:171 Assembly and Densification of Nanowire Arrays via Shrinkage
DOI:10.1021/nl500709p JN:NANO LETTERS PY:2014 TC:1 AU: Bang, Jaehoon;Choi, Jonghyun;Xia, Fan;Kwon, Sun Sang;Ashraf, Ali;Park, Won Il;Nam, SungWoo;
2:12:172 Microflotronics: A Flexible, Transparent, Pressure-Sensitive Microfluidic Film
DOI:10.1002/adfm.201401527 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Li, Ruya;Nie, Baoqing;Digiglio, Philip;Pan, Tingrui;
2:12:173 Negatively Strain-Dependent Electrical Resistance of Magnetically Arranged Nickel Composites: Application to Highly Stretchable Electrodes and Stretchable Lighting Devices
DOI:10.1002/adma.201304686 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Kim, Sangwoo;Byun, Junghwan;Choi, Seongdae;Kim, Donghyun;Kim, Taehoon;Chung, Seungjun;Hong, Yongtaek;
2:12:174 Highly compliant transparent electrodes
DOI:10.1063/1.4742889 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Shian, Samuel;Diebold, Roger M.;McNamara, Alena;Clarke, David R.;
2:12:175 Extremely robust and conformable capacitive pressure sensors based on flexible polyurethane foams and stretchable metallization
DOI:10.1063/1.4832416 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Vandeparre, H.;Watson, D.;Lacour, S. P.;
2:12:176 A thin all-elastomeric capacitive pressure sensor array based on micro-contact printed elastic conductors
DOI:10.1039/c4tc00392f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Woo, Su-Jeong;Kong, Jeong-Ho;Kim, Dae-Gon;Kim, Jong-Man;
2:12:177 Controlled Morphology of Thin Film Silicon Integrated with Environmentally Responsive Hydrogels
DOI:10.1021/la401267u JN:LANGMUIR PY:2013 TC:1 AU: Chatterjee, Prithwish;Pan, Yuping;Stevens, Eric C.;Ma, Teng;Jiang, Hanqing;Dai, Lenore L.;
2:12:178 Flexible conductive films fabricated by evaporation on partially cured polydimethyl-siloxane
DOI:10.1016/j.matlet.2013.10.038 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Garcia-Gallegos, J. H.;Nieto-Navarro, J. G.;Araujo-Palomo, E. E.;Zamora-Antunano, M. A.;Olivares-Ramirez, J. M.;Encinas, A.;
2:12:179 Conductivity enhancement of stretchable PEDOT:PSS nanowire interconnect fabricated by fountain-pen lithography
DOI:10.1016/j.matchemphys.2014.06.075 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Kim, Jung Hyun;Chang, Won Suk;Kim, Daeho;Cho, Sung Ho;Seol, Seung Kwon;
2:12:180 Carbon nanotube based pressure sensor for flexible electronics
DOI:10.1016/j.materresbull.2013.07.022 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:4 AU: So, Hye-Mi;Sim, Jin Woo;Kwon, Jinhyeong;Yun, Jongju;Baik, Seunghyun;Chang, Won Seok;
2:12:181 Size-dependent rupture strain of elastically stretchable metal conductors
DOI:10.1016/j.scriptamat.2012.02.034 JN:SCRIPTA MATERIALIA PY:2012 TC:6 AU: Graudejus, O.;Jia, Zheng;Li, Teng;Wagner, S.;
2:12:182 Fracture toughness measurement of ultra-thin hard films deposited on a polymer interlayer
DOI:10.1016/j.tsf.2013.10.052 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Favache, Audrey;Libralesso, Laure;Jacques, Pascal J.;Raskin, Jean-Pierre;Bailly, Christian;Nysten, Bernard;Pardoen, Thomas;
2:12:183 Capacitive Epidermal Electronics for Electrically Safe, Long-Term Electrophysiological Measurements
DOI:10.1002/adhm.201300334 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:12 AU: Jeong, Jae-Woong;Kim, Min Ku;Cheng, Huanyu;Yeo, Woon-Hong;Huang, Xian;Liu, Yuhao;Zhang, Yihui;Huang, Yonggang;Rogers, John A.;
2:12:184 Stretchability of encapsulated electronics
DOI:10.1063/1.3624848 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Wu, J.;Liu, Z. J.;Song, J.;Huang, Y.;Hwang, K. -C.;Zhang, Y. W.;Rogers, J. A.;
2:12:185 Modeling the electrical resistance of gold film conductors on uniaxially stretched elastomeric substrates
DOI:10.1063/1.3594240 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Cao, Wenzhe;Goerrn, Patrick;Wagner, Sigurd;
2:12:186 Enhanced transmittance, mechanical durability, and anti-fingerprinting qualities of silver nanoparticles deposited onto glass substrates
DOI:10.1016/j.jallcom.2014.03.019 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Heo, So-Young;Park, Byeong-Ju;Jeong, Jong-Ryul;Yoon, Soon-Gil;
2:12:187 Adhesion and cyclic stretching of Au thin film on poly(dimethyl-siloxane) for stretchable electronics
DOI:10.1063/1.3510488 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Akogwu, Onobu;Kwabi, David;Munhutu, Auxillia;Tong, Tiffany;Soboyejo, W. O.;
2:12:188 Creep of electrical resistance under uniaxial pressures for carbon black-silicone rubber composite
DOI:10.1007/s10853-010-4405-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:5 AU: Wang, Peng;Ding, Tianhuai;
2:12:189 Materials for semiconductor devices that can bend, fold, twist, and stretch
DOI:10.1557/mrs.2014.102 JN:MRS BULLETIN PY:2014 TC:3 AU: Rogers, John A.;
2:12:190 Stretchable, Wireless Sensors and Functional Substrates for Epidermal Characterization of Sweat
DOI:10.1002/smll.201400483 JN:SMALL PY:2014 TC:6 AU: Huang, Xian;Liu, Yuhao;Chen, Kaile;Shin, Woo-Jung;Lu, Ching-Jui;Kong, Gil-Woo;Patnaik, Dwipayan;Lee, Sang-Heon;Cortes, Jonathan Fajardo;Rogers, John A.;
2:12:191 Buckling of an elastic rod embedded on an elastomeric matrix: planar vs. non-planar configurations
DOI:10.1039/c4sm00952e JN:SOFT MATTER PY:2014 TC:0 AU: Su, Tianxiang;Liu, Jia;Terwagne, Denis;Reis, Pedro M.;Bertoldi, Katia;
2:12:192 Elastomeric conducting polymer nano-composites derived from ionic liquid polymer stabilized-poly(3,4-ethylenedioxythiophene)
DOI:10.1016/j.synthmet.2010.02.032 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Kwon, Soon Jae;Kim, Tae Young;Lee, Bong Seok;Lee, Tae Hee;Kim, Jong Eun;Suh, Kwang S.;
2:12:193 Strain-Gated Piezotronic Transistors Based on Vertical Zinc Oxide Nanowires (vol 6, pg 3760, 2012)
DOI:10.1021/nn3022124 JN:ACS NANO PY:2012 TC:3 AU: Han, Weihua;Zhou, Yusheng;Zhang, Yan;Chen, Cheng-Ying;Lin, Long;Wang, Xue;Wang, Sihong;Wang, Zhong Lin;
2:12:194 Development of a versatile capacitive tactile sensor based on transparent flexible materials integrating an excellent sensitivity and a high resolution
DOI:10.1063/1.4706011 JN:AIP ADVANCES PY:2012 TC:2 AU: Zhang, H. Z.;Tang, Q. Y.;Chan, Y. C.;
2:12:195 Conduction Through Viscoelastic Phase in a Redox-Active Ionic Liquid at Reduced Temperatures
DOI:10.1002/adma.201104230 JN:ADVANCED MATERIALS PY:2012 TC:5 AU: Thorsmolle, Verner K.;Topgaard, Daniel;Brauer, Jan C.;Zakeeruddin, Shaik M.;Lindman, Bjoern;Graetzel, Michael;Moser, Jacques-E.;
2:12:196 Optical touch screen based on waveguide sensing
DOI:10.1063/1.3615656 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Pedersen, Henrik C.;Jakobsen, Michael L.;Hanson, Steen G.;Mosgaard, Morten;Iversen, Theis;Korsgaard, Jorgen;
2:12:197 Conformable large-area position-sensitive photodetectors based on luminescence-collecting silicone waveguides
DOI:10.1063/1.3431394 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Bartu, Petr;Koeppe, Robert;Arnold, Nikita;Neulinger, Anton;Fallon, Lisa;Bauer, Siegfried;
2:12:198 Modelling the effect of temperature on crack onset strain of brittle coatings on polymer substrates
DOI:10.1016/j.tsf.2011.02.029 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Waller, J. H.;Lalande, L.;Leterrier, Y.;Manson, J. -A. E.;
2:12:199 Torsion-Sensing Material from Aligned Carbon Nanotubes Wound onto a Rod Demonstrating Wide Dynamic Range
DOI:10.1021/nn305593k JN:ACS NANO PY:2013 TC:1 AU: Yamada, Takeo;Yamamoto, Yuki;Hayamizu, Yuhei;Sekiguchi, Atsuko;Tanaka, Hiroyuki;Kobashi, Kazufumi;Futaba, Don N.;Hata, Kenji;
2:12:200 High-Density, Stretchable, All-Solid-State Microsupercapacitor Arrays (vol 8, pg 8844, 2014)
DOI:10.1021/nn506339e JN:ACS NANO PY:2014 TC:0 AU: Hong, Soo Yeong;Yoon, Jangyeol;Jin, Sang Woo;Lim, Yein;Lee, Seung-Jung;Zi, Goangseup;Ha, Jeong Sook;
2:12:201 Feasibility on a piezoresistive tactile normal force sensor array
DOI:10.1007/s00339-014-8491-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Yue, Shichao;Moussa, Walied A.;Williston, L. Richard;
2:12:202 Printable sensors for explosive detonation
DOI:10.1063/1.4897140 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Griffith, Matthew J.;Cooling, Nathan A.;Elkington, Daniel C.;Muller, Elmar;Belcher, Warwick J.;Dastoor, Paul C.;
2:12:203 Nanochannel fabrication by imprinting-induced cracks
DOI:10.1063/1.4866155 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Xia, Liangping;Zhang, Man;Yang, Zheng;Cui, Hongliang;Yin, Shaoyun;Hu, Song;Du, Chunlei;
2:12:204 Multi-scale integrated modelling for high performance flexible materials
DOI:10.1016/j.commatsci.2012.07.017 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Lin, H.;Ramgulam, R.;Arshad, H.;Clifford, M. J.;Potluri, P.;Long, A. C.;
2:12:205 Thermal conductivity of solid deuterium by the 3 omega method
DOI:10.1063/1.4739285 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Gram, R. Q.;She, A.;Craxton, R. S.;Harding, D. R.;
2:12:206 Coatings on Textiles for Cu(In,Ga)Se-2 Photovoltaic Cell Formation on Textile Carriers: Preparation of Cu(In,Ga)Se-2 Solar Cells on Glass-Fiber Textiles
DOI:10.1002/app.30349 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:1 AU: Knittel, Dierk;Koentges, Marc;Heinemeyer, Frank;Schollmeyer, Eckhard;
2:12:207 Freestanding chemiresistive polymer composite ribbons as high-flux sensors
DOI:10.1002/app.36538 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Benz, Marcel;Patel, Sanjay V.;
2:12:208 Materials for multifunctional balloon catheters with capabilities in cardiac electrophysiological mapping and ablation therapy
DOI:10.1038/NMAT2971 JN:NATURE MATERIALS PY:2011 TC:140 AU: Kim, Dae-Hyeong;Lu, Nanshu;Ghaffari, Roozbeh;Kim, Yun-Soung;Lee, Stephen P.;Xu, Lizhi;Wu, Jian;Kim, Rak-Hwan;Song, Jizhou;Liu, Zhuangjian;Viventi, Jonathan;de Graff, Bassel;Elolampi, Brian;Mansour, Moussa;Slepian, Marvin J.;Hwang, Sukwon;Moss, Joshua D.;Won, Sang-Min;Huang, Younggang;Litt, Brian;Rogers, John A.;
2:12:209 Ultrathin conformal devices for precise and continuous thermal characterization of human skin (vol 12, pg 938, 2013)
DOI:10.1038/NMAT3779 JN:NATURE MATERIALS PY:2013 TC:2 AU: Webb, R. Chad;Bonifas, Andrew P.;Behnaz, Alex;Zhang, Yihui;Yu, Ki Jun;Cheng, Huanyu;Shi, Mingxing;Bian, Zuguang;Liu, Zhuangjian;Kim, Yun-Soung;Yeo, Woon-Hong;Park, Jae Suk;Song, Jizhou;Li, Yuhang;Huang, Yonggang;Gorbach, Alexander M.;Rogers, John A.;
2:12:210 Patterns on a roll: a method of continuous feed nanoprinting
DOI:10.1039/c2sm26516h JN:SOFT MATTER PY:2012 TC:1 AU: Matsumoto, Elisabetta A.;Kamien, Randall D.;
2:13:1 Dual Plasmonic Nanostructures for High Performance Inverted Organic Solar Cells
DOI:10.1002/adma.201200120 JN:ADVANCED MATERIALS PY:2012 TC:345 AU: Li, Xuanhua;Choy, Wallace C. H.;Huo, Lijun;Xie, Fengxian;Sha, Wei E. I.;Ding, Baofu;Guo, Xia;Li, Yongfang;Hou, Jianhui;You, Jingbi;Yang, Yang;
2:13:2 Surface Plasmonic Effects of Metallic Nanoparticles on the Performance of Polymer Bulk Heterojunction Solar Cells
DOI:10.1021/nn102295p JN:ACS NANO PY:2011 TC:331 AU: Wu, Jyh-Lih;Chen, Fang-Chung;Hsiao, Yu-Sheng;Chien, Fan-Ching;Chen, Peilin;Kuo, Chun-Hong;Huang, Michael H.;Hsu, Chain-Shu;
2:13:3 Plasmonic-Enhanced Organic Photovoltaics: Breaking the 10% Efficiency Barrier
DOI:10.1002/adma.201203323 JN:ADVANCED MATERIALS PY:2013 TC:144 AU: Gan, Qiaoqiang;Bartoli, Filbert J.;Kafafi, Zakya H.;
2:13:4 Plasmonic Polymer Tandem Solar Cell
DOI:10.1021/nn202144b JN:ACS NANO PY:2011 TC:182 AU: Yang, Jun;You, Jingbi;Chen, Chun-Chao;Hsu, Wan-Ching;Tan, Hai-ren;Zhang, Xing Wang;Hong, Ziruo;Yang, Yang;
2:13:5 Recent Advances in Transition Metal Complexes and Light-Management Engineering in Organic Optoelectronic Devices
DOI:10.1002/adma.201306133 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Choy, Wallace C. H.;Chan, Wai Kin;Yuan, Yuping;
2:13:6 Plasmon-Enhanced Charge Carrier Generation in Organic Photovoltaic Films Using Silver Nanoprisms
DOI:10.1021/nl100615e JN:NANO LETTERS PY:2010 TC:197 AU: Kulkarni, Abhishek P.;Noone, Kevin M.;Munechika, Keiko;Guyer, Samuel R.;Ginger, David S.;
2:13:7 Efficiency Enhancement of Organic Solar Cells Using Transparent Plasmonic Ag Nanowire Electrodes
DOI:10.1002/adma.201001395 JN:ADVANCED MATERIALS PY:2010 TC:161 AU: Kang, Myung-Gyu;Xu, Ting;Park, Hui Joon;Luo, Xiangang;Guo, L. Jay;
2:13:8 Cooperative Plasmonic Effect of Ag and Au Nanoparticles on Enhancing Performance of Polymer Solar Cells
DOI:10.1021/nl3034398 JN:NANO LETTERS PY:2013 TC:132 AU: Lu, Luyao;Luo, Zhiqiang;Xu, Tao;Yu, Luping;
2:13:9 Optical and electrical properties of efficiency enhanced polymer solar cells with Au nanoparticles in a PEDOT-PSS layer
DOI:10.1039/c1jm12820e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:113 AU: Fung, Dixon D. S.;Qiao, Linfang;Choy, Wallace C. H.;Wang, Chuandao;Sha, Wei E. I.;Xie, Fengxian;He, Sailing;
2:13:10 Enhanced Power Conversion Efficiency in PCDTBT/PC70BM Bulk Heterojunction Photovoltaic Devices with Embedded Silver Nanoparticle Clusters
DOI:10.1002/aenm.201100347 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:136 AU: Wang, Dong Hwan;Park, Keum Hwan;Seo, Jung Hwa;Seifter, Jason;Jeon, Ji Hye;Kim, Jung Kyu;Park, Jong Hyeok;Park, O. Ok;Heeger, Alan J.;
2:13:11 Multipositional Silica-Coated Silver Nanoparticles for High-Performance Polymer Solar Cells
DOI:10.1021/nl400730z JN:NANO LETTERS PY:2013 TC:81 AU: Choi, Hyosung;Lee, Jung-Pil;Ko, Seo-Jin;Jung, Jae-Woo;Park, Hyungmin;Yoo, Seungmin;Park, Okji;Jeong, Jong-Ryul;Park, Soojin;Kim, Jin Young;
2:13:12 Design of Transparent Anodes for Resonant Cavity Enhanced Light Harvesting in Organic Solar Cells
DOI:10.1002/adma.201104273 JN:ADVANCED MATERIALS PY:2012 TC:83 AU: Sergeant, Nicholas P.;Hadipour, Afshin;Niesen, Bjoern;Cheyns, David;Heremans, Paul;Peumans, Peter;Rand, Barry P.;
2:13:13 Light-trapping nano-structures in organic photovoltaic cells
DOI:10.1039/c1jm12300a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:47 AU: Ko, Doo-Hyun;Tumbleston, John R.;Gadisa, Abay;Aryal, Mukti;Liu, Yingchi;Lopez, Rene;Samulski, Edward T.;
2:13:14 Optical and electrical effects of gold nanoparticles in the active layer of polymer solar cells
DOI:10.1039/c1jm14150c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:96 AU: Wang, Charlie C. D.;Choy, Wallace C. H.;Duan, Chunhui;Fung, Dixon D. S.;Sha, Wei E. I.;Xie, Feng-Xian;Huang, Fei;Cao, Yong;
2:13:15 Efficiency Enhancement of Organic Solar Cells by Using Shape-Dependent Broadband Plasmonic Absorption in Metallic Nanoparticles
DOI:10.1002/adfm.201202476 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:79 AU: Li, Xuanhua;Choy, Wallace Chik Ho;Lu, Haifei;Sha, Wei E. I.;Ho, Aaron Ho Pui;
2:13:16 High-Efficiency Polymer Solar Cells Achieved by Doping Plasmonic Metallic Nanoparticles into Dual Charge Selecting Interfacial Layers to Enhance Light Trapping
DOI:10.1002/aenm.201200726 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:42 AU: Yang, Xi;Chueh, Chu-Chen;Li, Chang-Zhi;Yip, Hin-Lap;Yin, Peipei;Chen, Hongzheng;Chen, Wen-Chang;Jen, Alex K-Y.;
2:13:17 Silver Nanowire Embedded in P3HT: PCBM for High-Efficiency Hybrid Photovoltaic Device Applications
DOI:10.1021/nn200469d JN:ACS NANO PY:2011 TC:96 AU: Kim, Chul-Hyun;Cha, Sang-Ho;Kim, Sung Chul;Song, Myungkwan;Lee, Jaebeom;Shin, Won Suk;Moon, Sang-Jin;Bahng, Joong Hwan;Kotov, Nicholas A.;Jin, Sung-Ho;
2:13:18 High-Performance Organic Optoelectronic Devices Enhanced by Surface Plasmon Resonance
DOI:10.1002/adma.201103753 JN:ADVANCED MATERIALS PY:2011 TC:60 AU: Heo, Mihee;Cho, Heesook;Jung, Jae-Woo;Jeong, Jong-Ryul;Park, Soojin;Kim, Jin Young;
2:13:19 Large AuAg Alloy Nanoparticles Synthesized in Organic Media Using a One-Pot Reaction: Their Applications for High-Performance Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201200218 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:32 AU: Chen, Hsieh-Chih;Chou, Shang-Wei;Tseng, Wei-Hsuan;Chen, I-Wen P.;Liu, Chi-Chang;Liu, Chun;Liu, Chien-Liang;Chen, Chun-Hsien;Wu, Chih-I;Chou, Pi-Tai;
2:13:20 Performance enhancement of polymer-based solar cells by induced phase-separation with silica particles
DOI:10.1039/c4tc01947d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Shen, Hao;Valadez-Perez, Nestor E.;Guralnick, Brett;Liu, Yun;Mackay, Michael E.;
2:13:21 Surface Plasmon and Scattering-Enhanced Low-Bandgap Polymer Solar Cell by a Metal Grating Back Electrode
DOI:10.1002/aenm.201200108 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:60 AU: You, Jingbi;Li, Xuanhua;Xie, Feng-xian;Sha, Wei E. I.;Kwong, Johnson H. W.;Li, Gang;Choy, Wallace C. H.;Yang, Yang;
2:13:22 Plasmon-enhanced optical absorption and photocurrent in organic bulk heterojunction photovoltaic devices using self-assembled layer of silver nanoparticles
DOI:10.1016/j.solmat.2009.08.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:108 AU: Yoon, Woo-Jun;Jung, Kyung-Young;Liu, Jiwen;Duraisamy, Thirumalai;Revur, Rao;Teixeira, Fernando L.;Sengupta, Suvankar;Berger, Paul R.;
2:13:23 High Performance Organic Photovoltaics with Plasmonic-Coupled Metal Nanoparticle Clusters
DOI:10.1021/nn503508p JN:ACS NANO PY:2014 TC:8 AU: Park, Hyung Il;Lee, Seunghoon;Lee, Ju Min;Nam, Soo Ah;Jeon, Taewoo;Han, Sang Woo;Kim, Sang Ouk;
2:13:24 Enhancement of optical absorption in thin-film organic solar cells through the excitation of plasmonic modes in metallic gratings
DOI:10.1063/1.3377791 JN:APPLIED PHYSICS LETTERS PY:2010 TC:103 AU: Min, Changjun;Li, Jennifer;Veronis, Georgios;Lee, Jung-Yong;Fan, Shanhui;Peumans, Peter;
2:13:25 Texture design of electrodes for efficiency enhancement of organic solar cells
DOI:10.1039/c2ta00687a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Li, Junjie;Zuo, Lijian;Pan, Hongbin;Jiang, Hao;Liang, Tao;Shi, Ye;Chen, Hongzheng;Xu, Mingsheng;
2:13:26 Improving the efficiency of polymer solar cells by incorporating gold nanoparticles into all polymer layers
DOI:10.1063/1.3650707 JN:APPLIED PHYSICS LETTERS PY:2011 TC:60 AU: Xie, Feng-Xian;Choy, Wallace C. H.;Wang, Charlie C. D.;Sha, Wei E. I.;Fung, Dixon D. S.;
2:13:27 Surface Plasmon Enhanced Organic Solar Cells with a MoO3 Buffer Layer
DOI:10.1021/am404441n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Su, Zisheng;Wang, Lidan;Li, Yantao;Zhang, Guang;Zhao, Haifeng;Yang, Haigui;Ma, Yuejia;Chu, Bei;Li, Wenlian;
2:13:28 On Realizing Higher Efficiency Polymer Solar Cells Using a Textured Substrate Platform
DOI:10.1002/adma.201002898 JN:ADVANCED MATERIALS PY:2011 TC:54 AU: Nalwa, Kanwar S.;Park, Joong-Mok;Ho, Kai-Ming;Chaudhary, Sumit;
2:13:29 Au nanoparticles on ultrathin MoS2 sheets for plasmonic organic solar cells
DOI:10.1039/c4ta03178d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:14 AU: Yang, Xi;Liu, Wenqing;Xiong, Min;Zhang, Yingying;Liang, Tao;Yang, Jingting;Xu, Mingsheng;Ye, Jian;Chen, Hongzheng;
2:13:30 Elucidating the Localized Plasmonic Enhancement Effects from a Single Ag Nanowire in Organic Solar Cells
DOI:10.1021/nn505020e JN:ACS NANO PY:2014 TC:6 AU: Liu, Xinfeng;Wu, Bo;Zhang, Qing;Yip, Jing Ngei;Yu, Guannan;Xiong, Qihua;Mathews, Nripan;Sum, Tze Chien;
2:13:31 Au@Ag Core-Shell Nanocubes for Efficient Plasmonic Light Scattering Effect in Low Bandgap Organic Solar Cells
DOI:10.1021/nn500222q JN:ACS NANO PY:2014 TC:34 AU: Baek, Se-Woong;Park, Garam;Noh, Jonghyeon;Cho, Changsoon;Lee, Chun-Ho;Seo, Min-Kyo;Song, Hyunjoon;Lee, Jung-Yong;
2:13:32 Exciton Dissociation and Charge-Transport Enhancement in Organic Solar Cells with Quantum-Dot/N-doped CNT Hybrid Nanomaterials
DOI:10.1002/adma.201204454 JN:ADVANCED MATERIALS PY:2013 TC:35 AU: Lee, Ju Min;Kwon, Byoung-Hwa;Park, Hyung Il;Kim, Hoyeon;Kim, Min Gyu;Park, Ji Sun;Kim, E. Su;Yoo, Seunghyup;Jeon, Duk Young;Kim, Sang Ouk;
2:13:33 Optical Engineering of Uniformly Decorated Graphene Oxide Nanoflakes via in Situ Growth of Silver Nanoparticles with Enhanced Plasmonic Resonance
DOI:10.1021/am505916q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Yuan, Kai;Chen, Lie;Chen, Yiwang;
2:13:34 Au@Polymer Core-Shell Nanoparticles for Simultaneously Enhancing Efficiency and Ambient Stability of Organic Optoelectronic Devices
DOI:10.1021/am504503q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Kim, Taesu;Kang, Hyunbum;Jeong, Seonju;Kang, Dong Jin;Lee, Changyeon;Lee, Chun-Ho;Seo, Min-Kyo;Lee, Jung-Yong;Kim, Bumjoon J.;
2:13:35 Plasmon-Enhanced Polymer Photovoltaic Device Performance Using Different Patterned Ag/PVP Electrospun Nanofibers
DOI:10.1002/aenm.201301665 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Chen, Jung-Yao;Wu, Hung-Chin;Chiu, Yu-Cheng;Chen, Wen-Chang;
2:13:36 Plasmonic Electrically Functionalized TiO2 for High-Performance Organic Solar Cells
DOI:10.1002/adfm.201203776 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:35 AU: Zhang, Di;Choy, Wallace C. H.;Xie, Fengxian;Sha, Wei E. I.;Li, Xinchen;Ding, Baofu;Zhang, Kai;Huang, Fei;Cao, Yong;
2:13:37 Plasmonic silver nanoparticles for improved organic solar cells
DOI:10.1016/j.solmat.2012.05.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:61 AU: Kalfagiannis, N.;Karagiannidis, P. G.;Pitsalidis, C.;Panagiotopoulos, N. T.;Gravalidis, C.;Kassavetis, S.;Patsalas, P.;Logothetidis, S.;
2:13:38 Plasmonic Efficiency Enhancement of High Performance Organic Solar Cells with a Nanostructured Rear Electrode
DOI:10.1002/aenm.201200289 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:31 AU: Niesen, Bjoern;Rand, Barry P.;Van Dorpe, Pol;Cheyns, David;Tong, Lianming;Dmitriev, Alexandre;Heremans, Paul;
2:13:39 Realizing the Potential of ZnO with Alternative Non-Metallic Co-Dopants as Electrode Materials for Small Molecule Optoelectronic Devices
DOI:10.1002/adfm.201202799 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:13 AU: Kim, Yong Hyun;Kim, Jin Soo;Kim, Won Mok;Seong, Tae-Yeon;Lee, Jonghee;Mueller-Meskamp, Lars;Leo, Karl;
2:13:40 Charge-carrier dynamics in hybrid plasmonic organic solar cells with Ag nanoparticles
DOI:10.1063/1.3601742 JN:APPLIED PHYSICS LETTERS PY:2011 TC:43 AU: Xue, Mei;Li, Lu;de Villers, Bertrand J. Tremolet;Shen, Huajun;Zhu, Jinfeng;Yu, Zhibin;Stieg, Adam Z.;Pei, Qibing;Schwartz, Benjamin J.;Wang, Kang L.;
2:13:41 Surface plasmon assisted high performance top-illuminated polymer solar cells with nanostructured Ag rear electrodes
DOI:10.1039/c3ta15083f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: An, Cheng Jin;Yoo, Hae-Wook;Cho, Changsoon;Park, Jong-Min;Choi, Jong Kil;Jin, Ming Liang;Lee, Jung-Yong;Jung, Hee-Tae;
2:13:42 Electron Accumulation on Metal Nanoparticles in Plasmon-Enhanced Organic Solar Cells
DOI:10.1021/nn303725v JN:ACS NANO PY:2012 TC:34 AU: Salvador, Michael;MacLeod, Bradley A.;Hess, Angela;Kulkarni, Abhishek P.;Munechika, Keiko;Chen, Jennifer I. L.;Ginger, David S.;
2:13:43 A General Route to Enhance Polymer Solar Cell Performance using Plasmonic Nanoprisms
DOI:10.1002/aenm.201400206 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:15 AU: Yao, Kai;Salvador, Michael;Chueh, Chu-Chen;Xin, Xu-Kai;Xu, Yun-Xiang;deQuilettes, Dane W.;Hu, Ting;Chen, Yiwang;Ginger, David S.;Jen, Alex K-Y;
2:13:44 High-Efficiency Inverted Polymer Photovoltaics via Spectrally Tuned Absorption Enhancement
DOI:10.1002/aenm.201301938 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Loser, Stephen;Valle, Brent;Luck, Kyle A.;Song, Charles K.;Ogien, Gabriel;Hersam, Mark C.;Singer, Kenneth D.;Marks, Tobin J.;
2:13:45 Nanostructured, Active Organic-Metal Junctions for Highly Efficient Charge Generation and Extraction in Polymer-Fullerene Solar Cells
DOI:10.1002/adma.201103896 JN:ADVANCED MATERIALS PY:2012 TC:19 AU: Pandey, Ajay K.;Aljada, Muhsen;Velusamy, Marappan;Burn, Paul L.;Meredith, Paul;
2:13:46 Surface plasmon enhancement of polymer solar cells by penetrating Au/SiO2 core/shell nanoparticles into all organic layers
DOI:10.1016/j.nanoen.2013.03.011 JN:NANO ENERGY PY:2013 TC:14 AU: Chen, Boxue;Zhang, Wenfeng;Zhou, Xinghao;Huang, Xiao;Zhao, Xuemei;Wang, Haitao;Liu, Min;Lu, Yalin;Yang, Shangfeng;
2:13:47 Self-Assembled Monolayer Immobilized Gold Nanoparticles for Plasmonic Effects in Small Molecule Organic Photovoltaic
DOI:10.1021/am3028712 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Chen, Ming-Chung;Yang, Yi-Ling;Chen, Shin-Wen;Li, Jia-Han;Aklilu, Muluken;Tai, Yian;
2:13:48 Enhanced Performance of Organic Thin Film Solar Cells Using Electrodes with Nanoimprinted Light-Diffraction and Light-Diffusion Structures
DOI:10.1021/am405865w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Chen, Jheng-Yuan;Yu, Ming-Hung;Chang, Chih-Yu;Chao, Yi-Hsiang;Sun, Kien Wen;Hsu, Chain-Shu;
2:13:49 Insight into the efficiency enhancement of polymer solar cells by incorporating gold nanoparticles
DOI:10.1016/j.solmat.2012.12.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:26 AU: Chen, Xiaoqiang;Zuo, Lijian;Fu, Weifei;Yan, Quanxiang;Fan, Congcheng;Chen, Hongzheng;
2:13:50 Plasmonic-enhanced polymer solar cells incorporating solution-processable Au nanoparticle-adhered graphene oxide
DOI:10.1039/c2jm31878d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Fan, Guo-Qiang;Zhuo, Qi-Qi;Zhu, Jun-Jun;Xu, Zai-Quan;Cheng, Pan-Pan;Li, Yan-Qing;Sun, Xu-Hui;Lee, Shuit-Tong;Tang, Jian-Xin;
2:13:51 Active Layer-Incorporated, Spectrally Tuned Au/SiO2 Core/Shell Nanorod-Based Light Trapping for Organic Photovoltaics
DOI:10.1021/nn400246q JN:ACS NANO PY:2013 TC:39 AU: Jankovic, Vladan;Yang, Yang (Michael);You, Jingbi;Dou, Letian;Liu, Yongsheng;Cheung, Puilam;Chang, Jane P.;Yang, Yang;
2:13:52 Plasmonic Organic Solar Cells Employing Nanobump Assembly via Aerosol-Derived Nanoparticles
DOI:10.1021/nn500276n JN:ACS NANO PY:2014 TC:16 AU: Jung, Kinam;Song, Hyung-Jun;Lee, Gunhee;Ko, Youngjun;Ahn, KwangJun;Choi, Hoseop;Kim, Jun Young;Ha, Kyungyeon;Song, Jiyun;Lee, Jong-Kwon;Lee, Changhee;Choi, Mansoo;
2:13:53 Light Trapping with Dielectric Scatterers in Single- and Tandem-Junction Organic Solar Cells
DOI:10.1002/aenm.201300524 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:6 AU: Tang, Zheng;Elfwing, Anders;Bergqvist, Jonas;Tress, Wolfgang;Inganas, Olle;
2:13:54 Plasmon-Active Nano-Aperture Window Electrodes for Organic Photovoltaics
DOI:10.1002/aenm.201200502 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:6 AU: Stec, Helena M.;Hatton, Ross A.;
2:13:55 Enhanced Structural Stability and Performance Durability of Bulk Heterojunction Photovoltaic Devices Incorporating Metallic Nanoparticles
DOI:10.1002/adfm.201101047 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:53 AU: Paci, Barbara;Spyropoulos, George D.;Generosi, Amanda;Bailo, Daniele;Albertini, Valerio Rossi;Stratakis, Emmanuel;Kymakis, Emmanuel;
2:13:56 Efficiency Enhancement of Organic Solar Cells by Fabricating Periodic Surface Textures using Direct Laser Interference Patterning
DOI:10.1002/adma.201104331 JN:ADVANCED MATERIALS PY:2012 TC:43 AU: Mueller-Meskamp, Lars;Kim, Yong Hyun;Roch, Teja;Hofmann, Simone;Scholz, Reinhard;Eckardt, Sebastian;Leo, Karl;Lasagni, Andres Fabian;
2:13:57 Performance limits of plasmon-enhanced organic photovoltaics
DOI:10.1063/1.4891365 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Karatay, Durmus U.;Salvador, Michael;Yao, Kai;Jen, Alex K. -Y.;Ginger, David S.;
2:13:58 Gold Nanoparticle-Graphene Oxide Nanocomposites That Enhance the Device Performance of Polymer Solar Cells
DOI:10.1155/2014/736879 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Chuang, Ming-Kai;Chen, Fang-Chung;Hsu, Chain-Shu;
2:13:59 Photocatalytic Synthesis and Photovoltaic Application of Ag-TiO2 Nanorod Composites
DOI:10.1021/nl403430x JN:NANO LETTERS PY:2013 TC:33 AU: Lu, Qipeng;Lu, Zhenda;Lu, Yunzhang;Lv, Longfeng;Ning, Yu;Yu, Hongxia;Hou, Yanbing;Yin, Yadong;
2:13:60 Plasmon enhanced polymer solar cells by spin-coating Au nanoparticles on indium-tin-oxide substrate
DOI:10.1063/1.4754839 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Gao, H. L.;Zhang, X. W.;Yin, Z. G.;Tan, H. R.;Zhang, S. G.;Meng, J. H.;Liu, X.;
2:13:61 Enhancement of short-circuit current density in polymer bulk heterojunction solar cells comprising plasmonic silver nanowires
DOI:10.1063/1.4869760 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Yang, Yuzhao;Lin, Xiaofeng;Qing, Jian;Zhong, Zhenfeng;Ou, Jiemei;Hu, Chenglong;Chen, Xudong;Zhou, Xiang;Chen, Yujie;
2:13:62 Polymeric photovoltaics with various metallic plasmonic nanostructures
DOI:10.1063/1.4790504 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:21 AU: Zeng, Beibei;Gan, Qiaoqiang;Kafafi, Zakya H.;Bartoli, Filbert J.;
2:13:63 Efficiency enhancement of polymer solar cells by localized surface plasmon of Au nanoparticles
DOI:10.1063/1.4827181 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Gao, H. L.;Zhang, X. W.;Yin, Z. G.;Zhang, S. G.;Meng, J. H.;Liu, X.;
2:13:64 Efficiency Increase in Flexible Bulk Heterojunction Solar Cells with a Nano-Patterned Indium Zinc Oxide Anode
DOI:10.1002/aenm.201200349 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:22 AU: Wang, Dong Hwan;Seifter, Jason;Park, Jong Hyeok;Choi, Dae-Geun;Heeger, Alan J.;
2:13:65 Enhanced Light Harvesting in Organic Solar Cells Featuring a Biomimetic Active Layer and a Self-Cleaning Antireflective Coating
DOI:10.1002/aenm.201301777 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:14 AU: Chen, Jing-De;Zhou, Lei;Ou, Qing-Dong;Li, Yan-Qing;Shen, Su;Lee, Shuit-Tong;Tang, Jian-Xin;
2:13:66 Polarization-independent efficiency enhancement of organic solar cells by using 3-dimensional plasmonic electrode
DOI:10.1063/1.4802261 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Li, Xuanhua;Choy, Wallace C. H.;Ren, Xingang;Xin, Jianzhuo;Lin, Peng;Leung, Dennis C. W.;
2:13:67 Balance between light trapping and charge carrier collection: Electro-photonic optimization of organic photovoltaics with ridge-patterned back electrodes
DOI:10.1063/1.4812235 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Liu, Yingchi;Tippets, Cary A.;Kirsch, Christoph;Mitran, Sorin;Samulski, Edward T.;Lopez, Rene;
2:13:68 Plasmonic backscattering enhancement for inverted polymer solar cells
DOI:10.1039/c2jm34856j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Cheng, Pan-Pan;Ma, Guo-Fu;Li, Jian;Xiao, Yan;Xu, Zai-Quan;Fan, Guo-Qiang;Li, Yan-Qing;Lee, Shuit-Tong;Tang, Jian-Xin;
2:13:69 Plasmonic effects for light concentration in organic photovoltaic thin films induced by hexagonal periodic metallic nanospheres
DOI:10.1063/1.3577611 JN:APPLIED PHYSICS LETTERS PY:2011 TC:36 AU: Zhu, Jinfeng;Xue, Mei;Shen, Huajun;Wu, Zhe;Kim, Seongku;Ho, Jyh-Jier;Hassani-Afshar, Aram;Zeng, Baoqing;Wang, Kang L.;
2:13:70 Organic bulk heterojunction photovoltaic devices with surfactant-free Au nanoparticles embedded in the active layer
DOI:10.1063/1.4720510 JN:APPLIED PHYSICS LETTERS PY:2012 TC:24 AU: Spyropoulos, George D.;Stylianakis, Minas M.;Stratakis, Emmanuel;Kymakis, Emmanuel;
2:13:71 Novel Architecture of Plasmon Excitation Based on Self-Assembled Nanoparticle Arrays for Photovoltaics
DOI:10.1021/am4045585 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Jo, Hanggochnuri;Sohn, Ahrum;Shin, Kyung-Sik;Kumar, Brijesh;Kim, Jae Hyun;Kim, Dong-Wook;Kim, Sang-Woo;
2:13:72 Oligothiophene-modified silver/silica core-shell nanoparticles for inhibiting open-circuit voltage drop and aggregation in polymer solar cells
DOI:10.1039/c4ta02763a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Lee, Woochul;Lim, Joohyun;Lee, Jin-Kyu;Hong, Jong-In;
2:13:73 Plasmon-Polaron Coupling in Conjugated Polymer on Infrared Nanoantennas
DOI:10.1021/acs.nanolett.5b01760 JN:NANO LETTERS PY:2015 TC:0 AU: Wang, Zilong;Zhao, Jun;Frank, Bettina;Ran, Qiandong;Adamo, Giorgio;Giessen, Harald;Soci, Cesare;
2:13:74 Paper-Based Anti-Reflection Coatings for Photovoltaics
DOI:10.1002/aenm.201301804 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Ha, Dongheon;Fang, Zhiqiang;Hu, Liangbing;Munday, Jeremy N.;
2:13:75 Plasmonic-enhanced performance for polymer solar cells prepared with inverted structures
DOI:10.1063/1.4766736 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Kao, Chuan-Sheng;Chen, Fang-Chung;Liao, Ching-Wen;Huang, Michael H.;Hsu, Chain-Shu;
2:13:76 Broadband absorption enhancement of organic solar cells with interstitial lattice patterned metal nanoparticles
DOI:10.1063/1.4812517 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Chen, Luzhou;Choy, Wallace C. H.;Sha, Wei E. I.;
2:13:77 Plasmon Resonance Enhanced Optical Absorption in Inverted Polymer/Fullerene Solar Cells with Metal Nanoparticle-Doped Solution-Processable TiO2 Layer
DOI:10.1021/am4001979 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:25 AU: Xu, Mei-Feng;Zhu, Xiao-Zhao;Shi, Xiao-Bo;Liang, Jian;Jin, Yue;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:13:78 Enhanced Performance of PTB7:PC71BM Solar Cells via Different Morphologies of Gold Nanoparticles
DOI:10.1021/am504250w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Ng, Annie;Yiu, Wai Kin;Foo, Yishu;Shen, Qian;Bejaoui, Amina;Zhao, Yiying;Gokkaya, Huseyin Cem;Djurisic, Aleksandra B.;Zapien, Juan Antonio;Chan, Wai Kin;Surya, Charles;
2:13:79 High efficiency P3HT:PCBM solar cells with an inserted PCBM Layer
DOI:10.1039/c4tc00003j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Chi, Dan;Qu, Shengchun;Wang, Zhanguo;Wang, Jizheng;
2:13:80 Evidences of plasmonic effect in an organic-inorganic hybrid photovoltaic device using flower-like ZnO@ Au nanoparticles
DOI:10.1007/s11051-014-2637-2 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:0 AU: Pan, Tong-Sheng;Sharma, Jadab;Chu, Chih-Chien;Tai, Yian;
2:13:81 Enhanced performance of polymer solar cells with a monolayer of assembled gold nanoparticle films fabricated by Langmuir-Blodgett technique
DOI:10.1016/j.mseb.2012.10.024 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:9 AU: Chen, Xiaoqiang;Yang, Xi;Fu, Weifei;Xu, Mingsheng;Chen, Hongzheng;
2:13:82 Light-trapping plasmonic nanovoid arrays
DOI:10.1103/PhysRevB.85.035301 JN:PHYSICAL REVIEW B PY:2012 TC:14 AU: Dunbar, Ricky B.;Hesse, Holger C.;Lembke, Dominik S.;Schmidt-Mende, Lukas;
2:13:83 Photocurrent Enhancement of HgTe Quantum Dot Photodiodes by Plasmonic Gold Nano rod Structures
DOI:10.1021/nn502510u JN:ACS NANO PY:2014 TC:4 AU: Chen, Mengyu;Shao, Lei;Kershaw, Stephen V.;Yu, Hui;Wang, Jianfang;Rogach, Andrey L.;Zhao, Ni;
2:13:84 Ultrathin organic bulk heterojunction solar cells: Plasmon enhanced performance using Au nanoparticles
DOI:10.1063/1.4739519 JN:APPLIED PHYSICS LETTERS PY:2012 TC:19 AU: Shahin, Shiva;Gangopadhyay, Palash;Norwood, Robert A.;
2:13:85 Efficient polymer solar cells based on light-trapping transparent electrodes
DOI:10.1063/1.3691906 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Hu, Ziyang;Zhang, Jianjun;Zhao, Ying;
2:13:86 Solution-Processed Nanocomposites Containing Molybdenum Oxide and Gold Nanoparticles as Anode Buffer Layers in Plasmonic-Enhanced Organic Photovoltaic Devices
DOI:10.1021/am403374p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Tan, Kim-Shih;Chuang, Ming-Kai;Chen, Fang-Chung;Hsu, Chain-Shu;
2:13:87 Enhanced Performance of Semitransparent Inverted Organic Photovoltaic Devices via a High Reflector Structure
DOI:10.1021/am402872u JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Zhang, Dan-Dan;Jiang, Xiao-Chen;Wang, Rong;Xie, Hao-Jun;Ma, Guo-Fu;Ou, Qing-Dong;Chen, Yuan-Li;Li, Yan-Qing;Tang, Jian-Xin;
2:13:88 Broadband absorption enhancement via light trapping in periodically patterned polymeric solar cells
DOI:10.1063/1.4812324 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Rumbak, Ma'ayan;Visoly-Fisher, Iris;Shikler, Rafi;
2:13:89 Intrinsic absorption of plasmonic structures for organic solar cells
DOI:10.1016/j.solmat.2010.12.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:41 AU: Vedraine, Sylvain;Torchio, Philippe;Duche, David;Flory, Francois;Simon, Jean-Jacques;Le Rouzo, Judikael;Escoubas, Ludovic;
2:13:90 Efficient hole collection by introducing ultra-thin UV-ozone treated Au in polymer solar cells
DOI:10.1016/j.solmat.2010.11.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:28 AU: Wang, Chuan-Dao;Choy, Wallace C. H.;
2:13:91 Modifications in Morphology Resulting from Nanoimprinting Bulk Heterojunction Blends for Light Trapping Organic Solar Cell Designs
DOI:10.1021/am402363r JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Tumbleston, John R.;Gadisa, Abay;Liu, Yingchi;Collins, Brian A.;Samulski, Edward T.;Lopez, Rene;Ade, Harald;
2:13:92 P3HT-Based Nanoarchitectural Fano Solar Cells
DOI:10.1021/am504740n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Liao, Wen-Pin;Su, Yen-Hsun;Huang, Yun-Kai;Yeh, Chen-Sheng;Huang, Li-Wen;Wu, Jih-Jen;
2:13:93 Enhanced charge extraction of polymer solar cell by solution-processable gold nanoparticles
DOI:10.1039/c3tc30956h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Khoo, Si Yun;Yang, Hongbin;He, Ziming;Miao, Jianwei;Leong, Kam Chew;Li, Chang Ming;Tan, Timothy Thatt Yang;
2:13:94 Highly Efficient Top-Illuminated Flexible Polymer Solar Cells with a Nanopatterned 3D Microresonant Cavity
DOI:10.1002/smll.201302653 JN:SMALL PY:2014 TC:6 AU: An, Cheng Jin;Cho, Changsoon;Choi, Jong Kil;Park, Jong-Min;Jin, Ming Liang;Lee, Jung-Yong;Jung, Hee-Tae;
2:13:95 Broadband Plasmonic Photocurrent Enhancement in Planar Organic Photovoltaics Embedded in a Metallic Nanocavity
DOI:10.1002/aenm.201301937 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Sykes, Matthew E.;Barito, Adam;Amonoo, Jojo A.;Green, Peter F.;Shtein, Max;
2:13:96 Three-Dimensional Nanostructured Indium-Tin-Oxide Electrodes for Enhanced Performance of Bulk Heterojunction Organic Solar Cells
DOI:10.1002/aenm.201301566 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Kwon, Hyunah;Ham, Juyoung;Kim, Dong Yeong;Oh, Seung Jae;Lee, Subin;Oh, Sang Ho;Schubert, E. Fred;Lim, Kyung-Geun;Lee, Tae-Woo;Kim, Sungjun;Lee, Jong-Lam;Kim, Jong Kyu;
2:13:97 Near-field multiple scattering effects of plasmonic nanospheres embedded into thin-film organic solar cells
DOI:10.1063/1.3638466 JN:APPLIED PHYSICS LETTERS PY:2011 TC:27 AU: Sha, Wei E. I.;Choy, Wallace C. H.;Liu, Yang G.;Chew, Weng Cho;
2:13:98 The role of Ag nanoparticles in inverted polymer solar cells: Surface plasmon resonance and backscattering centers
DOI:10.1063/1.4798553 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Xu, Peng;Shen, Liang;Meng, Fanxu;Zhang, Jiaqi;Xie, Wenfa;Yu, Wenjuan;Guo, Wenbin;Jia, Xu;Ruan, Shengping;
2:13:99 Effect of shell thickness on small-molecule solar cells enhanced by dual plasmonic gold-silica nanorods
DOI:10.1063/1.4896516 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Xu, Xiaoyan;Du, Qingguo;Peng, Bo;Xiong, Qihua;Hong, Lei;Demir, Hilmi Volkan;Wong, Terence K. S.;Kyaw, Aung Ko Ko;Sun, Xiao Wei;
2:13:100 Substantial Performance Improvement in Inverted Polymer Light-Emitting Diodes via Surface Plasmon Resonance Induced Electrode Quenching Control
DOI:10.1021/am5033764 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Wu, Xiaoyan;Liu, Linlin;Choy, Wallace C. H.;Yu, Tiancheng;Cai, Ping;Gu, Yuejiao;Xie, Zengqi;Zhang, Yunan;Du, Luyang;Mo, Yueqi;Xu, Shuping;Ma, Yuguang;
2:13:101 Plasmonic Field Enhancement of the Exciton-Exciton Annihilation Process in a Poly(p-phenyleneethynylene) Fluorescent Polymer by Ag Nanocubes
DOI:10.1021/ja907657j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:31 AU: Mahmoud, Mahmoud A.;Poncheri, Adam J.;Phillips, Ronnie L.;El-Sayed, Mostafa A.;
2:13:102 Plasmonic absorption enhancement in organic solar cells by nano disks in a buffer layer
DOI:10.1063/1.4722349 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Kim, Inho;Jeong, Doo Seok;Lee, Taek Seong;Lee, Wook Seong;Lee, Kyeong-Seok;
2:13:103 Transparent metal electrodes from ordered nanosphere arrays
DOI:10.1063/1.4816790 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:7 AU: Morfa, Anthony J.;Akinoglu, Eser M.;Subbiah, Jegadesan;Giersig, Michael;Mulvaney, Paul;
2:13:104 Influence of metallic and dielectric nanowire arrays on the photoluminescence properties of P3HT thin films
DOI:10.1088/0957-4484/23/30/305402 JN:NANOTECHNOLOGY PY:2012 TC:4 AU: Handloser, M.;Dunbar, R. B.;Wisnet, A.;Altpeter, P.;Scheu, C.;Schmidt-Mende, L.;Hartschuh, A.;
2:13:105 Optical interference for the matching of the external and internal quantum efficiencies in organic photovoltaic cells
DOI:10.1016/j.solmat.2012.04.047 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:17 AU: Betancur, Rafael;Martinez-Otero, Alberto;Elias, Xavier;Romero-Gomez, Pablo;Colodrero, Silvia;Miguez, Hernan;Martorell, Jordi;
2:13:106 Quantification and Validation of the Efficiency Enhancement Reached by Application of a Retroreflective Light Trapping Texture on a Polymer Solar Cell
DOI:10.1002/aenm.201300227 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:6 AU: Esiner, Serkan;Bus, Tom;Wienk, Martijn M.;Hermans, Ko;Janssen, Rene A. J.;
2:13:107 Self-assembled plasmonic electrodes for high-performance organic photovoltaic cells
DOI:10.1063/1.3635385 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Luhman, Wade A.;Lee, Si Hoon;Johnson, Timothy W.;Holmes, Russell J.;Oh, Sang-Hyun;
2:13:108 Light extraction enhancement in organic light-emitting diodes based on localized surface plasmon and light scattering double-effect
DOI:10.1039/c3tc30197d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Gu, Yan;Zhang, Dan-Dan;Ou, Qing-Dong;Deng, Yan-Hong;Zhu, Jun-Jun;Cheng, Liang;Liu, Zhuang;Lee, Shuit-Tong;Li, Yan-Qing;Tang, Jian-Xin;
2:13:109 Enhancement of photoconduction in a conjugated polymer through doping with copper nanoparticles
DOI:10.1016/j.optmat.2011.02.032 JN:OPTICAL MATERIALS PY:2011 TC:9 AU: Szeremeta, Janusz;Nyk, Marcin;Chyla, Antoni;Strek, Wieslaw;Samoc, Marek;
2:13:110 Light harvesting in organic solar cells
DOI:10.1016/j.solmat.2010.12.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:24 AU: Duche, D.;Drouard, E.;Simon, J. J.;Escoubas, L.;Torchio, Ph.;Le Rouzo, J.;Vedraine, S.;
2:13:111 Improvement in power conversion efficiency of organic photovoltaic devices by using excimer ultraviolet-radiation induced mesoporous silica anti-reflection coating
DOI:10.1016/j.tsf.2013.02.078 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Chang, Yi-Ming;Su, Yu-Yang;Leu, Chi-Yi;
2:13:112 Spatial redistribution of the optical field intensity in inverted polymer solar cells
DOI:10.1063/1.3430060 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Chen, Fang-Chung;Wu, Jyh-Lih;Hung, Yi;
2:13:113 Surface plasmon enhanced absorption dynamics of regioregular poly(3-hexylthiophene)
DOI:10.1063/1.3590728 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Wang, Hai;Wang, Hai-Yu;Gao, Bing-Rong;Jiang, Ying;Yang, Zhi-Yong;Hao, Ya-Wei;Chen, Qi-Dai;Du, Xiao-Bo;Sun, Hong-Bo;
2:13:114 Volumetric plasmonic resonator architecture for thin-film solar cells
DOI:10.1063/1.3560446 JN:APPLIED PHYSICS LETTERS PY:2011 TC:29 AU: Sefunc, Mustafa Akin;Okyay, Ali Kemal;Demir, Hilmi Volkan;
2:13:115 Balanced carrier transport in organic solar cells employing embedded indium-tin-oxide nanoelectrodes
DOI:10.1063/1.3556565 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Hsu, Min-Hsiang;Yu, Peichen;Huang, Jen-Hsien;Chang, Chia-Hua;Wu, Chien-Wei;Cheng, Yu-Chih;Chu, Chih-Wei;
2:13:116 Metallic nanomesh electrodes with controllable optical properties for organic solar cells
DOI:10.1063/1.3701582 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Zhu, Jinfeng;Zhu, Xiaodan;Hoekstra, Ryan;Li, Lu;Xiu, Faxian;Xue, Mei;Zeng, Baoqing;Wang, Kang L.;
2:13:117 Performance improvement of inverted polymer solar cells by doping Au nanoparticles into TiO2 cathode buffer layer
DOI:10.1063/1.4840319 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Liu, Shuang;Meng, Fanxu;Xie, Wenfa;Zhang, Zhihui;Shen, Liang;Liu, Chunyu;He, Yeyuan;Guo, Wenbin;Ruan, Shengping;
2:13:118 Thermoelastic investigation of a quartz tuning fork used in infrared spectroscopy
DOI:10.1063/1.4830417 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Spajer, M.;Cavallier, B.;Euphrasie, S.;Matten, G.;Vacheret, X.;Vairac, P.;Vernier, D.;Jalocha, A.;
2:13:119 Grating-Coupled Surface Plasmon Enhanced Short-Circuit Current in Organic Thin-Film Photovoltaic Cells
DOI:10.1021/am200304x JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:30 AU: Baba, Akira;Aoki, Nobutaka;Shinbo, Kazunari;Kato, Keizo;Kaneko, Futao;
2:13:120 High-efficiency solution-processed small-molecule solar cells featuring gold nanoparticles
DOI:10.1039/c4ta03536d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Yusoff, Abd Rashid bin Mohd;Lee, Seung Joo;Jang, Jin;Long, Guankui;Wan, Xiangjian;Chen, Yongsheng;
2:13:121 Plasmonic-enhanced polymer photovoltaic cells based on Au nanoparticles with wide absorption spectra of 300-1000 nm
DOI:10.1039/c4tc01004c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Zhang, Yupei;Hao, Jingyu;Li, Xue;Chen, Shufen;Wang, Lianhui;Li, Xingao;Huang, Wei;
2:13:122 Pulsed laser deposition of a dense and uniform Au nanoparticles layer for surface plasmon enhanced efficiency hybrid solar cells
DOI:10.1007/s11051-013-2017-3 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:7 AU: Resta, Vincenzo;Caricato, Anna Paola;Loiudice, Anna;Rizzo, Aurora;Gigli, Giuseppe;Taurino, Antonietta;Catalano, Massimo;Martino, Maurizio;
2:13:123 Synthesis of silver quantum dots decorated TiO2 nanotubes and their incorporation in organic hybrid solar cells
DOI:10.1007/s11051-013-1844-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:1 AU: Tan, Furui;Qu, Shengchun;Zhang, Xingwang;Liu, Kong;Wang, Zhanguo;
2:13:124 Efficiency enhancement of polymer solar cells by incorporating a self-assembled layer of silver nanodisks
DOI:10.1016/j.solmat.2011.07.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Pei, Jianing;Tao, Jinlong;Zhou, Yinhua;Dong, Qingfeng;Liu, Zhaoyang;Li, Zaifang;Chen, Feipeng;Zhang, Jibo;Xu, Weiqing;Tian, Wenjing;
2:13:125 A study of optical properties enhancement in low-bandgap polymer solar cells with embedded PEDOT:PSS gratings
DOI:10.1016/j.solmat.2011.12.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Zhu, Xiaolong;Choy, Wallace C. H.;Xie, Fengxian;Duan, Chunhui;Wang, Chuandao;He, Wenlei;Huang, Fei;Cao, Yong;
2:13:126 Thickness dependent enhanced efficiency of polymer solar cells with gold nanorods embedded in the photoactive layer
DOI:10.1016/j.solmat.2013.03.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Mahmoud, Alaa Y.;Zhang, Jianming;Ma, Dongling;Izquierdo, Ricardo;Vo-Van Truong;
2:13:127 Performance of hybrid buffer Poly(3,4-ethylenedioxythiophene) poly(styrenesulfonate) layers doped with plasmonic silver nanoparticles
DOI:10.1016/j.tsf.2014.01.032 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Kalfagiannis, N.;Karagiannidis, P. G.;Pitsalidis, C.;Hastas, N.;Panagiotopoulos, N. T.;Patsalas, P.;Logothetidis, S.;
2:13:128 Effects of silver nanoparticles towards the efficiency of organic solar cells
DOI:10.1007/s00339-013-8004-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Hamdan, K. S.;Abdullah, S. M.;Sulaiman, K.;Zakaria, R.;
2:13:129 Optical Tamm states enhanced broad-band absorption of organic solar cells
DOI:10.1063/1.4770316 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Zhang, Xu-Lin;Song, Jun-Feng;Li, Xian-Bin;Feng, Jing;Sun, Hong-Bo;
2:13:130 Combined three-dimensional electromagnetic and device modeling of surface plasmon-enhanced organic solar cells incorporating low aspect ratio silver nanoprisms
DOI:10.1063/1.4827106 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Jiang, Wenjun;Salvador, Michael;Dunham, Scott T.;
2:13:131 Effective and tunable light trapping in bulk heterojunction organic solar cells by employing Au-Ag alloy nanoparticles
DOI:10.1063/1.4898137 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Xu, Ming;Feng, Jing;Liu, Yu-Shan;Jin, Yu;Wang, Hai-Yu;Sun, Hong-Bo;
2:13:132 Integrated optical and electrical modeling of plasmon-enhanced thin film photovoltaics: A case-study on organic devices
DOI:10.1063/1.4896167 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Rourke, Devin;Ahn, Sungmo;Nardes, Alexandre M.;van de Lagemaat, Jao;Kopidakis, Nikos;Park, Wounjhang;
2:13:133 Improvement in photovoltaic performance of anthracene-containing PPE-PPV polymer-based bulk heterojunction solar cells with silver nanoparticles
DOI:10.1007/s11051-014-2298-1 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:3 AU: Tore, Nesrin;Parlak, Elif Alturk;Tumay, Tulay Asli;Kavak, Pelin;Sarioglan, Serife;Bozar, Sinem;Gunes, Serap;Ulbricht, Christoph;Egbe, Daniel Ayuk Mbi;
2:13:134 Optical characterization of organic blend films integrating metallic nanoparticles
DOI:10.1016/j.solmat.2011.11.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Vedraine, Sylvin;Torchio, Philippe;Merlen, Alexandre;Bagierek, Joanna;Flory, Francois;Sangar, Alexandre;Escoubas, Ludovic;
2:13:135 Annealing effects of Au nanoparticles embedded PEDOT:PSS in bulk heterojunction organic solar cells
DOI:10.1016/j.synthmet.2014.03.019 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Kim, Seung Ho;Park, Byung Min;Kim, Gi Ppeum;Yuh, Junhan;Chang, Young Chul;Chang, Ho Jung;
2:13:136 Enhancing light harvesting in organic solar cells with pyramidal rear reflectors
DOI:10.1063/1.3609870 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Cao, Weiran;Myers, Jason D.;Zheng, Ying;Hammond, William T.;Wrzesniewski, Edward;Xue, Jiangeng;
2:13:137 Polarization-diverse light absorption enhancement in organic photovoltaic structures with one-dimensional, long-pitch metallic gratings: Design and experiment
DOI:10.1063/1.4769896 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Liu, Yifen;Dhakal, Rabin;Dalal, Vikram;Kim, Jaeyoun;
2:13:138 The roles of metallic rectangular-grating and planar anodes in the photocarrier generation and transport of organic solar cells
DOI:10.1063/1.4768236 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Sha, Wei E. I.;Choy, Wallace C. H.;Chew, Weng Cho;
2:13:139 Copper nanoparticle incorporated plasmonic organic bulk-heterojunction solar cells
DOI:10.1063/1.4903749 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Zhihai;Lee, Seung Yong;Lee, Eun-Cheol;
2:13:140 Plasmon-enhanced polymer photovoltaic cells based on large aspect ratio gold nanorods and the related working mechanism
DOI:10.1063/1.4880575 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chen, S. F.;Cheng, F.;Mei, Y.;Peng, B.;Kong, M.;Hao, J. Y.;Zhang, R.;Xiong, Q. H.;Wang, L. H.;Huang, W.;
2:13:141 Effect of textured electrodes with light-trapping on performance of polymer solar cells
DOI:10.1063/1.4720083 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Hu, Ziyang;Zhang, Jianjun;Zhao, Ying;
2:13:142 Improved photovoltaic effect of polymer solar cells on planarized 2D photonic crystals
DOI:10.1016/j.solmat.2010.12.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:6 AU: Park, Byoungchoo;Kim, Mina;Lee, Young In;
2:13:143 Effect of nanoparticle stabilizing ligands and ligand-capped gold nanoparticles in polymer solar cells
DOI:10.1016/j.solmat.2011.09.056 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Liu, Hongjun;Goh, Wei-Peng;Leung, Man-Yin;Li, Yuning;Norsten, Tyler B.;
2:13:144 Random and V-groove texturing for efficient light trapping in organic photovoltaic cells
DOI:10.1016/j.solmat.2013.03.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:11 AU: Cho, Changsoon;Kim, Hoyeon;Jeong, Seonju;Baek, Se-Woong;Seo, Ji-Won;Han, Donggeon;Kim, Kyoohyun;Park, YongKeun;Yoo, Seunghyup;Lee, Jung-Yong;
2:13:145 Spatially-Resolved In-Situ Structural Study of Organic Electronic Devices with Nanoscale Resolution: The Plasmonic Photovoltaic Case Study
DOI:10.1002/adma.201301682 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Paci, B.;Bailo, D.;Albertini, V. Rossi;Wright, J.;Ferrero, C.;Spyropoulos, G. D.;Stratakis, E.;Kymakis, E.;
2:13:146 The design of efficient surface-plasmon-enhanced ultra-thin polymer-based solar cells
DOI:10.1063/1.3633349 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Williamson, Adam;McClean, Eadaoin;Leipold, David;Zerulla, Dominic;Runge, Erich;
2:13:147 Optical-electrical simulation of organic solar cells: Influence of light trapping by photonic crystal and ZnO spacer on electrical characteristics
DOI:10.1063/1.4712292 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:9 AU: Vervisch, Wilfried;Riviere, Guillaume;Vedraine, Sylvain;Biondo, Stephane;Torchio, Philippe;Duche, David;Simon, Jean-Jacques;Escoubas, Ludovic;
2:13:148 Insertion of poly(acrylamide) disc-columnar liquid crystals as a functional template in organic photovoltaics
DOI:10.1002/app.35653 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:0 AU: Lee, Chun-Che;Huang, Wen-Yao;
2:13:149 Imprinting localized plasmons for enhanced solar cells
DOI:10.1088/0957-4484/23/38/385202 JN:NANOTECHNOLOGY PY:2012 TC:4 AU: Dunbar, Ricky B.;Pfadler, Thomas;Lal, Niraj N.;Baumberg, Jeremy J.;Schmidt-Mende, Lukas;
2:13:150 Optical, structural, and electrical properties of PEDOT:PSS thin films doped with silver nanoprisms
DOI:10.1364/OME.4.002525 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:0 AU: Cao, Zhixiong;Chen, Zhuoying;Escoubas, Ludovic;
2:13:151 Comb-shaped photonic crystal structure for efficient broadband light diffraction and funnelling in solar cells
DOI:10.1016/j.solmat.2011.12.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:4 AU: Chen, Zhi-Hui;Hellstroem, S.;Yu, Zhong-Yuan;Fu, Y.;
2:13:152 Fabrication and characterization of large metallic nanodots arrays for organic thin film solar cells using anodic aluminum oxide templates
DOI:10.1016/j.solmat.2012.12.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Sangar, Alexandre;Merlen, Alexandre;Torchio, Philippe;Vedraine, Sylvain;Flory, Francois;Escoubas, Ludovic;Patrone, Lionel;Delafosse, Gregory;Chevallier, Virginie;Moyen, Eric;Hanbucken, Margrit;
2:13:153 Efficiency improvement of PCDTBT solar cells with silver nanoparticles
DOI:10.1016/j.solmat.2012.12.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Parlak, Elif Alturk;Tumay, Tulay Asli;Tore, Nesrin;Sarioglan, Serife;Kavak, Pelin;Turksoy, Figen;
2:13:154 Plasmon-enhanced organic solar cells with solution-processed three-dimensional Ag nanosheets
DOI:10.1016/j.solmat.2012.11.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Ma, Chunyu;Qin, Wenjing;Xu, Xinrui;Li, Mingyang;Han, Xuesong;Yang, Liying;Yin, Shougen;Wei, Jun;Zhang, Fengling;
2:13:155 Hole transit in P3HT:PCBM solar cells with embedded gold nanoparticles
DOI:10.1016/j.solmat.2013.10.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Cheng, Cheng-En;Pei, Zingway;Hsu, Chia-Chen;Chang, Chen-Shiung;Chien, Forest Shih-Sen;
2:13:156 Study of efficiency enhancement in layered geometry of excitonic-plasmonic solar cell
DOI:10.1007/s00339-013-8061-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Pathak, Nilesh K.;Ji, Alok;Sharma, R. P.;
2:13:157 Plasmonic concentrators for enhanced light absorption in ultrathin film organic photovoltaics
DOI:10.1063/1.3567543 JN:APPLIED PHYSICS LETTERS PY:2011 TC:21 AU: Ostfeld, A. E.;Pacifici, D.;
2:13:158 Surface-plasmon enhanced absorption in organic solar cells by employing a periodically corrugated metallic electrode
DOI:10.1063/1.4761947 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Jin, Yu;Feng, Jing;Zhang, Xu-Lin;Xu, Ming;Bi, Yan-Gang;Chen, Qi-Dai;Wang, Hai-Yu;Sun, Hong-Bo;
2:13:159 Light trapping with total internal reflection and transparent electrodes in organic photovoltaic devices
DOI:10.1063/1.4759125 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Tvingstedt, Kristofer;Tang, Zheng;Inganas, Olle;
2:13:160 Interaction of two plasmon modes in the organic photovoltaic devices with patterned back-electrode
DOI:10.1063/1.4812242 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Lu, D.;Rengnath, E.;Cui, Y.;Wang, Z.;Ding, Y.;Park, W.;
2:13:161 Degradation of a Thin Ag Layer Induced by Poly(3,4ethylenedioxythiophene):Polystyrene Sulfonate in a Transmission Electron Microscopy Specimen of an Inverted Polymer Solar Cell
DOI:10.1021/am301818z JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:18 AU: Suh, Youngjoon;Lu, Ning;Lee, Sang H.;Chung, Won-Suk;Kim, Kyungkon;Kim, BongSoo;Ko, Min Jae;Kim, Moon J.;
2:13:162 Simulated annealing electro-photonic optimization of organic solar cells
DOI:10.1063/1.4748314 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Kirsch, Christoph;Mitran, Sorin;
2:13:163 Thinking small for solar
DOI:10.1557/mrs.2012.62 JN:MRS BULLETIN PY:2012 TC:9 AU: Wu, Corinna;Murata, Hideyuki;
2:13:164 Nanoimprinting-induced efficiency enhancement in organic solar cells
DOI:10.1063/1.3659471 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Chou, Wei-Yang;Chang, Jay;Yen, Chia-Te;Tang, Fu-Ching;Cheng, Horng-Long;Chang, Ming-Hua;Hsu, Steve Lien-Chung;Chen, Jen-Sue;Lee, Yung-Chun;
2:13:165 Light Absorption Enhancement in Organic Solar Cell by Embedding Ag Nanoparticles and Nanochains within the Active Layer
DOI:10.1155/2014/736165 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Zhu, Sheng-Qing;Zhang, Tong;Guo, Xin-Li;Shan, Feng;Zhang, Xiao-Yang;
2:13:166 Gold Nanorods Incorporated Cathode for Better Performance of Polymer Solar Cells
DOI:10.1155/2014/464160 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Mahmoud, Alaa Y.;Izquierdo, Ricardo;Truong, Vo-Van;
2:13:167 Photocurrent enhancement in polythiophene doped with silver nanoparticles
DOI:10.1016/j.optmat.2014.08.014 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Szeremeta, Janusz;Nyk, Marcin;Samoc, Marek;
2:13:168 Solution-processed copper phthalocyanine-gold nanoparticle hybrid nanocomposite thin films
DOI:10.1016/j.tsf.2014.06.015 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Khurana, Parul;Thatai, Sheenam;Chaure, Nandu B.;Mahamuni, Shailaja;Kulkarni, Sulabha;
2:13:169 Largely enhanced photocurrent via gap-mode plasmon resonance by a nanocomposite layer of silver nanoparticles and porphyrin derivatives fabricated on an electrode
DOI:10.1063/1.4742870 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Kanaizuka, Katsuhiko;Yagyu, Shigeta;Ishizaki, Manabu;Kon, Hiroki;Togashi, Takanari;Sakamoto, Masatomi;Kurihara, Masato;
2:13:170 Charging and exciton-mediated decharging of metal nanoparticles in organic semiconductor matrices
DOI:10.1063/1.4873347 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ligorio, Giovanni;Nardi, Marco Vittorio;Christodoulou, Christos;Florea, Ileana;Monteiro, Nicolas-Crespo;Ersen, Ovidiu;Brinkmann, Martin;Koch, Norbert;
2:13:171 Enhancing effects of nanoparticles on polymer-OLED performances
DOI:10.1007/s11051-012-1214-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:5 AU: Mucur, Selin Piravadili;Tumay, Tulay Asli;San, Sait Eren;Tekin, Emine;
2:13:172 Flexible organic solar cells including efficiency enhancing grating structures
DOI:10.1088/0957-4484/24/14/145301 JN:NANOTECHNOLOGY PY:2013 TC:5 AU: Hansen, Roana Melina de Oliveira;Liu, Yinghui;Madsen, Morten;Rubahn, Horst-Gunter;
2:13:173 Improving polymer solar cell performances by manipulating the self-organization of polymer
DOI:10.1063/1.3599488 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Xie, Feng-xian;Choy, Wallace C. H.;Zhu, Xiaolong;Li, Xiaolong;Li, Zhong;Liang, Chunjun;
2:13:174 Enhancement of polymer solar cell performance using spin-coated reflector structure
DOI:10.1016/j.matchemphys.2012.06.011 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Sun, Ye Chuan;Ng, Annie;Fung, Man Kin;Djurisic, Aleksandra B.;Chan, Wai Kin;
2:13:175 Time-resolved morphological study of 'PEDOT:PSS' hole transporting layer for polymer solar cells
DOI:10.1016/j.synthmet.2012.02.028 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Bailo, D.;Generosi, A.;Albertini, V. Rossi;Caminiti, R.;De Bettignies, R.;Paci, B.;
2:13:176 Light Management of Aluminum Doped Zinc Oxide Thin Films by Fabricating Periodic Surface Textures Using Direct Laser Interference Patterning
DOI:10.1002/adem.201300007 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:3 AU: Eckhardt, Sebastian;Roch, Teja;Sachse, Christoph;Lasagni, Andres Fabian;
2:13:177 Size dependent Cu dielectric function for plasmon spectroscopy: Characterization of colloidal suspension generated by fs laser ablation
DOI:10.1063/1.4751328 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Santillan, J. M. J.;Videla, F. A.;Fernandez van Raap, M. B.;Schinca, D. C.;Scaffardi, L. B.;
2:13:178 Controlled structural and optical properties of nanostructured Ag films reshaped by brief iodization
DOI:10.1016/j.tsf.2012.09.054 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Rajesh, D.;Sunandana, C. S.;
2:14:1 Recent progress in organic-inorganic hybrid solar cells
DOI:10.1039/c3ta11200d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:34 AU: Fan, Xia;Zhang, Mingliang;Wang, Xiaodong;Yang, Fuhua;Meng, Xiangmin;
2:14:2 Inorganic-Organic Hybrid Solar Cell: Bridging Quantum Dots to Conjugated Polymer Nanowires
DOI:10.1021/nl202435t JN:NANO LETTERS PY:2011 TC:210 AU: Ren, Shenqiang;Chang, Liang-Yi;Lim, Sung-Keun;Zhao, Jing;Smith, Matthew;Zhao, Ni;Bulovic, Vladimir;Bawendi, Moungi;Gradecak, Silvija;
2:14:3 Organic-inorganic hybrid solar cells: A comparative review
DOI:10.1016/j.solmat.2012.07.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:169 AU: Wright, Matthew;Uddin, Ashraf;
2:14:4 Photovoltaic Devices with a Low Band Gap Polymer and CdSe Nanostructures Exceeding 3% Efficiency
DOI:10.1021/nl903406s JN:NANO LETTERS PY:2010 TC:223 AU: Dayal, Smita;Kopidakis, Nikos;Olson, Dana C.;Ginley, David S.;Rumbles, Garry;
2:14:5 Conjugated Polymer/Nanocrystal Nanocomposites for Renewable Energy Applications in Photovoltaics and Photocatalysis
DOI:10.1002/smll.201401508 JN:SMALL PY:2014 TC:5 AU: Su, Yu-Wei;Lin, Wei-Hao;Hsu, Yung-Jung;Wei, Kung-Hwa;
2:14:6 Nanostructured Hybrid Polymer-Inorganic Solar Cell Active Layers Formed by Controllable in Situ Growth of Semiconducting Sulfide Networks
DOI:10.1021/nl903787j JN:NANO LETTERS PY:2010 TC:135 AU: Leventis, Henry C.;King, Simon P.;Sudlow, Anna;Hill, Michael S.;Molloy, Kieran C.;Haque, Saif A.;
2:14:7 Direct Growth of Metal Sulfide Nanoparticle Networks in Solid-State Polymer Films for Hybrid Inorganic-Organic Solar Cells
DOI:10.1002/adma.201100625 JN:ADVANCED MATERIALS PY:2011 TC:81 AU: Dowland, Simon;Lutz, Thierry;Ward, Alexander;King, Simon P.;Sudlow, Anna;Hill, Michael S.;Molloy, Kieran C.;Haque, Saif A.;
2:14:8 Crafting Semiconductor Organic-Inorganic Nanocomposites via Placing Conjugated Polymers in Intimate Contact with Nanocrystals for Hybrid Solar Cells
DOI:10.1002/adma.201201196 JN:ADVANCED MATERIALS PY:2012 TC:69 AU: Zhao, Lei;Lin, Zhiqun;
2:14:9 Broadband Absorbing Bulk Heterojunction Photovoltaics Using Low-Bandgap Solution-Processed Quantum Dots
DOI:10.1021/nl1013663 JN:NANO LETTERS PY:2010 TC:81 AU: Noone, Kevin M.;Strein, Elisabeth;Anderson, Nicholas C.;Wu, Pei-Tzu;Jenekhe, Samson A.;Ginger, David S.;
2:14:10 Efficient Heterojunction Photovoltaic Cell Utilizing Nanocomposites of Lead Sulfide Nanocrystals and a Low-Bandgap Polymer
DOI:10.1002/adma.201101912 JN:ADVANCED MATERIALS PY:2011 TC:88 AU: Seo, Jangwon;Cho, Min Ju;Lee, Dongho;Cartwright, A. N.;Prasad, Paras N.;
2:14:11 Hybrid solar cells: basic principles and the role of ligands
DOI:10.1039/c1jm14829j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:78 AU: Moule, Adam J.;Chang, Lilian;Thambidurai, Chandru;Vidu, Ruxandra;Stroeve, Pieter;
2:14:12 Nanocomposite-Based Bulk Heterojunction Hybrid Solar Cells
DOI:10.1155/2014/243041 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Bich Phuong Nguyen;Kim, Taehoon;Park, Chong Rae;
2:14:13 Improving Open Circuit Potential in Hybrid P3HT:CdSe Bulk Heterojunction Solar Cells via Colloidal tert-Butylthiol Ligand Exchange
DOI:10.1021/nn3007509 JN:ACS NANO PY:2012 TC:59 AU: Greaney, Matthew J.;Das, Saptaparna;Webber, David H.;Bradforth, Stephen E.;Brutchey, Richard L.;
2:14:14 Inverted Hybrid Solar Cells from Aqueous Materials with a PCE of 3.61%
DOI:10.1002/aenm.201200741 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:23 AU: Chen, Zhaolai;Zhang, Hao;Yu, Weili;Li, Zibo;Hou, Jiadi;Wei, Haotong;Yang, Bai;
2:14:15 Improved efficiency of hybrid solar cells based on non-ligand-exchanged CdSe quantum dots and poly(3-hexylthiophene)
DOI:10.1063/1.3280370 JN:APPLIED PHYSICS LETTERS PY:2010 TC:90 AU: Zhou, Yunfei;Riehle, Frank S.;Yuan, Ying;Schleiermacher, Hans-Frieder;Niggemann, Michael;Urban, Gerald A.;Krueger, Michael;
2:14:16 The Effect of Nanoparticle Shape on the Photocarrier Dynamics and Photovoltaic Device Performance of Poly(3-hexylthiophene):CdSe Nanoparticle Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201000628 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:95 AU: Dayal, Smita;Reese, Matthew O.;Ferguson, Andrew J.;Ginley, David S.;Rumbles, Garry;Kopidakis, Nikos;
2:14:17 Enhanced Performance and Air Stability of 3.2% Hybrid Solar Cells: How the Functional Polymer and CdTe Nanostructure Boost the Solar Cell Efficiency
DOI:10.1002/adma.201102775 JN:ADVANCED MATERIALS PY:2011 TC:56 AU: Chen, Hsieh-Chih;Lai, Chih-Wei;Wu, I-Che;Pan, Hsin-Ru;Chen, I-Wen P.;Peng, Yung-Kang;Liu, Chien-Liang;Chen, Chun-Hsien;Chou, Pi-Tai;
2:14:18 Hybrid polymer/nanoparticle solar cells: Preparation, principles and challenges
DOI:10.1016/j.jcis.2011.12.016 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:39 AU: Saunders, Brian R.;
2:14:19 Effects of nanocrystal size and device aging on performance of hybrid poly(3-hexylthiophene):CdSe nanocrystal solar cells
DOI:10.1016/j.solmat.2010.09.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:59 AU: Yang, Jihua;Tang, Aiwei;Zhou, Renjia;Xue, Jiangeng;
2:14:20 Hybrid conjugated polymer/semiconductor photovoltaic cells
DOI:10.1016/j.synthmet.2009.10.031 JN:SYNTHETIC METALS PY:2010 TC:97 AU: Skompska, Magdalena;
2:14:21 Efficiency Enhanced Hybrid Solar Cells Using a Blend of Quantum Dots and Nanorods
DOI:10.1002/adfm.201101809 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:62 AU: Jeltsch, Krischan F.;Schaedel, Martin;Bonekamp, Joerg-Bernd;Niyamakom, Phenwisa;Rauscher, Frank;Lademann, Hans W. A.;Dumsch, Ines;Allard, Sybille;Scherf, Ullrich;Meerholz, Klaus;
2:14:22 Mesogen induced self-assembly for hybrid bulk heterojunction solar cells based on a liquid crystal D-A copolymer and ZnO nanocrystals
DOI:10.1039/c2jm16853g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Li, Fan;Chen, Wei;Chen, Yiwang;
2:14:23 Solution processed approaches for bulk-heterojunction solar cells based on Pb and Cd chalcogenide nanocrystals
DOI:10.1016/j.nanoen.2014.02.001 JN:NANO ENERGY PY:2014 TC:4 AU: Patel, Jayesh;Mighri, Frej;Ajji, Abdellah;Chaudhuri, Tapas K.;
2:14:24 Efficiency enhancement for bulk-heterojunction hybrid solar cells based on acid treated CdSe quantum dots and low bandgap polymer PCPDTBT
DOI:10.1016/j.solmat.2010.12.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:63 AU: Zhou, Yunfei;Eck, Michael;Veit, Clemens;Zimmermann, Birger;Rauscher, Frank;Niyamakom, Phenwisa;Yilmaz, Seyfullah;Dumsch, Ines;Allard, Sybille;Scherf, Ullrich;Krueger, Michael;
2:14:25 A green, low-cost, and highly effective strategy to enhance the performance of hybrid solar cells: Post-deposition ligand exchange by acetic acid
DOI:10.1016/j.solmat.2013.06.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:11 AU: Fu, Wei-Fei;Shi, Ye;Wang, Ling;Shi, Min-Min;Li, Han-Ying;Chen, Hong-Zheng;
2:14:26 Hybrid polymer-CdSe solar cells with a ZnO nanoparticle buffer layer for improved efficiency and lifetime
DOI:10.1039/c0jm03799k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:57 AU: Qian, Lei;Yang, Jihua;Zhou, Renjia;Tang, Aiwei;Zheng, Ying;Tseng, Teng-Kuan;Bera, Debasis;Xue, Jiangeng;Holloway, Paul. H.;
2:14:27 Polymer-metal-oxide hybrid solar cells
DOI:10.1039/c3ta11998j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:21 AU: Li, Shao-Sian;Chen, Chun-Wei;
2:14:28 Broadband-absorbing hybrid solar cells with efficiency greater than 3% based on a bulk heterojunction of PbS quantum dots and a low-bandgap polymer
DOI:10.1039/c3ta15055k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:14 AU: Nam, Minwoo;Park, Joongpil;Kim, Sang-Wook;Lee, Keekeun;
2:14:29 Influence of TiOx and Ti cathode interlayers on the performance and stability of hybrid solar cells
DOI:10.1016/j.solmat.2014.06.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Dunst, Sebastian;Rath, Thomas;Moscher, Stefan;Troi, Lukas;Edler, Matthias;Griesser, Thomas;Trimmel, Gregor;
2:14:30 Controlling the Morphology and Efficiency of Hybrid ZnO:Polythiophene Solar Cells Via Side Chain Functionalization
DOI:10.1002/aenm.201000022 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:55 AU: Oosterhout, Stefan D.;Koster, L. Jan Anton;van Bavel, Svetlana S.;Loos, Joachim;Stenzel, Ole;Thiedmann, Ralf;Schmidt, Volker;Campo, Bert;Cleij, Thomas J.;Lutzen, Laurence;Vanderzande, Dirk;Wienk, Martijn M.;Janssen, Rene A. J.;
2:14:31 High-Efficiency Hybrid Solar Cells Based on Polymer/PbSxSe1-x Nanocrystals Benefiting from Vertical Phase Segregation
DOI:10.1002/adma.201302340 JN:ADVANCED MATERIALS PY:2013 TC:45 AU: Liu, Zeke;Sun, Yaxiang;Yuan, Jianyu;Wei, Huaixin;Huang, Xiaodong;Han, Lu;Wang, Weiwei;Wang, Haiqiao;Ma, Wanli;
2:14:32 Hybrid Bulk Heterojunction Solar Cells Based on the Cooperative Interaction of Liquid Crystals within Quantum Dots and Diblock Copolymers
DOI:10.1021/am4033263 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Shi, Yueqin;Li, Fan;Tan, Licheng;Chen, Yiwang;
2:14:33 Aqueous-solution-processed PPV-CdxHg1-xTe hybrid solar cells with a significant near-infrared contribution
DOI:10.1039/c2jm33958g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Wei, Haotong;Zhang, Hao;Sun, Haizhu;Yu, Weili;Liu, Yi;Chen, Zhaolai;Cui, Liying;Tian, Wenjing;Yang, Bai;
2:14:34 Heterojunction Photovoltaics Using GaAs Nanowires and Conjugated Polymers
DOI:10.1021/nl1030166 JN:NANO LETTERS PY:2011 TC:42 AU: Ren, Shenqiang;Zhao, Ni;Crawford, Samuel C.;Tambe, Michael;Bulovic, Vladimir;Gradecak, Silvija;
2:14:35 Enhancing the Efficiency of Solution-Processed Polymer:Colloidal Nanocrystal Hybrid Photovoltaic Cells Using Ethanedithiol Treatment
DOI:10.1021/nn305823w JN:ACS NANO PY:2013 TC:52 AU: Zhou, Renjia;Stalder, Romain;Xie, Dongping;Cao, Weiran;Zheng, Ying;Yang, Yixing;Plaisant, Marc;Holloway, Paul H.;Schanze, Kirk S.;Reynolds, John R.;Xue, Jiangeng;
2:14:36 A Direct Route Towards Polymer/Copper Indium Sulfide Nanocomposite Solar Cells
DOI:10.1002/aenm.201100442 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:49 AU: Rath, Thomas;Edler, Michael;Haas, Wernfried;Fischereder, Achim;Moscher, Stefan;Schenk, Alexander;Trattnig, Roman;Sezen, Meltem;Mauthner, Gernot;Pein, Andreas;Meischler, Dorith;Bartl, Karin;Saf, Robert;Bansal, Neha;Haque, Saif A.;Hofer, Ferdinand;List, Emil J. W.;Trimmel, Gregor;
2:14:37 Coordinatable and High Charge-Carrier-Mobility Water-Soluble Conjugated Copolymers for Effective Aqueous-Processed Polymer-Nanocrystal Hybrid Solar Cells and OFET Applications
DOI:10.1002/adfm.201300333 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:9 AU: Wei, Haotong;Zhang, Hao;Jin, Gan;Na, Tianyi;Zhang, Guoyan;Zhang, Xue;Wang, Yan;Sun, Haizhu;Tian, Wenjing;Yang, Bai;
2:14:38 Charge separation dynamics in a narrow band gap polymer-PbS nanocrystal blend for efficient hybrid solar cells
DOI:10.1039/c2jm34034h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Piliego, Claudia;Manca, Marianna;Kroon, Renee;Yarema, Maksym;Szendrei, Krisztina;Andersson, Mats R.;Heiss, Wolfgang;Loi, Maria A.;
2:14:39 Aqueous-solution-processed hybrid solar cells with good thermal and morphological stability
DOI:10.1016/j.solmat.2012.11.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:15 AU: Chen, Zhaolai;Zhang, Hao;Xing, Zhenyu;Hou, Jiadi;Li, Jing;Wei, Haotong;Tian, Wenjing;Yang, Bai;
2:14:40 Molecular Design of Interfacial Modifiers for Polymer-Inorganic Hybrid Solar Cells
DOI:10.1002/aenm.201100581 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:21 AU: Yu, Jusfong;Shen, Tsung-Lung;Weng, Wei-Hsiang;Huang, Yu-Chen;Huang, Ching-I;Su, Wei-Fang;Rwei, Syang-Peng;Ho, Kuo-Chuan;Wang, Leeyih;
2:14:41 Employing an amphiphilic interfacial modifier to enhance the performance of a poly(3-hexyl thiophene)/TiO2 hybrid solar cell
DOI:10.1039/c0jm03615c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:40 AU: Huang, Yu-Ching;Hsu, Jui-Hung;Liao, Yu-Chia;Yen, Wei-Che;Li, Shao-Sian;Lin, Shiang-Tai;Chen, Chun-Wei;Su, Wei-Fang;
2:14:42 Direct extreme UV-lithographic conversion of metal xanthates into nanostructured metal sulfide layers for hybrid photovoltaics
DOI:10.1039/c3ta12592k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:4 AU: Rath, Thomas;Padeste, Celestino;Vockenhuber, Michaela;Fradler, Christopher;Edler, Matthias;Reichmann, Angelika;Letofsky-Papst, Ilse;Hofer, Ferdinand;Ekinci, Yasin;Griesser, Thomas;
2:14:43 Performance enhancement of CdSe nanorod-polymer based hybrid solar cells utilizing a novel combination of post-synthetic nanoparticle surface treatments
DOI:10.1016/j.solmat.2011.11.049 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:53 AU: Celik, Dilek;Krueger, Michael;Veit, Clemens;Schleiermacher, Hans F.;Zimmermann, Birger;Allard, Sybille;Dumsch, Ines;Scherf, Ullrich;Rauscher, Frank;Niyamakom, Phenwisa;
2:14:44 Flexible polymer/copper indium sulfide hybrid solar cells and modules based on the metal xanthate route and low temperature annealing
DOI:10.1016/j.solmat.2014.01.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Fradler, Christopher;Rath, Thomas;Dunst, Sebastian;Letofsky-Papst, Ilse;Saf, Robert;Kunert, Birgit;Hofer, Ferdinand;Resel, Roland;Trimmel, Gregor;
2:14:45 Performance Enhancement of Hybrid Solar Cells Through Chemical Vapor Annealing
DOI:10.1021/nl904095n JN:NANO LETTERS PY:2010 TC:57 AU: Wu, Yue;Zhang, Genqiang;
2:14:46 Improving the performance of CdS/P3HT hybrid inverted solar cells by interfacial modification
DOI:10.1016/j.solmat.2011.09.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:43 AU: Zhong, Min;Yang, Dong;Zhang, Jian;Shi, Jingying;Wang, Xiuli;Li, Can;
2:14:47 Molecular Structure Effect of Pyridine-Based Surface Ligand on the Performance of P3HT:TiO2 Hybrid Solar Cell
DOI:10.1021/am302700c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:19 AU: Lin, Jhih-Fong;Tu, Guang-Yao;Ho, Chun-Chih;Chang, Chun-Yu;Yen, Wei-Che;Hsu, Sheng-Hao;Chen, Yang-Fang;Su, Wei-Fang;
2:14:48 Size-Dependent Charge Transfer in Blends of PbS Quantum Dots with a Low-Gap Silicon-Bridged Copolymer
DOI:10.1002/aenm.201300317 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:9 AU: Itskos, Grigorios;Papagiorgis, Paris;Tsokkou, Demetra;Othonos, Andreas;Hermerschmidt, Felix;Economopoulos, Solon P.;Yarema, Maksym;Heiss, Wolfgang;Choulis, Stelios;
2:14:49 Controlled Fabrication of PbS Quantum-Dot/Carbon-Nanotube Nanoarchitecture and its Significant Contribution to Near-Infrared Photon-to-Current Conversion
DOI:10.1002/adfm.201100824 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:38 AU: Wang, Defa;Baral, Jayanta K.;Zhao, Haiguang;Gonfa, Belete Atomsa;Vo-Van Truong;El Khakani, My Ali;Izquierdo, Ricardo;Ma, Dongling;
2:14:50 High-Efficiency Aqueous-Processed Hybrid Solar Cells with an Enormous Herschel Infrared Contribution
DOI:10.1021/am501408v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Jin, Gan;Wei, Hao-Tong;Na, Tian-Yi;Sun, Hai-Zhu;Zhang, Hao;Yang, Bai;
2:14:51 Nanoimprinted Comb Structures in a Low Bandgap Polymer: Thermal Processing and Their Application in Hybrid Solar Cells
DOI:10.1021/am5009425 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Dunst, Sebastian;Rath, Thomas;Radivo, Andrea;Sovernigo, Enrico;Tormen, Massimo;Amenitsch, Heinz;Marmiroli, Benedetta;Sartori, Barbara;Reichmann, Angelika;Knall, Astrid-Caroline;Trimmel, Gregor;
2:14:52 Improving Polymer/Nanocrystal Hybrid Solar Cell Performance via Tuning Ligand Orientation at CdSe Quantum Dot Surface
DOI:10.1021/am505130a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Fu, Weifei;Wang, Ling;Zhang, Yanfang;Ma, Ruisong;Zuo, Lijian;Mai, Jiangquan;Lau, Tsz-Ki;Du, Shixuan;Lu, Xinhui;Shi, Minmin;Li, Hanying;Chen, Hongzheng;
2:14:53 Interplay of Three-Dimensional Morphologies and Photocarrier Dynamics of Polymer/TiO2 Bulk Heterojunction Solar Cells
DOI:10.1021/ja203151z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:36 AU: Li, Shao-Sian;Chang, Ching-Pin;Lin, Chih-Cheng;Lin, Yun-Yue;Chang, Chia-Hao;Yang, Jer-Ren;Chu, Ming-Wen;Chen, Chun-Wei;
2:14:54 Diketopyrrolopyrrole-based oligomer modified TiO2 nanorods for air-stable and all solution processed poly(3-hexylthiophene):TiO2 bulk heterojunction inverted solar cell
DOI:10.1039/c2jm30334e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Liao, Hsueh-Chung;Lee, Chia-Hsin;Ho, Yi-Chen;Jao, Meng-Huan;Tsai, Chieh-Ming;Chuang, Chih-Min;Shyue, Jing-Jong;Chen, Yang-Fang;Su, Wei-Fang;
2:14:55 Achieving high open-circuit voltage in the PPV-CdHgTe bilayer photovoltaic devices on the basis of the heterojunction interfacial modification
DOI:10.1039/c2jm30726j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Wei, Haotong;Sun, Haizhu;Zhang, Hao;Yu, Weili;Zhai, Fei;Fan, Zhanxi;Tian, Wenjing;Yang, Bai;
2:14:56 Organic-Inorganic Nanocomposites by Placing Conjugated Polymers in Intimate Contact with Quantum Rods
DOI:10.1002/adma.201100923 JN:ADVANCED MATERIALS PY:2011 TC:48 AU: Zhao, Lei;Pang, Xinchang;Adhikary, Ramkrishna;Petrich, Jacob W.;Jeffries-EL, Malika;Lin, Zhiqun;
2:14:57 Synthesis of a Water-Soluble Conjugated Polymer Based on Thiophene for an Aqueous-Processed Hybrid Photovoltaic and Photodetector Device
DOI:10.1002/adma.201305500 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Wei, Haotong;Jin, Gan;Wang, Lei;Hao, Li;Na, Tianyi;Wang, Yan;Tian, Wenjing;Sun, Haizhu;Zhang, Hongxing;Wang, Haiyu;Zhang, Hao;Yang, Bai;
2:14:58 Hybrid solar cells based on poly(3-hexylthiophene) and electrospun TiO2 nanofibers with effective interface modification
DOI:10.1039/c0jm01455a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:48 AU: Tai, Qidong;Zhao, Xingzhong;Yan, Feng;
2:14:59 Air-stable inverted structure of hybrid solar cells using a cesium-doped ZnO electron transport layer prepared by a sol-gel process
DOI:10.1039/c3ta12425h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Kwon, Seungchul;Lim, Kyung-Geun;Shim, Myungsun;Moon, Hong Chul;Park, Jicheol;Jeon, Gumhye;Shin, Jihyun;Cho, Kilwon;Lee, Tae-Woo;Kim, Jin Kon;
2:14:60 Optical Properties of Organic Semiconductor Blends with Near-Infrared Quantum-Dot Sensitizers for Light Harvesting Applications
DOI:10.1002/aenm.201100182 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:32 AU: Itskos, Grigorios;Othonos, Andreas;Rauch, Tobias;Tedde, Sandro F.;Hayden, Oliver;Kovalenko, Maksym V.;Heiss, Wolfgang;Choulis, Stelios A.;
2:14:61 The effects of CdSe incorporation into bulk heterojunction solar cells
DOI:10.1039/c0jm00191k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:47 AU: de Freitas, Jilian Nei;Grova, Isabel R.;Akcelrud, Leni C.;Arici, Elif;Sariciftci, N. Serdar;Nogueira, Ana Flavia;
2:14:62 Effects of molecular interface modification in CdS/polymer hybrid bulk heterojunction solar cells
DOI:10.1016/j.solmat.2010.07.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:43 AU: Jiang, Xiaoxia;Chen, Fei;Qiu, Weiming;Yan, Quanxiang;Nan, Yaxiong;Xu, Hao;Yang, Ligong;Chen, Hongzheng;
2:14:63 Oxide/polymer interfaces for hybrid and organic solar cells: Anatase vs. Rutile TiO2
DOI:10.1016/j.solmat.2010.12.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:32 AU: Lira-Cantu, Monica;Chafiq, Amine;Faissat, Jeremy;Gonzalez-Valls, Irene;Yu, Youhai;
2:14:64 Interfacial Engineering of P3HT/ZnO Hybrid Solar Cells Using Phthalocyanines: A Joint Theoretical and Experimental Investigation
DOI:10.1002/aenm.201301694 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:7 AU: Mattioli, Giuseppe;Ben Dkhil, Sadok;Saba, Maria Ilenia;Malloci, Giuliano;Melis, Claudio;Alippi, Paola;Filippone, Francesco;Giannozzi, Paolo;Thakur, Anil Kumar;Gaceur, Meriem;Margeat, Olivier;Diallo, Abdou Karim;Videlot-Ackermann, Christine;Ackermann, Joerg;Bonapasta, Aldo Amore;Mattoni, Alessandro;
2:14:65 Unraveling Charge Separation and Transport Mechanisms in Aqueous-Processed Polymer/CdTe Nanocrystal Hybrid Solar Cells
DOI:10.1002/aenm.201301882 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:5 AU: Wang, Lei;Wang, Hai-Yu;Wei, Hao-Tong;Zhang, Hao;Chen, Qi-Dai;Xu, Huai-Liang;Han, Wei;Yang, Bai;Sun, Hong-Bo;
2:14:66 CdS-Decorated ZnO Nanorod Heterostructures for Improved Hybrid Photovoltaic Devices
DOI:10.1021/am301721h JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:33 AU: Rakshit, Tamita;Mondal, Suvra P.;Manna, Indranil;Ray, Samit K.;
2:14:67 Variable-Gap Conjugated Oligomers Grafted to CdSe Nanocrystals
DOI:10.1021/cm301351j JN:CHEMISTRY OF MATERIALS PY:2012 TC:14 AU: Stalder, Romain;Xie, Dongping;Zhou, Renjia;Xue, Jiangeng;Reynolds, John R.;Schanze, Kirk S.;
2:14:68 Understanding the mechanism of poly(3-hexylthiophene)-b-poly(4-vinylpyridine) as a nanostructuring compatibilizer for improving the performance of poly(3-hexylthiophene)/ZnO-based hybrid solar cells
DOI:10.1039/c3ta11869j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:2 AU: Yuan, Kai;Li, Fan;Chen, Lie;Wang, Hongming;Chen, Yiwang;
2:14:69 Self-Assembly of CdTe Tetrapods into Network Mono layers at the Air/Water Interface
DOI:10.1021/nn1002584 JN:ACS NANO PY:2010 TC:27 AU: Goodman, Matthew D.;Zhao, Lei;DeRocher, Karen A.;Wang, Jun;Mallapragada, Surya K.;Lin, Zhiqun;
2:14:70 Composite interfacial modification in TiO2 nanorod array/poly (3-hexylthiophene) hybrid photovoltaic devices
DOI:10.1016/j.jallcom.2013.04.006 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:4 AU: Xia, Hanming;Zhang, Tianjin;Wang, Duofa;Wang, Jingyang;Liang, Kun;
2:14:71 Fabrication of polymer/cadmium sulfide hybrid solar cells [P3HT:CdS and PCPDTST:CdS] by spray deposition
DOI:10.1016/j.jcis.2014.07.047 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:1 AU: Kumar, Neetesh;Dutta, Viresh;
2:14:72 Bismuth sulphide-polymer nanocomposites from a highly soluble bismuth xanthate precursor
DOI:10.1039/c3tc31684j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Kaltenhauser, Verena;Rath, Thomas;Haas, Wernfried;Torvisco, Ana;Mueller, Stefan K.;Friedel, Bettina;Kunert, Birgit;Saf, Robert;Hofer, Ferdinand;Trimmel, Gregor;
2:14:73 Influence of morphology and polymer: nanoparticle ratio on device performance of hybrid solar cells-an approach in experiment and simulation
DOI:10.1088/0957-4484/24/48/484005 JN:NANOTECHNOLOGY PY:2013 TC:7 AU: Arar, Mario;Gruber, Manfred;Edler, Michael;Haas, Wernfried;Hofer, Ferdinand;Bansal, Neha;Reynolds, Luke X.;Haque, Saif A.;Zojer, Karin;Trimmel, Gregor;Rath, Thomas;
2:14:74 To make polymer: Quantum dot hybrid solar cells NIR-active by increasing diameter of PbS nanoparticles
DOI:10.1016/j.solmat.2010.09.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:37 AU: Guchhait, Asim;Rath, Arup K.;Pal, Amlan J.;
2:14:75 Real Function of Semiconducting Polymer in GaAs/Polymer Planar Heterojunction Solar Cells
DOI:10.1021/nn306047q JN:ACS NANO PY:2013 TC:5 AU: Yan, Liang;You, Wei;
2:14:76 Solution Processed Polymer-Inorganic Semiconductor Solar Cells Employing Sb2S3 as a Light Harvesting and Electron Transporting Material
DOI:10.1002/aenm.201300017 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:19 AU: Bansal, Neha;O'Mahony, Flannan T. F.;Lutz, Thierry;Haque, Saif A.;
2:14:77 Enhancing organic-inorganic hybrid solar cell efficiency using rod-coil diblock polymer additive
DOI:10.1039/c2ta00142j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:7 AU: Lin, Jhih-Fong;Yen, Wei-Che;Chang, Chun-Yu;Chen, Yang-Fang;Su, Wei-Fang;
2:14:78 Synthesis of CdS nanocrystals in poly(3-hexylthiophene) polymer matrix: optical and structural studies
DOI:10.1007/s11051-013-1697-z JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:1 AU: Agrawal, Vikash;Jain, Kiran;Arora, Leena;Chand, S.;
2:14:79 Efficient polymer nanocrystal hybrid solar cells by improved nanocrystal composition
DOI:10.1016/j.solmat.2011.07.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:28 AU: Zhou, Yunfei;Eck, Michael;Men, Cong;Rauscher, Frank;Niyamakom, Phenwisa;Yilmaz, Seyfullah;Dumsch, Ines;Allard, Sybille;Scherf, Ullrich;Krueger, Michael;
2:14:80 CuInS2-Poly(3-(ethyl-4-butanoate)thiophene) nanocomposite solar cells: Preparation by an in situ formation route, performance and stability issues
DOI:10.1016/j.solmat.2010.12.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:30 AU: Maier, Eugen;Rath, Thomas;Haas, Wernfried;Werzer, Oliver;Saf, Robert;Hofer, Ferdinand;Meissner, Dieter;Volobujeva, Olga;Bereznev, Sergei;Mellikov, Enn;Amenitsch, Heinz;Resel, Roland;Trimmel, Gregor;
2:14:81 Improving poly(3-hexylthiophene)-TiO2 heterojunction solar cells by connecting polypyrrole to the TiO2 nanorods
DOI:10.1016/j.solmat.2013.08.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Li, Feilong;Ni, Xiuyuan;
2:14:82 Fabrication of efficient organic and hybrid solar cells by fine channel mist spray coating
DOI:10.1016/j.solmat.2014.04.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Lee, Jae-hyeong;Yoshikawa, Susumu;Sagawa, Takashi;
2:14:83 Hybrid bulk heterojunction solar cells based on poly(3-hexylthiophene) and ZnO nanoparticles modified by side-chain functional polythiophenes
DOI:10.1016/j.tsf.2012.10.125 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Li, Fan;Du, Yanhui;Chen, Yiwang;
2:14:84 Hybrid solar cells based on colloidal nanocrystals and conjugated polymers
DOI:10.1016/j.tsf.2013.03.084 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Yu, Yang-Yen;Ciou, Chi-Yi;
2:14:85 Study of optical and electrical properties of water-soluble conjugated poly(3-hexylthiophene) on different grain-sized mesoporous TiO2 layers
DOI:10.1016/j.tsf.2014.01.010 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Thalluri, Gopala Krishna V. V.;Bolsee, Jean-Christophe;Madapati, Saipriya;Vanderzande, Dirk;Manca, Jean V.;
2:14:86 Effect of CdSe quantum dots on the performance of hybrid solar cells based on ZnO nanorod arrays
DOI:10.1016/j.ceramint.2012.09.074 JN:CERAMICS INTERNATIONAL PY:2013 TC:10 AU: Zhu, Chongyu;Pan, Xinhua;Ye, Chunli;Wang, Lei;Ye, Zhizhen;Huang, Jingyun;
2:14:87 In-Situ growth of cadmium telluride nanocrystals in poly(3-hexylthiophene) matrix for photovoltaic application
DOI:10.1063/1.3626464 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:18 AU: Khan, Mohd Taukeer;Kaur, Amarjeet;Dhawan, S. K.;Chand, Suresh;
2:14:88 Origin of Low Sensitizing Efficiency of Quantum Dots in Organic Solar Cells
DOI:10.1021/nn303058u JN:ACS NANO PY:2012 TC:13 AU: ten Cate, Sybren;Schins, Juleon M.;Siebbeles, Laurens D. A.;
2:14:89 Charge-Separation Dynamics in Inorganic-Organic Ternary Blends for Efficient Infrared Photodiodes
DOI:10.1002/adfm.201001999 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:33 AU: Jarzab, Dorota;Szendrei, Krisztina;Yarema, Maksym;Pichler, Stefan;Heiss, Wolfgang;Loi, Maria A.;
2:14:90 Investigation of CuInS2 Thin Film Formation by a Low-Temperature Chemical Deposition Method
DOI:10.1021/am2014579 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:14 AU: Fischereder, Achim;Rath, Thomas;Haas, Wernfried;Amenitsch, Heinz;Schenk, Dorith;Zankel, Armin;Saf, Robert;Hofer, Ferdinand;Trimmel, Gregor;
2:14:91 Copper-Diffused AgInS2 Ternary Nanocrystals in Hybrid Bulk-Heterojunction Solar Cells: Near-Infrared Active Nanophotovoltaics
DOI:10.1021/am400322a JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:15 AU: Guchhait, Asim;Pal, Amlan J.;
2:14:92 Tandem and Triple-Junction Polymer:Nanocrystal Hybrid Solar Cells Consisting of Identical Subcells
DOI:10.1021/am5055405 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Lu, Haipeng;Bartynski, Andrew N.;Greaney, Matthew J.;Thompson, Mark E.;Brutchey, Richard L.;
2:14:93 Understanding and Controlling Organic-Inorganic Interfaces in Mesostructured Hybrid Photovoltaic Materials
DOI:10.1021/ja200054z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:28 AU: Neyshtadt, S.;Jahnke, J. P.;Messinger, R. J.;Rawal, A.;Peretz, T. Segal;Huppert, D.;Chmelka, B. F.;Frey, G. L.;
2:14:94 Enhancement of the photovoltaic performance in P3HT: PbS hybrid solar cells using small size PbS quantum dots
DOI:10.1063/1.4894404 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:5 AU: Firdaus, Yuliar;Vandenplas, Erwin;Justo, Yolanda;Gehlhaar, Robert;Cheyns, David;Hens, Zeger;Van der Auweraer, Mark;
2:14:95 In situ growth nanocomposites composed of rodlike ZnO nanocrystals arranged by nanoparticles in a self-assembling diblock copolymer for heterojunction optoelectronics
DOI:10.1039/c1jm11652e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Yuan, Kai;Li, Fan;Chen, Yiwang;Wang, Xiaofeng;Chen, Lie;
2:14:96 Morphological Study of Nanoparticle-Polymer Solar Cells Using High-Angle Annular Dark-Field Electron Tomography
DOI:10.1021/nl104436j JN:NANO LETTERS PY:2011 TC:46 AU: Hindson, James C.;Saghi, Zineb;Hernandez-Garrido, Juan-Carlos;Midgley, Paul A.;Greenham, Neil C.;
2:14:97 Solution-processed small molecule/copper indium sulfide hybrid solar cells
DOI:10.1016/j.solmat.2013.02.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Rath, Thomas;Kaltenhauser, Verena;Haas, Wernfried;Reichmann, Angelika;Hofer, Ferdinand;Trimmel, Gregor;
2:14:98 Near IR-Sensitive, Non-toxic, Polymer/Nanocrystal Solar Cells Employing Bi2S3 as the Electron Acceptor
DOI:10.1002/aenm.201100441 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:20 AU: Martinez, Luis;Bernechea, Maria;Garcia de Arquer, F. Pelayo;Konstantatos, Gerasimos;
2:14:99 Aqueous-Solution-Processed Hybrid Solar Cells from Poly(1,4-naphthalenevinylene) and CdTe Nanocrystals
DOI:10.1021/am200616j JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:16 AU: Fan, Zhanxi;Zhang, Hao;Yu, Weili;Xing, Zhenyu;Wei, Haotong;Dong, Qingfeng;Tian, Wenjing;Yang, Bai;
2:14:100 Correlating Interface Heterostructure, Charge Recombination, and Device Efficiency of Poly(3-hexyl thiophene)/TiO2 Nanorod Solar Cell
DOI:10.1021/la203533u JN:LANGMUIR PY:2011 TC:20 AU: Zeng, Tsung-Wei;Ho, Chun-Chih;Tu, Yu-Chieh;Tu, Guan-Yao;Wang, Lee-Yih;Su, Wei-Fang;
2:14:101 Molten-droplet synthesis of composite CdSe hollow nanoparticles
DOI:10.1088/0957-4484/23/49/495605 JN:NANOTECHNOLOGY PY:2012 TC:6 AU: Gullapalli, Sravani;Grider, Jason M.;Bagaria, Hitesh G.;Lee, Kyu-Sung;Cho, Minjung;Colvin, Vicki L.;Jabbour, Ghassan E.;Wong, Michael S.;
2:14:102 Understanding polycarbazole-based polymer: CdSe hybrid solar cells
DOI:10.1088/0957-4484/23/31/315401 JN:NANOTECHNOLOGY PY:2012 TC:10 AU: Lek, Jun Yan;Lam, Yeng Ming;Niziol, Jacek;Marzec, Mateusz;
2:14:103 Near-infrared-sensitive bulk heterojunction solar cells using nanostructured hybrid composites of HgTe quantum dots and a low-bandgap polymer
DOI:10.1016/j.solmat.2014.03.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Nam, Minwoo;Kim, Sungwoo;Kim, Sejin;Jeong, Sohee;Kim, Sang-Wook;Lee, Keekeun;
2:14:104 Approach to a block polymer precursor from poly(3-hexylthiophene) nitroxide-mediated in situ polymerization for stabilization of poly(3-hexylthiophene)/ZnO hybrid solar cells
DOI:10.1016/j.tsf.2012.06.036 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Yuan, Kai;Li, Fan;Chen, Lie;Chen, Yiwang;
2:14:105 CdS-Polymer Nanocomposites and Light-Emitting Fibers by In Situ Electron-Beam Synthesis and Lithography
DOI:10.1002/adma.201202440 JN:ADVANCED MATERIALS PY:2012 TC:14 AU: Persano, Luana;Camposeo, Andrea;Di Benedetto, Francesca;Stabile, Ripalta;Laera, Anna M.;Piscopiello, Emanuela;Tapfer, Leander;Pisignano, Dario;
2:14:106 Understanding the Effect of Surface Chemistry on Charge Generation and Transport in Poly (3-hexylthiophene)/CdSe Hybrid Solar Cells
DOI:10.1021/am100938f JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:26 AU: Lek, Jun Yan;Xi, Lifei;Kardynal, Beata E.;Wong, Lydia Helena;Lam, Yeng Ming;
2:14:107 Hybrid Solar Cells with Outstanding Short-Circuit Currents Based on a Room Temperature Soft-Chemical Strategy: The Case of P3HT:Ag2S
DOI:10.1021/ja307521t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:24 AU: Lei, Yan;Jia, Huimin;He, Weiwei;Zhang, Yange;Mi, Liwei;Hou, Hongwei;Zhu, Guangshan;Zheng, Zhi;
2:14:108 Influence of particle size in hybrid solar cells composed of CdSe nanocrystals and poly(3-hexylthiophene)
DOI:10.1063/1.3633229 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:20 AU: Brandenburg, J. E.;Jin, X.;Kruszynska, M.;Ohland, J.;Kolny-Olesiak, J.;Riedel, I.;Borchert, H.;Parisi, J.;
2:14:109 Inorganic-organic nanocomposites of CdSe nanocrystals surface-modified with oligo- and poly(fluorene) moieties
DOI:10.1039/c0jm03546g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Kanelidis, Ioannis;Vaneski, Aleksandar;Lenkeit, Daniel;Pelz, Simon;Elsner, Victoria;Stewart, Raphaela M.;Rodriguez-Fernandez, Jessica;Lutich, Andrey A.;Susha, Andrei S.;Theissmann, Ralf;Adamczyk, Sylwia;Rogach, Andrey L.;Holder, Elisabeth;
2:14:110 Core/shell-shaped CdSe/PbS nanotetrapods for efficient organic-inorganic hybrid solar cells
DOI:10.1039/c4ta02469a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Tan, Furui;Qu, Shengchun;Wang, Lei;Jiang, Qiwei;Zhang, Weifeng;Wang, Zhanguo;
2:14:111 CdTe nanoflake arrays on a conductive substrate: template synthesis and photoresponse property
DOI:10.1039/c3ta13894a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Zhu, Zi-Ling;Cui, Lan;Ling, Tao;Qiao, Shi-Zhang;Du, Xi-Wen;
2:14:112 Concentration and excitation effects on the exciton dynamics of poly(3-hexylthiophene)/PbS quantum dot blend films
DOI:10.1088/0957-4484/24/23/235707 JN:NANOTECHNOLOGY PY:2013 TC:1 AU: Tsokkou, D.;Itskos, G.;Choulis, S.;Yarema, M.;Heiss, W.;Othonos, A.;
2:14:113 Preparation and characterization of P3HT:CuInSe(2):TiO(2) thin film for hybrid solar cell applications
DOI:10.1016/j.tsf.2011.08.001 JN:THIN SOLID FILMS PY:2011 TC:12 AU: Yu, Yang-Yen;Chien, Wen-Chen;Ko, Yu-Hsin;Chen, Si-Han;
2:14:114 Nanoscale Analysis of a Hierarchical Hybrid Solar Cell in 3D
DOI:10.1002/adfm.201302836 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Divitini, Giorgio;Stenzel, Ole;Ghadirzadeh, Ali;Guarnera, Simone;Russo, Valeria;Casari, Carlo S.;Li Bassi, Andrea;Petrozza, Annamaria;Di Fonzo, Fabio;Schmidt, Volker;Ducati, Caterina;
2:14:115 Hybrid conjugated polymer solar cells using patterned GaAs nanopillars
DOI:10.1063/1.3459961 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Mariani, Giacomo;Laghumavarapu, Ramesh B.;de Villers, Bertrand Tremolet;Shapiro, Joshua;Senanayake, Pradeep;Lin, Andrew;Schwartz, Benjamin J.;Huffaker, Diana L.;
2:14:116 Band gap aligned conducting interface modifier enhances the performance of thermal stable polymer-TiO2 nanorod solar cell
DOI:10.1063/1.3357425 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Huang, Yu-Ching;Yen, Wei-Che;Liao, Yu-Chia;Yu, Ya-Chien;Hsu, Cheng-Chih;Ho, Mei-Lin;Chou, Pi-Tai;Su, Wei-Fang;
2:14:117 Self-Assembled Structures of Semiconductor Nanocrystals and Polymers for Photovoltaics. 2. Multilayers of CdSe Nanocrystals and Oligo(poly)thiophene-Based Molecules. Optical, Electrochemical, Photoelectrochemical, and Photoconductive Properties.
DOI:10.1021/cm903557e JN:CHEMISTRY OF MATERIALS PY:2010 TC:32 AU: Zotti, G.;Vercelli, B.;Berlin, A.;Pasini, M.;Nelson, T. L.;McCullough, R. D.;Virgili, T.;
2:14:118 Directed electrochemical synthesis of ZnO/PDMcT core/shell nanorod arrays with enhanced photoelectrochemical properties
DOI:10.1016/j.ijhydene.2013.09.090 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:7 AU: Su, Yu-Zhi;Xiao, Kang;Liao, Zhi-Jian;Zhong, Yu-Hang;Li, Nan;Chen, Yi-Bo;Liu, Zhao-Qing;
2:14:119 Photoinduced electron and hole transfer in CdS:P3HT nanocomposite films: effect of nanomorphology on charge separation yield and solar cell performance
DOI:10.1039/c3ta12962d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Dowland, Simon A.;Reynolds, Luke X.;MacLachlan, Andrew;Cappel, Ute B.;Haque, Saif A.;
2:14:120 Pyrolytic synthesis of densely packed grown CdSe nanoparticles using a dual function octylamine for hybrid solar cells
DOI:10.1016/j.matlet.2014.02.071 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Khan, M. Alam;Farva, U.;Kang, Yong-Mook;
2:14:121 Template-free synthesis of vertically aligned CdS nanorods and its application in hybrid solar cells
DOI:10.1016/j.solmat.2009.10.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:35 AU: Jiang, Xiaoxia;Chen, Fei;Xu, Hao;Yang, Ligong;Qiu, Weiming;Shi, Minmin;Wang, Mang;Chen, Hongzheng;
2:14:122 Influence of poly3-octylthiophene (P3OT) film thickness and preparation method on photovoltaic performance of hybrid ITO/CdS/P3OT/Au solar cells
DOI:10.1016/j.solmat.2009.04.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:25 AU: Arenas, M. C.;Mendoza, N.;Cortina, Hugo;Nicho, M. E.;Hu, Hailin;
2:14:123 Unified assay of adverse effects from the varied nanoparticle hybrid in polymer fullerene organic photovoltaics
DOI:10.1016/j.solmat.2013.03.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Huang, Yu-Jui;Lo, Wei-Chun;Liu, Shun-Wei;Cheng, Chao-Han;Chen, Chin-Ti;Wang, Juen-Kai;
2:14:124 Ultrafast Charge- and Energy-Transfer Dynamics in Conjugated Polymer: Cadmium Selenide Nanocrystal Blends
DOI:10.1021/nn405978f JN:ACS NANO PY:2014 TC:8 AU: Morgenstern, Frederik S. F.;Rao, Akshay;Boehm, Marcus L.;Kist, Rene J. P.;Vaynzof, Yana;Greenham, Neil C.;
2:14:125 Efficient solution-processed small molecule: Cadmium selenide quantum dot bulk heterojunction solar cells
DOI:10.1063/1.4850215 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Gupta, Vinay;Upreti, Tanvi;Chand, Suresh;
2:14:126 Effect of interfacial dipoles on charge traps in organic-inorganic hybrid solar cells
DOI:10.1039/c3ta01509b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:6 AU: Reeja-Jayan, B.;Adachi, Takuji;Ono, Robert J.;Vanden Bout, David A.;Bielawski, Christopher W.;Manthiram, Arumugam;
2:14:127 In situ fabrication of Bi2S3 nanocrystal film for photovoltaic devices
DOI:10.1016/j.mseb.2012.08.016 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:3 AU: Li, Yanqiao;Zhang, Yange;Lei, Yan;Li, Pinjiang;Jia, Huimin;Hou, Hongwei;Zheng, Zhi;
2:14:128 Optical performance and color investigations of hybrid solar cells based on P3HT:ZnO, PCPDTBT:ZnO, PTB7:ZnO and DTS(PTTh2)(2):ZnO
DOI:10.1016/j.solmat2014.03.049 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Duche, D.;Bencheikh, F.;Ben Dkhil, S.;Gaceur, M.;Berton, N.;Margeat, O.;Ackermann, J.;Simon, J. J.;Escoubas, L.;
2:14:129 Photophysical and photovoltaic properties of a polymer-fullerene system containing CdSe nanoparticles
DOI:10.1016/j.synthmet.2012.12.014 JN:SYNTHETIC METALS PY:2013 TC:6 AU: de Carvalho Alves, Joao Paulo;de Freitas, Jilian Nei;Zambon Atvars, Teresa Dib;Nogueira, Ana Flavia;
2:14:130 Metallic nanoparticles in active layer for hybrid photovoltaic device applications
DOI:10.1016/j.tsf.2013.03.128 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Yu, Yang-Yen;Chan, Si-Han;
2:14:131 Charge balance and photon collection in polymer based ternary bulk heterojunction photovoltaic devices containing cadmium selenide nanoparticles
DOI:10.1063/1.3627165 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Peterson, Eric D.;Smith, Gregory M.;Fu, Minglai;Adams, Richard D.;Coffin, Robert C.;Carroll, David L.;
2:14:132 Electron Transport Limitation in P3HT:CdSe Nanorods Hybrid Solar Cells
DOI:10.1021/am4041515 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Lek, Jun Yan;Xing, Guichuan;Sum, Tze Chien;Lam, Yeng Ming;
2:14:133 Enhancement of the power conversion efficiency of polymer solar cells by functionalized single-walled carbon nanotubes decorated with CdSe/ZnS core-shell colloidal quantum dots
DOI:10.1007/s10853-013-7953-x JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Ni, Ting;Yan, Jingying;Jiang, Yurong;Zou, Fan;Zhang, Li;Yang, Dan;Wei, Jinquan;Yang, Shengyi;Zou, Bingsuo;
2:14:134 A rational elemental-directed alcohol-thermal route to CdSe nanostructures for thin film solar cells
DOI:10.1016/j.matchemphys.2014.02.033 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Zhang, Yan'ge;Li, Pinjiang;Lau, Woon Ming;Gao, Yuanhao;Zi, Junfeng;Zheng, Zhi;
2:14:135 Size-dependent polymer/CuInS2 solar cells with tunable synthesis of CuInS2 quantum dots
DOI:10.1016/j.mssp.2014.03.019 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:1 AU: Yue, Wenjin;Lan, Mingyang;Zhang, Guoqiang;Sun, Wenshan;Wang, Songming;Nie, Guangjun;
2:14:136 Approach to cross-linked polynorbornene/ZnO nanocomposites through nitroxide-mediated free radical graft polymerization and in situ hydrolysis
DOI:10.1016/j.optmat.2012.03.028 JN:OPTICAL MATERIALS PY:2012 TC:0 AU: Li, Fan;Zhang, Lin;Chen, Yiwang;
2:14:137 Ordered microstructure induced by orientation behavior of liquid-crystal polythiophene for performance improvement of hybrid solar cells
DOI:10.1016/j.solmat.2011.10.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Chen, Wei;Chen, Yiwang;Li, Fan;Chen, Lie;Yuan, Kai;Yao, Kai;Wang, Peishan;
2:14:138 Atomistic simulations of thiol-terminated modifiers for hybrid photovoltaic interfaces
DOI:10.1016/j.tsf.2013.09.043 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Malloci, G.;Petrozza, A.;Mattoni, A.;
2:14:139 Near-IR activity of hybrid solar cells: Enhancement of efficiency by dissociating excitons generated in PbS nanoparticles
DOI:10.1063/1.3292183 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Guchhait, Asim;Rath, Arup K.;Pal, Amlan J.;
2:14:140 Broadband energy-harvesting hybrid solar cells employing nanocomposites of polythiophene: ternary PbSSe nanocrystals
DOI:10.1063/1.3669515 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Nam, Minwoo;Kim, Sungwoo;Kim, Taehoon;Kim, Sang-Wook;Lee, Kee-Keun;
2:14:141 Charge transport in poly(3-hexylthiophene):CdSe nanocrystals hybrid thin films investigated with time-of-flight measurements
DOI:10.1063/1.4749840 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Couderc, Elsa;Bruyant, Nicolas;Fiore, Angela;Chandezon, Frederic;Djurado, David;Reiss, Peter;Faure-Vincent, Jerome;
2:14:142 In Situ Formation of Pyridyl-Functionalized Poly(3-hexylthiophene)s via Quenching of the Grignard Metathesis Polymerization: Toward Ligands for Semiconductor Quantum Dots
DOI:10.1021/cm302915h JN:CHEMISTRY OF MATERIALS PY:2012 TC:13 AU: Kochemba, W. Michael;Pickel, Deanna L.;Sumpter, Bobby G.;Chen, Jihua;Kilbey, S. Michael, II;
2:14:143 In Situ Polymerizations of Thiophene on TiO2 Films Using the Semiconductors as Initiators
DOI:10.1002/app.40187 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Wei, Zongzhao;Zou, Cheng;Ni, Xiuyuan;
2:14:144 In situ fabrication of chalcogenide nanoflake arrays for hybrid solar cells: the case of In2S3/poly(3-hexylthiophene)
DOI:10.1039/c1jm11539a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Jia, Huimin;He, Weiwei;Chen, Xuewu;Lei, Yan;Zheng, Zhi;
2:14:145 Synthesis of hybrid organic-inorganic nanocomposite materials based on CdS nanocrystals for energy conversion applications
DOI:10.1007/s11051-011-0304-4 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:6 AU: Laera, A. M.;Resta, V.;Ferrara, M. C.;Schioppa, M.;Piscopiello, E.;Tapfer, L.;
2:14:146 GaAs nanowire/poly(3,4-ethylenedioxythiophene): poly(styrenesulfonate) hybrid solar cells
DOI:10.1088/0957-4484/21/28/285203 JN:NANOTECHNOLOGY PY:2010 TC:14 AU: Chao, Jiun-Jie;Shiu, Shu-Chia;Hung, Shih-Che;Lin, Ching-Fuh;
2:14:147 Photoluminescence enhancement and atmosphere-dependent photovoltaic performance in CdS nanorod arrays/MEH-PPV hybrid
DOI:10.1016/j.solmat.2011.07.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Nan, Ya-Xiong;Chen, Fei;Yang, Li-Gong;Jiang, Xiao-Xia;Zuo, Li-Jian;Zhang, Jing-Lin;Yan, Quan-Xiang;Shi, Min-Min;Chen, Hong-Zheng;
2:14:148 Effect of cadmium sulphide quantum dot processing and post thermal annealing on P3HT/PCBM photovoltaic device
DOI:10.1016/j.tsf.2010.08.032 JN:THIN SOLID FILMS PY:2010 TC:21 AU: Khan, M. Taukeer;Bhargav, Ranoo;Kaur, Amarjeet;Dhawan, S. K.;Chand, S.;
2:14:149 The Influence of Nanocrystal Aggregates on Photovoltaic Performance in Nanocrystal-Polymer Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201400139 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:3 AU: Boehm, Marcus L.;Kist, Rene J. P.;Morgenstern, Frederik S. F.;Ehrler, Bruno;Zarra, Salvatore;Kumar, Abhishek;Vaynzof, Yana;Greenham, Neil C.;
2:14:150 Hole transport mechanism in organic/inorganic hybrid system based on in-situ grown cadmium telluride nanocrystals in poly(3-hexylthiophene)
DOI:10.1063/1.3594647 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Khan, Mohd Taukeer;Kaur, Amarjeet;Dhawan, S. K.;Chand, Suresh;
2:14:151 Building a hybrid nanocomposite assembly of gold nanowires and thienyl-derivative fullerenes to enhance electron transfer in photovoltaics
DOI:10.1039/c3ta01416a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:0 AU: Kim, Yong Seok;Yu, Byung-Kwan;Kim, Jeong Won;Suh, Yo-Han;Kim, Dong-Yu;Kim, Won Bae;
2:14:152 Improvement of power conversion efficiency of P3HT:CdSe hybrid solar cells by enhanced interconnection of CdSe nanorods via decomposable selenourea
DOI:10.1039/c2ta01222g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:11 AU: Kwon, Seungchul;Moon, Hong Chul;Lim, Kyung-Geun;Bae, Dusik;Jang, Sangshin;Shin, Jihyun;Park, Jicheol;Lee, Tae-Woo;Kim, Jin Kon;
2:14:153 Preparation of near-infrared absorbing composites comprised of conjugated macroligands on the surface of PbS nanoparticles
DOI:10.1016/j.polymer.2013.08.038 JN:POLYMER PY:2013 TC:2 AU: Zhang, Jinming;Bahrig, Lydia;Puetz, Andreas;Kanelidis, Ioannis;Lenkeit, Daniel;Pelz, Simon;Hickey, Stephen G.;Klein, Michael F. G.;Colsmann, Alexander;Lemmer, Uli;Eychmueller, Alexander;Holder, Elisabeth;
2:14:154 A preliminary development in hybrid a-silicon/polymer solar cells
DOI:10.1016/j.renene.2013.09.002 JN:RENEWABLE ENERGY PY:2014 TC:4 AU: Zhang, Zhi;He, Zhiqun;Liang, Chunjun;Lind, Anna H. N.;Diyaf, Adel;Peng, Ying;Wilson, John I. B.;
2:14:155 Hybrid solar cells based on tetrapod nanocrystals: The effects of compositions and type II heterojunction on hybrid solar cell performance
DOI:10.1016/j.solmat.2010.08.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:15 AU: Lee, Hyunju;Kim, Sungwon;Chung, Won-Suk;Kim, Kyungkon;Kim, Donghwan;
2:14:156 Inverted structure hybrid solar cells using CdS thin films
DOI:10.1016/j.solmat.2013.04.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Yavuz, Nursel;Yuksel, Sureyya Aydin;Karsli, Adem;Gunes, Serap;
2:14:157 The impact of inverse photoemission spectroscopy measurements on regioregular poly(3-hexylthiophene) films
DOI:10.1063/1.4862327 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Li, Zhi;Sun, Siqi;Li, Xiao;Schlaf, Rudy;
2:14:158 Semiconducting Conjugated Polymer-Inorganic Tetrapod Nanocomposites
DOI:10.1021/la400925y JN:LANGMUIR PY:2013 TC:12 AU: Jung, Jaehan;Pang, Xinchang;Feng, Chaowei;Lin, Zhiqun;
2:14:159 A green approach for direct growth of CdS nanoparticles network in poly(3-hexylthiophene-2,5-diyl) polymer film for hybrid photovoltaic
DOI:10.1016/j.matlet.2012.08.071 JN:MATERIALS LETTERS PY:2012 TC:7 AU: Bhardwaj, R. K.;Kushwaha, H. S.;Gaur, J.;Upreti, T.;Bharti, V.;Gupta, V.;Chaudhary, N.;Sharma, G. D.;Banerjee, K.;Chand, S.;
2:14:160 Electrical Measurements on P3HT:CdSe Blends for Photovoltaic Applications
DOI:10.1080/15421406.2014.968485 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kazukauskas, V.;Sakavicius, A.;Couderc, E.;Janonis, V.;Reiss, P.;Djurado, D.;Faure-Vincent, J.;
2:14:161 Influence of the polymer matrix on the efficiency of hybrid solar cells based on silicon nanowires
DOI:10.1016/j.mseb.2011.10.004 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:5 AU: Ben Dkhil, S.;Bourguiga, R.;Davenas, J.;Cornu, D.;
2:14:162 pH-assisted shape-controlled synthesis of homogeneous hybrid CdS-cystine composites
DOI:10.1016/j.powtec2013.12.035 JN:POWDER TECHNOLOGY PY:2014 TC:0 AU: Ye, Junwei;Gao, Yuan;Wang, Lifeng;Zhao, Limei;Tian, Peng;Lin, Yuan;Ning, Guiling;
2:14:163 Self-assembly of a conjugated triblock copolymer at the air-water interface
DOI:10.1039/c3sm51488a JN:SOFT MATTER PY:2013 TC:3 AU: Zhao, Lei;Feng, Chaowei;Pang, Xinchang;Jung, Jaehan;Stefan, Mihaela C.;Sista, Prakash;Han, Rui;Fang, Ning;Lin, Zhiqun;
2:14:164 Investigation of new PPV-type polymeric materials containing fluorene and thiophene units and their application in organic solar cells
DOI:10.1016/j.synthmet.2010.05.036 JN:SYNTHETIC METALS PY:2010 TC:9 AU: de Freitas, Jilian Nei;Pivrikas, Almantas;Nowacki, Bruno;Akcelrud, Leni C.;Sariciftci, N. Serdar;Nogueira, Ana Flavia;
2:14:165 Metal sulfide-polymer nanocomposite thin films prepared by a direct formation route for photovoltaic applications
DOI:10.1016/j.tsf.2011.02.020 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Maier, Eugen;Fischereder, Achim;Haas, Wernfried;Mauthner, Gernot;Albering, Joerg;Rath, Thomas;Hofer, Ferdinand;List, Emil J. W.;Trimmel, Gregor;
2:14:166 Preparation and characterization of regioregular poly(3-octylthiophene-2,5-diyl)/copper indium disenillide/titania heterojunction polymer solar cells
DOI:10.1016/j.tsf.2011.01.024 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Yu, Yang-Yen;Chien, Wen-Chen;Ciou, Chi-Yi;Wu, Hsuan-Chung;
2:14:167 Highly Luminescent and Temperature Stable Quantum Dot Thin Films Based on a ZnS Composite
DOI:10.1021/cm300661q JN:CHEMISTRY OF MATERIALS PY:2012 TC:10 AU: Todescato, Francesco;Chesman, Anthony S. R.;Martucci, Alessandro;Signorini, Raffaella;Jasieniak, Jacek J.;
2:14:168 CdSe quantum dots sensitized nanoporous hematite for photoelectrochemical generation of hydrogen
DOI:10.1016/j.ijhydene.2014.05.183 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:4 AU: Sahai, Sonal;Ikram, Ashi;Rai, Snigdha;Dass, Sahab;Shrivastav, Rohit;Satsangi, Vibha R.;
2:14:169 Synthesis of thiol modified CdSe nanoparticles/P3HT blends for hybrid solar cell structures
DOI:10.1016/j.mssp.2014.02.008 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:5 AU: Ananthakumar, S.;Ramkumar, J.;Babu, S. Moorthy;
2:14:170 Ligand-dependent transient absorption studies of hybrid polymer:CdSe quantum dot composites
DOI:10.1016/j.solmat.2011.10.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:26 AU: Sharma, Shailesh N.;Vats, Tanvi;Dhenadhayalan, N.;Ramamurthy, P.;Narula, A. K.;
2:14:171 Direct application of P3HT-DOPO@ZnO nanocomposites in hybrid bulk heterojunction solar cells via grafting P3HT onto ZnO nanoparticles
DOI:10.1016/j.solmat.2011.09.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Li, Fan;Du, Yanhui;Chen, Yiwang;Chen, Lie;Zhao, Jie;Wang, Peishan;
2:14:172 Morphological and physicochemical properties of spin-coated poly(3-octylthiophene)/polystyrene composite thin films
DOI:10.1016/j.tsf.2009.09.036 JN:THIN SOLID FILMS PY:2010 TC:14 AU: Nicho, M. E.;Pena-Salgado, D.;Altuzar-Coello, P.;
2:14:173 Charge transfer in blends of P3HT and colloidally prepared CuInS2 nanocrystals
DOI:10.1016/j.tsf.2010.12.102 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Kruszynska, Marta;Knipper, Martin;Kolny-Olesiak, Joanna;Borchert, Holger;Parisi, Juergen;
2:14:174 Hybrid polymer:colloidal nanoparticle photovoltaic cells incorporating a solution-processed, multi-functioned ZnO nanocrystal layer
DOI:10.1063/1.3689154 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Yang, Jihua;Qian, Lei;Zhou, Renjia;Zheng, Ying;Tang, Aiwei;Holloway, Paul H.;Xue, Jiangeng;
2:14:175 Multi-photon in situ synthesis and patterning of polymer-embedded nanocrystals
DOI:10.1039/c2jm16625a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Camposeo, Andrea;Polo, Marco;Neves, Antonio A. R.;Fragouli, Despina;Persano, Luana;Molle, Sandra;Laera, Anna M.;Piscopiello, Emanuela;Resta, Vincenzo;Athanassiou, Athanassia;Cingolani, Roberto;Tapfer, Leander;Pisignano, Dario;
2:14:176 Solution-processed CdS thin films from a single-source precursor
DOI:10.1039/c3tc32189d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Chesman, Anthony S. R.;Duffy, Noel W.;Martucci, Alessandro;Tozi, Leonardo De Oliveira;Singha, Th Birendra;Jasieniak, Jacek J.;
2:14:177 Improved efficiency of organic/inorganic photovoltaic devices by electrospun ZnO nanofibers
DOI:10.1016/j.mseb.2012.05.025 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:6 AU: Tanveer, Muhammad;Habib, Amir;Khan, Muhammad Bilal;
2:14:178 ZnxCd1-xSe nanomultipods with tunable band gaps: synthesis and first-principles calculations
DOI:10.1088/0957-4484/24/23/235706 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Wei, Hao;Su, Yanjie;Han, Ziyi;Li, Tongtong;Ren, Xinglong;Yang, Zhi;Wei, Liangming;Cong, Fengsong;Zhang, Yafei;
2:14:179 Investigation of the optical characteristics of a combination of InP/ZnS-quantum dots with MWCNTs in a PMMA matrix
DOI:10.1016/j.optmat.2013.07.007 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Landi, G.;Henninger, M.;del Mauro, A. De Girolamo;Borriello, C.;Di Luccio, T.;Neitzert, H. C.;
2:14:180 A facile route for preparation of conjugated polymer functionalized inorganic semiconductors and direct application in hybrid photovoltaic devices
DOI:10.1016/j.solmat.2010.03.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:17 AU: Geng, Hongwei;Guo, Ying;Peng, Ruixiang;Han, Shikui;Wang, Mingtai;
2:14:181 Enhanced performance of hybrid photovoltaic devices via surface-modifying metal oxides with conjugated polymer
DOI:10.1016/j.solmat.2009.11.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:10 AU: Geng, Hongwei;Wang, Mingtai;Han, Shikui;Peng, Ruixiang;
2:14:182 Applications of novel dithienothiophene- and 2,7-carbazole-based conjugated polymers with surface-modified ZnO nanoparticles for organic photovoltaic cells
DOI:10.1016/j.tsf.2011.01.162 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Fang, Hsiao-Ping;Chiang, I-Hung;Chu, Chih-Wei;Yang, Chang-Chung;Lin, Hong-Cheu;
2:14:183 Hybrid solar cells using CdS thin films deposited via spray pyrolysis technique
DOI:10.1016/j.tsf.2013.05.126 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Yuksel, Sureyya Aydin;Gunes, Serap;Guney, H. Yuksel;
2:14:184 Hybrid heterostructures based on aromatic polyimide and semiconductor CdSe quantum dots for photovoltaic applications
DOI:10.1063/1.4817722 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Dayneko, Sergey;Tameev, Alexey;Tedoradze, Marine;Martynov, Igor;Artemyev, Mikhail;Nabiev, Igor;Chistyakov, Alexander;
2:14:185 Influence of interface modification on the performance of polymer/Bi2S3 nanorods bulk heterojunction solar cells
DOI:10.1016/j.apsusc.2010.07.004 JN:APPLIED SURFACE SCIENCE PY:2010 TC:8 AU: Wang, Zhijie;Qu, Shengchun;Zeng, Xiangbo;Liu, Junpeng;Tan, Furui;Jin, Lan;Wang, Zhanguo;
2:14:186 In situ preparation and fluorescence quenching properties of polythiophene/ZnO nanocrystals hybrids through atom-transfer radical polymerization and hydrolysis
DOI:10.1016/j.apsusc.2009.11.056 JN:APPLIED SURFACE SCIENCE PY:2010 TC:13 AU: Peng, Xiaoming;Zhang, Lin;Chen, Yiwang;Li, Fan;Zhou, Weihua;
2:14:187 The effect of ITO/Mo/MoO3 anode multilayer film on efficient hole extraction in MEH-PPV/ZnO NP hybrid solar cells
DOI:10.1016/j.ceramint.2014.07.065 JN:CERAMICS INTERNATIONAL PY:2014 TC:2 AU: Park, Jaehyoung;Park, Gwanghoon;Ko, Hang-Ju;Ha, Jun-Seok;
2:14:188 Improvement in photovoltaic performance for hybrid P3HT/elongated CdS nanocrystals solar cells with F-doped SnO2 arrays
DOI:10.1039/c0jm00385a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:12 AU: Liao, Hung-Chou;Lin, Chin-Ching;Chen, Yu-Wei;Liu, Ta-Chung;Chen, San-Yuan;
2:14:189 Multiple twinning drives nanoscale hyper-branching of titanium dioxide nanocrystals
DOI:10.1039/c1jm11405k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Jun, Young-wook;Chung, Hea-Won;Jang, Jung-tak;Cheon, Jinwoo;
2:14:190 Cellulose acetate fibers covered by CdS nanoparticles for hybrid solar cell applications
DOI:10.1016/j.mseb.2012.02.014 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:10 AU: Cortina, Hugo;Martinez-Alonso, Claudia;Castillo-Ortega, Monica;Hu, Hailin;
2:14:191 Highly photoluminescent and photostable CdSe quantum dot-nylon hybrid composites for efficient light conversion applications
DOI:10.1016/j.mseb.2011.12.003 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:5 AU: Yuan, Ying;Riehle, Frank-Stefan;Nitschke, Roland;Krueger, Michael;
2:14:192 Influence of crystal phase for CuInS2 on device performance of polymer-CuInS2/oxide nanoarrays solar cells
DOI:10.1016/j.mssp.2014.02.032 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:4 AU: Yue, Wenjin;Zhang, Guoqiang;Wang, Songming;Sun, Wenshan;Lan, Mingyang;Nie, Guangjun;
2:14:193 Improvement of inverted-type organic solar cells by mild oxygen plasma etching on polymer thin film
DOI:10.1016/j.solmat.2010.05.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:4 AU: Wang, Ing-Jye;Shiu, Shu-Chia;Lin, Ming-Yi;Huang, Jing-Shun;Lin, Yu-Hong;Lin, Ching-Fuh;
2:14:194 Improvement of CdSe/P3HT bulk hetero-junction solar cell performance due to ligand exchange from TOPO to pyridine
DOI:10.1016/j.solmat.2011.06.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Nguyen Tam Nguyen Truong;Kim, Woo Kyoung;Farva, Umme;Luo, Xiang Dong;Park, Chinho;
2:14:195 Effect of CdSe/P3HT composition on electrical and structural properties of bulk hetero-junction solar cell active layer
DOI:10.1016/j.solmat.2010.05.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Truong, Nguyen Tam Nguyen;Kim, Woo Kyoung;Park, Chinho;
2:14:196 GaAs nanowire/poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) hybrid solar cells with incorporating electron blocking poly(3-hexylthiophene) layer
DOI:10.1016/j.solmat.2012.05.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Chao, Jiun-Jie;Shiu, Shu-Chia;Lin, Ching-Fuh;
2:14:197 Synthesis and photovoltaic property of donor-acceptor type conjugated polymer containing carbazole and 4,7-dithiazolylbenzothiadiazole moiety utilized as a promising electron withdrawing unit
DOI:10.1016/j.synthmet.2011.09.021 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Lee, Jang Yong;Song, Kwan Wook;Song, Ho Jun;Moon, Doo Kyung;
2:14:198 Solution-processed bulk heterojunction photovoltaic devices based on poly(2-methoxy,5-octoxy)-1,4-phenylenevinylene-multiwalled carbon nanotubes/PbSe quantum dots bilayer
DOI:10.1063/1.3337100 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Feng, Yiyu;Yun, Daqin;Zhang, Xuequan;Feng, Wei;
2:14:199 Photovoltaic effect in hybrid heterojunction formed from cadmium telluride and zinc perfluorophthalocyanine layers
DOI:10.1016/j.jnoncrysol.2010.05.073 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:2 AU: Signerski, R.;Jarosz, G.;Koscielska, B.;
2:14:200 Conductivity, charge carrier mobility and ageing of ZnPc/C60 solar cells
DOI:10.1016/j.optmat.2010.04.008 JN:OPTICAL MATERIALS PY:2010 TC:7 AU: Kazukauskas, V.;Arlauskas, A.;Pranaitis, M.;Lessmann, R.;Riede, M.;Leo, K.;
2:14:201 Electrical, optical and hole transport mechanism in thin films of poly(3-octylthiophene-co-3-hexylthiophene): Synthesis and characterization
DOI:10.1016/j.synthmet.2010.05.016 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Khan, Mohd Taukeer;Bajpai, Manisha;Kaur, Amarjeet;Dhawan, S. K.;Chand, Suresh;
2:14:202 Push-pull effect on the charge transport properties in anthra[2,3-b]thiophene derivatives used as dye-sensitized and hetero-junction solar cell materials
DOI:10.1016/j.synthmet.2014.01.017 JN:SYNTHETIC METALS PY:2014 TC:12 AU: Irfan, Ahmad;Al-Sehemi, Abdullah G.;Muhammad, Shabbir;
2:14:203 Irradiation-induced nano-voids in strained tin precipitates in silicon
DOI:10.1063/1.4871508 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Gaiduk, P. I.;Hansen, J. Lundsgaard;Larsen, A. Nylandsted;
2:14:204 In Situ Formation of Pyridyl-Functionalized Poly(3-hexylthiophene)s via Quenching of the Grignard Metathesis Polymerization: Toward Ligands for Semiconductor Quantum Dots (vol 24, pg 4459, 2012)
DOI:10.1021/cm303907t JN:CHEMISTRY OF MATERIALS PY:2013 TC:0 AU: Kochemba, W. Michael;Pickel, Deanna L.;Keene, Joseph D.;Rosenthal, Sandra J.;Sumpter, Bobby G.;Chen, Jihua;Kilbey, S. Michael, II;
2:14:205 One solvent, one pot and free capping ligands: Synthesis of alloyed multipod-branched CdxZn1-xS nanocrystals
DOI:10.1016/j.jcis.2010.05.029 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:1 AU: He, Xiaobo;Gao, Lian;
2:14:206 A study of structure and temperature-triggered breakdown of particle gels prepared by pH-triggered heteroaggregation
DOI:10.1016/j.jcis.2009.10.070 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:2 AU: Hui, Dave;Morris, Daniel;Edwards, Martin;Saunders, Brian R.;
2:14:207 Electrophoretic Deposition of Poly(3-decylthiophene) onto Gold-Mounted Cadmium Selenide Nanorods
DOI:10.1021/la203227k JN:LANGMUIR PY:2011 TC:4 AU: Garate, Jose-Antonio;English, Niall J.;Singh, Ajay;Ryan, Kevin M.;Mooney, Damian A.;MacElroy, J. M. D.;
2:14:208 Conjugated copolymers based on poly(fluorenylene vinylene) derivatives containing push-pull units: Synthesis and characterization
DOI:10.1016/j.matchemphys.2011.06.029 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:0 AU: de Freitas, Jilian N.;Li, Rosamaria W. C.;Nogueira, Ana Flavia;Gruber, Jonas;
2:14:209 Study of polymer/ZnO nanostructure interfaces by Kelvin probe force microscopy
DOI:10.1016/j.solmat.2012.08.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Xu, Tingting;Venkatesan, Swaminathan;Galipeau, David;Qiao, Qiquan;
2:14:210 Conductive composite films composed of polyaniline thin layers on microporous polyacrylonitrile surfaces
DOI:10.1016/j.tsf.2010.07.088 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Zhai, Guangzhao;Fan, Qingqing;Tang, Yue;Zhang, Yu;Pan, Ding;Qin, Zongyi;
2:14:211 Properties of one-step synthesized Pt nanoparticle-doped poly(3,4-ethylenedioxy thiophen):poly(styrenesulfonate) hybrid films
DOI:10.1016/j.tsf.2010.04.084 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Wang, Seok-Joo;Park, Hyung-Ho;
2:14:212 Surface texturing of GaAs using a nanosphere lithography technique for solar cell applications
DOI:10.1016/j.tsf.2010.03.165 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Kim, B.;Bang, J.;Jang, S.;Kim, D.;Kim, J.;
2:14:213 Enhancement of the light harvesting efficiency in a dye-sensitized solar cell by a patterned reflector
DOI:10.1016/j.tsf.2013.03.062 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Kim, Jeong-Hwa;Kim, Dae-Hwan;Kim, Kang-Pil;Jeon, Dong-Hwan;Hwang, Dae-Kue;
2:14:214 Layer-by-layer growth of precisely controlled hetero-molecular multi-layers and superlattice structures
DOI:10.1016/j.tsf.2013.03.082 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Hiroshiba, Nobuya;Hill, Jonathan P.;Hayakawa, Ryoma;Ariga, Katsuhiko;Matsuishi, Kiyoto;Wakayama, Yutaka;
2:15:1 Continuous, Highly Flexible, and Transparent Graphene Films by Chemical Vapor Deposition for Organic Photovoltaics
DOI:10.1021/nn901587x JN:ACS NANO PY:2010 TC:361 AU: De Arco, Lewis Gomez;Zhang, Yi;Schlenker, Cody W.;Ryu, Koungmin;Thompson, Mark E.;Zhou, Chongwu;
2:15:2 Graphene as Transparent Electrode Material for Organic Electronics
DOI:10.1002/adma.201100304 JN:ADVANCED MATERIALS PY:2011 TC:246 AU: Pang, Shuping;Hernandez, Yenny;Feng, Xinliang;Muellen, Klaus;
2:15:3 Organic Light-Emitting Diodes on Solution-Processed Graphene Transparent Electrodes
DOI:10.1021/nn900728d JN:ACS NANO PY:2010 TC:299 AU: Wu, Junbo;Agrawal, Mukul;Becerril, Hector A.;Bao, Zhenan;Liu, Zunfeng;Chen, Yongsheng;Peumans, Peter;
2:15:4 Organic Photovoltaic Devices Using Highly Flexible Reduced Graphene Oxide Films as Transparent Electrodes
DOI:10.1021/nn1015874 JN:ACS NANO PY:2010 TC:245 AU: Yin, Zongyou;Sun, Shuangyong;Salim, Teddy;Wu, Shixin;Huang, Xiao;He, Qiyuan;Lam, Yeng Ming;Zhang, Hua;
2:15:5 Graphene-Based Materials for Solar Cell Applications
DOI:10.1002/aenm.201300574 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:51 AU: Yin, Zongyou;Zhu, Jixin;He, Qiyuan;Cao, Xiehong;Tan, Chaoliang;Chen, Hongyu;Yan, Qingyu;Zhang, Hua;
2:15:6 Interface Engineering of Layer-by-Layer Stacked Graphene Anodes for High-Performance Organic Solar Cells
DOI:10.1002/adma.201003673 JN:ADVANCED MATERIALS PY:2011 TC:206 AU: Wang, Yu;Tong, Shi Wun;Xu, Xiang Fan;Oezyilmaz, Barbaros;Loh, Kian Ping;
2:15:7 25th Anniversary Article: Carbon Nanotube- and Graphene- Based Transparent Conductive Films for Optoelectronic Devices
DOI:10.1002/adma.201304135 JN:ADVANCED MATERIALS PY:2014 TC:38 AU: Du, Jinhong;Pei, Songfeng;Ma, Laipeng;Cheng, Hui-Ming;
2:15:8 Enhancing the conductivity of transparent graphene films via doping
DOI:10.1088/0957-4484/21/28/285205 JN:NANOTECHNOLOGY PY:2010 TC:153 AU: Kim, Ki Kang;Reina, Alfonso;Shi, Yumeng;Park, Hyesung;Li, Lain-Jong;Lee, Young Hee;Kong, Jing;
2:15:9 Graphene - A Promising Material for Organic Photovoltaic Cells
DOI:10.1002/adma.201102735 JN:ADVANCED MATERIALS PY:2011 TC:97 AU: Wan, Xiangjian;Long, Guankui;Huang, Lu;Chen, Yongsheng;
2:15:10 Graphene-based transparent flexible electrodes for polymer solar cells
DOI:10.1039/c2jm33784c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:44 AU: He, Ming;Jung, Jaehan;Qiu, Feng;Lin, Zhiqun;
2:15:11 Chemical Doping of Large-Area Stacked Graphene Films for Use as Transparent, Conducting Electrodes
DOI:10.1021/nn100508g JN:ACS NANO PY:2010 TC:140 AU: Kasry, Amal;Kuroda, Marcelo A.;Martyna, Glenn J.;Tulevski, George S.;Bol, Ageeth A.;
2:15:12 The application of graphene as electrodes in electrical and optical devices
DOI:10.1088/0957-4484/23/11/112001 JN:NANOTECHNOLOGY PY:2012 TC:83 AU: Jo, Gunho;Choe, Minhyeok;Lee, Sangchul;Park, Woojin;Kahng, Yung Ho;Lee, Takhee;
2:15:13 Layer-by-Layer Doping of Few-Layer Graphene Film
DOI:10.1021/nn1008808 JN:ACS NANO PY:2010 TC:117 AU: Gunes, Fethullah;Shin, Hyeon-Jin;Biswas, Chandan;Han, Gang Hee;Kim, Eun Sung;Chae, Seung Jin;Choi, Jae-Young;Lee, Young Hee;
2:15:14 The Application of Highly Doped Single-Layer Graphene as the Top Electrodes of Semitransparent Organic Solar Cells
DOI:10.1021/nn204675r JN:ACS NANO PY:2012 TC:97 AU: Liu, Zhike;Li, Jinhua;Sun, Zhen-Hua;Tai, Guoan;Lau, Shu-Ping;Yan, Feng;
2:15:15 Graphene synthesis and application for solar cells
DOI:10.1557/jmr.2013.297 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:7 AU: Das, Santanu;Sudhagar, Pitchaimuthu;Kang, Yong Soo;Choi, Wonbong;
2:15:16 Layer-by-Layer Graphene/TCNQ Stacked Films as Conducting Anodes for Organic Solar Cells
DOI:10.1021/nn301721q JN:ACS NANO PY:2012 TC:74 AU: Hsu, Chang-Lung;Lin, Cheng-Te;Huang, Jen-Hsien;Chu, Chih-Wei;Wei, Kung-Hwa;Li, Lain-Jong;
2:15:17 Control of Electronic Structure of Graphene by Various Dopants and Their Effects on a Nanogenerator
DOI:10.1021/ja105140e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:86 AU: Shin, Hyeon-Jin;Choi, Won Mook;Choi, Dukhyun;Han, Gang Hee;Yoon, Seon-Mi;Park, Hyun-Kyu;Kim, Sang-Woo;Jin, Yong Wan;Lee, Sang Yoon;Kim, Jong Min;Choi, Jae-Young;Lee, Young Hee;
2:15:18 Graphene-Conducting Polymer Hybrid Transparent Electrodes for Efficient Organic Optoelectronic Devices
DOI:10.1002/adfm.201302928 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Lee, Byoung Hoon;Lee, Jong-Hoon;Kahng, Yung Ho;Kim, Nara;Kim, Yong Jae;Lee, Jongjin;Lee, Takhee;Lee, Kwanghee;
2:15:19 Doped graphene electrodes for organic solar cells
DOI:10.1088/0957-4484/21/50/505204 JN:NANOTECHNOLOGY PY:2010 TC:98 AU: Park, Hyesung;Rowehl, Jill A.;Kim, Ki Kang;Bulovic, Vladimir;Kong, Jing;
2:15:20 A graphene-based transparent electrode for use in flexible optoelectronic devices
DOI:10.1039/c3tc32264e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:13 AU: Rana, Kuldeep;Singh, Jyoti;Ahn, Jong-Hyun;
2:15:21 Top Laminated Graphene Electrode in a Semitransparent Polymer Solar Cell by Simultaneous Thermal Annealing/Releasing Method
DOI:10.1021/nn201940j JN:ACS NANO PY:2011 TC:75 AU: Lee, Yu-Ying;Tu, Kun-Hua;Yu, Chen-Chieh;Li, Shao-Sian;Hwang, Jeong-Yuan;Lin, Chih-Cheng;Chen, Kuei-Hsien;Chen, Li-Chyong;Chen, Hsuen-Li;Chen, Chun-Wei;
2:15:22 Package-Free Flexible Organic Solar Cells with Graphene top Electrodes
DOI:10.1002/adma.201205337 JN:ADVANCED MATERIALS PY:2013 TC:55 AU: Liu, Zhike;Li, Jinhua;Yan, Feng;
2:15:23 Graphene As Transparent Conducting Electrodes in Organic Photovoltaics: Studies in Graphene Morphology, Hole Transporting Layers, and Counter Electrodes
DOI:10.1021/nl2029859 JN:NANO LETTERS PY:2012 TC:83 AU: Park, Hyesung;Brown, Patrick R.;Buloyic, Vladimir;Kong, Jing;
2:15:24 Increased Work Function in Few-Layer Graphene Sheets via Metal Chloride Doping
DOI:10.1002/adfm.201200997 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:65 AU: Kwon, Ki Chang;Choi, Kyoung Soon;Kim, Soo Young;
2:15:25 Enhanced Charge Injection in Pentacene Field-Effect Transistors with Graphene Electrodes
DOI:10.1002/adma.201003165 JN:ADVANCED MATERIALS PY:2011 TC:65 AU: Lee, Sangchul;Jo, Gunho;Kang, Seok-Ju;Wang, Gunuk;Choe, Minhyeok;Park, Woojin;Kim, Dong-Yu;Kahng, Yung Ho;Lee, Takhee;
2:15:26 Graphene in photovoltaic applications: organic photovoltaic cells (OPVs) and dye-sensitized solar cells (DSSCs)
DOI:10.1039/c4ta01047g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:14 AU: Chang, Dong Wook;Choi, Hyun-Jung;Filer, Alan;Baek, Jong-Beom;
2:15:27 Effective Work Function Modulation of Graphene/Carbon Nanotube Composite Films As Transparent Cathodes for Organic Optoelectronics
DOI:10.1021/nn201253w JN:ACS NANO PY:2011 TC:63 AU: Huang, Jen-Hsien;Fang, Jheng-Hao;Liu, Chung-Chun;Chu, Chih-Wei;
2:15:28 Tuning of a graphene-electrode work function to enhance the efficiency of organic bulk heterojunction photovoltaic cells with an inverted structure
DOI:10.1063/1.3514551 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: Jo, Gunho;Na, Seok-In;Oh, Seung-Hwan;Lee, Sangchul;Kim, Tae-Soo;Wang, Gunuk;Choe, Minhyeok;Park, Woojin;Yoon, Jongwon;Kim, Dong-Yu;Kahng, Yung Ho;Lee, Takhee;
2:15:29 Al-TiO2 Composite-Modified Single-Layer Graphene as an Efficient Transparent Cathode for Organic Solar Cells
DOI:10.1021/nn3058399 JN:ACS NANO PY:2013 TC:31 AU: Zhang, Di;Xie, Fengxian;Lin, Peng;Choy, Wallace C. H.;
2:15:30 Multilayered graphene used as anode of organic light emitting devices
DOI:10.1063/1.3373855 JN:APPLIED PHYSICS LETTERS PY:2010 TC:50 AU: Sun, T.;Wang, Z. L.;Shi, Z. J.;Ran, G. Z.;Xu, W. J.;Wang, Z. Y.;Li, Y. Z.;Dai, L.;Qin, G. G.;
2:15:31 Flexible organic solar cells composed of P3HT:PCBM using chemically doped graphene electrodes
DOI:10.1088/0957-4484/23/34/344013 JN:NANOTECHNOLOGY PY:2012 TC:42 AU: Lee, Sangchul;Yeo, Jun-Seok;Ji, Yongsung;Cho, Chunhum;Kim, Dong-Yu;Na, Seok-In;Lee, Byoung Hun;Lee, Takhee;
2:15:32 Multilayer graphene films as transparent electrodes for organic photovoltaic devices
DOI:10.1016/j.solmat.2011.09.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:53 AU: Choi, Yoon-Young;Kang, Seong Jun;Kim, Han-Ki;Choi, Won Mook;Na, Seok-In;
2:15:33 Flexible Organic Photovoltaic Cells with In Situ Nonthermal Photoreduction of Spin-Coated Graphene Oxide Electrodes
DOI:10.1002/adfm.201202713 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:36 AU: Kymakis, Emmanuel;Savva, Kyriaki;Stylianakis, Minas M.;Fotakis, Costas;Stratakis, Emmanuel;
2:15:34 Transparent Conductive Graphene Films Synthesized by Ambient Pressure Chemical Vapor Deposition Used as the Front Electrode of CdTe Solar Cells
DOI:10.1002/adma.201100645 JN:ADVANCED MATERIALS PY:2011 TC:62 AU: Bi, Hui;Huang, Fuqiang;Liang, Jun;Xie, Xiaoming;Jiang, Mianheng;
2:15:35 Effect of HNO3 functionalization on large scale graphene for enhanced tri-iodide reduction in dye-sensitized solar cells
DOI:10.1039/c2jm32481d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Das, Santanu;Sudhagar, P.;Ito, Eisuke;Lee, Dong-yoon;Nagarajan, S.;Lee, Sang Yun;Kang, Yong Soo;Choi, Wonbong;
2:15:36 Strong and Stable Doping of Carbon Nanotubes and Graphene by MoOx for Transparent Electrodes
DOI:10.1021/nl301207e JN:NANO LETTERS PY:2012 TC:31 AU: Hellstrom, Sondra L.;Vosgueritchian, Michael;Stoltenberg, Randall M.;Irfan, Irfan;Hammock, Mallory;Wang, Yinchao Bril;Jia, Chuancheng;Guo, Xuefeng;Gao, Yongli;Bao, Zhenan;
2:15:37 Synthesis and characterization of plasmon resonant gold nanoparticles and graphene for photovoltaics
DOI:10.1016/j.mseb.2012.10.034 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:10 AU: Giangregorio, M. M.;Losurdo, M.;Bianco, G. V.;Dilonardo, E.;Capezzuto, P.;Bruno, G.;
2:15:38 The Role of Chemistry in Graphene Doping for Carbon-Based Electronics
DOI:10.1021/nn200225f JN:ACS NANO PY:2011 TC:35 AU: Nistor, Razvan A.;Newns, Dennis M.;Martyna, Glenn J.;
2:15:39 Effect of anions in Au complexes on doping and degradation of graphene
DOI:10.1039/c3tc00046j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:13 AU: Kwon, Ki Chang;Kim, Buem Joon;Lee, Jong-Lam;Kim, Soo Young;
2:15:40 Graphene Cathode-Based ZnO Nanowire Hybrid Solar Cells
DOI:10.1021/nl303920b JN:NANO LETTERS PY:2013 TC:55 AU: Park, Hyesung;Chang, Sehoon;Jean, Joel;Cheng, Jayce J.;Araujo, Paulo T.;Wang, Mingsheng;Bawendi, Moungi G.;Dresselhaus, Mildred S.;Bulovic, Vladimir;Kong, Jing;Gradecak, Silvija;
2:15:41 Role of Dopants in Long-Range Charge Carrier Transport for p-Type and n-Type Graphene Transparent Conducting Thin Films
DOI:10.1021/nn402673z JN:ACS NANO PY:2013 TC:18 AU: Bult, Justin B.;Crisp, Ryan;Perkins, Craig L.;Blackburn, Jeffrey L.;
2:15:42 Polymer solar cells with gold nanoclusters decorated multi-layer graphene as transparent electrode
DOI:10.1063/1.3664120 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Zhang, Di;Choy, Wallace C. H.;Wang, Charlie C. D.;Li, Xiao;Fan, Lili;Wang, Kunlin;Zhu, Hongwei;
2:15:43 CVD Graphene as Interfacial Layer to Engineer the Organic Donor Acceptor Heterojunction Interface Properties
DOI:10.1021/am300887j JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:17 AU: Zhong, Shu;Zhong, Jian Qiang;Mao, Hong Ying;Wang, Rui;Wang, Yu;Qi, Dong Chen;Loh, Kian Ping;Wee, Andrew Thye Shen;Chen, Zhi Kuan;Chen, Wei;
2:15:44 Clean surface transfer of graphene films via an effective sandwich method for organic light-emitting diode applications
DOI:10.1039/c3tc31722f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Han, Yuanyuan;Zhang, Lei;Zhang, Xiujuan;Ruan, Kaiqun;Cui, Linsong;Wang, Yuming;Liao, Liangsheng;Wang, Zhaokui;Jie, Jiansheng;
2:15:45 Stable hole doping of graphene for low electrical resistance and high optical transparency
DOI:10.1088/0957-4484/22/42/425701 JN:NANOTECHNOLOGY PY:2011 TC:42 AU: Tongay, S.;Berke, K.;Lemaitre, M.;Nasrollahi, Z.;Tanner, D. B.;Hebard, A. F.;Appleton, B. R.;
2:15:46 Iron (III) Chloride doping of CVD graphene
DOI:10.1088/0957-4484/25/39/395701 JN:NANOTECHNOLOGY PY:2014 TC:1 AU: Song, Yi;Fang, Wenjing;Hsu, Allen L.;Kong, Jing;
2:15:47 Novel Film-Casting Method for High-Performance Flexible Polymer Electrodes
DOI:10.1002/adfm.201000589 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:33 AU: Lee, Byoung Hoon;Park, Sung Heum;Back, Hyungcheol;Lee, Kwanghee;
2:15:48 Work-Function Engineering of Graphene Anode by Bis(trifluoromethanesulfonyl)amide Doping for Efficient Polymer Light-Emitting Diodes
DOI:10.1002/adfm201301386 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:11 AU: Kim, Donghyuk;Lee, Dongchan;Lee, Yonghee;Jeon, Duk Young;
2:15:49 Work Function Modulation and Thermal Stability of Reduced Graphene Oxide Gate Electrodes in MOS Devices
DOI:10.1021/am404649a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Misra, Abhishek;Kalita, Hemen;Kottantharayil, Anil;
2:15:50 Molecular n-doping of chemical vapor deposition grown graphene
DOI:10.1039/c2jm32716c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Singh, Arun Kumar;Iqbal, Muhammad Waqas;Singh, Vivek Kumar;Iqbal, Muhammad Zahir;Lee, Jae Hong;Chun, Seung-Hyun;Shin, Koo;Eom, Jonghwa;
2:15:51 Transparent Electrodes with Nanotubes and Graphene for Printed Optoelectronic Applications
DOI:10.1155/2014/143094 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Sloma, Marcin;Wroblewski, Grzegorz;Janczak, Daniel;Jakubowska, Malgorzata;
2:15:52 Organic Solar Cells with Graphene Electrodes and Vapor Printed Poly(3,4-ethylenedioxythiophene) as the Hole Transporting Layers
DOI:10.1021/nn301901v JN:ACS NANO PY:2012 TC:29 AU: Park, Hyesung;Howden, Rachel M.;Barr, Miles C.;Bulovic, Vladimir;Gleason, Karen;Kong, Jing;
2:15:53 Mechanical and Environmental Stability of Polymer Thin-Film-Coated Graphene
DOI:10.1021/nn203923n JN:ACS NANO PY:2012 TC:19 AU: Yan, Chao;Kim, Kwang-Seop;Lee, Seoung-Ki;Bae, Sang-Hoon;Hong, Byung Hee;Kim, Jae-Hyun;Lee, Hak-Joo;Ahn, Jong-Hyun;
2:15:54 Derivitization of pristine graphene for bulk heterojunction polymeric photovoltaic devices
DOI:10.1039/c2jm32729e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Ye, Lei;Xiao, Ting;Zhao, Ni;Xu, Haihua;Xiao, Yubin;Xu, Jianbin;Xiong, Yuzi;Xu, Weijian;
2:15:55 Optical, electrical and mechanical properties of indium tin oxide on polyethylene terephthalate substrates: Application in bulk-heterojunction polymer solar cells
DOI:10.1016/j.mssp.2014.03.018 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:7 AU: Iwan, Agnieszka;Tazbir, Igor;Sibinski, Maciej;Boharewicz, Bartosz;Pasciak, Grzegorz;Schab-Balcerzak, Ewa;
2:15:56 Organic solar cells using CVD-grown graphene electrodes
DOI:10.1088/0957-4484/25/1/014012 JN:NANOTECHNOLOGY PY:2014 TC:18 AU: Kim, Hobeom;Bae, Sang-Hoon;Han, Tae-Hee;Lim, Kyung-Geun;Ahn, Jong-Hyun;Lee, Tae-Woo;
2:15:57 Single-layer graphene cathodes for organic photovoltaics
DOI:10.1063/1.3569601 JN:APPLIED PHYSICS LETTERS PY:2011 TC:23 AU: Cox, Marshall;Gorodetsky, Alon;Kim, Bumjung;Kim, Keun Soo;Jia, Zhang;Kim, Philip;Nuckolls, Colin;Kymissis, Ioannis;
2:15:58 Ultrathin Organic Solar Cells with Graphene Doped by Ferroelectric Polarization
DOI:10.1021/am405270y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:12 AU: Kim, Keumok;Bae, Sang-Hoon;Toh, Chee Tat;Kim, Hobeom;Cho, Jeong Ho;Whang, Dongmok;Lee, Tae-Woo;Oezyilmaz, Barbaros;Ahn, Jong-Hyun;
2:15:59 Tuning the Stability of Graphene Layers by Phthalocyanine-Based oPPV Oligomers Towards Photo- and Redoxactive Materials
DOI:10.1002/smll.201202427 JN:SMALL PY:2013 TC:8 AU: Brinkhaus, Linda;Katsukis, Georgios;Malig, Jenny;Costa, Ruben D.;Garcia-Iglesias, Miguel;Vazquez, Purificacion;Torres, Tomas;Guldi, Dirk M.;
2:15:60 Fully Transparent Quantum Dot Light-Emitting Diode Integrated with Graphene Anode and Cathode
DOI:10.1021/nn505316q JN:ACS NANO PY:2014 TC:1 AU: Seo, Jung-Tak;Han, Junebeom;Lim, Taekyung;Lee, Ki-Heon;Hwang, Jungseek;Yang, Heesun;Ju, Sanghyun;
2:15:61 Semitransparent organic solar cells with hybrid monolayer graphene/metal grid as top electrodes
DOI:10.1063/1.4798254 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Lin, Peng;Choy, Wallace C. H.;Zhang, Di;Xie, Fengxian;Xin, Jianzhuo;Leung, C. W.;
2:15:62 Flexible Graphene Electrode-Based Organic Photovoltaics with Record-High Efficiency
DOI:10.1021/nl501981f JN:NANO LETTERS PY:2014 TC:6 AU: Park, Hyesung;Chang, Sehoon;Zhou, Xiang;Kong, Jing;Palacios, Tomas;Gradecak, Silvija;
2:15:63 Sodium-Ion Intercalated Transparent Conductors with Printed Reduced Graphene Oxide Networks
DOI:10.1021/acs.nanolett.5b00300 JN:NANO LETTERS PY:2015 TC:0 AU: Wan, Jiayu;Gu, Feng;Bao, Wenzhong;Dai, Jiaqi;Shen, Fei;Luo, Wei;Han, Xiaogang;Urban, Daniel;Hu, Liangbing;
2:15:64 Tailoring the Electrical Properties of Graphene Layers by Molecular Doping
DOI:10.1021/am401119j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Singh, Arun Kumar;Ahmad, Muneer;Singh, Vivek Kumar;Shin, Koo;Seo, Yongho;Eom, Jonghwa;
2:15:65 Effect of annealing of graphene layer on electrical transport and degradation of Au/graphene/n-type silicon Schottky diodes
DOI:10.1016/j.jallcom.2014.05.147 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:8 AU: Kim, Dong-Joo;Kim, Gil-Sung;Park, No-Won;Lee, Won-Yong;Sim, Yumin;Kim, Keun-Soo;Seong, Maeng-Je;Koh, Jung-Hyuk;Hong, Chang-Hee;Lee, Sang-Kwon;
2:15:66 Organic light emitting diodes with environmentally and thermally stable doped graphene electrodes
DOI:10.1039/c4tc01224k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Kuruvila, Arun;Kidambi, Piran R.;Kling, Jens;Wagner, Jakob B.;Robertson, John;Hofmann, Stephan;Meyer, Jens;
2:15:67 Scalable, printable, surfactant-free graphene ink directly from graphite
DOI:10.1088/0957-4484/24/20/205304 JN:NANOTECHNOLOGY PY:2013 TC:13 AU: Han, X.;Chen, Y.;Zhu, H.;Preston, C.;Wan, J.;Fang, Z.;Hu, L.;
2:15:68 Enhancement of the effectiveness of graphene as a transparent conductive electrode by AgNO3 doping
DOI:10.1088/0957-4484/25/12/125701 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Shin, Dong Hee;Lee, Kyeong Won;Lee, Jae Sung;Kim, Ju Hwan;Kim, Sung;Choi, Suk-Ho;
2:15:69 Performance enhancement of triisopropylsilylethynyl pentacene organic field effect transistors with inkjet-printed silver source/drain electrodes achieved via dispersible reduced graphene oxide
DOI:10.1016/j.tsf.2013.07.008 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Jang, Jingon;Yoon, Yeoheung;Jeong, Hyunhak;Lee, Hyungwoo;Song, Younggul;Cho, Kyungjune;Hong, Seunghun;Lee, Hyoyoung;Lee, Takhee;
2:15:70 Effective work function lowering of multilayer graphene films by subnanometer thick AlOx overlayers
DOI:10.1063/1.3534795 JN:APPLIED PHYSICS LETTERS PY:2011 TC:19 AU: Yi, Yeonjin;Choi, Won Mook;Kim, Yoon Hak;Kim, Jeong Won;Kang, Seong Jun;
2:15:71 Effect of the polarity of carbon-fluorine bonds on the work function of plasma-fluorinated epitaxial graphene
DOI:10.1063/1.4752443 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Sherpa, Sonam D.;Levitin, Galit;Hess, Dennis W.;
2:15:72 Buckling induced delamination of graphene composites through hybrid molecular modeling
DOI:10.1063/1.4788734 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Cranford, Steven W.;
2:15:73 Clean Graphene Electrodes on Organic Thin-Film Devices via Orthogonal Fluorinated Chemistry
DOI:10.1021/acs.nanolett.5b00110 JN:NANO LETTERS PY:2015 TC:0 AU: Beck, Jonathan H.;Barton, Robert A.;Cox, Marshall P.;Alexandrou, Konstantinos;Petrone, Nicholas;Olivieri, Giorgia;Yang, Shyuan;Hone, James;Kymissis, Ioannis;
2:15:74 Flexible Graphene-Based Electroluminescent Devices
DOI:10.1021/nn2018649 JN:ACS NANO PY:2011 TC:42 AU: Wang, Ze-gao;Chen, Yuan-fu;Li, Ping-jian;Hao, Xin;Liu, Jing-bo;Huang, Ran;Li, Yan-rong;
2:15:75 Role of Anions in the AuCl3-Doping of Carbon Nanotubes
DOI:10.1021/nn1028532 JN:ACS NANO PY:2011 TC:34 AU: Kim, Soo Min;Kim, Ki Kang;Jo, Young Woo;Park, Min Ho;Chae, Seung Jin;Duong, Dinh Loc;Yang, Cheol Woong;Kong, Jing;Lee, Young Hee;
2:15:76 The effects of thionyl chloride on the properties of graphene and graphene-carbon nanotube composites
DOI:10.1039/c0jm02910f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Wassei, Jonathan K.;Cha, Kitty C.;Tung, Vincent C.;Yang, Yang;Kaner, Richard B.;
2:15:77 Ultraclean transfer of CVD-grown graphene and its application to flexible organic photovoltaic cells
DOI:10.1039/c4ta03432e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: An, Cheng Jin;Kim, Seon Joon;Choi, Hyung Ouk;Kim, Dae Woo;Jang, Sung Woo;Jin, Ming Liang;Park, Jong-Min;Choi, Jong Kil;Jung, Hee-Tae;
2:15:78 Low-temperature growth and direct transfer of graphene-graphitic carbon films on flexible plastic substrates
DOI:10.1088/0957-4484/23/34/344016 JN:NANOTECHNOLOGY PY:2012 TC:4 AU: Kim, Yong-Jin;Kim, Sang Jin;Jung, Myung Hee;Choi, Kwang Yeol;Bae, Sukang;Lee, Seoung-Ki;Lee, Youngbin;Shin, Dolly;Lee, Bora;Shin, Huiyoun;Choi, Myungshin;Park, Kyuho;Ahn, Jong-Hyun;Hong, Byung Hee;
2:15:79 Transparent Organic P-Dopant in Carbon Nanotubes: Bis(trifluoromethanesulfonyl)imide
DOI:10.1021/nn102175h JN:ACS NANO PY:2010 TC:19 AU: Kim, Soo Min;Jo, Young Woo;Kim, Ki Kang;Duong, Dinh Loc;Shin, Hyeon-Jin;Han, Jong Hun;Choi, Jae-Young;Kong, Jing;Lee, Young Hee;
2:15:80 High quality graphene-semiconducting oxide heterostructure for inverted organic photovoltaics
DOI:10.1039/c2jm00072e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Shin, Kyung-Sik;Jo, Hanggochnuri;Shin, Hyeon-Jin;Choi, Won Mook;Choi, Jae-Young;Kim, Sang-Woo;
2:15:81 Organic photovoltaic devices with low resistance multilayer graphene transparent electrodes
DOI:10.1116/1.4739505 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:8 AU: Jung, Yong Un;Na, Seok-In;Kim, Han-Ki;Kang, Seong Jun;
2:15:82 Enhanced ultraviolet response using graphene electrodes in organic solar cells
DOI:10.1063/1.4742928 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Zhao, Zhouying;Fite, John D.;Haldar, Pradeep;Lee, Ji Ung;
2:15:83 Flexible and transparent graphene-based loudspeakers
DOI:10.1063/1.4802079 JN:APPLIED PHYSICS LETTERS PY:2013 TC:12 AU: Xu, S. C.;Man, B. Y.;Jiang, S. Z.;Chen, C. S.;Yang, C.;Liu, M.;Gao, X. G.;Sun, Z. C.;Zhang, C.;
2:15:84 High performance vertical tunneling diodes using graphene/hexagonal boron nitride/graphene hetero-structure
DOI:10.1063/1.4863840 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lee, Seung Hwan;Choi, Min Sup;Lee, Jia;Ra, Chang Ho;Liu, Xiaochi;Hwang, Euyheon;Choi, Jun Hee;Zhong, Jianqiang;Chen, Wei;Yoo, Won Jong;
2:15:85 Annealing effects on the characteristics of AuCl3-doped graphene
DOI:10.1063/1.4790888 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:7 AU: Shin, Dong Hee;Kim, Jong Min;Jang, Chan Wook;Kim, Ju Hwan;Kim, Sung;Choi, Suk-Ho;
2:15:86 Role of ionic chlorine in the thermal degradation of metal chloride-doped graphene sheets
DOI:10.1039/c2tc00008c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Kwon, Ki Chang;Kim, Buem Joon;Lee, Jong-Lam;Kim, Soo Young;
2:15:87 Effects of deposition temperature on characteristics of Ga-doped ZnO film prepared by highly efficient cylindrical rotating magnetron sputtering for organic solar cells
DOI:10.1016/j.solmat.2010.09.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:28 AU: Park, Jun-Hyuk;Ahn, Kyung-Jun;Na, Seok-In;Kim, Han-Ki;
2:15:88 An Alternative Hole Transport Layer for Both ITO- and Graphene-Based Organic Solar Cells
DOI:10.1002/aenm.201301280 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Park, Hyesung;Kong, Jing;
2:15:89 Enhanced characteristics of pentacene field-effect transistors with graphene electrodes and substrate treatments
DOI:10.1063/1.3629994 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Lee, Sangchul;Kang, Seok-Ju;Jo, Gunho;Choe, Minhyeok;Park, Woojin;Yoon, Jongwon;Kwon, Taehyeon;Kahng, Yung Ho;Kim, Dong-Yu;Lee, Byoung Hun;Lee, Takhee;
2:15:90 Nonvolatile resistive switching in Pr0.7Ca0.3MnO3 devices using multilayer graphene electrodes
DOI:10.1063/1.3544051 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Lee, Wootae;Jo, Gunho;Lee, Sangchul;Park, Jubong;Jo, Minseok;Lee, Joonmyoung;Jung, Seungjae;Kim, Seonghyun;Shin, Jungho;Park, Sangsu;Lee, Takhee;Hwang, Hyunsang;
2:15:91 Graphene as anode electrode for colloidal quantum dots based light emitting diodes
DOI:10.1063/1.4816745 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Klekachev, Alexander V.;Kuznetsov, Sergey N.;Asselberghs, Inge;Cantoro, Mirco;Mun, Jeong Hun;Cho, Byung Jin;Stesmans, Andre L.;Heyns, Marc M.;De Gendt, Stefan;
2:15:92 Electrical characterization of graphene oxide and organic dielectric layers based on thin film transistor
DOI:10.1016/j.apsusc.2014.01.013 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Karteri, Ibrahim;Karatas, Sukru;Yakuphanoglu, Fahrettin;
2:15:93 Theoretical Efficiency of Nanostructured Graphene-Based Photovoltaics
DOI:10.1002/smll.200901364 JN:SMALL PY:2010 TC:43 AU: Yong, Virginia;Tour, James M.;
2:15:94 Top-Emission Organic Light-Emitting Diode with a Novel Copper/Graphene Composite Anode
DOI:10.1002/adfm.201203283 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:8 AU: Meng, Hu;Luo, Jianxing;Wang, Wei;Shi, Zujin;Niu, Qiaoli;Dai, Lun;Qin, Guogang;
2:15:95 Chemical vapor deposition graphene as structural template to control interfacial molecular orientation of chloroaluminium phthalocyanine
DOI:10.1063/1.3629812 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Mao, Hong Ying;Wang, Rui;Wang, Yu;Niu, Tian Chao;Zhong, Jian Qiang;Huang, Ming Yang;Qi, Dong Chen;Loh, Kian Ping;Wee, Andrew Thye Shen;Chen, Wei;
2:15:96 Stabilization of gold doped single-walled carbon nanotube film by electropolymerization
DOI:10.1063/1.4745198 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Yun, Hyungduk;Kim, Sanghyo;
2:15:97 Multilayered graphene anode for blue phosphorescent organic light emitting diodes
DOI:10.1063/1.3697639 JN:APPLIED PHYSICS LETTERS PY:2012 TC:18 AU: Hwang, Joohyun;Choi, Hong Kyw;Moon, Jaehyun;Kim, Taek Yong;Shin, Jin-Wook;Joo, Chul Woong;Han, Jun-Han;Cho, Doo-Hee;Huh, Jin Woo;Choi, Sung-Yool;Lee, Jeong-Ik;Chu, Hye Yong;
2:15:98 Graphene composite for improvement in the conversion efficiency of flexible poly 3-hexyl-thiophene:[6,6]-phenyl C-71 butyric acid methyl ester polymer solar cells
DOI:10.1063/1.4869635 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chauhan, A. K.;Gusain, Abhay;Jha, P.;Koiry, S. P.;Saxena, Vibha;Veerender, P.;Aswal, D. K.;Gupta, S. K.;
2:15:99 Manipulation of graphene work function using a self-assembled monolayer
DOI:10.1063/1.4894392 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Seo, Jung-Tak;Bong, Jihye;Cha, Janghwan;Lim, Taekyung;Son, Junyoung;Park, Sung Ha;Hwang, Jungseek;Hong, Suklyun;Ju, Sanghyun;
2:15:100 Surface interpenetration between conducting polymer and PET substrate for mechanically reinforced ITO-free flexible organic solar cells
DOI:10.1016/j.solmat.2012.09.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Lee, Ue Jin;Lee, Sang-Ho;Yoon, Jong Jin;Oh, Sun Joo;Lee, Suck Hyun;Lee, Jae Kwan;
2:15:101 Fast Process To Decorate Silver Nanoparticles on Carbon Nanomaterials for Preparing High-Performance Flexible Transparent Conductive Films
DOI:10.1021/la401662d JN:LANGMUIR PY:2013 TC:6 AU: Li, Yu-An;Chen, Yin-Ju;Tai, Nyan-Hwa;
2:15:102 Synthesis of ethanol-soluble few-layer graphene nanosheets for flexible and transparent conducting composite films
DOI:10.1088/0957-4484/22/29/295606 JN:NANOTECHNOLOGY PY:2011 TC:19 AU: Nguyen, D. D.;Tai, N. H.;Chueh, Y. L.;Chen, S. Y.;Chen, Y. J.;Kuo, W. S.;Chou, T. W.;Hsu, C. S.;Chen, L. J.;
2:15:103 Quasi- freestanding" Graphene- on- Single Walled Carbon Nanotube Electrode for Applications in Organic Light- emitting Diode
DOI:10.1002/smll.201301829 JN:SMALL PY:2014 TC:4 AU: Liu, Yanpeng;Jung, Eun;Wang, Yu;Zheng, Yi;Park, Eun Ji;Cho, Sung Min;Loh, Kian Ping;
2:15:104 High performance metal microstructure for carbon-based transparent conducting electrodes
DOI:10.1016/j.tsf.2012.01.031 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Kasry, Amal;El Ashry, Mostafa;Nistor, Razvan A.;Bol, Ageeth A.;Tulevski, George S.;Martyna, Glenn J.;Newns, Dennis M.;
2:15:105 Carbon Nanotube Doping Mechanism in a Salt Solution and Hygroscopic Effect: Density Functional Theory
DOI:10.1021/nn1011489 JN:ACS NANO PY:2010 TC:14 AU: Duong, Dinh Loc;Lee, Il Ha;Kim, Ki Kang;Kong, Jing;Lee, Seung Mi;Lee, Young Hee;
2:15:106 Thermal Conversion of Electronic and Electrical Properties of AuCl3-Doped Single-Walled Carbon Nanotubes
DOI:10.1021/nn103055u JN:ACS NANO PY:2011 TC:9 AU: Yoon, Seon-Mi;Kim, Un Jeong;Benayad, Anass;Lee, Ii Ha;Son, Hyungbin;Shin, Hyeon-Jin;Choi, Won Mook;Lee, Young Hee;Jin, Yong Wan;Lee, Eun-Hong;Lee, Sang Yoon;Choi, Jae-Young;Kim, Jong Min;
2:15:107 Formation of uniformly sized gold nanoparticles over graphene by MeV electron beam irradiation for transparent conducting films
DOI:10.1063/1.4809599 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Kim, Yooseok;Song, Wooseok;Lee, Su-il;Lee, Seung Youb;Cha, Myoung-Jun;Jung, Dae Sung;Park, Chong-Yun;
2:15:108 Preparation and Characterization of Conductive and Transparent Ruthenium Dioxide Sol-Gel Films
DOI:10.1021/am403219p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Allhusen, John S.;Conboy, John C.;
2:15:109 Initial stages of few-layer graphene growth by microwave plasma-enhanced chemical vapour deposition
DOI:10.1088/0957-4484/21/9/095602 JN:NANOTECHNOLOGY PY:2010 TC:20 AU: Vitchev, Roumen;Malesevic, Alexander;Petrov, Roumen H.;Kemps, Raymond;Mertens, Myrjam;Vanhulsel, Annick;Van Haesendonck, Chris;
2:15:110 Electrowetting on dielectric experiments using graphene
DOI:10.1088/0957-4484/23/37/375501 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Tan, Xuebin;Zhou, Zhixian;Cheng, Mark Ming-Cheng;
2:15:111 Top illuminated inverted organic ultraviolet photosensors with single layer graphene electrodes
DOI:10.1063/1.4733299 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Burkhardt, Martin;Liu, Wei;Shuttle, Christopher G.;Banerjee, Kaustav;Chabinyc, Michael L.;
2:15:112 Single-Step Formation of Graphene on Dielectric Surfaces
DOI:10.1002/adma.201202840 JN:ADVANCED MATERIALS PY:2013 TC:13 AU: Xiong, Wei;Zhou, Yun Shen;Jiang, Li Jia;Sarkar, Amitabha;Mahjouri-Samani, Masoud;Xie, Zhi Qiang;Gao, Yang;Ianno, Natale Joseph;Jiang, Lan;Lu, Yong Feng;
2:15:113 Highly efficient nanoporous graphitic carbon with tunable textural properties for dye-sensitized solar cells
DOI:10.1039/c2jm33498d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Srinivasu, Pavuluri;Islam, Ashraful;Singh, Surya P.;Han, Liyuan;Kantam, M. Lakshmi;Bhargava, Suresh K.;
2:15:114 Increasing the effective work function of multilayer graphene films using silver nanoparticles
DOI:10.1116/1.4861372 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:2 AU: Park, Si Jin;Park, Haejin;Lee, Younjoo;Yi, Yeonjin;Kang, Seong Jun;
2:15:115 Blue fluorescent organic light emitting diodes with multilayered graphene anode
DOI:10.1016/j.materresbull.2012.04.087 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:5 AU: Hwang, Joohyun;Choi, Hong Kyw;Moon, Jaehyun;Shin, Jin-Wook;Joo, Chul Woong;Han, Jun-Han;Cho, Doo-Hee;Huh, Jin Woo;Choi, Sung-Yool;Lee, Jeong-Ik;Chu, Hye Yong;
2:15:116 On display with transparent conducting films
DOI:10.1088/0957-4484/23/11/110201 JN:NANOTECHNOLOGY PY:2012 TC:2 AU: Demming, Anna;
2:15:117 Tuning the magnetic and transport property of graphene with Ti atom and cluster
DOI:10.1016/j.commatsci.2012.01.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:2 AU: Zhang, Yong-Hui;Yue, Li-Juan;Han, Li-Feng;Chen, Jun-Li;Jia, Dian-Zeng;Li, Feng;
2:15:118 Au nanoparticles decorated photoresist derived multilayer graphene for transparent conducting films
DOI:10.1016/j.matlet.2014.02.113 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Ilanchezhiyan, Pugazhendi;Eo, Jae Jun;Zakirov, Anwar Sagatovich;Ram, Sokkalingam Desikachari Gopal;Panin, Gennady N.;Kang, Tae Won;
2:15:119 Graphene production by laser shot on graphene oxide: An ab initio prediction (vol 85, 033402, 2012)
DOI:10.1103/PhysRevB.85.089901 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Zhang, Hong;Miyamoto, Yoshiyuki;
2:15:120 Selective electroless coating of palladium nanoparticles on metallic single-walled carbon nanotube
DOI:10.1063/1.3483615 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Feng, Yiyu;Lv, Peng;Zhang, Xuequan;Li, Yu;Feng, Wei;
2:15:121 Multilayered graphene used as anode of organic light emitting devices (vol 96, 133301, 2010)
DOI:10.1063/1.3549698 JN:APPLIED PHYSICS LETTERS PY:2011 TC:0 AU: Sun, T.;Wang, Z. L.;Shi, Z. J.;Ran, G. Z.;Xu, W. J.;Wang, Z. Y.;Li, Y. Z.;Dai, L.;Qin, G. G.;
2:15:122 Synthesis of free standing carbon nanosheet using electron cyclotron resonance plasma enhanced chemical vapor deposition
DOI:10.1016/j.apsusc.2012.01.098 JN:APPLIED SURFACE SCIENCE PY:2012 TC:7 AU: Thomas, Rajesh;Rao, G. Mohan;
2:15:123 Impact of film thickness of organic semiconductor on off-state current of organic thin film transistors
DOI:10.1063/1.3663355 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Islam, M. Nurul;
2:15:124 Surface properties of aromatic polymer film during thermal treatment
DOI:10.1016/j.matchemphys.2012.02.038 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:9 AU: Sava, Ion;Chisca, Stefan;
2:16:1 Inkjet Printing-Process and Its Applications
DOI:10.1002/adma.200901141 JN:ADVANCED MATERIALS PY:2010 TC:412 AU: Singh, Madhusudan;Haverinen, Hanna M.;Dhagat, Parul;Jabbour, Ghosson E.;
2:16:2 Progress of alternative sintering approaches of inkjet-printed metal inks and their application for manufacturing of flexible electronic devices
DOI:10.1039/c4tc01820f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Wuenscher, Sebastian;Abbel, Robert;Perelaer, Jolke;Schubert, Ulrich S.;
2:16:3 Printed electronics: the challenges involved in printing devices, interconnects, and contacts based on inorganic materials
DOI:10.1039/c0jm00264j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:175 AU: Perelaer, Jolke;Smith, Patrick J.;Mager, Dario;Soltman, Daniel;Volkman, Steven K.;Subramanian, Vivek;Korvink, Jan G.;Schubert, Ulrich S.;
2:16:4 Conductive Nanomaterials for Printed Electronics
DOI:10.1002/smll.201303000 JN:SMALL PY:2014 TC:36 AU: Kamyshny, Alexander;Magdassi, Shlomo;
2:16:5 Triggering the Sintering of Silver Nanoparticles at Room Temperature
DOI:10.1021/nn901868t JN:ACS NANO PY:2010 TC:148 AU: Magdassi, Shlomo;Grouchko, Michael;Berezin, Oleg;Kamyshny, Alexander;
2:16:6 Fabrication of Transistors on Flexible Substrates: from Mass-Printing to High-Resolution Alternative Lithography Strategies
DOI:10.1002/adma.201202949 JN:ADVANCED MATERIALS PY:2012 TC:59 AU: Moonen, Pieter F.;Yakimets, Iryna;Huskens, Jurriaan;
2:16:7 Printed electrically conductive composites: conductive filler designs and surface engineering
DOI:10.1039/c3tc00572k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:27 AU: Yang, Cheng;Wong, Ching Ping;Yuen, Matthew M. F.;
2:16:8 Recent advances in upscalable wet methods and ink formulations for printed electronics
DOI:10.1039/c4tc00618f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:9 AU: Aleeva, Yana;Pignataro, Bruno;
2:16:9 Inkjet printing of organic electronics - comparison of deposition techniques and state-of-the-art developments
DOI:10.1039/c2tc00255h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:40 AU: Teichler, Anke;Perelaer, Jolke;Schubert, Ulrich S.;
2:16:10 Stable Aqueous Based Cu Nanoparticle Ink for Printing Well-Defined Highly Conductive Features on a Plastic Substrate
DOI:10.1021/la104136w JN:LANGMUIR PY:2011 TC:74 AU: Jeong, Sunho;Song, Hae Chun;Lee, Won Woo;Lee, Sun Sook;Choi, Youngmin;Son, Wonil;Kim, Eui Duk;Paik, Choon Hoon;Oh, Seok Heon;Ryu, Beyong-Hwan;
2:16:11 Conductive Inks with a "Built-In" Mechanism That Enables Sintering at Room Temperature
DOI:10.1021/nn2005848 JN:ACS NANO PY:2011 TC:67 AU: Grouchko, Michael;Kamyshny, Alexander;Mihailescu, Cristina Florentina;Anghel, Dan Florin;Magdassi, Shlomo;
2:16:12 Controllable Printing Droplets for High-Resolution Patterns
DOI:10.1002/adma.201305416 JN:ADVANCED MATERIALS PY:2014 TC:14 AU: Kuang, Minxuan;Wang, Libin;Song, Yanlin;
2:16:13 Roll-to-Roll Compatible Sintering of Inkjet Printed Features by Photonic and Microwave Exposure: From Non-Conductive Ink to 40% Bulk Silver Conductivity in Less Than 15 Seconds
DOI:10.1002/adma.201104417 JN:ADVANCED MATERIALS PY:2012 TC:55 AU: Perelaer, Jolke;Abbel, Robert;Wuenscher, Sebastian;Jani, Robin;van Lammeren, Tim;Schubert, Ulrich S.;
2:16:14 Reactive Silver Inks for Patterning High-Conductivity Features at Mild Temperatures
DOI:10.1021/ja209267c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:41 AU: Walker, S. Brett;Lewis, Jennifer A.;
2:16:15 Novel approaches for low temperature sintering of inkjet-printed inorganic nanoparticles for roll-to-roll (R2R) applications
DOI:10.1557/jmr.2012.419 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:22 AU: Perelaer, Jolke;Schubert, Ulrich S.;
2:16:16 Ag-graphene hybrid conductive ink for writing electronics
DOI:10.1088/0957-4484/25/5/055201 JN:NANOTECHNOLOGY PY:2014 TC:4 AU: Xu, L. Y.;Yang, G. Y.;Jing, H. Y.;Wei, J.;Han, Y. D.;
2:16:17 Extremely flexible, printable Ag conductive features on PET and paper substrates via continuous millisecond photonic sintering in a large area
DOI:10.1039/c4tc01422g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Jo, Yejin;Oh, Sang-Jin;Lee, Sun Sook;Seo, Yeong-Hui;Ryu, Beyong-Hwan;Moon, Jooho;Choi, Youngmin;Jeong, Sunho;
2:16:18 Combinatorial Screening of Polymer:Fullerene Blends for Organic Solar Cells by Inkjet Printing
DOI:10.1002/aenm.201000027 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:47 AU: Teichler, Anke;Eckardt, Rebecca;Hoeppener, Stephanie;Friebe, Christian;Perelaer, Jolke;Senes, Alessia;Morana, Mauro;Brabec, Christoph J.;Schubert, Ulrich S.;
2:16:19 Air-stable, surface-oxide free Cu nanoparticles for highly conductive Cu ink and their application to printed graphene transistors
DOI:10.1039/c3tc00904a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:26 AU: Jeong, Sunho;Lee, Su Hyeon;Jo, Yejin;Lee, Sun Sook;Seo, Yeong-Hui;Ahn, Byeong Wan;Kim, Gyeomuk;Jang, Gun-Eik;Park, Jang-Ung;Ryu, Beyong-Hwan;Choi, Youngmin;
2:16:20 Properties of polyacrylic acid-coated silver nanoparticle ink for inkjet printing conductive tracks on paper with high conductivity
DOI:10.1016/j.matchemphys.2014.05.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:2 AU: Huang, Qijin;Shen, Wenfeng;Xu, Qingsong;Tan, Ruiqin;Song, Weijie;
2:16:21 IR-sintering of ink-jet printed metal-nanoparticles on paper
DOI:10.1016/j.tsf.2011.10.017 JN:THIN SOLID FILMS PY:2012 TC:45 AU: Tobjork, Daniel;Aarnio, Harri;Pulkkinen, Petri;Bollstrom, Roger;Maattanen, Anni;Ihalainen, Petri;Makela, Tapio;Peltonen, Jouko;Toivakka, Martti;Tenhu, Heikki;Osterbacka, Ronald;
2:16:22 Large-scale roll-to-roll photonic sintering of flexo printed silver nanoparticle electrodes
DOI:10.1039/c2jm32977h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Hosel, Markus;Krebs, Frederik C.;
2:16:23 Preparation of Conductive Silver Films at Mild Temperatures for Printable Organic Electronics
DOI:10.1021/cm200471s JN:CHEMISTRY OF MATERIALS PY:2011 TC:27 AU: Polavarapu, Lakshminarayana;Manga, Kiran Kumar;Cao, Hanh Duyen;Loh, Kian Ping;Xu, Qing-Hua;
2:16:24 Flexible transparent conductive coatings by combining self-assembly with sintering of silver nanoparticles performed at room temperature
DOI:10.1039/c1jm13174e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:40 AU: Layani, Michael;Magdassi, Shlomo;
2:16:25 Localized atmospheric plasma sintering of inkjet printed silver nanoparticles
DOI:10.1039/c2jm35586h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Wuenscher, Sebastian;Stumpf, Steffi;Teichler, Anke;Pabst, Oliver;Perelaer, Jolke;Beckert, Erik;Schubert, Ulrich S.;
2:16:26 Fabrication of flexible copper-based electronics with high-resolution and high-conductivity on paper via inkjet printing
DOI:10.1039/c3tc31740d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Zhang, Tengyuan;Wang, Xiaolong;Li, Tingjie;Guo, Qiuquan;Yang, Jun;
2:16:27 Direct Writing Patterns for Electroless Plated Copper Thin Film on Plastic Substrates
DOI:10.1021/am301654j JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:20 AU: Liao, Ying-Chih;Kao, Zhen-Kai;
2:16:28 Inkjet Printing of Conductive Silver Patterns by Using the First Aqueous Particle-Free MOD Ink without Additional Stabilizing Ligands
DOI:10.1021/cm9036428 JN:CHEMISTRY OF MATERIALS PY:2010 TC:52 AU: Jahn, Stephan F.;Blaudeck, Thomas;Baumann, Reinhard R.;Jakob, Alexander;Ecorchard, Petra;Rueffer, Tobias;Lang, Heinrich;Schmidt, Peer;
2:16:29 Fabrication of Electrically Conductive Metal Patterns at the Surface of Polymer Films by Microplasma-Based Direct Writing
DOI:10.1021/am406005a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Ghosh, Souvik;Yang, Rui;Kaumeyer, Michelle;Zorman, Christian A.;Rowan, Stuart J.;Feng, Philip X. -L.;Sankaran, R. Mohan;
2:16:30 Facile Method for Fabricating Flexible Substrates with Embedded, Printed Silver Lines
DOI:10.1021/am405314s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Mahajan, Ankit;Francis, Lorraine F.;Frisbie, C. Daniel;
2:16:31 Reactive Sintering of Copper Nanoparticles Using Intense Pulsed Light for Printed Electronics
DOI:10.1007/s11664-010-1384-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:44 AU: Ryu, Jongeun;Kim, Hak-Sung;Hahn, H. Thomas;
2:16:32 Room temperature preparation of conductive silver features using spin-coating and inkjet printing
DOI:10.1039/b917266a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:38 AU: Valeton, Josue J. P.;Hermans, Ko;Bastiaansen, Cees W. M.;Broer, Dirk J.;Perelaer, Jolke;Schubert, Ulrich S.;Crawford, Gregory P.;Smith, Patrick J.;
2:16:33 Rapid sintering of silver nanoparticles in an electrolyte solution at room temperature and its application to fabricate conductive silver films using polydopamine as adhesive layers
DOI:10.1039/c0jm03838e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:33 AU: Long, Yuhua;Wu, Junjie;Wang, Hao;Zhang, Xiaoli;Zhao, Ning;Xu, Jian;
2:16:34 Highly conductive short chain carboxylic acid encapsulated silver nanoparticle based inks for direct write technology applications
DOI:10.1039/c2tc00336h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:17 AU: Ankireddy, Krishnamraju;Vunnam, Swathi;Kellar, Jon;Cross, William;
2:16:35 Sintering of inkjet printed copper nanoparticles for flexible electronics
DOI:10.1016/j.scriptamat.2009.11.011 JN:SCRIPTA MATERIALIA PY:2010 TC:55 AU: Jang, Seonhee;Seo, Youngkwan;Choi, Joonrak;Kim, Taehoon;Cho, Jeongmin;Kim, Sungeun;Kim, Donghoon;
2:16:36 Preparation of aqueous Ag Ink with long-term dispersion stability and its inkjet printing for fabricating conductive tracks on a polyimide film
DOI:10.1063/1.3511686 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:28 AU: Jeong, Sunho;SOng, Hae Chun;Lee, Won Woo;Choi, Youngmin;Ryu, Beyong-Hwan;
2:16:37 Sintering of Inkjet-Printed Silver Nanoparticles at Room Temperature Using Intense Pulsed Light
DOI:10.1007/s11664-011-1711-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:35 AU: Kang, J. S.;Ryu, J.;Kim, H. S.;Hahn, H. T.;
2:16:38 Multi-pulsed white light sintering of printed Cu nanoinks
DOI:10.1088/0957-4484/22/39/395705 JN:NANOTECHNOLOGY PY:2011 TC:37 AU: Han, Won-Suk;Hong, Jae-Min;Kim, Hak-Sung;Song, Yong-Won;
2:16:39 Polymer Grafting by Inkjet Printing: A Direct Chemical Writing Toolset
DOI:10.1002/adfm.201203544 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:10 AU: Garcia, Alexandre;Hanifi, Nassim;Jousselme, Bruno;Jegou, Pascale;Palacin, Serge;Viel, Pascal;Berthelot, Thomas;
2:16:40 Cu Ion Ink for a Flexible Substrate and Highly Conductive Patterning by Intensive Pulsed Light Sintering
DOI:10.1021/am303268k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Wang, Byung-Yong;Yoo, Tae-Hee;Song, Yong-Won;Lim, Dae-Soon;Oh, Young-Jei;
2:16:41 Inkjet-printed Cu source/drain electrodes for solution-deposited thin film transistors
DOI:10.1039/c000162g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Woo, Kyoohee;Bae, Changdeuck;Jeong, Youngmin;Kim, Dongjo;Moon, Jooho;
2:16:42 Fabrication of paper-based conductive patterns for flexible electronics by direct-writing
DOI:10.1039/c0jm03065a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:31 AU: Tai, Yan-Long;Yang, Zhen-Guo;
2:16:43 Highly conductive polymer-decorated Cu electrode films printed on glass substrates with novel precursor-based inks and pastes
DOI:10.1039/c2jm15124c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Choi, Yun-Hyuk;Lee, Jaeho;Kim, Suk Jun;Yeon, Dong-Hee;Byun, Younghun;
2:16:44 Fabrication of highly electrically conducting fine patterns via substrate-independent inkjet printing of mussel-inspired organic nano-material
DOI:10.1039/c3tc32459a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Ma, Siyuan;Liu, Liang;Bromberg, Vadim;Singler, Timothy J.;
2:16:45 In situ monitoring of a flash light sintering process using silver nano-ink for producing flexible electronics
DOI:10.1088/0957-4484/24/3/035202 JN:NANOTECHNOLOGY PY:2013 TC:23 AU: Chung, Wan-Ho;Hwang, Hyun-Jun;Lee, Seung-Hyun;Kim, Hak-Sung;
2:16:46 Air-Stable, Nanostructured Electronic and Plasmonic Materials from Solution-Processable, Silver Nanocrystal Building Blocks
DOI:10.1021/nn406461p JN:ACS NANO PY:2014 TC:2 AU: Fafarman, Aaron T.;Hong, Sung-Hoon;Oh, Soong Ju;Caglayan, Humeyra;Ye, Xingchen;Diroll, Benjamin T.;Engheta, Nader;Murray, Christopher B.;Kagan, Cherie R.;
2:16:47 Plasma and Microwave Flash Sintering of a Tailored Silver Nanoparticle Ink, Yielding 60% Bulk Conductivity on Cost- Effective Polymer Foils
DOI:10.1002/adma.201200899 JN:ADVANCED MATERIALS PY:2012 TC:23 AU: Perelaer, Jolke;Jani, Robin;Grouchko, Michael;Kamyshny, Alexander;Magdassi, Shlomo;Schubert, Ulrich S.;
2:16:48 Inkjet-Printed Gold Electrodes on Paper: Characterization and Functionalization
DOI:10.1021/am201609w JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:22 AU: Maattanen, Anni;Ihalainen, Petri;Pulkkinen, Petri;Wang, Shaoxia;Tenhu, Heikki;Peltonen, Jouko;
2:16:49 Copper Nanoparticles: Aqueous Phase Synthesis and Conductive Films Fabrication at Low Sintering Temperature
DOI:10.1021/am400480k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:27 AU: Deng, Dunying;Jin, Yunxia;Cheng, Yuanrong;Qi, Tianke;Xiao, Fei;
2:16:50 Electroless Copper Plating of Inkjet-Printed Polydopamine Nanoparticles: a Facile Method to Fabricate Highly Conductive Patterns at Near Room Temperature
DOI:10.1021/am506102w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Ma, Siyuan;Liu, Liang;Bromberg, Vadim;Singler, Timothy J.;
2:16:51 Conductive patterns on plastic substrates by sequential inkjet printing of silver nanoparticles and electrolyte sintering solutions
DOI:10.1039/c2jm32789a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Layani, Michael;Grouchko, Michael;Shemesh, Shai;Magdassi, Shlomo;
2:16:52 Reactive inkjet printing
DOI:10.1039/c2jm30649b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Smith, Patrick J.;Morrin, Aoife;
2:16:53 Direct Printing Synthesis of Self-Organized Copper Oxide Hollow Spheres on a Substrate Using Copper(II) Complex Ink: Gas Sensing and Photoelectrochemical Properties
DOI:10.1021/la404098s JN:LANGMUIR PY:2014 TC:8 AU: Choi, Yun-Hyuk;Kim, Dai-Hong;Han, Hyun Soo;Shin, Sun;Hong, Seong-Hyeon;Hong, Kug Sun;
2:16:54 Patterning of micro-scale conductive networks using reel-to-reel flexographic printing
DOI:10.1016/j.tsf.2010.05.125 JN:THIN SOLID FILMS PY:2010 TC:37 AU: Deganello, D.;Cherry, J. A.;Gethin, D. T.;Claypole, T. C.;
2:16:55 Laser sintering of silver nanoparticle thin films: microstructure and optical properties
DOI:10.1007/s00339-012-6951-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:19 AU: Peng, P.;Hu, A.;Zhou, Y.;
2:16:56 A Self-Reducible and Alcohol-Soluble Copper-Based Metal-Organic Decomposition Ink for Printed Electronics
DOI:10.1021/am4036306 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:14 AU: Shin, Dong-Hun;Woo, Seunghee;Yem, Hyesuk;Cha, Minjeong;Cho, Sanghun;Kang, Mingyu;Jeong, Sooncheol;Kim, Yoonhyun;Kang, Kyungtae;Piao, Yuanzhe;
2:16:57 How Nanoparticles Coalesce: An in Situ Study of Au Nanoparticle Aggregation and Grain Growth
DOI:10.1021/cm200354d JN:CHEMISTRY OF MATERIALS PY:2011 TC:49 AU: Ingham, Bridget;Lim, Teck H.;Dotzler, Christian J.;Henning, Anna;Toney, Michael F.;Tilley, Richard D.;
2:16:58 Sintering of inkjet printed silver tracks with boiling salt water
DOI:10.1039/c3tc32565b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Olkkonen, Juuso;Leppaniemi, Jaakko;Mattila, Tomi;Eiroma, Kim;
2:16:59 Synthesis and characterization of low temperature Sn nanoparticles for the fabrication of highly conductive ink
DOI:10.1088/0957-4484/22/22/225701 JN:NANOTECHNOLOGY PY:2011 TC:34 AU: Jo, Yun Hwan;Jung, Inyu;Choi, Chung Seok;Kim, Inyoung;Lee, Hyuck Mo;
2:16:60 Flash light sintering of nickel nanoparticles for printed electronics
DOI:10.1016/j.tsf.2013.11.075 JN:THIN SOLID FILMS PY:2014 TC:12 AU: Park, Sung-Hyeon;Kim, Hak-Sung;
2:16:61 Effect of Carboxylic Acid on Sintering of Inkjet-Printed Copper Nanoparticulate Films
DOI:10.1021/am2002907 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:24 AU: Woo, Kyoohee;Kim, Youngwoo;Lee, Byungyoon;Kim, Jonghee;Moon, Jooho;
2:16:62 Silver Conductive Features on Flexible Substrates from a Thermally Accelerated Chain Reaction at Low Sintering Temperatures
DOI:10.1021/am302505j JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:14 AU: Chen, Shih-Pin;Kao, Zhen-Kai;Lin, Jeng-Lung;Liao, Ying-Chih;
2:16:63 Inkjet-Printed Lines with Well-Defined Morphologies and Low Electrical Resistance on Repellent Pore-Structured Polyimide Films
DOI:10.1021/am300160s JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:19 AU: Kim, Changjae;Nogi, Masaya;Suganuma, Katsuaki;Yamato, Yo;
2:16:64 Enhanced Electrical and Mechanical Properties of Silver Nanoplatelet-Based Conductive Features Direct Printed on a Flexible Substrate
DOI:10.1021/am401757y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Lee, Young-In;Kim, Seil;Jung, Seung-Boo;Myung, Nosang V.;Choa, Yong-Ho;
2:16:65 Split-Second Nanostructure Control of a Polymer:Fullerene Photoactive Layer using Intensely Pulsed White Light for Highly Efficient Production of Polymer Solar Cells
DOI:10.1021/am403964p JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Yang, Hee Yeon;Hong, Jae-Min;Kim, Tae Whan;Song, Yong-Won;Choi, Won Kook;Lim, Jung Ah;
2:16:66 Study on the effect of surface modifier on self-aggregation behavior of Ag nano-particle
DOI:10.1016/j.apsusc.2012.09.117 JN:APPLIED SURFACE SCIENCE PY:2012 TC:12 AU: Li, Song;Liu, Peng;Wang, Qisui;
2:16:67 Low temperature plasma sintering of silver nanoparticles
DOI:10.1016/j.apsusc.2013.12.135 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Ma, Siyuan;Bromberg, Vadim;Liu, Liang;Egitto, Frank D.;Chiarot, Paul R.;Singler, Timothy J.;
2:16:68 Formation of conductive silver films via inkjet reaction system
DOI:10.1039/c1jm13506f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:16 AU: Kao, Zhen-Kai;Hung, Ying-Han;Liao, Ying-Chih;
2:16:69 Towards single-pass plasma sintering: temperature influence of atmospheric pressure plasma sintering of silver nanoparticle ink
DOI:10.1039/c3tc32120g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Wunscher, Sebastian;Stumpf, Steffi;Perelaer, Jolke;Schubert, Ulrich S.;
2:16:70 Rapid low-pressure plasma sintering of inkjet-printed silver nanoparticles for RFID antennas
DOI:10.1557/jmr.2013.73 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:7 AU: Wolf, Franziska M.;Perelaer, Jolke;Stumpf, Steffi;Bollen, Dirk;Kriebel, Frank;Schubert, Ulrich S.;
2:16:71 Substrate-facilitated nanoparticle sintering and component interconnection procedure
DOI:10.1088/0957-4484/21/47/475204 JN:NANOTECHNOLOGY PY:2010 TC:21 AU: Allen, Mark;Leppaniemi, Jaakko;Vilkman, Marja;Alastalo, Ari;Mattila, Tomi;
2:16:72 In situ monitoring of flash-light sintering of copper nanoparticle ink for printed electronics
DOI:10.1088/0957-4484/23/48/485205 JN:NANOTECHNOLOGY PY:2012 TC:25 AU: Hwang, Hyun-Jun;Chung, Wan-Ho;Kim, Hak-Sung;
2:16:73 Electrical conductivity of copper nanoparticle thin films annealed at low temperature
DOI:10.1016/j.tsf.2010.07.023 JN:THIN SOLID FILMS PY:2010 TC:31 AU: Yabuki, Akihiro;Arriffin, Norzafriza;
2:16:74 Using nanoparticles as direct-injection printing ink to fabricate conductive silver features on a transparent flexible PET substrate at room temperature
DOI:10.1016/j.actamat.2012.07.034 JN:ACTA MATERIALIA PY:2012 TC:11 AU: Chen, C. N.;Chen, C. P.;Dong, T. -Y.;Chang, T. C.;Chen, M. C.;Chen, H. T.;Chen, I. G.;
2:16:75 Inkjet Printed Fractal-Connected Electrodes with Silver Nanoparticle Ink
DOI:10.1021/am300689d JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:12 AU: Vaseem, Mohammad;Lee, Kil Mok;Hong, A-Ra;Hahn, Yoon-Bong;
2:16:76 Profile Control of Inkjet Printed Silver Electrodes and Their Application to Organic Transistors
DOI:10.1021/am400632s JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:19 AU: Fukuda, Kenjiro;Sekine, Tomohito;Kumaki, Daisuke;Tokito, Shizuo;
2:16:77 Microstructure and electrical property of laser-sintered Cu complex ink
DOI:10.1016/j.apsusc.2014.03.127 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Lee, Jeonghyeon;Lee, Byoungyoon;Jeong, Sooncheol;Kim, Yoonhyun;Lee, Myeongkyu;
2:16:78 The negative temperature coefficient resistivities of Ag2S-Ag core shell structures
DOI:10.1016/j.apsusc.2013.09.172 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Yu, Mingming;Liu, Dongzhi;Li, Wei;Zhou, Xueqin;
2:16:79 The effect of reduction atmospheres on the sintering behaviors of inkjet-printed Cu interconnectors
DOI:10.1063/1.3511688 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:18 AU: Kim, Inyoung;Kim, Jongryoul;
2:16:80 Solution-based beta-diketonate silver ink for direct printing of highly conductive features on a flexible substrate
DOI:10.1039/c3tc30911h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Chen, Chen-Ni;Dong, Teng-Yuan;Chang, Ting-Chang;Chen, Min-Chen;Tsai, Ho-Lin;Hwang, Weng-Sing;
2:16:81 UV crosslinkable emulsions with silver nanoparticles for inkjet printing of conductive 3D structures
DOI:10.1039/c3tc30253a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Layani, Michael;Cooperstein, Ido;Magdassi, Shlomo;
2:16:82 A new approach causing the patterns fabricated by silver nanoparticles to be conductive without sintering
DOI:10.1088/0957-4484/23/35/355304 JN:NANOTECHNOLOGY PY:2012 TC:15 AU: Tang, Yao;He, Wei;Zhou, Guoyun;Wang, Shouxu;Yang, Xiaojian;Tao, Zhihua;Zhou, Juncheng;
2:16:83 Roll-to-roll printed resistive WORM memory on a flexible substrate
DOI:10.1088/0957-4484/23/30/305204 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Leppaniemi, Jaakko;Mattila, Tomi;Kololuoma, Terho;Suhonen, Mika;Alastalo, Ari;
2:16:84 Hydrophilic Sparse Ionic Monolayer-Protected Metal Nanoparticles: Highly Concentrated Nano-Au and Nano-Ag "Inks" that can be Sintered to Near-Bulk Conductivity at 150 degrees C
DOI:10.1002/adfm.200901336 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:29 AU: Anto, Bibin T.;Sivaramakrishnan, Sankaran;Chua, Lay-Lay;Ho, Peter K. H.;
2:16:85 Enhanced dispersibility and dispersion stability of dodecylamine-protected silver nanoparticles by dodecanethiol for ink-jet conductive inks
DOI:10.1016/j.apsusc.2013.12.006 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Zhou, Xueqin;Li, Wei;Wu, Meilan;Tang, Shen;Liu, Dongzhi;
2:16:86 Mechanistic Studies on Sintering of Silver Nanoparticles
DOI:10.1021/cm202561u JN:CHEMISTRY OF MATERIALS PY:2011 TC:17 AU: Volkman, Steven K.;Yin, Shong;Bakhishev, Teymur;Puntambekar, Kanan;Subramanian, Vivek;Toney, Michael F.;
2:16:87 Non-aqueous synthesis of silver nanoparticles using tin acetate as a reducing agent for the conductive ink formulation in printed electronics
DOI:10.1039/c0jm04521g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Shankar, Ravi;Groven, Lori;Amert, Anthony;Whites, Keith W.;Kellar, Jon J.;
2:16:88 Copper oxide quantum dot ink for inkjet-driven digitally controlled high mobility field effect transistors
DOI:10.1039/c3tc00869j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Vaseem, Mohammad;Hong, A. -Ra;Kim, Ryun-Tak;Hahn, Yoon-Bong;
2:16:89 Simulation and prediction of the thermal sintering behavior for a silver nanoparticle ink based on experimental input
DOI:10.1039/c4tc00632a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Wuenscher, Sebastian;Rasp, Tobias;Grouchko, Michael;Kamyshny, Alexander;Paulus, Renzo M.;Perelaer, Jolke;Kraft, Torsten;Magdassi, Shlomo;Schubert, Ulrich S.;
2:16:90 Synthesis and characterization of air-stable Cu nanoparticles for conductive pattern drawing directly on paper substrates
DOI:10.1007/s11051-013-1949-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:2 AU: Li, Wei;Chen, Minfang;Wei, Jun;Li, Wenjiang;You, Chen;
2:16:91 Synthesis of monodisperse silver nanoparticles for ink-jet printed flexible electronics
DOI:10.1088/0957-4484/22/42/425601 JN:NANOTECHNOLOGY PY:2011 TC:28 AU: Zhang, Zhiliang;Zhang, Xingye;Xin, Zhiqing;Deng, Mengmeng;Wen, Yongqiang;Song, Yanlin;
2:16:92 Interfacial toughening of solution processed Ag nanoparticle thin films by organic residuals
DOI:10.1088/0957-4484/23/48/485704 JN:NANOTECHNOLOGY PY:2012 TC:10 AU: Lee, Inhwa;Kim, Sanghyeok;Yun, Jeonghoon;Park, Inkyu;Kim, Taek-Soo;
2:16:93 Rapid sintering of TiO2 photoelectrodes using intense pulsed white light for flexible dye-sensitized solar cells
DOI:10.1063/1.4871370 JN:APPLIED PHYSICS LETTERS PY:2014 TC:5 AU: Jin, Hwa-Young;Kim, Jae-Yup;Lee, Jin Ah;Lee, Kwangsoo;Yoo, Kicheon;Lee, Doh-Kwon;Kim, BongSoo;Kim, Jin Young;Kim, Honggon;Son, Hae Jung;Kim, Jihyun;Lim, Jung Ah;Ko, Min Jae;
2:16:94 Facile Preparation of Monodisperse, Impurity-Free, and Antioxidation Copper Nanoparticles on a Large Scale for Application in Conductive Ink
DOI:10.1021/am404620y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:12 AU: Zhang, Yu;Zhu, Pengli;Li, Gang;Zhao, Tao;Fu, Xianzhu;Sun, Rong;Zhou, Feng;Wong, Ching-ping;
2:16:95 Environmental stability of solution processed Al-doped ZnO naoparticulate thin films using surface modification technique
DOI:10.1016/j.apsusc.2014.10.035 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Vunnam, Swathi;Ankireddy, Krishnamraju;Kellar, Jon;Cross, William;
2:16:96 Synthesis of stable ultra-small Cu nanoparticles for direct writing flexible electronics
DOI:10.1016/j.apsusc.2013.11.057 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Li, Wei;Chen, Minfang;
2:16:97 A Simple Process for Synthesis of Ag Nanoparticles and Sintering of Conductive Ink for Use in Printed Electronics
DOI:10.1007/s11664-011-1761-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:10 AU: Jung, Inyu;Jo, Yun Hwan;Kim, Inyoung;Lee, Hyuck Mo;
2:16:98 Antioxidative effect of lactic acid-stabilized copper nanoparticles prepared in aqueous solution
DOI:10.1039/c2jm35041f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Deng, Dunying;Cheng, Yuanrong;Jin, Yunxia;Qi, Tianke;Xiao, Fei;
2:16:99 Direct ink-jet printing of silver nitrate-silver nanowire hybrid inks to fabricate silver conductive lines
DOI:10.1039/c2jm31761c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Wu, Jung-Tang;Hsu, Steve Lien-Chung;Tsai, Ming-Hsiu;Liu, Yu-Feng;Hwang, Weng-Sing;
2:16:100 Highly conductive lines by plasma-induced conversion of inkjet-printed silver nitrate traces
DOI:10.1039/c3tc31361a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Bromberg, Vadim;Ma, Siyuan;Egitto, Frank D.;Singler, Timothy J.;
2:16:101 Preparation and oxidation behavior of Ag-coated Cu nanoparticles less than 20 nm in size
DOI:10.1039/c4tc00509k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Chee, Sang-Soo;Lee, Jong-Hyun;
2:16:102 Adhesion mechanisms of nanoparticle silver to substrate materials: identification
DOI:10.1088/0957-4484/21/5/055204 JN:NANOTECHNOLOGY PY:2010 TC:20 AU: Joo, Sungchul;Baldwin, Daniel F.;
2:16:103 Comparative studies on thermal and laser sintering for highly conductive Cu films printable on plastic substrate
DOI:10.1016/j.tsf.2011.11.078 JN:THIN SOLID FILMS PY:2012 TC:17 AU: Joo, Myungo;Lee, Byoungyoon;Jeong, Sooncheol;Lee, Myeongkyu;
2:16:104 The effect of poly (N-vinylpyrrolidone) molecular weight on flash light sintering of copper nanopaste
DOI:10.1016/j.tsf.2014.09.035 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Kim, Yoon-Jin;Ryu, Chung-Hyeon;Park, Sung-Hyeon;Kim, Hak-Sung;
2:16:105 High-resolution inkjet printing of electrically conducting lines of silver nanoparticles by edge-enhanced twin-line deposition
DOI:10.1063/1.4807782 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Bromberg, Vadim;Ma, Siyuan;Singler, Timothy J.;
2:16:106 Statistical Analysis of Plating Variable Effects on the Electrical Conductivity of Electroless Copper Patterns on Paper
DOI:10.1021/am3006934 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Zabetakis, Daniel;Dressick, Walter J.;
2:16:107 Plasma Jet Printing of Electronic Materials on Flexible and Nonconformal Objects
DOI:10.1021/am505325y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Gandhiraman, Ram P.;Jayan, Vivek;Han, Jin-Woo;Chen, Bin;Koehne, Jessica E.;Meyyappan, M.;
2:16:108 Direct Intense Pulsed Light Sintering of Inkjet-Printed Copper Oxide Layers within Six Milliseconds
DOI:10.1021/am404581b JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Kang, Hyunkyoo;Sowade, Enrico;Baumann, Reinhard R.;
2:16:109 A promising approach to conductive patterns with high efficiency for flexible electronics
DOI:10.1016/j.apsusc.2011.03.056 JN:APPLIED SURFACE SCIENCE PY:2011 TC:11 AU: Tai, Yan-Long;Yang, Zhen-Guo;Li, Zhi-Dong;
2:16:110 One step synthesis of uniform organic silver ink drawing directly on paper substrates
DOI:10.1039/c2jm34264b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Yang, Wen-dong;Liu, Chun-yan;Zhang, Zhi-ying;Liu, Yun;Nie, Shi-dong;
2:16:111 Resistivity transition mechanism of silver salts in the next generation conductive ink for a roll-to-roll printed film with a silver network
DOI:10.1039/c2jm30198a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Shin, Dong-Youn;Jung, Minhwan;Chun, Sangki;
2:16:112 Synthesis of low-temperature-processable and highly conductive Ag ink by a simple ligand modification: the role of adsorption energy
DOI:10.1039/c2tc00450j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Jung, Inyu;Shin, Kihyun;Kim, Na Rae;Lee, Hyuck Mo;
2:16:113 Amphiphilic silver particles for conductive inks with controlled wetting behavior
DOI:10.1016/j.matchemphys.2014.08.035 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Ahn, Bok Yeop;Lewis, Jennifer A.;
2:16:114 Control of chemical kinetics for sub-10 nm Cu nanoparticles to fabricate highly conductive ink below 150 degrees C
DOI:10.1088/0957-4484/23/6/065601 JN:NANOTECHNOLOGY PY:2012 TC:11 AU: Choi, Chung Seok;Jo, Yun Hwan;Kim, Min Gyu;Lee, Hyuck Mo;
2:16:115 The influence of paper coating content on room temperature sintering of silver nanoparticle ink
DOI:10.1088/0957-4484/24/45/455203 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Andersson, H.;Manuilskiy, A.;Lidenmark, C.;Gao, J.;Ohlund, T.;Forsberg, S.;Ortegren, J.;Schmidt, W.;Nilsson, H-E;
2:16:116 Pressure-assisted low-temperature sintering for paper-based writing electronics
DOI:10.1088/0957-4484/24/35/355204 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Xu, L. Y.;Yang, G. Y.;Jing, H. Y.;Wei, J.;Han, Y. D.;
2:16:117 Facile synthesis of bimetallic Cu-Ag nanoparticles under microwave irradiation and their oxidation resistance
DOI:10.1088/0957-4484/24/26/265602 JN:NANOTECHNOLOGY PY:2013 TC:7 AU: Chen, Zhi;Mochizuki, Dai;Maitani, Masato M.;Wada, Yuji;
2:16:118 An impedimetric study of DNA hybridization on paper-supported inkjet-printed gold electrodes
DOI:10.1088/0957-4484/25/9/094009 JN:NANOTECHNOLOGY PY:2014 TC:3 AU: Ihalainen, Petri;Pettersson, Fredrik;Pesonen, Markus;Viitala, Tapani;Maattanen, Anni;Osterbacka, Ronald;Peltonen, Jouko;
2:16:119 Copper(II) ethylene glycol carboxylates as precursors for inkjet printing of conductive copper patterns
DOI:10.1016/j.tsf.2014.06.054 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Adner, David;Wolf, Franziska M.;Moeckel, Stefan;Perelaer, Jolke;Schubert, Ulrich S.;Lang, Heinrich;
2:16:120 Facile Inkjet-Printing Self-Aligned Electrodes for Organic Thin-Film Transistor Arrays with Small and Uniform Channel Length
DOI:10.1021/am100466r JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:17 AU: Doggart, Jason;Wu, Yiliang;Liu, Ping;Zhu, Shiping;
2:16:121 Room Temperature Synthesis of a Copper Ink for the Intense Pulsed Light Sintering of Conductive Copper Films
DOI:10.1021/am404226e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Dharmadasa, Ruvini;Jha, Menaka;Amos, Delaina A.;Druffel, Thad;
2:16:122 Fabrication, characterization and screen printing of conductive ink based on carbon@Ag core-shell nanoparticles
DOI:10.1016/j.jcis.2013.10.064 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:4 AU: Wu, Wei;Yang, Shuanglei;Zhang, Shaofeng;Zhang, Hongbo;Jiang, Changzhong;
2:16:123 Cu(In,Ga)Se-2 Thin Film Preparation from a Cu(In,Ga) Metallic Alloy and Se Nanoparticles by an Intense Pulsed Light Technique
DOI:10.1007/s11664-010-1431-x JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:11 AU: Dhage, Sanjay R.;Kim, Hak-Sung;Hahn, H. Thomas;
2:16:124 Properties and Printability of Inkjet and Screen-Printed Silver Patterns for RFID Antennas
DOI:10.1007/s11664-013-2893-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:12 AU: Salmeron, Jose F.;Molina-Lopez, Francisco;Briand, Danick;Ruan, Jason J.;Rivadeneyra, Almudena;Carvajal, Miguel A.;Capitan-Vallvey, L. F.;Derooij, Nico F.;Palma, Alberto J.;
2:16:125 Printed Cu source/drain electrode capped by CuO hole injection layer for organic thin film transistors
DOI:10.1039/c1jm11273b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Jeong, Sunho;Song, Hae Chon;Lee, Won Woo;Suk, Hye Jung;Lee, Sun Sook;Ahn, Taek;Ka, Jae-Won;Choi, Youngmin;Yi, Mi Hye;Ryu, Beyong-Hwan;
2:16:126 Adhesion enhancement of ink-jet printed conductive copper patterns on a flexible substrate
DOI:10.1039/c2jm31381b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Lee, Young-In;Choa, Yong-Ho;
2:16:127 Preparation, characterization and reaction mechanism of a novel silver-organic conductive ink
DOI:10.1039/c2jm34569b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Chang, Yu;Wang, Dong-Yu;Tai, Yan-Long;Yang, Zhen-Guo;
2:16:128 Ultra-fast sintered TiO2 films in dye-sensitized solar cells: phase variation, electron transport and recombination
DOI:10.1039/c2ta01005d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:19 AU: Carnie, Matthew J.;Charbonneau, Cecile;Barnes, Piers R. F.;Davies, Matthew L.;Mabbett, Ian;Watson, Trystan M.;O'Regan, Brian C.;Worsley, David A.;
2:16:129 Understanding the Formation of the Self-Assembly of Colloidal Copper Nanoparticles by Surfactant: A Molecular Velcro
DOI:10.1155/2013/802174 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:2 AU: Bortoleto-Bugs, Raquel Kely;Mazon, Talita;Biasoli, Marcio Tarozzo;Pavani Filho, Aristides;Swart, Jacobus Willibrordus;Bugs, Milton Roque;
2:16:130 Hansen Solubility Parameters of Surfactant-Capped Silver Nanoparticles for Ink and Printing Technologies
DOI:10.1021/la502948b JN:LANGMUIR PY:2014 TC:1 AU: Petersen, Jacob B.;Meruga, Jeevan;Randle, James S.;Cross, William M.;Kellar, Jon J.;
2:16:131 Room-temperature sintering of conductive Ag films on paper
DOI:10.1016/j.matlet.2014.02.101 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Huang, Qijin;Shen, Wenfeng;Xu, Qingsong;Tan, Ruiqin;Song, Weijie;
2:16:132 Synthesis of silver nano particles and fabrication of aqueous Ag inks for inkjet printing
DOI:10.1016/j.matchemphys.2011.05.064 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:28 AU: Kosmala, A.;Wright, R.;Zhang, Q.;Kirby, A.;
2:16:133 Direct micro/nano metal patterning based on two-step transfer printing of ionic metal nano-ink
DOI:10.1088/0957-4484/23/28/285301 JN:NANOTECHNOLOGY PY:2012 TC:10 AU: Kim, Sanghyeok;Lee, Won Seok;Lee, Jihye;Park, Inkyu;
2:16:134 Flexographic printing-assisted fabrication of ZnO nanowire devices
DOI:10.1088/0957-4484/24/19/195602 JN:NANOTECHNOLOGY PY:2013 TC:9 AU: Lloyd, J. S.;Fung, C. M.;Deganello, D.;Wang, R. J.;Maffeis, T. G. G.;Lau, S. P.;Teng, K. S.;
2:16:135 Highly conductive copper nano/microparticles ink via flash light sintering for printed electronics
DOI:10.1088/0957-4484/25/26/265601 JN:NANOTECHNOLOGY PY:2014 TC:6 AU: Joo, Sung-Jun;Hwang, Hyun-Jun;Kim, Hak-Sung;
2:16:136 Inkjet printing of conductive patterns with an aqueous solution of [AgO2C(CH2OCH2)(3)H] without any additional stabilizing ligands
DOI:10.1016/j.tsf.2010.01.030 JN:THIN SOLID FILMS PY:2010 TC:24 AU: Jahn, Stephan F.;Jakob, Alexander;Blaudeck, Thomas;Schmidt, Peer;Lang, Heinrich;Baumann, Reinhard R.;
2:16:137 Inkjet printing of conductive Ag lines and their electrical and mechanical characterization
DOI:10.1016/j.tsf.2010.02.049 JN:THIN SOLID FILMS PY:2010 TC:22 AU: Lee, Dong Jun;Oh, Je Hoon;
2:16:138 Low-temperature synthesis of copper conductive film by thermal decomposition of copper-amine complexes
DOI:10.1016/j.tsf.2011.04.112 JN:THIN SOLID FILMS PY:2011 TC:19 AU: Yabuki, Akihiro;Arriffin, Norzafriza;Yanase, Manabu;
2:16:139 Effect of copper concentration in printable copper inks on film fabrication
DOI:10.1016/j.tsf.2011.11.056 JN:THIN SOLID FILMS PY:2012 TC:13 AU: Kim, Suk Jun;Lee, Jaeho;Choi, Yun-Hyuk;Yeon, Dong-Hee;Byun, Younghun;
2:16:140 Enhanced surface coverage and conductivity of Cu complex ink-coated films by laser sintering
DOI:10.1016/j.tsf.2014.06.005 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Lee, Jeonghyeon;Lee, Byoungyoon;Jeong, Sooncheol;Kim, Yoonhyun;Lee, Myeongkyu;
2:16:141 Intense Pulsed Light Sintering of Electrodeposited CdS Thin Films
DOI:10.1002/adem.201400008 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:5 AU: Dharmadasa, Ruvini;Dharmadasa, I. M.;Druffel, Thad;
2:16:142 Fabrication of Copper Patterns on Flexible Substrate by Patterning Adsorption-Plating Process
DOI:10.1021/am405539r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Chang, Yu;Yang, Chao;Zheng, Xin-Yao;Wang, Dong-Yu;Yang, Zhen-Guo;
2:16:143 Inkjet printing of silver citrate conductive ink on PET substrate
DOI:10.1016/j.apsusc.2012.08.054 JN:APPLIED SURFACE SCIENCE PY:2012 TC:16 AU: Nie, Xiaolei;Wang, Hong;Zou, Jing;
2:16:144 Improvement of mechanical durability on organic TFT with printed electrodes prepared from nanoparticle ink
DOI:10.1016/j.apsusc.2013.12.168 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Sekine, Tomohito;Ikeda, Hideaki;Kosakai, Akifumi;Fukuda, Kenjiro;Kumaki, Daisuke;Tokito, Shizuo;
2:16:145 Controlled joining of Ag nanoparticles with femtosecond laser radiation
DOI:10.1063/1.4770476 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Huang, H.;Liu, L.;Peng, P.;Hu, A.;Duley, W. W.;Zhou, Y.;
2:16:146 Thermal analysis of silver nanoparticles for flexible printed antenna fabrication
DOI:10.1063/1.4822159 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Ankireddy, Krishnamraju;Iskander, Mina;Vunnam, Swathi;Anagnostou, Dimitris E.;Kellar, Jon;Cross, William;
2:16:147 Inkjet printing and low temperature sintering of CuO and CdS as functional electronic layers and Schottky diodes
DOI:10.1039/c1jm11237f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Marjanovic, Nenad;Hammerschmidt, Jens;Perelaer, Jolke;Farnsworth, Stan;Rawson, Ian;Kus, Mahmut;Yenel, Esma;Tilki, Serhad;Schubert, Ulrich S.;Baumann, Reinhard R.;
2:16:148 Ultrafast near-infrared sintering of a slot-die coated nano-silver conducting ink
DOI:10.1039/c1jm10630a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Cherrington, Martyn;Claypole, Tim C.;Deganello, Davide;Mabbett, Ian;Watson, Trystan;Worsley, David;
2:16:149 Infra-red assisted sintering of inkjet printed silver tracks on paper substrates
DOI:10.1007/s11051-011-0306-2 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:13 AU: Denneulin, Aurore;Blayo, Anne;Neuman, Charles;Bras, Julien;
2:16:150 Crack formation and substrate effects on electrical resistivity of inkjet-printed Ag lines
DOI:10.1016/j.matlet.2010.02.014 JN:MATERIALS LETTERS PY:2010 TC:20 AU: Lee, Dong Jun;Oh, Je Hoon;Bae, Han Seung;
2:16:151 Electrically conductive copper film prepared at low temperature by thermal decomposition of copper amine complexes with various amines
DOI:10.1016/j.materresbull.2012.08.052 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:9 AU: Yabuki, Akihiro;Tanaka, Shuji;
2:16:152 Geometrical characterization of inkjet-printed conductive lines of nanosilver suspensions on a polymer substrate
DOI:10.1016/j.tsf.2009.10.126 JN:THIN SOLID FILMS PY:2010 TC:33 AU: Kang, Byung Ju;Oh, Je Hoon;
2:16:153 Electrical sintering characteristics of inkjet-printed conductive Ag lines on a paper substrate
DOI:10.1016/j.tsf.2013.05.015 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Jang, Shin;Lee, Dong Jun;Lee, Dohyung;Oh, Je Hoon;
2:16:154 Alternative sintering methods compared to conventional thermal sintering for inkjet printed silver nanoparticle ink
DOI:10.1016/j.tsf.2014.02.001 JN:THIN SOLID FILMS PY:2014 TC:9 AU: Niittynen, Juha;Abbel, Robert;Mantysalo, Matti;Perelaer, Jolke;Schubert, Ulrich S.;Lupo, Donald;
2:16:155 Effects of dodecylamine and dodecanethiol on the conductive properties of nano-Ag films
DOI:10.1016/j.apsusc.2011.01.090 JN:APPLIED SURFACE SCIENCE PY:2011 TC:19 AU: Mo, Lixin;Liu, Dongzhi;Li, Wei;Li, Luhai;Wang, Lichang;Zhou, Xueqin;
2:16:156 Future direction of direct writing
DOI:10.1063/1.3510359 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:16 AU: Kim, Nam-Soo;Han, Kenneth N.;
2:16:157 Copper nanoparticles synthesized by hydroxyl ion assisted alcohol reduction for conducting ink
DOI:10.1039/c0jm04470a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:29 AU: Huaman, Jhon L. Cuya;Sato, Kimitaka;Kurita, Satoshi;Matsumoto, Takatoshi;Jeyadevan, Balachandran;
2:16:158 Cu Salt Ink Formulation for Printed Electronics using Photonic Sintering
DOI:10.1021/la402026r JN:LANGMUIR PY:2013 TC:9 AU: Araki, Teppei;Sugahara, Tohru;Jiu, Jinting;Nagao, Shijo;Nogi, Masaya;Koga, Hirotaka;Uchida, Hiroshi;Shinozaki, Kenji;Suganuma, Katsuaki;
2:16:159 Non-contact assessment of electrical performance for rapidly sintered nanoparticle silver coatings through colorimetry
DOI:10.1016/j.tsf.2012.08.039 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Cherrington, M.;Claypole, T. C.;Gethin, D. T.;Worsley, D. A.;Deganello, D.;
2:16:160 Particle-free gold metal-organic decomposition ink for inkjet printing of gold structures
DOI:10.1016/j.tsf.2013.01.027 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Schoner, Claudia;Tuchscherer, Andre;Blaudeck, Thomas;Jahn, Stephan F.;Baumann, Reinhard R.;Lang, Heinrich;
2:16:161 Surface modification of indium tin oxide for direct writing of silver nanoparticulate ink micropatterns
DOI:10.1016/j.tsf.2013.01.047 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Vunnam, Swathi;Ankireddy, Krishnamraju;Kellar, Jon;Cross, William;
2:16:162 Fabrication, Characterization, and Printing of Conductive Ink Based on Multi Core-Shell Nanoparticles Synthesized by RAPET
DOI:10.1002/adfm.201300837 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:2 AU: Butovsky, Evgeny;Perelshtein, Ilana;Nissan, Ifat;Gedanken, Aharon;
2:16:163 Ultrafast laser ablation of metal films on flexible substrates
DOI:10.1007/s00339-013-7901-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Gallais, L.;Bergeret, E.;Wang, B.;Guerin, M.;Benevent, E.;
2:16:164 Highly Sensitive Antenna Using Inkjet Overprinting with Particle-Free Conductive Inks
DOI:10.1021/am301747p JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Komoda, Natsuki;Nogi, Masaya;Suganuma, Katsuaki;Otsuka, Kanji;
2:16:165 Laser sintering of Cu paste film printed on polyimide substrate
DOI:10.1016/j.apsusc.2011.08.076 JN:APPLIED SURFACE SCIENCE PY:2011 TC:9 AU: Joo, Myungo;Lee, Byoungyoon;Jeong, Sooncheol;Lee, Myeongkyu;
2:16:166 Synthesis of colourless silver precursor ink for printing conductive patterns on silicon nitride substrates
DOI:10.1016/j.apsusc.2012.04.037 JN:APPLIED SURFACE SCIENCE PY:2012 TC:11 AU: Huang, Qijin;Shen, Wenfeng;Song, Weijie;
2:16:167 Direct writing of conductive silver micropatterns on flexible polyimide film by laser-induced pyrolysis of silver nanoparticle-dispersed film
DOI:10.1007/s11051-009-9643-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:19 AU: Aminuzzaman, Mohammod;Watanabe, Akira;Miyashita, Tokuji;
2:16:168 Conductive network structure formed by laser sintering of silver nanoparticles
DOI:10.1007/s11051-014-2684-8 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:2 AU: Qin, Gang;Watanabe, Akira;
2:16:169 Nickel and copper conductive patterns fabricated by reactive inkjet printing combined with electroless plating
DOI:10.1016/j.matlet.2014.06.109 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Petukhov, Dmitrii I.;Kirikova, Marina N.;Bessonov, Alexander A.;Bailey, Marc J. A.;
2:16:170 Development of high concentrated aqueous silver nanofluid and inkjet printing on ceramic substrates
DOI:10.1016/j.matchemphys.2011.12.013 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:8 AU: Kosmala, A.;Zhang, Q.;Wright, R.;Kirby, P.;
2:16:171 Formulation and screen printing of water based conductive flake silver pastes onto green ceramic tapes for electronic applications
DOI:10.1016/j.mseb.2012.05.015 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:13 AU: Faddoul, Rita;Reverdy-Bruas, Nadege;Blayo, Anne;
2:16:172 Towards ink-jet printed fine line front side metallization of crystalline silicon solar cells
DOI:10.1016/j.solmat.2010.12.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Gizachew, Y. T.;Escoubas, L.;Simon, J. J.;Pasquinelli, M.;Loiret, J.;Leguen, P. Y.;Jimeno, J. C.;Martin, J.;Apraiz, A.;Aguerre, J. P.;
2:16:173 Film formation properties of inkjet printed poly(phenylene-ethynylene)-poly(phenylene-vinylene)s
DOI:10.1016/j.tsf.2011.01.274 JN:THIN SOLID FILMS PY:2011 TC:15 AU: Teichler, Anke;Eckardt, Rebecca;Friebe, Christian;Perelaer, Jolke;Schubert, Ulrich S.;
2:16:174 High-performance electrically conductive silver paste prepared by silver-containing precursor
DOI:10.1007/s00339-010-5728-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:10 AU: Liu, Jianguo;Cao, Yu;Li, Xiangyou;Wang, Xiaoye;Zeng, Xiaoyan;
2:16:175 Intense Pulsed Light Treatment of Cadmium Telluride Nanoparticle-Based Thin Films
DOI:10.1021/am500124t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Dharmadasa, Ruvini;Lavery, Brandon;Dharmadasa, I. M.;Druffel, Thad;
2:16:176 Patterning of nanoparticulate transparent conductive ITO films using UV light irradiation and UV laser beam writing
DOI:10.1016/j.apsusc.2009.10.039 JN:APPLIED SURFACE SCIENCE PY:2010 TC:13 AU: Solieman, A.;Moharram, A. H.;Aegerter, M. A.;
2:16:177 Continuous wave ultraviolet-laser sintering of ZnO and TiO2 nanoparticle thin films at low laser powers
DOI:10.1063/1.4788906 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Sandmann, Alice;Notthoff, Christian;Winterer, Markus;
2:16:178 Low-Temperature Preparation of Highly Conductive Thin Films from Acrylic Acid-Stabilized Silver Nanoparticles Prepared through Ligand Exchange
DOI:10.1021/la102627m JN:LANGMUIR PY:2010 TC:8 AU: Vo, Due Quy;Shin, Eun Woo;Kim, Jac-Seong;Kim, Sunwook;
2:16:179 The superiority of silver nanoellipsoids synthesized via a new approach in suppressing the coffee-ring effect during drying and film formation processes
DOI:10.1088/0957-4484/25/12/125602 JN:NANOTECHNOLOGY PY:2014 TC:0 AU: Tang, Yao;He, Wei;Wang, Shouxu;Tao, Zhihua;Cheng, Lijuan;
2:16:180 Effect of UV/ozone treatment on interactions between ink-jet printed Cu patterns and polyimide substrates
DOI:10.1016/j.tsf.2011.04.050 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Lee, Young-In;Goo, Yong-Sung;Lee, Kun-Jae;Hwang, Yun-Gu;Byun, Younghun;Park, Hee Jung;Park, Deok-Yong;Myung, Nosang V.;Choa, Yong-Ho;
2:16:181 Behavior of Cu nanoparticles ink under reductive calcination for fabrication of Cu conductive film
DOI:10.1016/j.tsf.2011.12.024 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Ida, Kiyonobu;Tomonari, Masanori;Sugiyama, Yasuyuki;Chujyo, Yuki;Tokunaga, Tomoharu;Yonezawa, Tetsu;Kuroda, Kotaro;Sasaki, Katsuhiro;
2:16:182 Control of surface wettability for inkjet printing by combining hydrophobic coating and plasma treatment
DOI:10.1016/j.tsf.2013.03.067 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Park, Heung Yeol;Kang, Byung Ju;Lee, Dohyung;Oh, Je Hoon;
2:16:183 Three-Dimensional Inkjet-Printed Interconnects using Functional Metallic Nanoparticle Inks
DOI:10.1002/adfm.201401312 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Sadie, Jacob A.;Subramanian, Vivek;
2:16:184 Inkjet-printed gold nanoparticulate patterns for surface finish in electronic package
DOI:10.1007/s00339-011-6610-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:2 AU: Jang, Seonhee;Cho, Hyejin;Kang, Seongkoo;Oh, Sungil;Kim, Donghoon;
2:16:185 Control of droplet formation by operating waveform for inks with various viscosities in piezoelectric inkjet printing
DOI:10.1007/s00339-013-7569-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:6 AU: Liu, Yu-Feng;Tsai, Ming-Hsu;Pai, Yen-Fang;Hwang, Weng-Sing;
2:16:186 Fabrication and adhesion performance of gold conductive patterns on silicon substrate by laser sintering
DOI:10.1016/j.apsusc.2011.08.088 JN:APPLIED SURFACE SCIENCE PY:2011 TC:5 AU: Cai, Zhixiang;Yung, K. C.;Zeng, Xiaoyan;
2:16:187 A study on the electrical and mechanical properties of printed Ag thin films for flexible device application
DOI:10.1016/j.jallcom.2014.01.184 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Kim, Inyoung;Lee, Taik-Min;Kim, Jongryoul;
2:16:188 Electrical Conductivity of Thick Films Made from Silver Methylcarbamate Paste
DOI:10.1007/s11664-013-2692-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:0 AU: Liu, Jianguo;Jiang, Min;Zeng, Xiaoyan;
2:16:189 Enhancement of Processability and Electrical Resistance by Use of Ag-Based Composite Inks Containing Ultrafine SAC305 Alloy Nanoparticles
DOI:10.1007/s11664-014-3245-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Shin, Yong Moo;Kim, Hyun-Jin;Jang, Seok Pil;Lee, Jong-Hyun;
2:16:190 Cu2X(OH)(3) (X = Cl-, NO3-): synthesis of nanoparticles and its application for room temperature deposition/printing of conductive copper thin-films
DOI:10.1039/c0jm00681e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:6 AU: Wolf, Silke;Feldmann, Claus;
2:16:191 Synthesis of copper conductive film by low-temperature thermal decomposition of copper-aminediol complexes under an air atmosphere
DOI:10.1016/j.matchemphys.2014.07.047 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Yabuki, Akihiro;Tachibana, Yohei;Fathona, Indra W.;
2:16:192 Effect of laser-induced temperature field on the characteristics of laser-sintered silver nanoparticle ink
DOI:10.1088/0957-4484/24/26/265702 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Lee, D. G.;Kim, D. K.;Moon, Y. J.;Moon, S-J;
2:16:193 High throughput via-metallization technique for multi-crystalline metal wrap through (MWT) silicon solar cells exceeding 16% efficiency
DOI:10.1016/j.solmat.2009.06.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:12 AU: Clement, Florian;Menkoe, Michael;Erath, Denis;Kubera, Tim;Hoenig, Rene;Kwapil, Wolfram;Wolke, Winfried;Biro, Daniel;Preu, Ralf;
2:16:194 Electrodeposition of PEDOT-Cl film on a fully printed Ag/polyaniline electrode
DOI:10.1016/j.tsf.2010.11.032 JN:THIN SOLID FILMS PY:2011 TC:12 AU: Ihalainen, Petri;Maattanen, Anni;Mattinen, Ulriika;Stepien, Milena;Bollstrom, Roger;Toivakka, Martti;Bobacka, Johan;Peltonen, Jouko;
2:16:195 Inkjet printing using copper nanoparticles synthesized by electrolysis
DOI:10.1016/j.tsf.2011.11.021 JN:THIN SOLID FILMS PY:2012 TC:11 AU: Cheon, Jinmin;Lee, Jinha;Kim, Jongryoul;
2:16:196 Impact of metered ink volume on reel-to-reel flexographic printed conductive networks for enhanced thin film conductivity
DOI:10.1016/j.tsf.2011.08.050 JN:THIN SOLID FILMS PY:2012 TC:9 AU: Deganello, D.;Cherry, J. A.;Gethin, D. T.;Claypole, T. C.;
2:16:197 Size-controlled in situ synthesis and photo-responsive properties of silver/poly(methyl methacrylate) nanocomposite films with high silver content
DOI:10.1016/j.apsusc.2012.06.102 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Chen, Cheng;Li, Junguo;Luo, Guoqiang;Xiong, Yuanlu;Zhang, Qiang Shen Lianmeng;
2:16:198 Transient variation of a cross-sectional area of inkjet-printed silver nanoparticle ink during furnace sintering
DOI:10.1016/j.apsusc.2014.03.110 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Kim, Dongkeum;Lee, Iksang;Yoo, Youngbum;Moon, Yoon-Jae;Moon, Seung-Jae;
2:16:199 Structural characterizations of Cu3Pt electrocatalyst featuring Pt-rich surface layers synthesized via mechanical alloying and selective dissolution routes
DOI:10.1016/j.jallcom.2012.10.098 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Hsieh, Yi-Fan;Hsieh, Yu-Chi;Tseng, Yuan-Chieh;Wu, Pu-Wei;Chao, Cheun Guang;Lin, Pang;Lee, Jyh-Fu;
2:16:200 Ohmic Curing of Printed Silver Conductive Traces
DOI:10.1007/s11664-012-2140-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:8 AU: Roberson, D. A.;Wicker, R. B.;MacDonald, E.;
2:16:201 Air stable core-shell multilayer metallic nanoparticles synthesized by RAPET: fabrication, characterization and suggested applications
DOI:10.1039/c2jm32528d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Butovsky, Evgeny;Perelshtein, Ilana;Gedanken, Aharon;
2:16:202 Thermo chemical stability of cadmium sulfide nanoparticles under intense pulsed light irradiation and high temperatures
DOI:10.1016/j.mseb.2011.06.003 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:7 AU: Colorado, H. A.;Dhage, S. R.;Hahn, H. T.;
2:16:203 Fast and low-temperature sintering of silver complex using oximes as a potential reducing agent for solution-processible, highly conductive electrodes
DOI:10.1088/0957-4484/25/46/465706 JN:NANOTECHNOLOGY PY:2014 TC:0 AU: Yoo, Ji Hoon;Han, Dae Sang;Bin Park, Su;Chae, Jangwoo;Kim, Ji Man;Kwak, Jeonghun;
2:16:204 Laser-induced fluorescent micro-structures in silver nanoparticle based films
DOI:10.1016/j.optmat.2013.12.011 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: Kandpal, Sanjeev Kumar;Co, Aimee;Allcroft, Kody;Neivandt, David J.;Bousfield, Douglas W.;Mason, Michael D.;
2:16:205 A simple method for simulating the coffee stain effect
DOI:10.1016/j.powtec.2014.02.024 JN:POWDER TECHNOLOGY PY:2014 TC:2 AU: Breinlinger, Thomas;Kraft, Torsten;
2:16:206 Development of a gravure offset printing system for the printing electrodes of flat panel display
DOI:10.1016/j.tsf.2009.10.017 JN:THIN SOLID FILMS PY:2010 TC:25 AU: Lee, Taik-Min;Noh, Jae-Ho;Kim, Chung Hwan;Jo, Jeongdai;Kim, Dong-Soo;
2:16:207 Film processing characteristics of nano gold suitable for conductive application on flexible substrates
DOI:10.1016/j.tsf.2012.04.017 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Gupta, Ashish;Mandal, Saumen;Katiyar, Monica;Mohapatra, Yashowanta N.;
2:16:208 Nanosized induced low-temperature alloying in binary and ternary noble alloy systems for micro-interconnect applications
DOI:10.1016/j.actamat.2010.10.051 JN:ACTA MATERIALIA PY:2011 TC:4 AU: Kao, Tzu-Hsuan;Song, Jenn-Ming;Chen, In-Gann;Dong, Teng-Yuan;Hwang, Weng-Sing;
2:16:209 Inkjet-printed silver nanoparticle electrodes on GaN-based micro-structured light-emitting diodes
DOI:10.1007/s00339-011-6506-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:2 AU: Wu, Min;Gong, Zheng;Massoubre, David;Zhang, Yanfeng;Richardson, Elliot;Gu, Erdan;Dawson, Martin D.;
2:16:210 Versatile graphene nanocomposite microheater patterning for various thermoplastic substrates based on capillary filling and transfer molding
DOI:10.1063/1.4795594 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Kim, Hyung Woo;Park, Sung Jea;Lee, Bong-Kee;Kim, Dong Sung;
2:16:211 Sn whiskers removed by energy photo flashing
DOI:10.1016/j.apsusc.2012.05.155 JN:APPLIED SURFACE SCIENCE PY:2012 TC:0 AU: Jiang, N.;Yang, M.;Novak, J.;Igor, P.;Osterman, M.;
2:16:212 Relationship between printability and rheological behavior of ink-jet conductive inks
DOI:10.1016/j.ceramint.2013.02.039 JN:CERAMICS INTERNATIONAL PY:2013 TC:6 AU: Woo, Kyoohee;Jang, Daehwan;Kim, Youngwoo;Moon, Jooho;
2:16:213 Infrared imaging and acoustic sizing of a bubble inside a micro-electro-mechanical system piezo ink channel
DOI:10.1063/1.3606567 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: van der Bos, Arjan;Segers, Tim;Jeurissen, Roger;van den Berg, Marc;Reinten, Hans;Wijshoff, Herman;Versluis, Michel;Lohse, Detlef;
2:16:214 Effect of sintering conditions on mixed ionic-electronic conducting properties of silver sulfide nanoparticles
DOI:10.1063/1.3693310 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Yin, Shong;Terabe, Kazuya;Toney, Michael F.;Subramanian, Vivek;
2:16:215 Parallel laser fabrication of film-embedded microstructures using reusable functionalized template
DOI:10.1063/1.4865272 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Kang, Bongchul;Nath, S. K. Deb;Kim, Hyun-Chul;Kim, Sung-Gaun;
2:16:216 Electrically Conductive Thick Film Made from Silver Alkylcarbamates
DOI:10.1007/s11664-010-1327-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:4 AU: Liu, Jianguo;Li, Xiangyou;Wang, Xiaoye;Zeng, Xiaoyan;
2:16:217 Towards inkjet-printed low cost passive UHF RFID skin mounted tattoo paper tags based on silver nanoparticle inks
DOI:10.1039/c3tc31302f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Sanchez-Romaguera, Veronica;Ziai, Mohamed A.;Oyeka, Dumtoochukwu;Barbosa, Silvia;Wheeler, Joseph S. R.;Batchelor, John C.;Parker, Edward. A.;Yeates, Stephen G.;
2:16:218 Evaluation of absorption of micro-droplets on paper for creation of paper-based microstructures
DOI:10.1007/s10853-011-6201-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Enomae, Toshiharu;Dogome, Kazutomo;Isogai, Akira;
2:16:219 Conductive glass sealants with Ag nanoparticles prepared by a heat reduction process
DOI:10.1016/j.jnoncrysol.2014.03.028 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Akamatsu, Takafumi;Shin, Woosuck;Yamaguchi, Toshiaki;Fujishiro, Yoshinobu;Itoh, Toshio;Izu, Noriya;
2:16:220 3D Cu(OH)(2) Hierarchical Frameworks: Self-Assembly, Growth, and Application for the Removal of TSNAs
DOI:10.1155/2013/797082 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:1 AU: Hou, Hongwei;Zhu, You;Hu, Qingyuan;
2:16:221 Patterning of Antibodies Using Flexographic Printing
DOI:10.1021/la300867m JN:LANGMUIR PY:2012 TC:5 AU: Phillips, Christopher O.;Govindarajan, Sridhar;Hamblyn, Simon M.;Conlan, R. Steven;Gethin, David T.;Claypole, Tim C.;
2:16:222 Inkjet Patterning of Multiline Intersections for Wirings in Printed Electronics
DOI:10.1021/la402101d JN:LANGMUIR PY:2013 TC:2 AU: Diaz, Elkin;Ramon, Eloi;Carrabina, Jordi;
2:16:223 Microstructural characterization of electrically failed conductive traces printed from Ag nanoparticle inks
DOI:10.1016/j.matlet.2012.02.032 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Roberson, David A.;Wicker, Ryan B.;MacDonald, Eric;
2:16:224 Multicomponent oxide thin-film transistors fabricated by a double-layer inkjet printing process
DOI:10.1016/j.tsf.2011.04.149 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Olziersky, Antonis;Vila, Anna;Morante, Juan Ramon;
2:16:225 Investigation of morphological and electrical characteristics of tin doped indium oxide layers produced by a quasi single source precursor system
DOI:10.1016/j.tsf.2012.09.063 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Veith, M.;Bubel, C.;Grobelsek, I.;
2:16:226 Effect of temperature on electrical conductance of inkjet-printed silver nanoparticle ink during continuous wave laser sintering
DOI:10.1016/j.tsf.2013.05.103 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Lee, Dae-Geon;Kim, Dong Keun;Moon, Yoon-Jae;Moon, Seung-Jae;
2:16:227 Inkjet printing RF bandpass filters on liquid crystal polymer substrates
DOI:10.1016/j.tsf.2013.04.125 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Kao, Hsuan-ling;Cho, Cheng-Lin;Chang, Li-Chun;Yeh, Chih-Sheng;Wang, Bo-Wen;Chiu, Hsien-Chin;
2:17:1 A Potential Perylene Diimide Dimer-Based Acceptor Material for Highly Efficient Solution-Processed Non-Fullerene Organic Solar Cells with 4.03% Efficiency
DOI:10.1002/adma.201300897 JN:ADVANCED MATERIALS PY:2013 TC:124 AU: Zhang, Xin;Lu, Zhenhuan;Ye, Long;Zhan, Chuanlang;Hou, Jianhui;Zhang, Shaoqing;Jiang, Bo;Zhao, Yan;Huang, Jianhua;Zhang, Shanlin;Liu, Yang;Shi, Qiang;Liu, Yunqi;Yao, Jiannian;
2:17:2 Influence of Aggregation on the Performance of All-Polymer Solar Cells Containing Low-Bandgap Naphthalenediimide Copolymers
DOI:10.1002/aenm.201100601 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:118 AU: Schubert, Marcel;Dolfen, Daniel;Frisch, Johannes;Roland, Steffen;Steyrleuthner, Robert;Stiller, Burkhard;Chen, Zhihua;Scherf, Ullrich;Koch, Norbert;Facchetti, Antonio;Neher, Dieter;
2:17:3 Steric Control of the Donor/Acceptor Interface: Implications in Organic Photovoltaic Charge Generation
DOI:10.1021/ja203235z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:90 AU: Holcombe, Thomas W.;Norton, Joseph E.;Rivnay, Jonathan;Woo, Claire H.;Goris, Ludwig;Piliego, Claudia;Griffini, Gianmarco;Sellinger, Alan;Bredas, Jean-Luc;Salleo, Alberto;Frechet, Jean M. J.;
2:17:4 Design of New Electron Acceptor Materials for Organic Photovoltaics: Synthesis, Electron Transport, Photophysics, and Photovoltaic Properties of Oligothiophene-Functionalized Naphthalene Diimides
DOI:10.1021/cm2019668 JN:CHEMISTRY OF MATERIALS PY:2011 TC:91 AU: Ahmed, Eilaf;Ren, Guoqiang;Kim, Felix S.;Hollenbeck, Emily C.;Jenekhe, Samson A.;
2:17:5 Recent advances of non-fullerene, small molecular acceptors for solution processed bulk heterojunction solar cells
DOI:10.1039/c3ta14236a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:80 AU: Eftaiha, Ala'a F.;Sun, Jon-Paul;Hill, Ian G.;Welch, Gregory C.;
2:17:6 Polymer Blend Solar Cells Based on a High-Mobility Naphthalenediimide-Based Polymer Acceptor: Device Physics, Photophysics and Morphology
DOI:10.1002/aenm.201000035 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:89 AU: Moore, Jennifer R.;Albert-Seifried, Sebastian;Rao, Akshay;Massip, Sylvain;Watts, Benjamin;Morgan, David J.;Friend, Richard H.;McNeill, Christopher R.;Sirringhaus, Henning;
2:17:7 Non-Fullerene Acceptor-Based Bulk Heterojunction Polymer Solar Cells: Engineering the Nanomorphology via Processing Additives
DOI:10.1002/aenm.201100285 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:91 AU: Ren, Guoqiang;Ahmed, Eilaf;Jenekhe, Samson A.;
2:17:8 Small-Molecule, Nonfullerene Acceptors for Polymer Bulk Heterojunction Organic Photovoltaics
DOI:10.1021/cm1023019 JN:CHEMISTRY OF MATERIALS PY:2011 TC:170 AU: Anthony, John E.;
2:17:9 Perylene Imides for Organic Photovoltaics: Yesterday, Today, and Tomorrow
DOI:10.1002/adma.201104447 JN:ADVANCED MATERIALS PY:2012 TC:231 AU: Li, Chen;Wonneberger, Henrike;
2:17:10 Solution processable low bandgap diketopyrrolopyrrole (DPP) based derivatives: novel acceptors for organic solar cells
DOI:10.1039/b924404b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:129 AU: Sonar, Prashant;Ng, Ging-Meng;Lin, Ting Ting;Dodabalapur, Ananth;Chen, Zhi-Kuan;
2:17:11 Comparing the Device Physics and Morphology of Polymer Solar Cells Employing Fullerenes and Non-Fullerene Acceptors
DOI:10.1002/aenm.201301426 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:22 AU: Bloking, Jason T.;Giovenzana, Tommaso;Higgs, Andrew T.;Ponec, Andrew J.;Hoke, Eric T.;Vandewal, Koen;Ko, Sangwon;Bao, Zhenan;Sellinger, Alan;McGehee, Michael D.;
2:17:12 Solution-Processed Organic Solar Cells with Power Conversion Efficiencies of 2.5% using Benzothiadiazole/Imide-Based Acceptors
DOI:10.1021/cm203111k JN:CHEMISTRY OF MATERIALS PY:2011 TC:122 AU: Bloking, Jason T.;Han, Xu;Higgs, Andrew T.;Kastrop, John P.;Pandey, Laxman;Norton, Joseph E.;Risko, Chad;Chen, Cynthia E.;Bredas, Jean-Luc;McGehee, Michael D.;Sellinger, Alan;
2:17:13 A High-Performing Solution-Processed Small Molecule: Perylene Diimide Bulk Heterojunction Solar Cell
DOI:10.1002/adma.201301167 JN:ADVANCED MATERIALS PY:2013 TC:87 AU: Sharenko, Alexander;Proctor, Christopher M.;van der Poll, Thomas S.;Henson, Zachary B.;Thuc-Quyen Nguyen;Bazan, Guillermo C.;
2:17:14 All polymer photovoltaics: From small inverted devices to large roll-to-roll coated and printed solar cells
DOI:10.1016/j.solmat.2013.01.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:32 AU: Liu, Yao;Larsen-Olsen, Thue T.;Zhao, Xingang;Andreasen, Birgitta;Sondergaard, Roar R.;Helgesen, Martin;Norrman, Kion;Jorgensen, Mikkel;Krebs, Frederik C.;Zhan, Xiaowei;
2:17:15 Bulk Heterojunction Solar Cells with Large Open-Circuit Voltage: Electron Transfer with Small Donor-Acceptor Energy Offset
DOI:10.1002/adma.201003768 JN:ADVANCED MATERIALS PY:2011 TC:100 AU: Gong, Xiong;Tong, Minghong;Brunetti, Fulvio G.;Seo, Junghwa;Sun, Yanming;Moses, Daniel;Wudl, Fred;Heeger, Alan J.;
2:17:16 Photoinduced Hole Transfer Becomes Suppressed with Diminished Driving Force in Polymer-Fullerene Solar Cells While Electron Transfer Remains Active
DOI:10.1002/adfm.201201470 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:39 AU: Ren, Guoqiang;Schlenker, Cody W.;Ahmed, Eilaf;Subramaniyan, Selvam;Olthof, Selina;Kahn, Antoine;Ginger, David S.;Jenekhe, Samson A.;
2:17:17 Correlated Donor/Acceptor Crystal Orientation Controls Photocurrent Generation in All-Polymer Solar Cells
DOI:10.1002/adfm.201304216 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:17 AU: Schubert, Marcel;Collins, Brian A.;Mangold, Hannah;Howard, Ian A.;Schindler, Wolfram;Vandewal, Koen;Roland, Steffen;Behrends, Jan;Kraffert, Felix;Steyrleuthner, Robert;Chen, Zhihua;Fostiropoulos, Konstantinos;Bittl, Robert;Salleo, Alberto;Facchetti, Antonio;Laquai, Frederic;Ade, Harald W.;Neher, Dieter;
2:17:18 Control of Miscibility and Aggregation Via the Material Design and Coating Process for High-Performance Polymer Blend Solar Cells
DOI:10.1002/adma.201303170 JN:ADVANCED MATERIALS PY:2013 TC:56 AU: Zhou, Erjun;Cong, Junzi;Hashimoto, Kazuhito;Tajima, Keisuke;
2:17:19 High Performance All-Polymer Solar Cell via Polymer Side-Chain Engineering
DOI:10.1002/adma.201306242 JN:ADVANCED MATERIALS PY:2014 TC:66 AU: Zhou, Yan;Kurosawa, Tadanori;Ma, Wei;Guo, Yikun;Fang, Lei;Vandewal, Koen;Diao, Ying;Wang, Chenggong;Yan, Qifan;Reinspach, Julia;Mei, Jianguo;Appleton, Anthony Lucas;Koleilat, Ghada I.;Gao, Yongli;Mannsfeld, Stefan C. B.;Salleo, Alberto;Ade, Harald;Zhao, Dahui;Bao, Zhenan;
2:17:20 Phenyl vs Alkyl Polythiophene: A Solar Cell Comparison Using a Vinazene Derivative as Acceptor
DOI:10.1021/cm903067a JN:CHEMISTRY OF MATERIALS PY:2010 TC:81 AU: Woo, Claire H.;Holcombe, Thomas W.;Unruh, David A.;Sellinger, Alan;Frechet, Jean M. J.;
2:17:21 All-Polymer Solar Cells with 3.3% Efficiency Based on Naphthalene Diimide-Selenophene Copolymer Acceptor
DOI:10.1021/ja4085429 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:68 AU: Earmme, Taeshik;Hwang, Ye-Jin;Murari, Nishit M.;Subramaniyan, Selvam;Jenekhe, Samson A.;
2:17:22 Conjugated Block Copolymer Photovoltaics with near 3% Efficiency through Microphase Separation
DOI:10.1021/nl401420s JN:NANO LETTERS PY:2013 TC:54 AU: Guo, Changhe;Lin, Yen-Hao;Witman, Matthew D.;Smith, Kendall A.;Wang, Cheng;Hexemer, Alexander;Strzalka, Joseph;Gomez, Enrique D.;Verduzco, Rafael;
2:17:23 Polythiophene:Perylene Diimide Solar Cells - the Impact of Alkyl-Substitution on the Photovoltaic Performance
DOI:10.1002/aenm.201000006 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:75 AU: Kamm, Valentin;Battagliarin, Glauco;Howard, Ian A.;Pisula, Wojciech;Mavrinskiy, Alexey;Li, Chen;Muellen, Klaus;Laquai, Frederic;
2:17:24 A Non-Fullerene Small Molecule as Efficient Electron Acceptor in Organic Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201103927 JN:ADVANCED MATERIALS PY:2012 TC:78 AU: Zhou, Yan;Ding, Lin;Shi, Ke;Dai, Ya-Zhong;Ai, Na;Wang, Jian;Pei, Jian;
2:17:25 Beyond Fullerenes: Design of Nonfullerene Acceptors for Efficient Organic Photovoltaics
DOI:10.1021/ja508472j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Li, Haiyan;Earmme, Taeshik;Ren, Guoqiang;Saeki, Akinori;Yoshikawa, Saya;Murari, Nishit M.;Subramaniyan, Selvam;Crane, Matthew J.;Seki, Shu;Jenekhe, Samson A.;
2:17:26 A Small Molecule Non-fullerene Electron Acceptor for Organic Solar Cells
DOI:10.1002/aenm.201000024 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:74 AU: Schwenn, Paul E.;Gui, K.;Nardes, Alexandre M.;Krueger, Karsten B.;Lee, Kwan H.;Mutkins, Karyn;Rubinstein-Dunlop, Halina;Shaw, Paul E.;Kopidakis, Nikos;Burn, Paul L.;Meredith, Paul;
2:17:27 A Solution-Processable Electron Acceptor Based on Dibenzosilole and Diketopyrrolopyrrole for Organic Solar Cells
DOI:10.1002/aenm.201200911 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:59 AU: Lin, Yuze;Li, Yongfang;Zhan, Xiaowei;
2:17:28 The Effect of Solvent Additive on the Charge Generation and Photovoltaic Performance of a Solution-Processed Small Molecule:Perylene Diimide Bulk Heterojunction Solar Cell
DOI:10.1021/cm5010483 JN:CHEMISTRY OF MATERIALS PY:2014 TC:27 AU: Sharenko, Alexander;Gehrig, Dominik;Laquai, Frederic;Thuc-Quyen Nguyen;
2:17:29 Morphology-Performance Relationships in High-Efficiency All-Polymer Solar Cells
DOI:10.1002/aenm.201300785 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:45 AU: Zhou, Nanjia;Lin, Hui;Lou, Sylvia J.;Yu, Xinge;Guo, Peijun;Manley, Eric F.;Loser, Stephen;Hartnett, Patrick;Huang, Hui;Wasielewski, Michael R.;Chen, Lin X.;Chang, Robert P. H.;Facchetti, Antonio;Marks, Tobin J.;
2:17:30 Nanowires of oligothiophene-functionalized naphthalene diimides: self assembly, morphology, and all-nanowire bulk heterojunction solar cells
DOI:10.1039/c2jm33787h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Ren, Guoqiang;Ahmed, Eilaf;Jenekhe, Samson A.;
2:17:31 Decacyclene Triimides: Paving the Road to Universal NonFullerene Acceptors for Organic Photovoltaics
DOI:10.1002/aenm.201301007 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:14 AU: Pho, Toan V.;Toma, Francesca M.;de Villers, Bertrand J. Tremolet;Wang, Sarah;Treat, Neil D.;Eisenmenger, Nancy D.;Su, Gregory M.;Coffin, Robert C.;Douglas, Jessica D.;Frechet, Jean M. J.;Bazan, Guillermo C.;Wudl, Fred;Chabinyc, Michael L.;
2:17:32 Polymer/Polymer Blend Solar Cells Improved by Using High-Molecular-Weight Fluorene-Based Copolymer as Electron Acceptor
DOI:10.1021/am300623f JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:70 AU: Mori, Daisuke;Benten, Hiroaki;Ohkita, Hideo;Ito, Shinzaburo;Miyake, Kunihito;
2:17:33 Selecting a Donor Polymer for Realizing Favorable Morphology in Efficient Non-fullerene Acceptor-based Solar Cells
DOI:10.1002/smll.201401082 JN:SMALL PY:2014 TC:20 AU: Ye, Long;Jiang, Wei;Zhao, Wenchao;Zhang, Shaoqing;Qian, Deping;Wang, Zhaohui;Hou, Jianhui;
2:17:34 A Narrow Optical Gap Small Molecule Acceptor for Organic Solar Cells
DOI:10.1002/aenm.201200372 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:37 AU: Fang, Yuan;Pandey, Ajay K.;Nardes, Alexandre M.;Kopidakis, Nikos;Burn, Paul L.;Meredith, Paul;
2:17:35 Low-Bandgap Donor/Acceptor Polymer Blend Solar Cells with Efficiency Exceeding 4%
DOI:10.1002/aenm.201301006 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:52 AU: Mori, Daisuke;Benten, Hiroaki;Okada, Izumi;Ohkita, Hideo;Ito, Shinzaburo;
2:17:36 High-Efficiency All-Polymer Solar Cells Based on a Pair of Crystalline Low-Bandgap Polymers
DOI:10.1002/adma.201402473 JN:ADVANCED MATERIALS PY:2014 TC:25 AU: Mu, Cheng;Liu, Peng;Ma, Wei;Jiang, Kui;Zhao, Jingbo;Zhang, Kai;Chen, Zhihua;Wei, Zhanhua;Yi, Ya;Wang, Jiannong;Yang, Shihe;Huang, Fei;Facchetti, Antonio;Ade, Harald;Yan, He;
2:17:37 Solution-Processed, Molecular Photovoltaics that Exploit Hole Transfer from Non-Fullerene, n-Type Materials
DOI:10.1002/adma.201305444 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Douglas, Jessica D.;Chen, Mark S.;Niskala, Jeremy R.;Lee, Olivia P.;Yiu, Alan T.;Young, Eric P.;Frechet, Jean M. J.;
2:17:38 Nitrile-Substituted QA Derivatives: New Acceptor Materials for Solution-Processable Organic Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201100082 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:60 AU: Zhou, Tianlei;Jia, Tao;Kang, Bonan;Li, Fenghong;Fahlman, Mats;Wang, Yue;
2:17:39 Role of photoactive layer morphology in high fill factor all-polymer bulk heterojunction solar cells
DOI:10.1039/c0jm03405c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:67 AU: Fabiano, S.;Chen, Z.;Vahedi, S.;Facchetti, A.;Pignataro, B.;Loi, M. A.;
2:17:40 A 4% Efficient Organic Solar Cell Using a Fluorinated Fused Subphthalocyanine Dimer as an Electron Acceptor
DOI:10.1002/aenm.201100137 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:47 AU: Verreet, Bregt;Rand, Barry P.;Cheyns, David;Hadipour, Afshin;Aernouts, Tom;Heremans, Paul;Medina, Anais;Claessens, Christian G.;Torres, Tomas;
2:17:41 Perylene-Diimide Based Non-Fullerene Solar Cells with 4.34% Efficiency through Engineering Surface Donor/Acceptor Compositions
DOI:10.1021/cm5006339 JN:CHEMISTRY OF MATERIALS PY:2014 TC:53 AU: Lu, Zhenhuan;Jiang, Bo;Zhang, Xin;Tang, Ailing;Chen, Lili;Zhan, Chuanlang;Yao, Jiannian;
2:17:42 A Modular Strategy for Fully Conjugated Donor-Acceptor Block Copolymers
DOI:10.1021/ja307431k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:41 AU: Ku, Sung-Yu;Brady, Michael A.;Treat, Neil D.;Cochran, Justin E.;Robb, Maxwell J.;Kramer, Edward J.;Chabinyc, Michael L.;Hawker, Craig J.;
2:17:43 Efficient Organic Solar Cells with Helical Perylene Diimide Electron Acceptors
DOI:10.1021/ja5092613 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:10 AU: Zhong, Yu;Trinh, M. Tuan;Chen, Rongsheng;Wang, Wei;Khlyabich, Petr P.;Kumar, Bharat;Xu, Qizhi;Nam, Chang-Yong;Sfeir, Matthew Y.;Black, Charles;Steigerwald, Michael L.;Loo, Yueh-Lin;Xiao, Shengxiong;Ng, Fay;Zhu, X. -Y.;Nuckolls, Colin;
2:17:44 Linking morphology and performance of organic solar cells based on decacyclene triimide acceptors
DOI:10.1039/c3ta14839d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Su, Gregory M.;Pho, Toan V.;Eisenmenger, Nancy D.;Wang, Cheng;Wudl, Fred;Kramer, Edward J.;Chabinyc, Michael L.;
2:17:45 All-Polymer Bulk Heterojuction Solar Cells with 4.8% Efficiency Achieved by Solution Processing from a Co-Solvent
DOI:10.1002/adma.201401490 JN:ADVANCED MATERIALS PY:2014 TC:36 AU: Earmme, Taeshik;Hwang, Ye-Jin;Subramaniyan, Selvam;Jenekhe, Samson A.;
2:17:46 Integrated Molecular, Interfacial, and Device Engineering towards High-Performance Non-Fullerene Based Organic Solar Cells
DOI:10.1002/adma.201401992 JN:ADVANCED MATERIALS PY:2014 TC:53 AU: Zang, Yue;Li, Chang-Zhi;Chueh, Chu-Chen;Williams, Spencer T.;Jiang, Wei;Wang, Zhao-Hui;Yu, Jun-Sheng;Jen, Alex K-Y.;
2:17:47 Polymer Solar Cells with Diketopyrrolopyrrole Conjugated Polymers as the Electron Donor and Electron Acceptor
DOI:10.1002/adma.201305910 JN:ADVANCED MATERIALS PY:2014 TC:43 AU: Li, Weiwei;Roelofs, W. S. Christian;Turbiez, Mathieu;Wienk, Martijn M.;Janssen, Rene A. J.;
2:17:48 Effect of Local and Global Structural Order on the Performance of Perylene Diimide Excimeric Solar Cells
DOI:10.1021/am4035416 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:15 AU: Ye, Tengling;Singh, Ranbir;Butt, Hans-Juergen;Floudas, George;Keivanidis, Panagiotis E.;
2:17:49 A Star-Shaped Perylene Diimide Electron Acceptor for High-Performance Organic Solar Cells
DOI:10.1002/adma.201400525 JN:ADVANCED MATERIALS PY:2014 TC:54 AU: Lin, Yuze;Wang, Yifan;Wang, Jiayu;Hou, Jianhui;Li, Yongfang;Zhu, Daoben;Zhan, Xiaowei;
2:17:50 A comparative theoretical study of exciton-dissociation and charge-recombination processes in oligothiophene/fullerene and oligothiophene/perylenediimide complexes for organic solar cells
DOI:10.1039/c0jm02467h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:54 AU: Yi, Yuanping;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:17:51 A Twisted Dimeric Perylene Diimide Electron Acceptor for Efficient Organic Solar Cells
DOI:10.1002/aenm.201400420 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:21 AU: Lin, Yuze;Wang, Jiayu;Dai, Shuixing;Li, Yongfang;Zhu, Daoben;Zhan, Xiaowei;
2:17:52 Ternary Photovoltaic Blends Incorporating an All-Conjugated Donor-Acceptor Diblock Copolymer
DOI:10.1021/nl202691n JN:NANO LETTERS PY:2011 TC:58 AU: Mulherin, Rhiannon C.;Jung, Stefan;Huettner, Sven;Johnson, Kerr;Kohn, Peter;Sommer, Michael;Allard, Sybille;Scherf, Ullrich;Greenham, Neil C.;
2:17:53 What Makes Fullerene Acceptors Special as Electron Acceptors in Organic Solar Cells and How to Replace Them
DOI:10.1002/adma.201203486 JN:ADVANCED MATERIALS PY:2013 TC:49 AU: Liu, Tao;Troisi, Alessandro;
2:17:54 Polymer/Polymer Blend Solar Cells with 2.0% Efficiency Developed by Thermal Purification of Nanoscale-Phase-Separated Morphology
DOI:10.1021/am200624s JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:48 AU: Mori, Daisuke;Benten, Hiroaki;Kosaka, Junya;Ohkita, Hideo;Ito, Shinzaburo;Miyake, Kunihito;
2:17:55 Efficient bulk heterojunction devices based on phenylenevinylene small molecule and perylene-pyrene bisimide
DOI:10.1039/b918527e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:62 AU: Sharma, G. D.;Suresh, P.;Mikroyannidis, John A.;Stylianakis, Minas M.;
2:17:56 Donor-acceptor block copolymers for photovoltaic applications
DOI:10.1039/c0jm00665c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:77 AU: Sommer, Michael;Huettner, Sven;Thelakkat, Mukundan;
2:17:57 Donor-spacer-acceptor monodisperse conjugated co-oligomers for efficient single-molecule photovoltaic cells based on non-fullerene acceptors
DOI:10.1039/c3ta14701k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Qu, Jianfei;Gao, Bingrong;Tian, Hongkun;Zhang, Xiaojie;Wang, Yan;Xie, Zhiyuan;Wang, Haiyu;Geng, Yanhou;Wang, Fosong;
2:17:58 Control of Intrachain Charge Transfer in Model Systems for Block Copolymer Photovoltaic Materials
DOI:10.1021/ja3121247 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:15 AU: Johnson, Kerr;Huang, Ya-Shih;Huettner, Sven;Sommer, Michael;Brinkmann, Martin;Mulherin, Rhiannon;Niedzialek, Dorota;Beljonne, David;Clark, Jenny;Huck, Wilhelm T. S.;Friend, Richard H.;
2:17:59 A star-shaped electron acceptor based on 5,5 '-bibenzothiadiazole for solution processed solar cells
DOI:10.1039/c3ta13747c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:11 AU: Lin, Yuze;Wang, Haifeng;Li, Yongfang;Zhu, Daoben;Zhan, Xiaowei;
2:17:60 Tetrafluorene-9,9 '-bifluorenylidene as a non-fullerene type electron acceptor for P3HT-based bulk-heterojunction polymer solar cells
DOI:10.1016/j.solmat.2013.05.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Park, On You;Kim, Hee Un;Kim, Ji-Hoon;Park, Jong Baek;Kwak, Jeonghun;Shin, Won Suk;Yoon, Sung Cheol;Hwang, Do-Hoon;
2:17:61 A new solution-processed diketopyrrolopyrrole donor for non-fullerene small-molecule solar cells
DOI:10.1039/c3ta14335j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Chen, Yuxia;Tang, Ailing;Zhang, Xin;Lu, Zhenhuan;Huang, Jianhua;Zhan, Chuanlang;Yao, Jiannian;
2:17:62 Corannulene derivatives as non-fullerene acceptors in solution-processed bulk heterojunction solar cells
DOI:10.1039/c4ta05310a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Lu, Ru-Qiang;Zheng, Yu-Qing;Zhou, Yi-Nyu;Yan, Xiao-Yun;Lei, Ting;Shi, Ke;Zhou, Yan;Pei, Jian;Zoppi, Laura;Baldridge, Kim K.;Siegel, Jay S.;Cao, Xiao-Yu;
2:17:63 All-polymer solar cells based on side-chain-isolated polythiophenes and poly(perylene diimide-alt-dithienothiophene)
DOI:10.1016/j.solmat.2013.06.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Liao, Xia-Xia;Zhao, Xingang;Zhang, Zhi-Guo;Wang, Hui-Qiong;Zhan, Xiaowei;Li, Yongfang;Wang, Jizheng;Zheng, Jin-Cheng;
2:17:64 Slip-Stacked Perylenediimides as an Alternative Strategy for High Efficiency Nonfullerene Acceptors in Organic Photovoltaics
DOI:10.1021/ja508814z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Hartnett, Patrick E.;Timalsina, Amod;Matte, H. S. S. Ramakrishna;Zhou, Nanjia;Guo, Xugang;Zhao, Wei;Facchetti, Antonio;Chang, Robert P. H.;Hersam, Mark C.;Wasielewski, Michael R.;Marks, Tobin J.;
2:17:65 Fullerene-free organic solar cells with an efficiency of 3.7% based on a low-cost geometrically planar perylene diimide monomer
DOI:10.1039/c4ta02851a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:19 AU: Singh, R.;Aluicio-Sarduy, E.;Kan, Z.;Ye, T.;MacKenzie, R. C. I.;Keivanidis, P. E.;
2:17:66 Compositional and Morphological Studies of Polythiophene/Polyflorene Blends in Inverted Architecture Hybrid Solar Cells
DOI:10.1002/adfm.201103008 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:12 AU: Vaynzof, Yana;Brenner, Thomas J. K.;Kabra, Dinesh;Sirringhaus, Henning;Friend, Richard H.;
2:17:67 Control of Nanomorphology in All-Polymer Solar Cells via Assembling Nanoaggregation in a Mixed Solution
DOI:10.1021/am404483g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Yu, Wei;Yang, Dong;Zhu, Xiaoguang;Wang, Xiuli;Tu, Guoli;Fan, Dayong;Zhang, Jian;Li, Can;
2:17:68 Device physics of inverted all-polymer solar cells
DOI:10.1063/1.3371364 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:22 AU: Brenner, Thomas J. K.;Hwang, Inchan;Greenham, Neil C.;McNeill, Christopher R.;
2:17:69 Electron-deficient truxenone derivatives and their use in organic photovoltaics
DOI:10.1039/c4ta01653j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Nielsen, Christian B.;Voroshazi, Eszter;Holliday, Sarah;Cnops, Kjell;Cheyns, David;McCulloch, Iain;
2:17:70 Azadipyrromethene-Based Zn(II) Complexes as Nonplanar Conjugated Electron Acceptors for Organic Photovoltaics
DOI:10.1002/adma.201400647 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Mao, Zhenghao;Senevirathna, Wasana;Liao, Jia-Yu;Gu, Jun;Kesava, Sameer Vajjala;Guo, Changhe;Gomez, Enrique D.;Sauve, Genevieve;
2:17:71 A flexible n-type organic semiconductor for optoelectronics
DOI:10.1039/c1jm14089b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Gui, Ke;Mutkins, Karyn;Schwenn, Paul E.;Krueger, Karsten B.;Pivrikas, Almantas;Wolfer, Pascal;Stutzmann, Natalie Stingelin;Burn, Paul L.;Meredith, Paul;
2:17:72 Identifying the optimum composition in organic solar cells comprising non-fullerene electron acceptors
DOI:10.1039/c3ta10554g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:3 AU: Wolfer, Pascal;Schwenn, Paul E.;Pandey, Ajay K.;Fang, Yuan;Stingelin, Natalie;Burn, Paul L.;Meredith, Paul;
2:17:73 Efficient truxenone-based acceptors for organic photovoltaics
DOI:10.1039/c2ta00548d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Nielsen, Christian B.;Voroshazi, Eszter;Holliday, Sarah;Cnops, Kjell;Rand, Barry P.;McCulloch, Iain;
2:17:74 Band gap and molecular energy level control of perylene diimide-based donor-acceptor copolymers for all-polymer solar cells
DOI:10.1039/b923452g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:58 AU: Zhou, Erjun;Tajima, Keisuke;Yang, Chunhe;Hashimoto, Kazuhito;
2:17:75 All-polymer solar cells with in-situ generated n-type conjugated polymer nanoparticles
DOI:10.1016/j.solmat.2013.11.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Lee, Hyena;Jeong, Jaehoon;Han, Hyemi;Nam, Sungho;Kim, Hwajeong;Kim, Youngkyoo;
2:17:76 A photovoltaic system composed of a keplerate-type polyoxometalate and a water-soluble poly(p-phenylenevinylene) derivative
DOI:10.1039/c3ta10814g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:11 AU: Jin, Ge;Wang, Shi-Ming;Chen, Wei-Lin;Qin, Chao;Su, Zhong-Min;Wang, En-Bo;
2:17:77 New polymer acceptors for organic solar cells: the effect of regio-regularity and device configuration
DOI:10.1039/c3ta10864c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:11 AU: Zhou, Yan;Yan, Qifan;Zheng, Yu-Qing;Wang, Jie-Yu;Zhao, Dahui;Pei, Jian;
2:17:78 Separated crystallization of donor and acceptor in oligo(p-phenylenevinylene)-naphthalenediimide dyad films
DOI:10.1016/j.synthmet.2014.09.019 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Izawa, Seiichiro;Nishizawa, Takeshi;Hashimoto, Kazuhito;Koganezawa, Tomoyuki;Tajima, Keisuke;
2:17:79 Organic field-effect transistors and solar cells using novel high electron-affinity conjugated copolymers based on alkylbenzotriazole and benzothiadiazole
DOI:10.1039/c2jm15715b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Gwinner, Michael C.;Brenner, Thomas J. K.;Lee, Jin-Kyun;Newby, Carol;Ober, Christopher K.;McNeill, Christopher R.;Sirringhaus, Henning;
2:17:80 Introducing 3D conjugated acceptors with intense red absorption: homoleptic metal(II) complexes of di(phenylacetylene) azadipyrromethene
DOI:10.1039/c3tc31377h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Senevirathna, Wasana;Sauve, Genevieve;
2:17:81 Channel II photocurrent quantification in narrow optical gap polymer-fullerene solar cells with complimentary acceptor absorption
DOI:10.1063/1.4808386 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Zhang, Yuliang;Pandey, Ajay K.;Tandy, Kristen;Dutta, Gitish K.;Burn, Paul L.;Meredith, Paul;Namdas, Ebinazar B.;Patil, Satish;
2:17:82 Annealing temperature dependence of the efficiency and vertical phase segregation of polymer/polymer bulk heterojunction photovoltaic cells
DOI:10.1063/1.4880941 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Murari, Nishit M.;Crane, Matthew J.;Earmme, Taeshik;Hwang, Ye-Jin;Jenekhe, Samson A.;
2:17:83 Helical Ribbons for Molecular Electronics
DOI:10.1021/ja503533y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Zhong, Yu;Kumar, Bharat;Oh, Seokjoon;Trinh, M. Tuan;Wu, Ying;Elbert, Katherine;Li, Panpan;Zhu, Xiaoyang;Xiao, Shengxiong;Ng, Fay;Steigerwald, Michael L.;Nuckolls, Colin;
2:17:84 Perylenediimide-Based Donor-Acceptor Dyads and Triads: Impact of Molecular Architecture on Self-Assembling Properties
DOI:10.1021/ja4129108 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Schwartz, Pierre-Olivier;Biniek, Laure;Zaborova, Elena;Heinrich, Benoit;Brinkrnann, Martin;Leclerc, Nicolas;Mery, Stephane;
2:17:85 Full electronic structure across a polymer heterojunction solar cell
DOI:10.1039/c1jm14968g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Frisch, Johannes;Schubert, Marcel;Preis, Eduard;Rabe, Juergen P.;Neher, Dieter;Scherf, Ullrich;Koch, Norbert;
2:17:86 Solution processable quinacridone based materials as acceptor for organic heterojunction solar cells
DOI:10.1016/j.solmat.2011.05.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Javed, Iqbal;Zhang, Zoulun;Peng, Tai;Zhou, Tianlei;Zhang, Hongyu;Khan, Muhammad Issa;Liu, Yu;Wang, Yue;
2:17:87 Synthesis of copolymer based on naphthalene diimide connected with a non-conjugated flexible linker
DOI:10.1016/j.synthmet.2013.04.028 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Zhao, Mingxiu;Hashimoto, Kazuhito;Tajima, Keisuke;
2:17:88 Liquid Crystalline Perylene Diimide Outperforming Non liquid Crystalline Counterpart: Higher Power Conversion Efficiencies (PCEs) in Bulk Heterojunction (BHJ) Cells and Higher Electron Mobility in Space Charge Limited Current (SCLC) Devices
DOI:10.1021/am4033185 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Zhang, Youdi;Wang, Helin;Xiao, Yi;Wang, Ligang;Shi, Dequan;Cheng, Chuanhui;
2:17:89 Model compounds based on poly(p-phenylenevinyleneborane) and terthiophene: Investigating the p-n junction in diblock copolymers
DOI:10.1016/j.polymer.2013.05.008 JN:POLYMER PY:2013 TC:9 AU: Hinkens, Diane M.;Chen, Qiliang;Siddiki, Mahbube Khoda;Gosztola, David;Tapsak, Mark A.;Qiao, Qiquan;Jeffries-EL, Malika;Darling, Seth B.;
2:17:90 Understand the importance of molecular organization at polymer-polymer interfaces in excitonic solar cells
DOI:10.1016/j.tsf.2013.10.057 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Correia, Helena M. G.;Barbosa, Helder M. C.;Marques, Luis;Ramos, Marta M. D.;
2:17:91 Morphology dependent electron transport in an n-type electron accepting small molecule for solar cell applications
DOI:10.1063/1.3556280 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Krueger, Karsten B.;Schwenn, Paul E.;Gui, Ke;Pivrikas, Almantas;Meredith, Paul;Burn, Paul L.;
2:17:92 n-Type pyromellitic diimide-benzodithiophene-containing conjugated polymers for all-polymer solar cells with high open-circuit voltage
DOI:10.1016/j.synthmet.2014.07.016 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Luo, Chunhua;Meng, Xiangjian;Han, Li;Sun, Shuo;Lin, Tie;Sun, Jinglan;Peng, Hui;Chu, Junhao;
2:17:93 Electron Acceptors Based on Functionalizable Cyclopenta[hi]aceanthrylenes and Dicyclopenta[de,mn]tetracenes
DOI:10.1021/ja304602t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:29 AU: Wood, Jordan D.;Jellison, Jessica L.;Finke, Aaron D.;Wang, Lichang;Plunkett, Kyle N.;
2:17:94 Organic solar cells based on a novel infrared absorbing aza-bodipy dye
DOI:10.1016/j.solmat.2011.11.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Mueller, Toni;Gresser, Roland;Leo, Karl;Riede, Moritz;
2:17:95 Effect of annealing on bulk heterojunction organic solar cells based on copper phthalocyanine and perylene derivative
DOI:10.1016/j.synthmet.2011.11.018 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Kim, Inho;Jabbour, Ghassan E.;
2:17:96 A solution processable fluorene-benzothiadiazole small molecule for n-type organic field-effect transistors
DOI:10.1063/1.3569818 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Mutkins, Karyn;Gui, Ke;Aljada, Muhsen;Schwenn, Paul E.;Namdas, Ebinazar B.;Burn, Paul L.;Meredith, Paul;
2:17:97 Near-Infrared Dye Sensitization of Polymer/Polymer Thin-Film Solar Cells
DOI:10.1080/15421406.2013.802971 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Ito, Shinzaburo;Hirata, Toshiaki;Mori, Daisuke;Benten, Hiroaki;Ohkita, Hideo;Honda, Satoshi;
2:17:98 Energy level pinning of an n-type semiconducting polymer on conductive polymer electrodes: Effects of work function and annealing
DOI:10.1063/1.4745017 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Frisch, J.;Vollmer, A.;Koch, N.;
2:17:99 Small-Molecule Vinazene Acceptors for Bulk Heterojunction Organic Photovoltaics
DOI:10.1080/15421406.2012.693285 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:3 AU: Lim, Eunhee;Lee, Sungkoo;Lee, Kyeong K.;
2:17:100 Development of highly conductive nanodomains in poly(3-hexylthiophene) films studied by conductive atomic force microscopy
DOI:10.1016/j.polymer.2013.04.061 JN:POLYMER PY:2013 TC:6 AU: Osaka, Mild;Benten, Hiroaki;Lee, Li-Ting;Ohkita, Hideo;Ito, Shinzaburo;
2:17:101 Molecular Structure, Spectroscopy, and Photoinduced Kinetics in Trinuclear Cyanide Bridged Complex in Solution: A First-Principles Perspective
DOI:10.1021/ja507131q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Zheng, Zilong;Manna, Arun K.;Hendrickson, Heidi P.;Hammer, Morgan;Song, Chenchen;Geva, Eitan;Dunietz, Barry D.;
2:17:102 Novel hybrid solar cells based on alpha-copper phthalocyanine-cadmium sulfide planar heterojunction
DOI:10.1007/s10853-014-8218-z JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Mali, Sawanta S.;Patil, Promod S.;Bhosale, Popatrao N.;Hong, Chang Kook;
2:17:103 Synthesis, photophysical, electrochemical and thermal studies on carbazole-based acceptor molecules for heterojunction solar cell
DOI:10.1016/j.tsf.2011.11.017 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Banerjee, Shibdas;Ali, Farman;Nayak, Pabitra K.;Agarwal, Neeraj;
2:17:104 Photo-induced energy transfer in ruthenium-centred polymers prepared by a RAFT approach
DOI:10.1016/j.polymer.2013.03.064 JN:POLYMER PY:2013 TC:8 AU: Tilley, Andrew J.;Kim, Min Jeong;Chen, Ming;Ghiggino, Kenneth P.;
2:17:105 Organic solar cells based on a novel infrared absorbing aza-bodipy dye (vol 99, pg 176, 2012)
DOI:10.1016/j.solmat.2012.05.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:0 AU: Mueller, Toni;Gresser, Roland;Leo, Karl;Riede, Moritz;
2:18:1 Functional Organic Field-Effect Transistors
DOI:10.1002/adma.201000740 JN:ADVANCED MATERIALS PY:2010 TC:206 AU: Guo, Yunlong;Yu, Gui;Liu, Yunqi;
2:18:2 Organic Nonvolatile Memory Devices Based on Ferroelectricity
DOI:10.1002/adma.200900759 JN:ADVANCED MATERIALS PY:2010 TC:184 AU: Naber, Ronald C. G.;Asadi, Kamal;Blom, Paul W. M.;de Leeuw, Dago M.;de Boer, Bert;
2:18:3 Polymer and Organic Nonvolatile Memory Devices
DOI:10.1021/cm102006v JN:CHEMISTRY OF MATERIALS PY:2011 TC:168 AU: Heremans, Paul;Gelinck, Gerwin H.;Muller, Robert;Baeg, Kang-Jun;Kim, Dong-Yu;Noh, Yong-Young;
2:18:4 Flexible Organic Transistor Memory Devices
DOI:10.1021/nl1009662 JN:NANO LETTERS PY:2010 TC:132 AU: Kim, Soo-Jin;Lee, Jang-Sik;
2:18:5 Towards the Development of Flexible Non-Volatile Memories
DOI:10.1002/adma.201301361 JN:ADVANCED MATERIALS PY:2013 TC:52 AU: Han, Su-Ting;Zhou, Ye;Roy, V. A. L.;
2:18:6 Controllable Shifts in Threshold Voltage of Top-Gate Polymer Field-Effect Transistors for Applications in Organic Nano Floating Gate Memory
DOI:10.1002/adfm.200901677 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:110 AU: Baeg, Kang-Jun;Noh, Yong-Young;Sirringhaus, Henning;Kim, Dong-Yu;
2:18:7 High-Performance Top-Gated Organic Field-Effect Transistor Memory using Electrets for Monolithic Printed Flexible NAND Flash Memory
DOI:10.1002/adfm.201200290 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:55 AU: Baeg, Kang-Jun;Khim, Dongyoon;Kim, Juhwan;Yang, Byung-Do;Kang, Minji;Jung, Soon-Won;You, In-Kyu;Kim, Dong-Yu;Noh, Yong-Young;
2:18:8 Towards printable organic thin film transistor based flash memory devices
DOI:10.1039/c0jm03974h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:62 AU: Leong, Wei Lin;Mathews, Nripan;Tan, Bertha;Vaidyanathan, Subramanian;Doetz, Florian;Mhaisalkar, Subodh;
2:18:9 Additive-Driven Assembly of Block Copolymer-Nanoparticle Hybrid Materials for Solution Processable Floating Gate Memory
DOI:10.1021/nn203847r JN:ACS NANO PY:2012 TC:64 AU: Wei, Qingshuo;Lin, Ying;Anderson, Eric R.;Briseno, Alejandro L.;Gido, Samuel P.;Watkins, James J.;
2:18:10 Azobenzene-Functionalized Gold Nanoparticles as Hybrid Double-Floating-Gate in Pentacene Thin-Film Transistors/Memories with Enhanced Response, Retention, and Memory Windows
DOI:10.1021/am4023253 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Tseng, Chiao-Wei;Huang, Ding-Chi;Tao, Yu-Tai;
2:18:11 Energy-Band Engineering for Tunable Memory Characteristics through Controlled Doping of Reduced Graphene Oxide
DOI:10.1021/nn406505t JN:ACS NANO PY:2014 TC:14 AU: Han, Su-Ting;Zhou, Ye;Yang, Qing Dan;Zhou, Li;Huang, Long-Biao;Yan, Yan;Lee, Chun-Sing;Roy, Vellaisamy A. L.;
2:18:12 Flexible Nonvolatile Transistor Memory Devices Based on One-Dimensional Electrospun P3HT:Au Hybrid Nanofibers
DOI:10.1002/adfm.201300283 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:32 AU: Chang, Hsuan-Chun;Liu, Cheng-Liang;Chen, Wen-Chang;
2:18:13 Layer-by-Layer-Assembled Reduced Graphene Oxide/Gold Nanoparticle Hybrid Double-Floating-Gate Structure for Low-Voltage Flexible Flash Memory
DOI:10.1002/adma.201203509 JN:ADVANCED MATERIALS PY:2013 TC:43 AU: Han, Su-Ting;Zhou, Ye;Wang, Chundong;He, Lifang;Zhang, Wenjun;Roy, V. A. L.;
2:18:14 Microcontact Printing of Ultrahigh Density Gold Nanoparticle Monolayer for Flexible Flash Memories
DOI:10.1002/adma.201201195 JN:ADVANCED MATERIALS PY:2012 TC:33 AU: Han, Su-Ting;Zhou, Ye;Xu, Zong-Xiang;Huang, Long-Biao;Yang, Xiong-Bo;Roy, V. A. L.;
2:18:15 Self-Assembled Nanowires of Organic n-Type Semiconductor for Nonvolatile Transistor Memory Devices
DOI:10.1002/adfm.201200706 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:21 AU: Chou, Ying-Hsuan;Lee, Wen-Ya;Chen, Wen-Chang;
2:18:16 Ultra-Transparent, Flexible Single-walled Carbon Nanotube Non-volatile Memory Device with an Oxygen-decorated Graphene Electrode
DOI:10.1002/adma.201004444 JN:ADVANCED MATERIALS PY:2011 TC:45 AU: Yu, Woo Jong;Chae, Sang Hoon;Lee, Si Young;Duong, Dinh Loc;Lee, Young Hee;
2:18:17 Nonvolatile memory based on pentacene organic field-effect transistors with polystyrene para-substituted oligofluorene pendent moieties as polymer electrets
DOI:10.1039/c2jm16039k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:30 AU: Hsu, Jung-Ching;Lee, Wen-Ya;Wu, Hung-Chin;Sugiyama, Kenji;Hirao, Akira;Chen, Wen-Chang;
2:18:18 High Performance Multi-Level Non-Volatile Polymer Memory with Solution-Blended Ferroelectric Polymer/High-k Insulators for Low Voltage Operation
DOI:10.1002/adfm.201300372 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:11 AU: Hwang, Sun Kak;Bae, Insung;Cho, Suk Man;Kim, Richard Hahnkee;Jung, Hee Joon;Park, Cheolmin;
2:18:19 Flexible Non-Volatile Ferroelectric Polymer Memory with Gate-Controlled Multilevel Operation
DOI:10.1002/adma.201201831 JN:ADVANCED MATERIALS PY:2012 TC:34 AU: Hwang, Sun Kak;Bae, Insung;Kim, Richard Hahnkee;Park, Cheolmin;
2:18:20 Nonvolatile Organic Thin Film Transistor Memory Devices Based on Hybrid Nanocomposites of Semiconducting Polymers: Gold Nanoparticles
DOI:10.1021/am404187r JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Chang, Hsuan-Chun;Liu, Cheng-Liang;Chen, Wen-Chang;
2:18:21 Low voltage flexible nonvolatile memory with gold nanoparticles embedded in poly(methyl methacrylate)
DOI:10.1088/0957-4484/23/34/344014 JN:NANOTECHNOLOGY PY:2012 TC:20 AU: Zhou, Ye;Han, Su-Ting;Xu, Zong-Xiang;Roy, V. A. L.;
2:18:22 Nonvolatile Polymer Memory with Nanoconfinement of Ferroelectric Crystals
DOI:10.1021/nl103094e JN:NANO LETTERS PY:2011 TC:43 AU: Kang, Seok Ju;Bae, Insung;Shin, Yu Jin;Park, Youn Jung;Huh, June;Park, Sang-Min;Kim, Ho-Cheol;Park, Cheolmin;
2:18:23 Graphene oxide nanosheets based organic field effect transistor for nonvolatile memory applications
DOI:10.1063/1.3464292 JN:APPLIED PHYSICS LETTERS PY:2010 TC:44 AU: Kim, Tae-Wook;Gao, Yan;Acton, Orb;Yip, Hin-Lap;Ma, Hong;Chen, Hongzheng;Jen, Alex K. -Y.;
2:18:24 Reduced graphene oxide based flexible organic charge trap memory devices
DOI:10.1063/1.4769990 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Rani, Adila;Song, Ji-Min;Lee, Mi Jung;Lee, Jang-Sik;
2:18:25 Flexible organic/inorganic heterojunction transistors with low operating voltage
DOI:10.1039/c3tc31456a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Zhou, Ye;Han, Su-Ting;Zhou, Li;Yan, Yan;Huang, Long-Biao;Huang, Jing;Roy, V. A. L.;
2:18:26 Non-Volatile Ferroelectric Memory with Position-Addressable Polymer Semiconducting Nanowire
DOI:10.1002/smll.201303814 JN:SMALL PY:2014 TC:12 AU: Hwang, Sun Kak;Min, Sung-Yong;Bae, Insung;Cho, Suk Man;Kim, Kang Lib;Lee, Tae-Woo;Park, Cheolmin;
2:18:27 Printed, Flexible, Organic Nano-Floating-Gate Memory: Effects of Metal Nanoparticles and Blocking Dielectrics on Memory Characteristics
DOI:10.1002/adfm.201203417 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:40 AU: Kang, Minji;Baeg, Kang-Jun;Khim, Dongyoon;Noh, Yong-Young;Kim, Dong-Yu;
2:18:28 High-Performance Non-Volatile Organic Ferroelectric Memory on Banknotes
DOI:10.1002/adma.201200626 JN:ADVANCED MATERIALS PY:2012 TC:38 AU: Khan, M. A.;Bhansali, Unnat S.;Alshareef, H. N.;
2:18:29 Organic One-Transistor-Type Nonvolatile Memory Gated with Thin Ionic Liquid-Polymer Film for Low Voltage Operation
DOI:10.1021/am505750v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Hwang, Sun Kak;Park, Tae Joon;Kim, Kang Lib;Cho, Suk Man;Jeong, Beom Jin;Park, Cheolmin;
2:18:30 Nanoparticle size dependent threshold voltage shifts in organic memory transistors
DOI:10.1039/c1jm12113h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:35 AU: Han, Su-Ting;Zhou, Ye;Xu, Zong-Xiang;Roy, V. A. L.;Hung, T. F.;
2:18:31 Nonvolatile organic field effect transistor memory devices using one-dimensional aligned electrospun nanofiber channels of semiconducting polymers
DOI:10.1039/c3tc31068j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Lin, Yu-Wei;Lin, Chih-Jung;Chou, Ying-Hsuan;Liu, Cheng-Liang;Chang, Hsuan-Chun;Chen, Wen-Chang;
2:18:32 High-performance organic nano-floating-gate memory devices based on graphite nanocrystals as charge-trapping elements and high-k Ta2O5 as a controlled gate dielectric
DOI:10.1039/c4tc00598h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Dai, Min-Kun;Lin, Tai-Yuan;Yang, Min-Hua;Lee, Chih-Kung;Huang, Chih-Ching;Chen, Yang-Fang;
2:18:33 High-Performance Nonvolatile Transistor Memories of Pentacence Using the Green Electrets of Sugar-based Block Copolymers and Their Supramolecules
DOI:10.1002/adfm.201304297 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Chiu, Yu-Cheng;Otsuka, Issei;Halila, Sami;Borsali, Redouane;Chen, Wen-Chang;
2:18:34 Electric Bistability Induced by Incorporating Self-Assembled Monolayers/aggregated Clusters of Azobenzene Derivatives in Pentacene-Based Thin-Film Transistors
DOI:10.1021/am3013906 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Tseng, Chiao-Wei;Huang, Ding-Chi;Tao, Yu-Tai;
2:18:35 Solution-Processable Low-Voltage and Flexible Floating-Gate Memories Based on an n-Type Polymer Semiconductor and High-k Polymer Gate Dielectrics
DOI:10.1021/am5028007 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Li, Jinhua;Yan, Feng;
2:18:36 Multilevel nonvolatile transistor memories using a star-shaped poly((4-diphenylamino)benzyl methacrylate) gate electret
DOI:10.1038/am.2012.64 JN:NPG ASIA MATERIALS PY:2013 TC:23 AU: Chiu, Yu-Cheng;Liu, Cheng-Liang;Lee, Wen-Ya;Chen, Yougen;Kakuchi, Toyoji;Chen, Wen-Chang;
2:18:37 Fully Transparent Non-volatile Memory Thin-Film Transistors Using an Organic Ferroelectric and Oxide Semiconductor Below 200 degrees C
DOI:10.1002/adfm.200902095 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:57 AU: Yoon, Sung-Min;Yang, Shinhyuk;Byun, Chunwon;Park, Sang-Hee K.;Cho, Doo-Hee;Jung, Soon-Won;Kwon, Oh-Sang;Hwang, Chi-Sun;
2:18:38 Controlled Ambipolar Charge Transport Through a Self-Assembled Gold Nanoparticle Monolayer
DOI:10.1002/adma.201104375 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Zhou, Ye;Han, Su-Ting;Xu, Zong-Xiang;Roy, V. A. L.;
2:18:39 Nonvolatile nano-floating gate memory devices based on pentacene semiconductors and organic tunneling insulator layers
DOI:10.1063/1.3297878 JN:APPLIED PHYSICS LETTERS PY:2010 TC:45 AU: Kim, Soo-Jin;Park, Young-Su;Lyu, Si-Hoon;Lee, Jang-Sik;
2:18:40 High-Performance Nonvolatile Organic Transistor Memory Devices Using the Electrets of Semiconducting Blends
DOI:10.1021/am502732d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Chiu, Yu-Cheng;Chen, Tzu-Ying;Chen, Yougen;Satoh, Toshifumi;Kakuchi, Toyoji;Chen, Wen-Chang;
2:18:41 Anodized Aluminum Oxide Thin Films for Room-Temperature-Processed, Flexible, Low-Voltage Organic Non-Volatile Memory Elements with Excellent Charge Retention
DOI:10.1002/adma.201103189 JN:ADVANCED MATERIALS PY:2011 TC:36 AU: Kaltenbrunner, Martin;Stadler, Philipp;Schwoediauer, Reinhard;Hassel, Achim Walter;Sariciftci, Niyazi Serdar;Bauer, Siegfried;
2:18:42 Improving information density in ferroelectric polymer films by using nanoimprinted gratings
DOI:10.1063/1.4804427 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Martinez-Tong, D. E.;Soccio, M.;Garcia-Gutierrez, M. C.;Nogales, A.;Rueda, D. R.;Alayo, N.;Perez-Murano, F.;Ezquerra, T. A.;
2:18:43 A low voltage programmable unipolar inverter with a gold nanoparticle monolayer on plastic
DOI:10.1088/0957-4484/24/20/205202 JN:NANOTECHNOLOGY PY:2013 TC:6 AU: Zhou, Ye;Han, Su-Ting;Huang, Long-Biao;Huang, Jing;Yan, Yan;Zhou, Li;Roy, V. A. L.;
2:18:44 Multilevel Data Storage Memory Devices Based on the Controlled Capacitive Coupling of Trapped Electrons
DOI:10.1002/adma.201004150 JN:ADVANCED MATERIALS PY:2011 TC:41 AU: Lee, Jang-Sik;Kim, Yong-Mu;Kwon, Jeong-Hwa;Sim, Jae Sung;Shin, Hyunjung;Sohn, Byeong-Hyeok;Jia, Quanxi;
2:18:45 Progress in non-volatile memory devices based on nanostructured materials and nanofabrication
DOI:10.1039/c1jm11050k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:45 AU: Lee, Jang-Sik;
2:18:46 High performance nonvolatile transistor memories of pentacene using the electrets of star-branched p-type polymers and their donor-acceptor blends
DOI:10.1039/c3tc31840k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:11 AU: Chiu, Yu-Cheng;Chen, Tzu-Ying;Chueh, Chu-Chen;Chang, Hung-Yu;Sugiyama, Kenji;Sheng, Yu-Jane;Hirao, Akira;Chen, Wen-Chang;
2:18:47 pi-Conjugation-interrupted hyperbranched polymer electrets for organic nonvolatile transistor memory devices
DOI:10.1039/c3tc32441a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Lin, Jinyi;Li, Wen;Yu, Zhenzhen;Yi, Mingdong;Ling, Haifeng;Xie, Linghai;Li, Shengbiao;Huang, Wei;
2:18:48 Space-Charge-Mediated Anomalous Ferroelectric Switching in P(VDF-TrEE) Polymer Films
DOI:10.1021/am5050136 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Hu, Weijin;Wang, Zhihong;Du, Yuanmin;Zhang, Xi-Xiang;Wu, Tom;
2:18:49 Flash memory based on solution processed hafnium dioxide charge trapping layer
DOI:10.1039/c4tc00010b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Zhuang, Jiaqing;Han, Su-Ting;Zhou, Ye;Roy, V. A. L.;
2:18:50 Organic field-effect transistor nonvolatile memories utilizing sputtered C nanoparticles as nano-floating-gate
DOI:10.1063/1.4898811 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Jie;Liu, Chang-Hai;She, Xiao-Jian;Sun, Qi-Jun;Gao, Xu;Wang, Sui-Dong;
2:18:51 Solution processed non-volatile top-gate polymer field-effect transistors
DOI:10.1039/c1jm10966a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Leong, Wei Lin;Mathews, Nripan;Tan, Bertha;Vaidyanathan, Subramanian;Doetz, Florian;Mhaisalkar, Subodh;
2:18:52 Transistor memory devices with large memory windows, using multi-stacking of densely packed, hydrophobic charge trapping metal nanoparticle array
DOI:10.1088/0957-4484/25/50/505604 JN:NANOTECHNOLOGY PY:2014 TC:0 AU: Cho, Ikjun;Kim, Beom Joon;Ryu, Sook Won;Cho, Jeong Ho;Cho, Jinhan;
2:18:53 Organic Field-Effect Transistor Memory Devices Using Discrete Ferritin Nanoparticle-Based Gate Dielectrics
DOI:10.1002/smll.201300522 JN:SMALL PY:2013 TC:16 AU: Kim, Beom Joon;Ko, Yongmin;Cho, Jeong Ho;Cho, Jinhan;
2:18:54 Manipulating the Hysteresis in Poly(vinyl alcohol)-Dielectric Organic Field-Effect Transistors Toward Memory Elements
DOI:10.1002/adfm.201203694 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:22 AU: Tsai, Tzung-Da;Chang, Jer-Wei;Wen, Ten-Chin;Guo, Tzung-Fang;
2:18:55 Proton induced multilevel storage capability in self-assembled indium-zinc-oxide thin-film transistors
DOI:10.1063/1.4821067 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Guo, Li Qiang;Wan, Chang Jin;Zhu, Li Qiang;Wan, Qing;
2:18:56 Using a Single Electrospun Polymer Nanofiber to Enhance Carrier Mobility in Organic Field-Effect Transistors toward Nonvolatile Memory
DOI:10.1021/am405671b JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Jian, Pei-Zhen;Chiu, Yu-Cheng;Sun, Han-Sheng;Chen, Tzu-Ying;Chen, Wen-Chang;Tung, Shih-Huang;
2:18:57 Nonvolatile Memory Functionality of ZnO Nanowire Transistors Controlled by Mobile Protons
DOI:10.1021/nn102633z JN:ACS NANO PY:2011 TC:17 AU: Yoon, Jongwon;Hong, Woong-Ki;Jo, Minseok;Jo, Gunho;Choe, Minhyeok;Park, Woojin;Sohn, Jung Inn;Nedic, Stanko;Hwang, Hyungsang;Welland, Mark E.;Lee, Takhee;
2:18:58 High Performance Organic Nonvolatile Flash Memory Transistors with High-Resolution Reduced Graphene Oxide Patterns as a Floating Gate
DOI:10.1021/am501909v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Chung, Dae Sung;Lee, Sung Min;Back, Jang Yeol;Kwon, Soon-Ki;Kim, Yun-Hi;Chang, Suk Tai;
2:18:59 Functional high-k nanocomposite dielectrics for flexible transistors and inverters with excellent mechanical properties
DOI:10.1039/c2jm31813j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Zhou, Ye;Han, Su-Ting;Xu, Zong-Xiang;Yang, Xiong-Bo;Ng, Hoi-Pui;Huang, Long-Biao;Roy, V. A. L.;
2:18:60 Multilevel Information Storage in Ferroelectric Polymer Memories
DOI:10.1002/adma.201101511 JN:ADVANCED MATERIALS PY:2011 TC:20 AU: Tripathi, Ashutosh K.;van Breemen, Albert J. J. M.;Shen, Jie;Gao, Qi;Ivan, Marius G.;Reimann, Klaus;Meinders, Erwin R.;Gelinck, Gerwin H.;
2:18:61 Multilevel Data Storage Memory Using Deterministic Polarization Control
DOI:10.1002/adma.201103679 JN:ADVANCED MATERIALS PY:2012 TC:26 AU: Lee, Daesu;Yang, Sang Mo;Kim, Tae Heon;Jeon, Byung Chul;Kim, Yong Su;Yoon, Jong-Gul;Lee, Ho Nyung;Baek, Seung Hyup;Eom, Chang Beom;Noh, Tae Won;
2:18:62 Controllable threshold voltage shifts of polymer transistors and inverters by utilizing gold nanoparticles
DOI:10.1063/1.4737422 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Han, Su-Ting;Zhou, Ye;Xu, Zong-Xiang;Roy, V. A. L.;
2:18:63 Organic field-effect transistor nonvolatile memories based on hybrid nano-floating-gate
DOI:10.1063/1.4776677 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Gao, Xu;She, Xiao-Jian;Liu, Chang-Hai;Sun, Qi-Jun;Liu, Jie;Wang, Sui-Dong;
2:18:64 Non-volatile organic field-effect transistor memory comprising sequestered metal nanoparticles in a diblock copolymer film
DOI:10.1039/c1jm13936c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Chen, Chia-Min;Liu, Chih-Ming;Wei, Kung-Hwa;Jeng, U-Ser;Su, Chiu-Hun;
2:18:65 Polymer-nanoparticle hybrid dielectrics for flexible transistors and inverters
DOI:10.1039/c2jm15256h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Zhou, Ye;Han, Su-Ting;Xu, Zong-Xiang;Roy, V. A. L.;
2:18:66 A nanostructured micellar diblock copolymer layer affects the memory characteristics and packing of pentacene molecules in non-volatile organic field-effect transistor memory devices
DOI:10.1039/c3tc00362k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Chen, Chia-Min;Liu, Chih-Ming;Tsai, Ming-Chang;Chen, Hsiu-Cheng;Wei, Kung-Hwa;
2:18:67 Doping Effect of Organosulfonic Acid in Poly(3-hexylthiophene) Films for Organic Field-Effect Transistors
DOI:10.1021/am300141m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:24 AU: Nam, Sungho;Kim, Joonhyeon;Lee, Hyena;Kim, Hwajeong;Ha, Chang-Sik;Kim, Youngkyoo;
2:18:68 Review Paper: Nano-Floating Gate Memory Devices
DOI:10.1007/s13391-011-0901-5 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:20 AU: Lee, Jang-Sik;
2:18:69 Transparent organic thin-film transistors and nonvolatile memory devices fabricated on flexible plastic substrates
DOI:10.1039/c1jm11812a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Kim, Soo-Jin;Song, Ji-Min;Lee, Jang-Sik;
2:18:70 Nonvolatile resistive memory devices based on Ag
DOI:10.1039/c3tc30387j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:0 AU: Jin, Zhiwen;Liu, Guo;Wang, Jizheng;
2:18:71 The mechanical bending effect and mechanism of high performance and low-voltage flexible organic thin-film transistors with a cross-linked PVP dielectric layer
DOI:10.1039/c3tc32460e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Yi, Mingdong;Guo, Yuxiu;Guo, Jialin;Yang, Tao;Chai, Yuhua;Fan, Quli;Xie, Linghai;Huang, Wei;
2:18:72 Nonvolatile Analog Memory Transistor Based on Carbon Nanotubes and C60 Molecules
DOI:10.1002/smll.201202593 JN:SMALL PY:2013 TC:10 AU: Cho, Byungjin;Kim, Kyunghyun;Chen, Chia-Ling;Shen, Alex Ming;Quyen Truong;Chen, Yong;
2:18:73 Organic memory device with polyaniline nanoparticles embedded as charging elements
DOI:10.1063/1.4704571 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Kim, Yo-Han;Kim, Minkeun;Oh, Sewook;Jung, Hunsang;Kim, Yejin;Yoon, Tae-Sik;Kim, Yong-Sang;Lee, Hyun Ho;
2:18:74 Nonvolatile transistor memory devices using high dielectric constant polyimide electrets
DOI:10.1039/c3tc30252k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Chou, Ying-Hsuan;Yen, Hung-Ju;Tsai, Chia-Liang;Lee, Wen-Ya;Liou, Guey-Sheng;Chen, Wen-Chang;
2:18:75 All-solution-processed nonvolatile flexible nano-floating gate memory devices
DOI:10.1088/0957-4484/25/1/014016 JN:NANOTECHNOLOGY PY:2014 TC:8 AU: Kim, Chaewon;Song, Ji-Min;Lee, Jang-Sik;Lee, Mi Jung;
2:18:76 Organic nonvolatile memory transistors with self-doped polymer energy well structures
DOI:10.1038/am.2012.62 JN:NPG ASIA MATERIALS PY:2013 TC:11 AU: Nam, Sungho;Ko, Yong-Gi;Hahm, Suk Gyu;Park, Soohyeong;Seo, Jooyeok;Lee, Hyena;Kim, Hwajeong;Ree, Moonhor;Kim, Youngkyoo;
2:18:77 Hybrid Phototransistors Based on Bulk Heterojunction Films of Poly(3-hexylthiophene) and Zinc Oxide Nanoparticle
DOI:10.1021/am302765a JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Nam, Sungho;Seo, Jooyeok;Park, Soohyeong;Lee, Sooyong;Jeong, Jaehoon;Lee, Hyena;Kim, Hwajeong;Kim, Youngkyoo;
2:18:78 Ferroelectricity of poly(vinylidene fluoride) homopolymer Langmuir-Blodgett nanofilms
DOI:10.1039/c4tc00600c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Zhu, Huie;Yamamoto, Shunsuke;Matsui, Jun;Miyashita, Tokuji;Mitsuishi, Masaya;
2:18:79 Carbon Nanotube Memory by the Self-Assembly of Silicon Nanocrystals as Charge Storage Nodes
DOI:10.1021/nn202377f JN:ACS NANO PY:2011 TC:8 AU: Olmedo, Mario;Wang, Chuan;Ryu, Koungmin;Zhou, Huimei;Ren, Jingjian;Zhan, Ning;Zhou, Chongwu;Liu, Jianlin;
2:18:80 Nonvolatile organic transistor-memory devices using various thicknesses of silver nanoparticle layers
DOI:10.1063/1.3462949 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Wang, S. M.;Leung, C. W.;Chan, P. K. L.;
2:18:81 Impact of interface controlling layer of Al2O3 for improving the retention behaviors of In-Ga-Zn oxide-based ferroelectric memory transistor
DOI:10.1063/1.3452339 JN:APPLIED PHYSICS LETTERS PY:2010 TC:22 AU: Yoon, Sung-Min;Yang, Shin-Hyuk;Jung, Soon-Won;Byun, Chun-Won;Park, Sang-Hee Ko;Hwang, Chi-Sun;Lee, Gwang-Geun;Tokumitsu, Eisuke;Ishiwara, Hiroshi;
2:18:82 Doped polymer electrodes for high performance ferroelectric capacitors on plastic substrates
DOI:10.1063/1.4757426 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Khan, M. A.;Bhansali, Unnat S.;Zhang, X. X.;Saleh, Moussa M.;Odeh, Ihab;Alshareef, H. N.;
2:18:83 Origin of multiple memory states in organic ferroelectric field-effect transistors
DOI:10.1063/1.4737176 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Kam, Benjamin;Li, Xiaoran;Cristoferi, Claudio;Smits, Edsger C. P.;Mityashin, Alexander;Schols, Sarah;Genoe, Jan;Gelinck, Gerwin;Heremans, Paul;
2:18:84 Hysteresis mechanism in low-voltage and high mobility pentacene thin-film transistors with polyvinyl alcohol dielectric
DOI:10.1063/1.4737173 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Wang, Wei;Ma, Dongge;Pan, Su;Yang, Yudan;
2:18:85 Elucidation of ambient gas effects in organic nano-floating-gate nonvolatile memory
DOI:10.1063/1.4790186 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: She, Xiao-Jian;Liu, Chang-Hai;Zhang, Jing-Yu;Gao, Xu;Wang, Sui-Dong;
2:18:86 Organic floating-gate transistor memory based on the structure of pentacene/nanoparticle-Al/Al2O3
DOI:10.1063/1.3432667 JN:APPLIED PHYSICS LETTERS PY:2010 TC:17 AU: Wang, Wei;Ma, Dongge;
2:18:87 Low temperature processed bilayer dielectrics for low-voltage flexible saturated load inverters
DOI:10.1063/1.3558913 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Zhou, Ye;Roy, V. A. L.;Xu, Zong-Xiang;Kwong, H. Y.;Wang, Hai-Bo;Lee, C. S.;
2:18:88 Spatial profile of charge storage in organic field-effect transistor nonvolatile memory using polymer electret
DOI:10.1063/1.4824213 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: She, Xiao-Jian;Liu, Jie;Zhang, Jing-Yu;Gao, Xu;Wang, Sui-Dong;
2:18:89 Organic Field-Effect Transistor/Memory Devices with Pentacene/Polydiacetylene Composite Film As Active Channel Material: A Morphology Dependence Study
DOI:10.1021/am100696v JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:14 AU: Tseng, Chiao-Wei;Tao, Yu-Tai;
2:18:90 Creating and Optimizing Interfaces for Electric-Field and Photon-Induced Charge Transfer
DOI:10.1021/nn302175f JN:ACS NANO PY:2012 TC:3 AU: Park, Byoungnam;Whitham, Kevin;Cho, Jiung;Reichmanis, Elsa;
2:18:91 Improved Performance of Polymer:Polymer Solar Cells by Doping Electron-Accepting Polymers with an Organosulfonic Acid
DOI:10.1002/adfm.201101215 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:26 AU: Nam, Sungho;Shin, Minjung;Kim, Hwajeong;Ha, Chang-Sik;Ree, Moonhor;Kim, Youngkyoo;
2:18:92 Touch sensors based on planar liquid crystal-gated-organic field-effect transistors
DOI:10.1063/1.4895110 JN:AIP ADVANCES PY:2014 TC:1 AU: Seo, Jooyeok;Lee, Chnlyeon;Han, Hyemi;Lee, Sooyong;Nam, Suncho;Kim, Hwajeong;Lee, Joon-Hyung;Park, Soo-Young;Kang, Inn-Kyu;Kim, Youngkyoo;
2:18:93 A 60 nm channel length ferroelectric-gate field-effect transistor capable of fast switching and multilevel programming
DOI:10.1063/1.3657413 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Kaneko, Yukihiro;Nishitani, Yu;Ueda, Michihito;Tokumitsu, Eisuke;Fujii, Eiji;
2:18:94 Homo-junction ferroelectric field-effect-transistor memory device using solution-processed lithium-doped zinc oxide thin films
DOI:10.1063/1.4729787 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Nayak, Pradipta K.;Caraveo-Frescas, J. A.;Bhansali, Unnat S.;Alshareef, H. N.;
2:18:95 Nonvolatile floating gate organic memory device based on pentacene/CdSe quantum dot heterojuction
DOI:10.1063/1.4711209 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Shin, Ik-Soo;Kim, Jung-Min;Jeun, Jun-Ho;Yoo, Seok-Hyun;Ge, Ziyi;Hong, Jong-In;Bang, Jin Ho;Kim, Yong-Sang;
2:18:96 Nonvolatile memory behavior of nanocrystalline cellulose/graphene oxide composite films
DOI:10.1063/1.4898601 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Valentini, L.;Cardinali, M.;Fortunati, E.;Kenny, J. M.;
2:18:97 Fabrication and Properties of Solution Processed All Polymer Thin-Film Ferroelectric Device
DOI:10.1002/app.33291 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:13 AU: Xu, Haisheng;Fang, Xuerang;Liu, Xiaobing;Wu, Shan;Gu, Yingjun;Meng, Xiangjian;Sun, Jinglan;Chu, Junhao;
2:18:98 Electrical charging of Au nanoparticles embedded by streptavidin-biotin biomolecular binding in organic memory device
DOI:10.1063/1.3500824 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Jung, Sung Mok;Kim, Hyung-Jun;Kim, Bong-Jin;Kim, Yong-Sang;Yoon, Tae-Sik;Lee, Hyun Ho;
2:18:99 The flexible non-volatile memory devices using oxide semiconductors and ferroelectric polymer poly(vinylidene fluoride-trifluoroethylene)
DOI:10.1063/1.3608145 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Lee, Gwang-Geun;Tokumitsu, Eisuke;Yoon, Sung-Min;Fujisaki, Yoshihisa;Yoon, Joo-Won;Ishiwara, Hiroshi;
2:18:100 Nonvolatile organic write-once-read-many-times memory devices based on hexadecafluoro-copper-phthalocyanine
DOI:10.1063/1.4721518 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Wang, Lidan;Su, Zisheng;Wang, Cheng;
2:18:101 Nonvolatile memory with graphene oxide as a charge storage node in nanowire field-effect transistors
DOI:10.1063/1.3690670 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Baek, David J.;Seol, Myeong-Lok;Choi, Sung-Jin;Moon, Dong-Il;Choi, Yang-Kyu;
2:18:102 Effect of tunneling layers on the performances of floating-gate based organic thin-film transistor nonvolatile memories
DOI:10.1063/1.4896665 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Wei;Han, Jinhua;Ying, Jun;Xiang, Lanyi;Xie, Wenfa;
2:18:103 Ambipolar organic thin-film transistor-based nano-floating-gate nonvolatile memory
DOI:10.1063/1.4860990 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Han, Jinhua;Wang, Wei;Ying, Jun;Xie, Wenfa;
2:18:104 Compression of Cross-Linked Poly(vinylidene fluoride-co-trifluoro ethylene) Films for Facile Ferroelectric Polarization
DOI:10.1021/am201202w JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:3 AU: Shin, Yu Jin;Kim, Richard Hahnkee;Jung, Hee Joon;Kang, Seok Ju;Park, Youn Jung;Bae, Insung;Park, Cheolmin;
2:18:105 Ferroelectric field effect transistors using very thin ferroelectric polyvinylidene fluoride copolymer films as gate dielectrics
DOI:10.1063/1.3437638 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Gerber, A.;Fitsilis, M.;Waser, R.;Reece, Timothy J.;Rije, E.;Ducharme, Stephen;Kohlstedt, H.;
2:18:106 Nonvolatile memory thin film transistors using CdSe/ZnS quantum dot-poly(methyl methacrylate) composite layer formed by a two-step spin coating technique
DOI:10.1063/1.4745041 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Chen, Ying-Chih;Huang, Chun-Yuan;Yu, Hsin-Chieh;Su, Yan-Kuin;
2:18:107 Organic-inorganic nanohybrid nonvolatile memory transistors for flexible electronics
DOI:10.1039/c2jm32767h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Han, Kyu Seok;Park, Yerok;Han, Gibok;Lee, Byoung Hoon;Lee, Kwang Hyun;Son, Dong Hee;Im, Seongil;Sung, Myung Mo;
2:18:108 Nonvolatile memory characteristics of thin-film transistors using hybrid gate stack composed of solution-processed indium-zinc-silicon oxide active channel and organic ferroelectric gate insulator
DOI:10.1116/1.4809996 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:1 AU: Bak, Jun Yong;Yoon, Sung Min;
2:18:109 Metal-Free, Single-Polymer Device Exhibits Resistive Memory Effect
DOI:10.1021/nn403873c JN:ACS NANO PY:2013 TC:6 AU: Bhansali, Unnat S.;Khan, Mohd A.;Cha, Dongkyu;AlMadhoun, Mahmoud N.;Li, Ruipeng;Chen, Long;Amassian, Aram;Odeh, Ihab N.;Alshareef, Husam N.;
2:18:110 Towards nonvolatile memory devices based on ferroelectric polymers
DOI:10.1063/1.3691825 JN:AIP ADVANCES PY:2012 TC:4 AU: Tsutsumi, Naoto;Bai, Xue;Sakai, Wataru;
2:18:111 High-performance organic charge trap flash memory devices based on ink-jet printed 6,13-bis(triisopropylsilylethynyl) pentacene transistors
DOI:10.1063/1.3435470 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Park, Young-Su;Chung, Seungjun;Kim, Soo-Jin;Lyu, Si-Hoon;Jang, Jae-Wan;Kwon, Soon-Ki;Hong, Yongtaek;Lee, Jang-Sik;
2:18:112 Conductance switching in organic ferroelectric field-effect transistors
DOI:10.1063/1.3621857 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Asadi, Kamal;Blom, Paul W. M.;de Leeuw, Dago M.;
2:18:113 Chemically Cross-Linked Thin Poly(vinylidene fluoride-co-trifluoroethylene)Films for Nonvolatile Ferroelectric Polymer Memory
DOI:10.1021/am1011657 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:11 AU: Shin, Yu Jin;Kang, Seok Ju;Jung, Hee Joon;Park, Youn Jung;Bae, Insung;Choi, Dong Hoon;Park, Cheolmin;
2:18:114 A field-cycle-induced high-dielectric phase in ferroelectric copolymer
DOI:10.1063/1.3429079 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Zaitsu, Koichiro;Lee, Sunghoon;Ishibe, Kiyoshiro;Sekitani, Tsuyoshi;Someya, Takao;
2:18:115 Channel/ferroelectric interface modification in ZnO non-volatile memory TFT with P(VDF-TrFE) polymer
DOI:10.1039/b921732k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:12 AU: Park, Chan Ho;Lee, Kwang H.;Lee, Byoung H.;Sung, Myung M.;Im, Seongil;
2:18:116 Transparent nano-floating gate memory on glass
DOI:10.1088/0957-4484/21/33/335201 JN:NANOTECHNOLOGY PY:2010 TC:5 AU: Park, Byoungjun;Cho, Kyoungah;Kim, Sungsu;Kim, Sangsig;
2:18:117 Ferroelectric property improvement of poly(vinylidene fluoride/trifluoroethylene) polymer exposed to a plasma ambient
DOI:10.1063/1.3505336 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Park, C. H.;Lee, Kwang H.;Ha, Taewoo;Kim, Jae Hoon;Im, Seongil;Yun, Jungheum;Lee, Gun Hwan;
2:18:118 Stable Protein Device Platform Based on Pyridine Dicarboxylic Acid-Bound Cubic-Nanostructured Mesoporous Titania Films
DOI:10.1021/am401850n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Kim, Hwajeong;Park, Sung Soo;Seo, Jooyeok;Ha, Chang-Sik;Moon, Cheil;Kim, Youngkyoo;
2:18:119 Polarization fatigue in ferroelectric vinylidene fluoride and trifluoroethylene copolymer thin films
DOI:10.1063/1.3607316 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Zhu, GuoDong;Gu, Yin;Yu, Hao;Fu, ShaoSong;Jiang, YuLong;
2:18:120 Ultraviolet irradiation induced polarization restoration in electrically fatigued ferroelectric polymer films
DOI:10.1063/1.4795161 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Fu, Shaosong;Yu, Hao;Hu, Jinghang;Ding, Shijin;Cheng, Qian;Jiang, Yulong;Zhu, Guodong;
2:18:121 Hysteresis in Conjugated Polymer Thin Film Transistors Generated by Chain Relaxation
DOI:10.1002/adfm.200902129 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:4 AU: Yang, Neng-Jye;Liao, Chien-Shiun;Chen, Show-An;
2:18:122 Transparent Nanoscale Floating Gate Memory Using Self-Assembled Bismuth Nanocrystals in Bi2Mg2/3Nb4/3O7 (BMN) Pyrochlore Thin Films Grown at Room Temperature
DOI:10.1002/adma.201200707 JN:ADVANCED MATERIALS PY:2012 TC:0 AU: Jung, Hyun-June;Yoon, Soon-Gil;Hong, Soon-Ku;Lee, Jeong-Yong;
2:18:123 Non-volatile nano-floating gate memory with Pt-Fe2O3 composite nanoparticles and indium gallium zinc oxide channel
DOI:10.1007/s11051-013-1435-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:1 AU: Hu, Quanli;Lee, Seung Chang;Baek, Yoon-Jae;Lee, Hyun Ho;Kang, Chi Jung;Kim, Hyun-Mi;Kim, Ki-Bum;Yoon, Tae-Sik;
2:18:124 Study of electrical polarization hysteresis in ferroelectric polyvinylidene fluoride films
DOI:10.1016/j.matlet.2010.06.030 JN:MATERIALS LETTERS PY:2010 TC:2 AU: Carvell, Jeffrey;Cheng, Ruihua;
2:18:125 Non-volatile organic memory based on CdSe nano-particle/PMMA blend as a tunneling layer
DOI:10.1016/j.synthmet.2011.03.023 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Kim, Jung-Min;Lee, Dong-Hoon;Jeun, Jun-Ho;Yoon, Tae-Sik;Lee, Hyun Ho;Lee, Jong-Wook;Kim, Yong-Sang;
2:18:126 The effect of X-ray photoelectron spectroscopy measurement on P(VDF-TrFE) copolymer thin films
DOI:10.1016/j.apsusc.2012.07.144 JN:APPLIED SURFACE SCIENCE PY:2012 TC:1 AU: Mandal, Dipankar;Mueller, Klaus;Henkel, Karsten;Schmeisser, Dieter;
2:18:127 Enhanced Physical Properties of Ferroelectric Poly(Vinylidene Fluoride Trifluoroethylene) Copolymer Capacitor with NiFe Electrodes
DOI:10.1080/00150193.2011.620902 JN:FERROELECTRICS PY:2011 TC:0 AU: Tian, L.;Sun, J. L.;Meng, X. J.;Yang, J.;Wang, J. L.;Bai, W.;Yuan, S. Z.;Chu, J. H.;
2:18:128 PbTiO3 - P(VDF-TrFE) - Nanocomposites for Pressure and Temperature Sensitive Skin
DOI:10.1080/00150193.2011.594412 JN:FERROELECTRICS PY:2011 TC:0 AU: Krause, Markus;Graz, Ingrid;Bauer-Gogonea, Simona;Bauer, Siegfried;Ploss, Bernd;Zirkl, Martin;Stadlober, Barbara;Helbig, Uta;
2:18:129 Nonvolatile memory organic field effect transistor induced by the steric hindrance effects of organic molecules
DOI:10.1039/c0jm00854k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:8 AU: Jung, Mi-Hee;Song, Kyu Ho;Ko, Kyoung Chul;Lee, Jin Yong;Lee, Hyoyoung;
2:18:130 Capacitance-voltage characteristics of metal-polymer-silicon device with inkjet-printed Ag electrode
DOI:10.1016/j.tsf.2011.02.035 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Kim, Bong-Jin;Kim, Hyung-Jun;Jung, Sung-Mok;Kim, Yo-Han;Ha, Sanghyub;Yoon, Tae-Sik;Lee, Hyun Ho;
2:19:1 6.5% Efficiency of Polymer Solar Cells Based on poly(3-hexylthiophene) and Indene-C-60 Bisadduct by Device Optimization
DOI:10.1002/adma.201001339 JN:ADVANCED MATERIALS PY:2010 TC:520 AU: Zhao, Guangjin;He, Youjun;Li, Yongfang;
2:19:2 Indene-C-60 Bisadduct: A New Acceptor for High-Performance Polymer Solar Cells
DOI:10.1021/ja908602j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:501 AU: He, Youjun;Chen, Hsiang-Yu;Hou, Jianhui;Li, Yongfang;
2:19:3 Functional fullerenes for organic photovoltaics
DOI:10.1039/c2jm15126j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:156 AU: Li, Chang-Zhi;Yip, Hin-Lap;Jen, Alex K. -Y.;
2:19:4 High-Yield Synthesis and Electrochemical and Photovoltaic Properties of Indene-C-70 Bisadduct
DOI:10.1002/adfm.201001122 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:171 AU: He, Youjun;Zhao, Guangjin;Peng, Bo;Li, Yongfang;
2:19:5 Facile Synthesis of o-Xylenyl Fullerene Multiadducts for High Open Circuit Voltage and Efficient Polymer Solar Cells
DOI:10.1021/cnn202885s JN:CHEMISTRY OF MATERIALS PY:2011 TC:75 AU: Kim, Ki-Hyun;Kang, Hyunbum;So Yeon Nam;Jung, Jaewook;Kim, Pan Seok;Cho, Chul-Hee;Lee, Changjin;Yoon, Sung Cheol;Kim, Bumjoon J.;
2:19:6 Molecular Packing and Solar Cell Performance in Blends of Polymers with a Bisadduct Fullerene
DOI:10.1021/nl204421p JN:NANO LETTERS PY:2012 TC:80 AU: Miller, Nichole Cates;Sweetnam, Sean;Hoke, Eric T.;Gysel, Roman;Miller, Chad E.;Bartelt, Jonathan A.;Xie, Xinxin;Toney, Michael F.;McGehee, Michael D.;
2:19:7 Effects of Solubilizing Group Modification in Fullerene Bis-Adducts on Normal and Inverted Type Polymer Solar Cells
DOI:10.1021/cm3010369 JN:CHEMISTRY OF MATERIALS PY:2012 TC:43 AU: Kim, Ki-Hyun;Kang, Hyunbum;Kim, Hyeong Jun;Kim, Pan Seok;Yoon, Sung Cheol;Kim, Bumjoon J.;
2:19:8 Di(4-methylphenyl)methano-C-60 Bis-Adduct for Efficient and Stable Organic Photovoltaics with Enhanced Open-Circuit Voltage
DOI:10.1021/cm201784w JN:CHEMISTRY OF MATERIALS PY:2011 TC:60 AU: Cheng, Yen-Ju;Liao, Ming-Hung;Chang, Chih-Yu;Kao, Wei-Shun;Wu, Cheng-En;Hsu, Chain-Shu;
2:19:9 Highly Efficient and Thermally Stable Polymer Solar Cells with Dihydronaphthyl-Based [70]Fullerene Bisadduct Derivative as the Acceptor
DOI:10.1002/adfm.201102771 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:54 AU: Meng, Xiangyue;Zhang, Wenqing;Tan, Zhan'ao;Li, Yongfang;Ma, Yihan;Wang, Taishan;Jiang, Li;Shu, Chunying;Wang, Chunru;
2:19:10 Effect of Carbon Chain Length in the Substituent of PCBM-like Molecules on Their Photovoltaic Properties
DOI:10.1002/adfm.200902447 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:79 AU: Zhao, Guangjin;He, Youjun;Xu, Zheng;Hou, Jianhui;Zhang, Maojie;Min, Jie;Chen, Hsiang-Yu;Ye, Mingfu;Hong, Ziruo;Yang, Yang;Li, Yongfang;
2:19:11 A Simple and Effective Modification of PCBM for Use as an Electron Acceptor in Efficient Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201001807 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:86 AU: Mikroyannidis, John A.;Kabanakis, Antonis N.;Sharma, S. S.;Sharma, Ganesh D.;
2:19:12 Novel bis-C-60 derivative compared to other fullerene bis-adducts in high efficiency polymer photovoltaic cells
DOI:10.1039/c1jm12307f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:46 AU: Voroshazi, Eszter;Vasseur, Karolien;Aernouts, Tom;Heremans, Paul;Baumann, Andreas;Deibel, Carsten;Xue, Xiang;Herring, Angela J.;Athans, Andreas J.;Lada, Tom A.;Richter, Henning;Rand, Barry P.;
2:19:13 Charge Transport and Recombination in Low-Bandgap Bulk Heterojunction Solar Cell using Bis-adduct Fullerene
DOI:10.1002/aenm.201100331 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:44 AU: Azimi, Hamed;Senes, Alessia;Scharber, Markus C.;Hingerl, Kurt;Brabec, Christoph J.;
2:19:14 Compact Bis-Adduct Fullerenes and Additive-Assisted Morphological Optimization for Efficient Organic Photovoltaics
DOI:10.1021/am505616x JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Lai, Yun-Yu;Liao, Ming-Hung;Chen, Yen-Ting;Cao, Fong-Yi;Hsu, Chain-Shu;Cheng, Yen-Ju;
2:19:15 The effect of side-chain length on regioregular poly[3-(4-n-alkyl) phenylthiophene]/PCBM and ICBA polymer solar cells
DOI:10.1039/c2jm31371e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:31 AU: Cho, Chul-Hee;Kim, Hyeong Jun;Kang, Hyunbum;Shin, Tae Joo;Kim, Bumjoon J.;
2:19:16 Improving the stability of P3HT/PC61BM solar cells by a thermal crosslinker
DOI:10.1039/c3ta01525d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:15 AU: He, Dan;Du, Xiaoyan;Zhang, Wei;Xiao, Zuo;Ding, Liming;
2:19:17 Controlling Number of Indene Solubilizing Groups in Multiadduct Fullerenes for Tuning Optoelectronic Properties and Open-Circuit Voltage in Organic Solar Cells
DOI:10.1021/am201075y JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:31 AU: Kang, Hyunbum;Cho, Chul-Hee;Cho, Han-Hee;Kang, Tae Eui;Kim, Hyeong Jun;Kim, Ki-Hyun;Yoon, Sung Cheol;Kim, Burnjoon J.;
2:19:18 Photoinduced Charge Transfer in Donor-Acceptor (DA) Copolymer: Fullerene Bis-adduct Polymer Solar Cells
DOI:10.1021/am302479u JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:26 AU: Kang, Tae Eui;Cho, Han-Hee;Cho, Chul-Hee;Kim, Ki-Hyun;Kang, Hyunbum;Lee, Myounghee;Lee, Sunae;Kim, BongSoo;Im, Chan;Kim, Bumjoon J.;
2:19:19 Efficient Polymer Solar Cells Based on Poly(3-hexylthiophene) and Indene-C-60 Bisadduct Fabricated with Non-halogenated Solvents
DOI:10.1021/am500836u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:20 AU: Guo, Xia;Zhang, Maojie;Cui, Chaohua;Hou, Jianhui;Li, Yongfang;
2:19:20 Efficient and thermally stable polymer solar cells based on a 54 pi-electron fullerene acceptor
DOI:10.1039/c3ta10231a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:15 AU: Chen, Shan;Ye, Gang;Xiao, Zuo;Ding, Liming;
2:19:21 o-Quinodimethane-methano[60]fullerene and thieno-o-quinodimethane-methano[60]fullerene as efficient acceptor materials for polymer solar cells
DOI:10.1039/c2jm35247h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:34 AU: Ye, Gang;Chen, Shan;Xiao, Zuo;Zuo, Qiqun;Wei, Qing;Ding, Liming;
2:19:22 Energetic Disorder in Higher Fullerene Adducts: A Quantum Chemical and Voltammetric Study
DOI:10.1002/adma.201002189 JN:ADVANCED MATERIALS PY:2010 TC:45 AU: Frost, Jarvist Moore;Faist, Mark Anton;Nelson, Jenny;
2:19:23 Carbazole-containing fullerene derivatives for P3HT-based bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2012.05.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Kim, Hee Un;Mi, Dongbo;Kim, Ji-Hoon;Park, Jong Baek;Yoon, Sung Cheol;Yoon, Ung Chan;Hwang, Do-Hoon;
2:19:24 Bis-adducts of benzocyclopentane- and acenaphthene-C-60 superior to mono-adducts as electron acceptors in polymer solar cells
DOI:10.1016/j.solmat.2014.03.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Tian, Cheng-Bo;Deng, Lin-Long;Zhang, Zhen-Qiang;Dai, Si-Min;Gao, Cong-Li;Xie, Su-Yuan;Huang, Rong-Bin;Zheng, Lan-Sun;
2:19:25 Isostructural, Deeper Highest Occupied Molecular Orbital Analogues of Poly(3-hexylthiophene) for High-Open Circuit Voltage Organic Solar Cells
DOI:10.1021/cm4022563 JN:CHEMISTRY OF MATERIALS PY:2013 TC:14 AU: Bronstein, Hugo;Hurhangee, Michael;Fregoso, Elisa Collado;Beatrup, Daniel;Soon, Ying W.;Huang, Zhenggang;Hadipour, Afshin;Tuladhar, Pabitra S.;Rossbauer, Stephan;Sohn, Eun-Ho;Shoaee, Safa;Dimitrov, Stoichko D.;Frost, Jarvist M.;Ashraf, Raja Shahid;Kirchartz, Thomas;Watkins, Scott E.;Song, Kigook;Anthopoulos, Thomas;Nelson, Jenny;Rand, Barry P.;Durrant, James R.;McCulloch, Iain;
2:19:26 Beyond PCBM: Understanding the Photovoltaic Performance of Blends of Indene-C60 Multiadducts with Poly(3-hexylthiophene)
DOI:10.1002/adfm.201200336 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:27 AU: Nardes, Alexandre M.;Ferguson, Andrew J.;Whitaker, James B.;Larson, Bryon W.;Larsen, Ross E.;Maturova, Klara;Graf, Peter A.;Boltalina, Olga V.;Strauss, Steven H.;Kopidakis, Nikos;
2:19:27 Thienyl-substituted methanofullerene derivatives for organic photovoltaic cells
DOI:10.1039/b916597e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:61 AU: Choi, Jung Hei;Son, Kyung-In;Kim, Taehee;Kim, Kyungkon;Ohkubo, Kei;Fukuzumi, Shunichi;
2:19:28 N-phenyl[60]fulleropyrrolidines: alternative acceptor materials to PC61BM for high performance organic photovoltaic cells
DOI:10.1039/c4ta04857a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Karakawa, Makoto;Nagai, Takabumi;Adachi, Kenji;Ie, Yutaka;Aso, Yoshio;
2:19:29 Efficiency Enhancement of Polymer Solar Cells Based on Poly(3-hexylthiophene)/Indene-C70 Bisadduct via Methylthiophene Additive
DOI:10.1002/aenm.201100378 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:34 AU: Sun, Yeping;Cui, Chaohua;Wang, Haiqiao;Li, Yongfang;
2:19:30 Functionalized dihydronaphthyl-C-60 derivatives as acceptors for efficient polymer solar cells with tunable photovoltaic properties
DOI:10.1016/j.solmat.2012.04.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Deng, Lin-Long;Feng, Juan;Sun, Li-Chao;Wang, Shuai;Xie, Su-Lan;Xie, Su-Yuan;Huang, Rong-Bin;Zheng, Lan-Sun;
2:19:31 High LUMO energy level C-60(OCH3)(4) derivatives: Electronic acceptors for photovoltaic cells with higher open-circuit voltage
DOI:10.1016/j.solmat.2012.12.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:5 AU: Deng, Lin-Long;Xie, Su-Lan;Yuan, Chao;Liu, Rong-Fu;Feng, Juan;Sun, Li-Chao;Lu, Xin;Xie, Su-Yuan;Huang, Rong-Bin;Zheng, Lan-Sun;
2:19:32 Effects of Fullerene Bisadduct Regioisomers on Photovoltaic Performance
DOI:10.1002/adfm.201301411 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:23 AU: Meng, Xiangyue;Zhao, Guangyao;Xu, Qi;Tan, Zhan'ao;Zhang, Zhuxia;Jiang, Li;Shu, Chunying;Wang, Chunru;Li, Yongfang;
2:19:33 [60]Fulleropyrrolidines Bearing pi-Conjugated Moiety for Polymer Solar Cells: Contribution of the Chromophoric Substituent on C-60 to the Photocurrent
DOI:10.1021/am301773t JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:16 AU: Saravanan, Chinnusamy;Liu, Che-Liang;Chang, Yi-Min;Lu, Jan-De;Hsieh, Yen-Ju;Rwei, Syang-Peng;Wang, Leeyih;
2:19:34 Synthesis and studies of methyl ester substituted thieno-o-quinodimethane fullerene multiadducts for polymer solar cells
DOI:10.1016/j.solmat.2013.01.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Sakthivel, Pachagounder;Ban, Tae Won;Kim, Siwon;Kim, Suhkmann;Gal, Yeong-Soon;Chae, Eun Ah;Shin, Won Suk;Moon, Sang-Jin;Lee, Jong-Cheol;Jin, Sung-Ho;
2:19:35 Synthesis and Photovoltaic Properties of Novel Monoadducts and Bisadducts Based on Amide Methanofullerene
DOI:10.1021/am2016975 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:25 AU: Liu, Chao;Xiao, Shengqiang;Shu, Xiangping;Li, Yongjun;Xu, Liang;Liu, Taifeng;Yu, Yanwen;Zhang, Liang;Liu, Huibiao;Li, Yuliang;
2:19:36 Effects of Alkyl Chain Length and Substituent Pattern of Fullerene Bis-Adducts on Film Structures and Photovoltaic Properties of Bulk Heterojunction Solar Cells
DOI:10.1021/am5058794 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Tao, Ran;Umeyama, Tomokazu;Kurotobi, Kei;Imahori, Hiroshi;
2:19:37 Addition of Dihydromethano Group to Fullerenes to Improve the Performance of Bulk Heterojunction Organic Solar Cells
DOI:10.1002/adma.201302607 JN:ADVANCED MATERIALS PY:2013 TC:30 AU: Matsuo, Yutaka;Kawai, Junya;Inada, Hiroshi;Nakagawa, Takafumi;Ota, Hitoshi;Otsubo, Saika;Nakamura, Eiichi;
2:19:38 Naphthalene-, Anthracene-, and Pyrene-Substituted Fullerene Derivatives as Electron Acceptors in Polymer-based Solar Cells
DOI:10.1021/am504939c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Kim, Hee Un;Kim, Ji-Hoon;Kang, Hyunbum;Grimsdale, Andrew C.;Kim, Bumjoon J.;Yoon, Sung Cheol;Hwang, Do-Hoon;
2:19:39 Structurally Defined High-LUMO-Level 66 pi-[70]Fullerene Derivatives: Synthesis and Application in Organic Photovoltaic Cells
DOI:10.1021/cm301238n JN:CHEMISTRY OF MATERIALS PY:2012 TC:17 AU: Xiao, Zuo;Matsuo, Yutaka;Soga, Iwao;Nakamura, Eiichi;
2:19:40 Organic materials for photovoltaic applications: Review and mechanism
DOI:10.1016/j.synthmet.2014.01.022 JN:SYNTHETIC METALS PY:2014 TC:18 AU: Kaur, Navpreet;Singh, Mandeep;Pathak, Dinesh;Wagner, Tomas;Nunzi, J. M.;
2:19:41 Nanosphere Templated Continuous PEDOT:PSS Films with Low Percolation Threshold for Application in Efficient Polymer Solar Cells
DOI:10.1021/nn3022926 JN:ACS NANO PY:2012 TC:8 AU: Kang, Dong Jin;Kang, Hyunbum;Kim, Ki-Hyun;Kim, Bumjoon J.;
2:19:42 Effects of Alkoxy Chain Length in Alkoxy-Substituted Dihydronaphthyl-Based [60]Fullerene Bisadduct Acceptors on Their Photovoltaic Properties
DOI:10.1021/am301629d JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:14 AU: Meng, Xiangyue;Xu, Qi;Zhang, Wenqing;Tan, Zhan'ao;Li, Yongfang;Zhang, Zhuxia;Jiang, Li;Shu, Chunying;Wang, Chunru;
2:19:43 Novel fullerene acceptors: synthesis and application in low band gap polymer solar cells
DOI:10.1039/c2jm31712e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: He, Youjun;Chen, Chunchao;Richard, Eric;Dou, Letian;Wu, Yue;Li, Gang;Yang, Yang;
2:19:44 Efficient bulk heterojunction solar cells using an alternating phenylenevinylene copolymer with dithenyl(thienothiadiazole) segments as donor and PCBM or modified PCBM as acceptor
DOI:10.1016/j.solmat.2011.06.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Mikroyannidis, J. A.;Tsagkournos, D. V.;Balraju, P.;Sharma, G. D.;
2:19:45 Triphenylamine-substituted methanofullerene derivatives for enhanced open-circuit voltages and efficiencies in polymer solar cells
DOI:10.1016/j.solmat.2011.04.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Chang, Chiou-Ling;Liang, Chin-Wei;Syu, Jyun-Jie;Wang, Leeyih;Leung, Man-kit;
2:19:46 Biindene-C-60 adducts for the application as acceptor in polymer solar cells with higher open-circuit-voltage
DOI:10.1016/j.solmat.2010.11.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: He, Youjun;Chen, Hsiang-Yu;Zhao, Guangjin;Hou, Jianhui;Li, Yongfang;
2:19:47 The Origin of the High Voltage in DPM12/P3HT Solar Cells
DOI:10.1002/adfm.201000549 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:40 AU: Sanchez-Diaz, Antonio;Izquierdo, Marta;Filippone, Salvatore;Martin, Nazario;Palomares, Emilio;
2:19:48 Reducing Regioisomers of Fullerene-Bisadducts by Tether-Directed Remote Functionalization: Investigation of Electronically and Sterically Isomeric Effects on Bulk-Heterojunction Solar Cells
DOI:10.1021/am404485t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Liao, Ming-Hung;Lai, Yin-Yu;Lai, Yu-Ying;Chen, Yen-Ting;Tsai, Che-En;Liang, Wei-Wei;Cheng, Yen-Ju;
2:19:49 A Scalable Synthesis of Methano[60]fullerene and Congeners by the Oxidative Cyclopropanation Reaction of Silylmethylfullerene
DOI:10.1021/ja201267t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:57 AU: Zhang, Ying;Matsuo, Yutaka;Li, Chang-Zhi;Tanaka, Hideyuki;Nakamura, Eiichi;
2:19:50 Synthesis and photovoltaic properties of biindene-C-70 monoadduct as acceptor in polymer solar cells
DOI:10.1016/j.solmat.2011.01.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:16 AU: He, Youjun;Chen, Hsiang-Yu;Zhao, Guangjin;Hou, Jianhui;Li, Yongfang;
2:19:51 Facile syntheses of N-alkylaziridino[60]fullerenes and their application in polymer solar cells
DOI:10.1016/j.synthmet.2012.05.011 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Liu, Yang;Du, Xiaoyan;Cao, Jiamin;Zhang, Wei;Chen, Shan;Xiao, Zuo;Cai, Xuediao;Zuo, Qiqun;Ding, Liming;
2:19:52 Cyclobutadiene-C60 Adducts: N-Type Materials for Organic Photovoltaic Cells with High VOC
DOI:10.1002/adfm.201203251 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:15 AU: Han, Ggoch Ddeul;Collins, William R.;Andrew, Trisha L.;Bulovic, Vladimir;Swager, Timothy M.;
2:19:53 Substituent effect of fulleropyrrolidine acceptors on bilayer organic solar cells
DOI:10.1016/j.synthmet.2013.10.030 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Ou, Changjin;Zhao, Dewei;Zhang, Chao;Wang, Funing;Wang, Long;Xie, Linghai;Ren, Baoyi;Sun, Xiaowei;Li, Shengbiao;Zhang, Guangwei;Huang, Wei;
2:19:54 Synthesis of a Modified PC70BM and Its Application as an Electron Acceptor with Poly(3-hexylthiophene) as an Electron Donor for Efficient Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201200729 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:8 AU: Singh, Surya Prakash;Kumar, C. H. Pavan;Sharma, G. D.;Kurchania, Rajnish;Roy, M. S.;
2:19:55 Efficient as-cast bulk-heterojunction solar cells based on a tert-butyl substituted methanofullerene acceptor
DOI:10.1039/c1jm13474d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:4 AU: Seri, Mirko;Rossi, Emiliano;Carofiglio, Tommaso;Antonello, Sabrina;Ruani, Giampiero;Maggini, Michele;Muccini, Michele;
2:19:56 Photovoltaic properties of poly(benzothiadiazole-thiophene-co-bithiophene) as donor in polymer solar cells
DOI:10.1016/j.solmat.2010.10.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:22 AU: Zhao, Guangjin;He, Youjun;He, Chang;Fan, Haijun;Zhao, Yun;Li, Yongfang;
2:19:57 Optoelectronic Properties of a Fullerene Derivative Containing Adamantane Group
DOI:10.1021/am402523n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Liao, Xia-Xia;Wang, Taishan;Wang, Jizheng;Zheng, Jin-Cheng;Wang, Chunru;Yam, Vivian Wing-Wah;
2:19:58 Regioselective 1,2,3-bisazfulleroid: doubly N-bridged bisimino-PCBMs for polymer solar cells
DOI:10.1039/c2jm35070j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Kim, Boram;Lee, Junghoon;Seo, Jung Hwa;Wudl, Fred;Park, Sung Heum;Yang, Changduk;
2:19:59 Dumb-belled PCBM derivative with better photovoltaic performance
DOI:10.1039/c2jm15322j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Liu, Juan;Guo, Xia;Qin, Yujun;Liang, Shengde;Guo, Zhi-Xin;Li, Yongfang;
2:19:60 High-efficiency inverted polymer solar cells with solution-processed metal oxides
DOI:10.1016/j.solmat.2011.05.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Lin, Yu-Hong;Yang, Po-Ching;Huang, Jing-Shun;Huang, Guo-Dong;Wang, Ing-Jye;Wu, Wen-Hao;Lin, Ming-Yi;Su, Wei-Fang;Lin, Ching-Fuh;
2:19:61 High-Efficiency Polymer Solar Cells Based on Poly(3-pentylthiophene) with Indene-C70 Bisadduct as an Acceptor
DOI:10.1002/aenm.201100733 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:15 AU: Sun, Yeping;Cui, Chaohua;Wang, Haiqiao;Li, Yongfang;
2:19:62 Indene-C-60 Bisadduct: A New Acceptor for High-Performance Polymer Solar Cells (vol 132, pg 1377, 2010)
DOI:10.1021/ja101780s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:33 AU: He, Youjun;Chen, Hsiang-Yu;Hou, Jianhui;Li, Yongfang;
2:19:63 Towards optimization of P3HT:bisPCBM composites for highly efficient polymer solar cells
DOI:10.1039/c0jm00790k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Yun, Myoung Hee;Kim, Gi-Hwan;Yang, Changduk;Kim, Jin Young;
2:19:64 Triphenylamine-containing D-A-D molecules with (dicyanomethylene)pyran as an acceptor unit for bulk-heterojunction organic solar cells
DOI:10.1039/c0jm03425h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:29 AU: Zhang, Jing;Wu, Guanglong;He, Chang;Deng, Dan;Li, Yongfang;
2:19:65 Effect of the alkyl chain length of C-70-PCBX acceptors on the device performance of P3HT: C-70-PCBX polymer solar cells
DOI:10.1039/c0jm02459g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Shin, Won Suk;Lee, Jong-Cheol;Kim, Jae-Ryoung;Lee, Hye Young;Lee, Sang Kyu;Yoon, Sung Cheol;Moon, Sang-Jin;
2:19:66 Influence of charge carrier mobility and morphology on solar cell parameters in devices of mono- and bis-fullerene adducts
DOI:10.1088/0957-4484/24/48/484001 JN:NANOTECHNOLOGY PY:2013 TC:10 AU: Muth, Mathis-Andreas;Mitchell, William;Tierney, Steven;Lada, Thomas A.;Xue, Xiang;Richter, Henning;Carrasco-Orozco, Miguel;Thelakkat, Mukundan;
2:19:67 Open-Cage Fullerenes as n-Type Materials in Organic Photovoltaics: Relevance of Frontier Energy Levels, Carrier Mobility and Morphology of Different Sizable Open-Cage Fullerenes with Power Conversion Efficiency in Devices
DOI:10.1002/aenm.201100172 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:11 AU: Chen, Chih-Ping;Lin, Yu-Wei;Horng, Jia-Cherng;Chuang, Shih-Ching;
2:19:68 Increased open-circuit voltage in bulk-heterojunction solar cells using a C-60 derivative
DOI:10.1063/1.3518066 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Kim, Heejoo;Seo, Jung Hwa;Park, Eun Young;Kim, Tae-Dong;Lee, Kwanghee;Lee, Kwang-Sup;Cho, Shinuk;Heeger, Alan J.;
2:19:69 Polymer solar cells based on diphenylmethanofullerenes with reduced sidechain length
DOI:10.1039/c0jm01160f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Bolink, Henk J.;Coronado, Eugenio;Forment-Aliaga, Alicia;Lenes, Martijn;La Rosa, Andrea;Filippone, Salvatore;Martin, Nazario;
2:19:70 Poly(3-hexylthiophene):indene-C60 bisadduct morphology improvement by the use of polyvinylcarbazole as additive
DOI:10.1016/j.solmat.2013.01.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Chen, Hsin-Yi;Lan, Shiang;Yang, Po-Ching;Lin, Shang-Hong;Sun, Jen-Yu;Lin, Ching-Fuh;
2:19:71 Material solubility effects in bulk heterojunction solar cells based on the bis-cyclopropane fullerene adducts and P3HT
DOI:10.1016/j.solmat.2013.08.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Susarova, Diana K.;Goryachev, Andrey E.;Novikov, Dmitry V.;Dremova, Nadezhda N.;Peregudova, Svetlana M.;Razumov, Vladimir F.;Troshin, Pavel A.;
2:19:72 Photovoltaic performance optimization of methyl 4-[6,6]-C61-benzoate based polymer solar cells with thermal annealing approach
DOI:10.1016/j.synthmet.2013.08.019 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Chi, Dan;Liu, Chao;Qu, Shengchun;Zhang, Zhi-Guo;Li, Yongjun;Li, Yuliang;Wang, Jizheng;Wang, Zhanguo;
2:19:73 Layer-by-Layer Assembled Multilayer Tio(x) for Efficient Electron Acceptor in Polymer Hybrid Solar Cells
DOI:10.1021/la103240s JN:LANGMUIR PY:2010 TC:7 AU: Kang, Hyunbum;Lee, Chanwoo;Yoon, Sung Cheol;Cho, Chul-Hee;Cho, Jinhan;Kim, Bumjoon J.;
2:19:74 Establishment of a linear correlation between the LUMO levels of fullerenes and the Hammett constants of substituents installed: An experimental and theoretical study
DOI:10.1016/j.synthmet.2014.09.030 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Zhang, Xuan;Ma, Li-Xia;Li, Xu-Dong;
2:19:75 Synthesis of Novel Acceptor Molecules of Mono- and Multiadduct Fullerene Derivatives for Improving Photovoltaic Performance
DOI:10.1021/am3028475 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Liu, Chao;Xu, Liang;Chi, Dan;Li, Yongjun;Liu, Huibiao;Wang, Jizheng;
2:19:76 Single Isomer of Indene-C-70 Bisadduct-Isolation and Performance in Bulk Heterojunction Solar Cells
DOI:10.1021/cm404054z JN:CHEMISTRY OF MATERIALS PY:2014 TC:15 AU: Wong, Wallace W. H.;Subbiah, Jegadesan;White, Jonathan M.;Seyler, Helga;Zhang, Bolong;Jones, David J.;Holmes, Andrew B.;
2:19:77 Efficiency improvement in fullerene-layer-inserted organic bulk-heterojunction solar cells
DOI:10.1063/1.3677979 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Liu, Zhihai;Lee, Eun-Cheol;
2:19:78 Influence of the isomeric composition of the acceptor on the performance of organic bulk heterojunction P3HT:bis-PCBM solar cells
DOI:10.1039/c2jm32993j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Bouwer, Ricardo K. M.;Wetzelaer, Gert-Jan A. H.;Blom, Paul W. M.;Hummelen, Jan C.;
2:19:79 Design of fulleropyrrolidine derivatives as an acceptor molecule in a thin layer organic solar cell
DOI:10.1039/c0jm01565b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Matsumoto, Kei;Hashimoto, Kohji;Kamo, Masaya;Uetani, Yasunori;Hayase, Shuichi;Kawatsura, Motoi;Itoh, Toshiyuki;
2:19:80 Empirical evidence for identical band gaps in substituted C-60 and C-70 based fullerenes
DOI:10.1063/1.4863438 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Andersson, L. Mattias;Tanaka, Hideyuki;
2:19:81 Alkyl substituted [6,6]-thienyl-C-61-butyric acid methyl esters: easily accessible acceptor materials for bulk-heterojunction polymer solar cells
DOI:10.1039/b925089a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: Zhao, Huiyu;Guo, Xiaoyang;Tian, Hongkun;Li, Changyin;Xie, Zhiyuan;Geng, Yanhou;Wang, Fosong;
2:19:82 A computational proof toward correlation between the theoretical chemical concept of electrophilicity index for the acceptors of C60 and C70 fullerene derivatives with the open-circuit voltage of polymer-fullerene solar cells
DOI:10.1016/j.solmat.2012.05.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Anafcheh, Maryam;Ghafouri, Reza;Hadipour, Nasser L.;
2:19:83 Organic solar cells with 2-Thenylmercaptan/AU self-assembly film as buffer layer
DOI:10.1016/j.solmat.2010.11.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Zhang, Shiyong;Chen, Zhijian;Xiao, Lixin;Qu, Bo;Gong, Qihuang;
2:19:84 1-(3-Methoxycarbonyl)propyl-2-selenyl-[6,6]-methanofullerene as a n-Type Material for Organic Solar Cells
DOI:10.1016/j.synthmet.2011.04.021 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Chuang, Shih-Ching;Chiu, Chih-Wei;Chien, Shang-Chieh;Chu, Chih-Wei;Chen, Fang-Chung;
2:19:85 Aziridinofullerene: A Versatile Platform for Functionalized Fullerenes
DOI:10.1021/ja111213k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:39 AU: Nambo, Masakazu;Segawa, Yasutomo;Itami, Kenichiro;
2:19:86 Lipid Membranes as Solvents for Carbon Nanoparticles
DOI:10.1103/PhysRevLett.112.068102 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:3 AU: Barnoud, Jonathan;Rossi, Giulia;Monticelli, Luca;
2:19:87 Silyl Substituted Methanofullerenes as Electron Acceptors in Organic Photovoltaic Cells
DOI:10.1080/15421401003604203 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Jeon, Mina;Jung, Jaewook;Lee, Jaemin;Lim, Jongsun;Shin, Won Seok;Moon, Sang-Jin;Lee, Changjin;Yoon, Sung Cheol;
2:19:88 Synthesis and Electro-Optical Properties of Fluorene-Based Copolymer for Organic Photovoltaic Device Application
DOI:10.1080/15421406.2011.564076 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:1 AU: Kim, Jang Soo;Song, Myungkwan;Park, Jin Su;Yoon, Mikyoung;Yoon, Hoe Won;Kim, Ae Jin;Lee, Jae Wook;Gal, Yeong-Soon;Jin, Sung-Ho;
2:20:1 Graphene Oxide Thin Films for Flexible Nonvolatile Memory Applications
DOI:10.1021/nl101902k JN:NANO LETTERS PY:2010 TC:191 AU: Jeong, Hu Young;Kim, Jong Yun;Kim, Jeong Won;Hwang, Jin Ok;Kim, Ji-Eun;Lee, Jeong Yong;Yoon, Tae Hyun;Cho, Byung Jin;Kim, Sang Ouk;Ruoff, Rodney S.;Choi, Sung-Yool;
2:20:2 Organic Resistive Memory Devices: Performance Enhancement, Integration, and Advanced Architectures
DOI:10.1002/adfm.201100686 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:135 AU: Cho, Byungjin;Song, Sunghun;Ji, Yongsung;Kim, Tae-Wook;Lee, Takhee;
2:20:3 Bulk Heterojunction Polymer Memory Devices with Reduced Graphene Oxide as Electrodes
DOI:10.1021/nn100877s JN:ACS NANO PY:2010 TC:130 AU: Liu, Juqing;Yin, Zongyou;Cao, Xiehong;Zhao, Fei;Lin, Anping;Xie, Linghai;Fan, Quli;Boey, Freddy;Zhang, Hua;Huang, Wei;
2:20:4 Flexible Organic Memory Devices with Multilayer Graphene Electrodes
DOI:10.1021/nn201770s JN:ACS NANO PY:2011 TC:51 AU: Ji, Yongsung;Lee, Sangchul;Cho, Byungjin;Song, Sunghoon;Lee, Takhee;
2:20:5 Flexible Organic Bistable Devices Based on Graphene Embedded in an Insulating Poly(methyl methacrylate) Polymer Layer
DOI:10.1021/nl1006036 JN:NANO LETTERS PY:2010 TC:112 AU: Son, Dong Ick;Kim, Tae Whan;Shim, Jae Ho;Jung, Jae Hun;Lee, Dea Uk;Lee, Jung Min;Il Park, Won;Choi, Won Kook;
2:20:6 Flexible Multilevel Resistive Memory with Controlled Charge Trap Band N-Doped Carbon Nanotubes
DOI:10.1021/nl204039q JN:NANO LETTERS PY:2012 TC:50 AU: Hwang, Sun Kak;Lee, Ju Min;Kim, Seungjun;Park, Ji Sun;Park, Hyung Il;Ahn, Chi Won;Lee, Keon Jae;Lee, Takhee;Kim, Sang Ouk;
2:20:7 Rewritable Switching of One Diode-One Resistor Nonvolatile Organic Memory Devices
DOI:10.1002/adma.200903203 JN:ADVANCED MATERIALS PY:2010 TC:80 AU: Cho, Byungjin;Kim, Tae-Wook;Song, Sunghoon;Ji, Yongsung;Jo, Minseok;Hwang, Hyunsang;Jung, Gun-Young;Lee, Takhee;
2:20:8 Fabrication of Flexible, All-Reduced Graphene Oxide Non-Volatile Memory Devices
DOI:10.1002/adma.201203349 JN:ADVANCED MATERIALS PY:2013 TC:58 AU: Liu, Juqing;Yin, Zongyou;Cao, Xiehong;Zhao, Fei;Wang, Lianhui;Huang, Wei;Zhang, Hua;
2:20:9 Chemoselective Photodeoxidization of Graphene Oxide Using Sterically Hindered Amines as Catalyst: Synthesis and Applications
DOI:10.1021/nn2047185 JN:ACS NANO PY:2012 TC:36 AU: Zhao, Fei;Liu, Juqing;Huang, Xiao;Zou, Xi;Lu, Gang;Sun, Pengju;Wu, Shixin;Ai, Wei;Yi, Mingdong;Qi, Xiaoying;Xie, Linghai;Wang, Junling;Zhang, Hua;Huang, Wei;
2:20:10 Three-Dimensional Integration of Organic Resistive Memory Devices
DOI:10.1002/adma.201002575 JN:ADVANCED MATERIALS PY:2010 TC:73 AU: Song, Sunghoon;Cho, Byungjin;Kim, Tae-Wook;Ji, Yongsung;Jo, Minseok;Wang, Gunuk;Choe, Minhyeok;Kahng, Yung Ho;Hwang, Hyunsang;Lee, Takhee;
2:20:11 Flexible Memristive Memory Array on Plastic Substrates
DOI:10.1021/nl203206h JN:NANO LETTERS PY:2011 TC:75 AU: Kim, Seungjun;Jeong, Hu Young;Kim, Sung Kyu;Choi, Sung-Yool;Lee, Keon Jae;
2:20:12 Ambipolar Memory Devices Based on Reduced Graphene Oxide and Nanoparticles
DOI:10.1002/adma.200903267 JN:ADVANCED MATERIALS PY:2010 TC:80 AU: Myung, Sung;Park, Jaesung;Lee, Hyungwoo;Kim, Kwang S.;Hong, Seunghun;
2:20:13 Graphene Flash Memory
DOI:10.1021/nn201809k JN:ACS NANO PY:2011 TC:82 AU: Hong, Augustin J.;Song, Emil B.;Yu, Hyung Suk;Allen, Matthew J.;Kim, Jiyoung;Fowler, Jesse D.;Wassei, Jonathan K.;Park, Youngju;Wang, Yong;Zou, Jin;Kaner, Richard B.;Weiller, Bruce H.;Wang, Kang L.;
2:20:14 Direct Observation of Ag Filamentary Paths in Organic Resistive Memory Devices
DOI:10.1002/adfm.201101210 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:52 AU: Cho, Byungjin;Yun, Jin-Mun;Song, Sunghoon;Ji, Yongsung;Kim, Dong-Yu;Lee, Takhee;
2:20:15 Electrical memory devices based on inorganic/organic nanocomposites
DOI:10.1038/am.2012.32 JN:NPG ASIA MATERIALS PY:2012 TC:47 AU: Kim, Tae Whan;Yang, Yang;Li, Fushan;Kwan, Wei Lek;
2:20:16 Stable Switching Characteristics of Organic Nonvolatile Memory on a Bent Flexible Substrate
DOI:10.1002/adma.200904441 JN:ADVANCED MATERIALS PY:2010 TC:69 AU: Ji, Yongsung;Cho, Byungjin;Song, Sunghoon;Kim, Tae-Wook;Choe, Minhyeok;Kahng, Yung Ho;Lee, Takhee;
2:20:17 Organic resistive nonvolatile memory materials
DOI:10.1557/mrs.2012.4 JN:MRS BULLETIN PY:2012 TC:40 AU: Lee, Takhee;Chen, Yong;
2:20:18 Transparent and Flexible Graphene Charge-Trap Memory
DOI:10.1021/nn302193q JN:ACS NANO PY:2012 TC:26 AU: Kim, Sung Min;Song, Emil B.;Lee, Sejoon;Zhu, Jinfeng;Seo, David H.;Mecklenburg, Matthew;Seo, Sunae;Wang, Kang L.;
2:20:19 Multilayer Stacked Low-Temperature-Reduced Graphene Oxide Films: Preparation, Characterization, and Application in Polymer Memory Devices
DOI:10.1002/smll.201000328 JN:SMALL PY:2010 TC:68 AU: Liu, Juqing;Lin, Zongqiong;Liu, Tianjun;Yin, Zongyou;Zhou, Xiaozhu;Chen, Shufen;Xie, Linghai;Boey, Freddy;Zhang, Hua;Huang, Wei;
2:20:20 Electrically controlled electron transfer and resistance switching in reduced graphene oxide noncovalently functionalized with thionine
DOI:10.1039/c2jm32121a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Hu, Benlin;Quhe, Ruge;Chen, Cao;Zhuge, Fei;Zhu, Xiaojian;Peng, Shanshan;Chen, Xinxin;Pan, Liang;Wu, Yuanzhao;Zheng, Wenge;Yan, Qing;Lu, Jing;Li, Run-Wei;
2:20:21 Organic nonvolatile memory devices with charge trapping multilayer graphene film
DOI:10.1088/0957-4484/23/10/105202 JN:NANOTECHNOLOGY PY:2012 TC:21 AU: Ji, Yongsung;Choe, Minhyeok;Cho, Byungjin;Song, Sunghoon;Yoon, Jongwon;Ko, Heung Cho;Lee, Takhee;
2:20:22 High-Temperature Operating Non-volatile Memory of Printable Single-Wall Carbon Nanotubes Self-Assembled with a Conjugate Block Copolymer
DOI:10.1002/smll.201202038 JN:SMALL PY:2013 TC:5 AU: Hwang, Sun Kak;Choi, Jae Ryung;Bae, Insung;Hwang, Ihn;Cho, Suk Man;Huh, June;Park, Cheolmin;
2:20:23 A Multilevel Memory Based on Proton-Doped Polyazomethine with an Excellent Uniformity in Resistive Switching
DOI:10.1021/ja307933t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:25 AU: Hu, Benlin;Zhu, Xiaojian;Chen, Xinxin;Pan, Liang;Peng, Shanshan;Wu, Yuanzhao;Shang, Jie;Liu, Gang;Yan, Qing;Li, Run-Wei;
2:20:24 Photochromic Diode With a Continuum of Intermediate States: Towards High Density Multilevel Storage
DOI:10.1002/adma.201301286 JN:ADVANCED MATERIALS PY:2013 TC:11 AU: Shallcross, R. Clayton;Koerner, Peter O.;Maibach, Eduard;Koehnen, Anne;Meerholz, Klaus;
2:20:25 Resistive switching and activity-dependent modifications in Ni-doped graphene oxide thin films
DOI:10.1063/1.4742912 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Pinto, S.;Krishna, R.;Dias, C.;Pimentel, G.;Oliveira, G. N. P.;Teixeira, J. M.;Aguiar, P.;Titus, E.;Gracio, J.;Ventura, J.;Araujo, J. P.;
2:20:26 Low operation voltage macromolecular composite memory assisted by graphene nanoflakes
DOI:10.1039/c2tc00010e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Lai, Ying-Chih;Wang, Di-Yan;Huang, I-Sheng;Chen, Yu-Ting;Hsu, Yung-Hsuan;Lin, Tai-Yuan;Meng, Hsin-Fei;Chang, Ting-Chang;Yang, Ying-Jay;Chen, Chia-Chun;Hsu, Fang-Chi;Chen, Yang-Fang;
2:20:27 Rewritable, Moldable, and Flexible Sticker- Type Organic Memory on Arbitrary Substrates
DOI:10.1002/adfm.201302246 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Lai, Ying-Chih;Wang, Yi-Xiang;Huang, Yi-Chuan;Lin, Tai-Yuan;Hsieh, Ya-Ping;Yang, Ying-Jay;Chen, Yang-Fang;
2:20:28 Impact of gate work-function on memory characteristics in Al2O3/HfOx/Al2O3/graphene charge-trap memory devices
DOI:10.1063/1.3675633 JN:APPLIED PHYSICS LETTERS PY:2012 TC:13 AU: Lee, Sejoon;Song, Emil B.;Kim, Sungmin;Seo, David H.;Seo, Sunae;Kang, Tae Won;Wang, Kang L.;
2:20:29 A low-temperature-grown TiO2-based device for the flexible stacked RRAM application
DOI:10.1088/0957-4484/21/11/115203 JN:NANOTECHNOLOGY PY:2010 TC:45 AU: Jeong, Hu Young;Kim, Yong In;Lee, Jeong Yong;Choi, Sung-Yool;
2:20:30 Wide memory window in graphene oxide charge storage nodes
DOI:10.1063/1.3383234 JN:APPLIED PHYSICS LETTERS PY:2010 TC:33 AU: Wang, Shuai;Pu, Jing;Chan, Daniel S. H.;Cho, Byung Jin;Loh, Kian Ping;
2:20:31 All-Organic Photopatterned One Diode-One Resistor Cell Array for Advanced Organic Nonvolatile Memory Applications
DOI:10.1002/adma.201104266 JN:ADVANCED MATERIALS PY:2012 TC:30 AU: Kim, Tae-Wook;Zeigler, David F.;Acton, Orb;Yip, Hin-Lap;Ma, Hong;Jen, Alex K. -Y.;
2:20:32 The mechanism of the asymmetric SET and RESET speed of graphene oxide based flexible resistive switching memories
DOI:10.1063/1.3681366 JN:APPLIED PHYSICS LETTERS PY:2012 TC:21 AU: Wang, Lu-Hao;Yang, Wen;Sun, Qing-Qing;Zhou, Peng;Lu, Hong-Liang;Ding, Shi-Jin;Zhang, David Wei;
2:20:33 Multilevel characteristics and memory mechanisms for nonvolatile memory devices based on CuInS2 quantum dot-polymethylmethacrylate nanocomposites
DOI:10.1063/1.4903243 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhou, Yang;Yun, Dong Yeol;Kim, Sang Wook;Kim, Tae Whan;
2:20:34 Scalable self-assembled reduced graphene oxide transistors on flexible substrate
DOI:10.1063/1.4884064 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Zhenxing;Eigler, Siegfried;Halik, Marcus;
2:20:35 High throughput modification of chemically reduced graphene oxides by a conjugated block copolymer in non-polar medium
DOI:10.1039/c2jm35539f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Velusamy, Dhinesh Babu;Hwang, Sun Kak;Kim, Richard Hahnkee;Song, Giyoung;Cho, Sung Hwan;Bae, Insung;Park, Cheolmin;
2:20:36 Low-Power High-Performance Non-Volatile Memory on a Flexible Substrate with Excellent Endurance
DOI:10.1002/adma.201002946 JN:ADVANCED MATERIALS PY:2011 TC:54 AU: Cheng, Chun-Hu;Yeh, Fon-Shan;Chin, Albert;
2:20:37 Electrical stabilities and carrier transport mechanisms of flexible organic bistable devices based on CdSe-InP core-shell nanoparticle/polystyrene nanocomposites
DOI:10.1063/1.4748873 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Yun, Dong Yeol;Song, Woo Seung;Kim, Tae Whan;Kim, Sung Woo;Kim, Sang Wook;
2:20:38 Nitrogen-Doped Partially Reduced Graphene Oxide Rewritable Nonvolatile Memory
DOI:10.1021/nn400588u JN:ACS NANO PY:2013 TC:14 AU: Seo, Sohyeon;Yoon, Yeoheung;Lee, Junghyun;Park, Younghun;Lee, Hyoyoung;
2:20:39 Electrical characterization of organic resistive memory with interfacial oxide layers formed by O-2 plasma treatment
DOI:10.1063/1.3478840 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Cho, Byungjin;Song, Sunghoon;Ji, Yongsung;Lee, Takhee;
2:20:40 Multilevel charging and discharging mechanisms of nonvolatile memory devices based on nanocomposites consisting of monolayered Au nanoparticles embedded in a polystyrene layer
DOI:10.1063/1.4861928 JN:APPLIED PHYSICS LETTERS PY:2014 TC:5 AU: Yun, Dong Yeol;Lee, Nam Hyun;Kim, Hak Seong;Lee, Sang Wook;Kim, Tae Whan;
2:20:41 An investigation of the electrical transport properties of graphene-oxide thin films
DOI:10.1016/j.matchemphys.2011.10.040 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:47 AU: Venugopal, Gunasekaran;Krishnamoorthy, Karthikeyan;Mohan, Rajneesh;Kim, Sang-Jae;
2:20:42 Electrical Characterization of Unipolar Organic Resistive Memory Devices Scaled Down by a Direct Metal-Transfer Method
DOI:10.1002/adma.201100081 JN:ADVANCED MATERIALS PY:2011 TC:17 AU: Kim, Jin Ju;Cho, Byungjin;Kim, Ki Seok;Lee, Takhee;Jung, Gun Young;
2:20:43 Reduced electron back-injection in Al2O3/AlOx/Al2O3/graphene charge-trap memory devices
DOI:10.1063/1.4770381 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Lee, Sejoon;Song, Emil B.;Kim, Sung Min;Lee, Youngmin;Seo, David H.;Seo, Sunae;Wang, Kang L.;
2:20:44 The application of orthogonal photolithography to micro-scale organic field effect transistors and complementary inverters on flexible substrate
DOI:10.1063/1.4863678 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Jang, Jingon;Song, Younggul;Oh, Hyuntaek;Yoo, Daekyoung;Kim, Dongku;Lee, Hyungwoo;Hong, Seunghun;Lee, Jin-Kyun;Lee, Takhee;
2:20:45 Current conduction and resistive switching characteristics of Sm2O3 and Lu2O3 thin films for low-power flexible memory applications
DOI:10.1063/1.4858417 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Mondal, Somnath;Chueh, Ching-Hao;Pan, Tung-Ming;
2:20:46 Nonvolatile rewritable memory device based on solution-processable graphene/poly(3-hexylthiophene) nanocomposite
DOI:10.1016/j.matchemphys.2013.08.007 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:9 AU: Zhang, Li;Li, Ye;Shi, Jun;Shi, Gaoquan;Cao, Shaokui;
2:20:47 Temperature dependence of resistive switching behaviors in resistive random access memory based on graphene oxide film
DOI:10.1088/0957-4484/25/18/185202 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Yi, Mingdong;Cao, Yong;Ling, Haifeng;Du, Zhuzhu;Wang, Laiyuan;Yang, Tao;Fan, Quli;Xie, Linghai;Huang, Wei;
2:20:48 All-Polymer Bistable Resistive Memory Device Based on Nanoscale Phase-Separated PCBM-Ferroelectric Blends
DOI:10.1002/adfm.201202724 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:24 AU: Khan, M. A.;Bhansali, Unnat S.;Cha, Dongkyu;Alshareef, H. N.;
2:20:49 Transferable and Flexible Label-Like Macromolecular Memory on Arbitrary Substrates with High Performance and a Facile Methodology
DOI:10.1002/adma.201205280 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Lai, Ying-Chih;Hsu, Fang-Chi;Chen, Jian-Yu;He, Jr-Hau;Chang, Ting-Chang;Hsieh, Ya-Ping;Lin, Tai-Yuan;Yang, Ying-Jay;Chen, Yang-Fang;
2:20:50 Photochromic Transduction Layers in Organic Memory Elements
DOI:10.1002/adma.201202186 JN:ADVANCED MATERIALS PY:2013 TC:23 AU: Shallcross, R. Clayton;Zacharias, Philipp;Koehnen, Anne;Koerner, Peter O.;Maibach, Eduard;Meerholz, Klaus;
2:20:51 Graphene Based Non-Volatile Memory Devices
DOI:10.1002/adma.201306041 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Wang, Xiaomu;Xie, Weiguang;Xu, Jian-Bin;
2:20:52 Unravelling the Nature of Unipolar Resistance Switching in Organic Devices by Utilizing the Photovoltaic Effect
DOI:10.1002/adma.201305369 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Nau, Sebastian;Sax, Stefan;List-Kratochvil, Emil J. W.;
2:20:53 Polymer:metal nanoparticle devices with electrode-sensitive bipolar resistive switchings and their application as nonvolatile memory devices
DOI:10.1063/1.3324696 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Ouyang, Jianyong;Yang, Yang;
2:20:54 Charge trapping process of nonvolatile memory devices based on CdTe and CdTe-CdSe core-shell nanoparticles/poly(methylmethacrylate) nanocomposites
DOI:10.1063/1.3596705 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Yun, Dong Yeol;Son, Jung Min;Kim, Tae Whan;Kim, Sung Woo;Kim, Sang Wook;
2:20:55 An investigation on high-temperature electrical transport properties of graphene-oxide nano-thinfilms
DOI:10.1016/j.apsusc.2013.05.089 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Venugopal, Gunasekaran;Krishnamoorthy, Karthikeyan;Kim, Sang-Jae;
2:20:56 Electrical characteristics and carrier transport mechanisms of write-once-read-many-times memory elements based on graphene oxide diodes
DOI:10.1063/1.3639287 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Yi, Mingdong;Zhao, Litao;Fan, Quli;Xia, Xianhai;Ai, Wei;Xie, Linghai;Liu, Xiangmei;Shi, Naien;Wang, Wenjun;Wang, Yanping;Huang, Wei;
2:20:57 Fabrication of micropatterned ferroelectric gamma poly(vinylidene fluoride) film for non-volatile polymer memory
DOI:10.1039/c0jm02732d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Kang, Seok Ju;Bae, Insung;Choi, Ji-Hyuk;Park, Youn Jung;Jo, Pil Sung;Kim, Yuna;Kim, Kap Jin;Myoung, Jae-Min;Kim, Eunkyoung;Park, Cheolmin;
2:20:58 Organic nonvolatile resistive memory devices based on thermally deposited Au nanoparticle
DOI:10.1063/1.4804948 JN:AIP ADVANCES PY:2013 TC:6 AU: Jin, Zhiwen;Liu, Guo;Wang, Jizheng;
2:20:59 Reproducible and controllable organic resistive memory based on Al/poly(3,4-ethylene-dioxythiophene):poly(styrenesulfonate)/Al structure
DOI:10.1063/1.3529455 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Wang, Z. S.;Zeng, F.;Yang, J.;Chen, C.;Yang, Y. C.;Pan, F.;
2:20:60 Focused ion beam and field-emission microscopy of metallic filaments in memory devices based on thin films of an ambipolar organic compound consisting of oxadiazole, carbazole, and fluorene units
DOI:10.1063/1.4808026 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Pearson, Christopher;Bowen, Leon;Lee, Myung-Won;Fisher, Alison L.;Linton, Katharine E.;Bryce, Martin R.;Petty, Michael C.;
2:20:61 Analysis on switching mechanism of graphene oxide resistive memory device
DOI:10.1063/1.3624947 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:21 AU: Hong, Seul Ki;Kim, Ji Eun;Kim, Sang Ouk;Cho, Byung Jin;
2:20:62 Effect of the ZnS shell layer on the charge storage capabilities of organic bistable memory devices fabricated utilizing CuInS2-ZnS core-shell quantum dots embedded in a poly(methylmethacrylate) layer
DOI:10.1016/j.tsf.2013.02.086 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Yun, Dong Yeol;Kim, Tae Whan;Kim, Sang Wook;
2:20:63 Current bistability and carrier transport mechanisms of organic bistable devices based on hybrid Ag nanoparticle-polymethyl methacrylate polymer nanocomposites
DOI:10.1063/1.3453661 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Kim, Won Tae;Jung, Jae Hun;Kim, Tae Whan;Son, Dong Ick;
2:20:64 Low temperature solution-processed graphene oxide/Pr0.7Ca0.3MnO3 based resistive-memory device
DOI:10.1063/1.3617426 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Kim, Insung;Siddik, Manzar;Shin, Jungho;Biju, Kuyyadi P.;Jung, Seungjae;Hwang, Hyunsang;
2:20:65 Thermally Stable Memory Devices Using Graphene Flakes Sandwiched Polymethyl Methacrylate Polymer Layers
DOI:10.1007/s13391-012-2057-3 JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:6 AU: Valanarasu, S.;Kathalingam, A.;Senthilkumar, V.;Kannan, V.;Rhee, J. K.;
2:20:66 Forming free resistive switching in graphene oxide thin film for thermally stable nonvolatile memory applications
DOI:10.1063/1.4823734 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:8 AU: Khurana, Geetika;Misra, Pankaj;Katiyar, Ram S.;
2:20:67 Conductivity enhancement and resistance changes in polymer films filled with reduced graphene oxide
DOI:10.1063/1.4790608 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Okhay, O.;Krishna, R.;Salimian, M.;Titus, E.;Gracio, J.;Guerra, L. M.;Ventura, J.;
2:20:68 Wrapping Graphene Sheets Around Organic Wires for Making Memory Devices
DOI:10.1002/smll.201100426 JN:SMALL PY:2011 TC:6 AU: Wang, Shuai;Manga, Kiran Kumar;Zhao, Meng;Bao, Qiaoliang;Loh, Kian Ping;
2:20:69 Electrical characteristics of resistive switching memory with metal oxide nanoparticles on a graphene layer
DOI:10.1016/j.tsf.2013.02.111 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Lee, Dong Uk;Kim, Dongwook;Kim, Eun Kyu;Cho, Won-Ju;Kim, Young-Ho;Im, Hyunsik;
2:20:70 Resistive Switching in Bulk Silver Nanowire-Polystyrene Composites
DOI:10.1002/adfm.201001383 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:18 AU: White, Sadie I.;Vora, Patrick M.;Kikkawa, James M.;Winey, Karen I.;
2:20:71 Low-power write-once-read-many-times memory devices
DOI:10.1063/1.3473775 JN:APPLIED PHYSICS LETTERS PY:2010 TC:18 AU: Wang, Jianpu;Gao, Feng;Greenham, Neil C.;
2:20:72 Flexible resistive random access memory using solution-processed TiOx with Al top electrode on Ag layer-inserted indium-zinc-tin-oxide-coated polyethersulfone substrate
DOI:10.1063/1.3621826 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Jung, Seungjae;Kong, Jaemin;Song, Sunghoon;Lee, Kwanghee;Lee, Takhee;Hwang, Hyunsang;Jeon, Sanghun;
2:20:73 Highly reproducible memory effect of organic multilevel resistive-switch device utilizing graphene oxide sheets/polyimide hybrid nanocomposite
DOI:10.1063/1.3619815 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Wu, Chaoxing;Li, Fushan;Zhang, Yongai;Guo, Tailiang;Chen, Ting;
2:20:74 Flexible organic bistable devices based on [6,6]-phenyl-C85 butyric acid methyl ester clusters embedded in a polymethyl methacrylate layer
DOI:10.1063/1.3656968 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Lee, Min Ho;Yun, Dong Yeol;Park, Hun Min;Kim, Tae Whan;
2:20:75 Highly entangled K0.5V2O5 superlong nanobelt membranes for flexible nonvolatile memory devices
DOI:10.1039/c2jm34031c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Xu, Kun;Hu, Shuanglin;Wu, Changzheng;Lin, Chenwen;Lu, Xiuli;Peng, Lele;Yang, Jinlong;Xie, Yi;
2:20:76 Polymer-ultrathin graphite sheet-polymer composite structured flexible nonvolatile bistable organic memory devices
DOI:10.1088/0957-4484/22/29/295203 JN:NANOTECHNOLOGY PY:2011 TC:16 AU: Son, Dong Ick;Shim, Jae Ho;Park, Dong Hee;Jung, Jae Hun;Lee, Jung Min;Il Park, Won;Kim, Tae Whan;Choi, Won Kook;
2:20:77 High-performance nonvolatile write-once-read-many-times memory devices with ZnO nanoparticles embedded in polymethylmethacrylate
DOI:10.1063/1.3665937 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Toan Thanh Dao;Thu Viet Tran;Higashimine, Koichi;Okada, Hiromasa;Mott, Derrick;Maenosono, Shinya;Murata, Hideyuki;
2:20:78 Resistive switching in silver/polystyrene/silver nano-gap devices
DOI:10.1063/1.4831876 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Mutiso, Rose M.;Kikkawa, James M.;Winey, Karen I.;
2:20:79 Graphene-quantum-dot nonvolatile charge-trap flash memories
DOI:10.1088/0957-4484/25/25/255203 JN:NANOTECHNOLOGY PY:2014 TC:4 AU: Joo, Soong Sin;Kim, Jungkil;Kang, Soo Seok;Kim, Sung;Choi, Suk-Ho;Hwang, Sung Won;
2:20:80 Flexible resistive switching memory using inkjet printing of a solid polymer electrolyte
DOI:10.1063/1.4727742 JN:AIP ADVANCES PY:2012 TC:4 AU: Mohapatra, Saumya R.;Tsuruoka, T.;Hasegawa, T.;Terabe, K.;Aono, M.;
2:20:81 Evolution of resistive switching over bias duration of single Ag2S nanowires
DOI:10.1063/1.3432665 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Liao, Zhi-Min;Hou, Chong;Zhang, Hong-Zhou;Wang, Ding-Sheng;Yu, Da-Peng;
2:20:82 Organic bistable memory based on Au nanoparticle/ZnO nanorods composite embedded in poly (vinylpyrrolidone) layer
DOI:10.1063/1.3605596 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Lin, C. W.;Pan, T. S.;Chen, M. C.;Yang, Y. J.;Tai, Y.;Chen, Y. F.;
2:20:83 Non-volatile organic memory devices comprising SiO2 and C-60 showing 10(4) switching cycles
DOI:10.1063/1.4712057 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Siebeneicher, P.;Kleemann, H.;Leo, K.;Luessem, B.;
2:20:84 Efficient tristable resistive memory based on single layer graphene/insulating polymer multi-stacking layer
DOI:10.1063/1.4875596 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wu, Chaoxing;Li, Fushan;Guo, Tailiang;
2:20:85 Pulse widths dependence of programming and erasing behaviors for diamond like carbon based resistive switching memories
DOI:10.1063/1.4898345 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Xu, Jianlong;Xie, Dan;Zhang, Chenhui;Zhang, Xiaowen;Peng, Pinggang;Fu, Di;Qian, He;Ren, Tian-ling;Liu, Litian;
2:20:86 Investigation on the origin of the memory effect in metal/organic semiconductor/metal structures
DOI:10.1063/1.3656432 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Sebastian, P.;Lindner, F.;Walzer, K.;Luessem, B.;Leo, K.;
2:20:87 Flexible conductive-bridging random-access-memory cell vertically stacked with top Ag electrode, PEO, PVK, and bottom Pt electrode
DOI:10.1088/0957-4484/25/43/435204 JN:NANOTECHNOLOGY PY:2014 TC:1 AU: Seung, Hyun-Min;Kwon, Kyoung-Cheol;Lee, Gon-Sub;Park, Jea-Gun;
2:20:88 Resistance Random Access Memory Based on a Thin Film of CdS Nanocrystals Prepared via Colloidal Synthesis
DOI:10.1002/smll.201200488 JN:SMALL PY:2012 TC:3 AU: Ju, Yong Chan;Kim, Seungwook;Seong, Tae-Geun;Nahm, Sahn;Chung, Haegeun;Hong, Kwon;Kim, Woong;
2:20:89 Resistance switching properties of In2O3 nanocrystals memory device with organic and inorganic hybrid structure
DOI:10.1007/s00339-011-6275-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:6 AU: Lee, Dong Uk;Kim, Eun Kyu;Cho, Won-Ju;Kim, Young-Ho;
2:20:90 Electrical properties and switching mechanisms of flexible organic-inorganic bistable devices
DOI:10.1007/s00339-012-7438-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:0 AU: Onlaor, K.;Tunhoo, B.;Thiwawong, T.;Nukeaw, J.;
2:20:91 Transparent, Conductive, and Flexible Graphene Films from Large-Size Graphene Oxide
DOI:10.1080/10584587.2011.576607 JN:INTEGRATED FERROELECTRICS PY:2011 TC:3 AU: Liu, Juqing;Xie, Linghai;Huang, Wei;
2:20:92 Temperature-dependent characteristics of non-volatile transistor memory based on a polypeptide
DOI:10.1039/c3tc31777c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Liang, Lijuan;Fukushima, Tomoo;Nakamura, Kazuki;Uemura, Sei;Kamata, Toshihide;Kobayashi, Norihisa;
2:20:93 Resistive switching of HfO2 based flexible memories fabricated by low temperature atomic layer deposition
DOI:10.1116/1.3694003 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2012 TC:4 AU: Fang, R. C.;Wang, L. H.;Yang, W.;Sun, Q. Q.;Zhou, P.;Wang, P. F.;Ding, S. J.;Zhang, David W.;
2:20:94 Printed flexible memory devices using copper phthalocyanine
DOI:10.1016/j.mseb.2010.01.020 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:17 AU: Lian, Keryn;Li, Rophina;Wang, Hui;Zhang, Jie;Gamota, Daniel;
2:20:95 Electrical bistability in self-assembled hybrid multilayers of phospholipid and nanoparticles
DOI:10.1088/0957-4484/22/31/315303 JN:NANOTECHNOLOGY PY:2011 TC:5 AU: Yuan, Bing;Hu, Shu-Xin;Lu, Nai-Yan;Xu, Fan;Zhou, Kun;Ma, Yu-Qiang;Li, Ming;
2:20:96 Conductance-dependent negative differential resistance in organic memory devices
DOI:10.1063/1.3524263 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: You, Y. T.;Wang, M. L.;Xuxie, H. N.;Wu, B.;Sun, Z. Y.;Hou, X. Y.;
2:20:97 Electrical switching behavior from ultrathin potential barrier of self-assembly molecules tuned by interfacial charge trapping
DOI:10.1063/1.3373611 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Li, Yun;Qiu, Danfeng;Cao, Liqiang;Shao, Chenxu;Pan, Lijia;Pu, Lin;Xu, Jianbin;Shi, Yi;
2:20:98 Modeling the underlying mechanisms for organic memory devices: Tunneling, electron emission, and oxygen adsorbing
DOI:10.1063/1.4731879 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Yao, Yao;You, Yintao;Si, Wei;Wu, Chang-Qin;
2:20:99 Electrical stabilities and memory mechanisms of organic bistable devices fabricated utilizing a poly(3,4-ethylene-dioxythiophene): Poly(styrenesulfonate) layer with a poly(methyl methacrylate) buffer layer
DOI:10.1063/1.4709399 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Son, Jung Min;Song, Woo Seung;Yoo, Chan Ho;Yun, Dong Yeol;Kim, Tae Whan;
2:20:100 Field-induced evolution of metallic nano-tips in indium tin oxide-tris-(8-hydroxyquinoline) aluminum-aluminum device
DOI:10.1063/1.3697829 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: You, Y. T.;Zeng, Q.;Yao, Y.;Wang, M. L.;Wu, B.;He, Y.;Hu, Y. M.;Wu, C. Q.;Hou, X. Y.;
2:20:101 Electrical switching and memory behaviors in organic diodes based on polymer blend films treated by ultraviolet ozone
DOI:10.1063/1.4895122 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Huang, Jinying;Ma, Dongge;
2:20:102 Bias-dependent interface roughening and its effect on electric bistability of organic devices
DOI:10.1063/1.4861622 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zeng, Q.;You, Y. T.;Ye, F. F.;Li, W. B.;Chen, X. Q.;Yu, H. M.;Yang, X. J.;Hou, X. Y.;
2:20:103 Electrical bistability and charge-transport mechanisms in cuprous sulfide nanosphere-poly(N-vinylcarbazole) composite films
DOI:10.1007/s11051-011-0640-4 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:2 AU: Tang, Aiwei;Teng, Feng;Liu, Jie;Wang, Yichao;Peng, Hongshang;Hou, Yanbing;Wang, Yongsheng;
2:20:104 Recoverable electrical transition in a single graphene sheet for application in nonvolatile memories
DOI:10.1063/1.3680093 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Wu, Chaoxing;Li, Fushan;Zhang, Yongai;Guo, Tailiang;
2:20:105 Realization of nonvolatile organic memory device without using semiconductor
DOI:10.1063/1.4861887 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Guo;Jin, Zhiwen;Zhang, Zhi-guo;Wang, Jizheng;
2:20:106 Electrical switching characteristics of organic thin films made from branch chain substituted oligomer as measured by GaIn probe
DOI:10.1016/j.tsf.2011.06.093 JN:THIN SOLID FILMS PY:2011 TC:0 AU: Li, J. C.;Wang, S. S.;Jian, X. H.;Han, N.;Ba, D. C.;
2:20:107 Resistive switching behavior in a Ni-Ag2Se-Ni nanowire
DOI:10.1007/s00339-011-6319-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:6 AU: Lee, N. J.;An, B. H.;Koo, A. Y.;Ji, H. M.;Cho, J. W.;Choi, Y. J.;Kim, Y. K.;Kang, C. J.;
2:20:108 High performance IGZO/TiO2 thin film transistors using Y2O3 buffer layers on polycarbonate substrate
DOI:10.1007/s00339-013-7680-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:4 AU: Hsu, H. H.;Chang, C. Y.;Cheng, C. H.;
2:20:109 High efficiency ultraviolet photovoltaic cells based on ZnO-C-60 core-shell QDs with organic-inorganic multilayer structure
DOI:10.1039/c1jm14555j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Son, Dong Ick;Kwon, Byoung Wook;Do Yang, Jeong;Park, Dong Hee;Angadi, Basavaraj;Choi, Won Kook;
2:20:110 Non-catalytic growth of graphene-like thin film near pattern edges fabricated on SiO2 substrates
DOI:10.1016/j.tsf.2010.02.027 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Suzuki, Satoru;Kobayashi, Yoshihiro;Mizuno, Tomoyuki;Maki, Hideyuki;
2:20:111 Electrical switching behavior from all-polymer-based system of semiconductor/ferroelectrics/semiconductor
DOI:10.1063/1.3584854 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Li, Yun;Liu, Chuan;Pan, Lijia;Pu, Lin;Sirringhaus, Henning;Shi, Yi;
2:20:112 A unified model for unipolar resistive random access memory
DOI:10.1063/1.3688944 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Lee, Kwangseok;Jang, Jung-Shik;Kwon, Yongwoo;Lee, Keun-Ho;Park, Young-Kwan;Choi, Woo Young;
2:20:113 Resistive switching properties of TiO2 film for flexible non-volatile memory applications
DOI:10.1016/j.ceramint.2012.10.171 JN:CERAMICS INTERNATIONAL PY:2013 TC:5 AU: Lin, Chun-Chieh;Liao, Jhih-Wei;Li, Wang-Ying;
2:20:114 A stacked memory device on logic 3D technology for ultra-high-density data storage
DOI:10.1088/0957-4484/22/25/254006 JN:NANOTECHNOLOGY PY:2011 TC:3 AU: Kim, Jiyoung;Hong, Augustin J.;Kim, Sung Min;Shin, Kyeong-Sik;Song, Emil B.;Hwang, Yongha;Xiu, Faxian;Galatsis, Kosmas;Chui, Chi On;Candler, Rob N.;Choi, Siyoung;Moon, Joo-Tae;Wang, Kang L.;
2:21:1 Highly Efficient Tandem Polymer Photovoltaic Cells
DOI:10.1002/adma.200901624 JN:ADVANCED MATERIALS PY:2010 TC:211 AU: Sista, Srinivas;Park, Mi-Hyae;Hong, Ziruo;Wu, Yue;Hou, Jianhui;Kwan, Wei Lek;Li, Gang;Yang, Yang;
2:21:2 10.2% Power Conversion Efficiency Polymer Tandem Solar Cells Consisting of Two Identical Sub-Cells
DOI:10.1002/adma.201300964 JN:ADVANCED MATERIALS PY:2013 TC:210 AU: You, Jingbi;Chen, Chun-Chao;Hong, Ziruo;Yoshimura, Ken;Ohya, Kenichiro;Xu, Run;Ye, Shenglin;Gao, Jing;Li, Gang;Yang, Yang;
2:21:3 Optimizing Polymer Tandem Solar Cells
DOI:10.1002/adma.200902398 JN:ADVANCED MATERIALS PY:2010 TC:127 AU: Gilot, Jan;Wienk, Martijn M.;Janssen, Rene A. J.;
2:21:4 Efficient Organic Tandem Solar Cells based on Small Molecules
DOI:10.1002/adfm.201002760 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:123 AU: Riede, Moritz;Uhrich, Christian;Widmer, Johannes;Timmreck, Ronny;Wynands, David;Schwartz, Gregor;Gnehr, Wolf-Michael;Hildebrandt, Dirk;Weiss, Andre;Hwang, Jaehyung;Sundarraj, Sudhakar;Erk, Peter;Pfeiffer, Martin;Leo, Karl;
2:21:5 A Metal-Oxide Interconnection Layer for Polymer Tandem Solar Cells with an Inverted Architecture
DOI:10.1002/adma.201001033 JN:ADVANCED MATERIALS PY:2011 TC:94 AU: Chou, Cheng-Hsuan;Kwan, Wei Lek;Hong, Ziruo;Chen, Li-Min;Yang, Yang;
2:21:6 A Robust Inter-Connecting Layer for Achieving High Performance Tandem Polymer Solar Cells
DOI:10.1002/adma.201100221 JN:ADVANCED MATERIALS PY:2011 TC:103 AU: Yang, Jun;Zhu, Rui;Hong, Ziruo;He, Youjun;Kumar, Ankit;Li, Yongfang;Yang, Yang;
2:21:7 Organic tandem solar cells with complementary absorbing layers and a high open-circuit voltage
DOI:10.1063/1.3464169 JN:APPLIED PHYSICS LETTERS PY:2010 TC:62 AU: Cheyns, D.;Rand, B. P.;Heremans, P.;
2:21:8 Efficient Inverted Tandem Polymer Solar Cells with a Solution-Processed Recombination Layer
DOI:10.1002/aenm.201100773 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:51 AU: Kouijzer, Sandra;Esiner, Serkan;Frijters, Corne H.;Turbiez, Mathieu;Wienk, Martijn M.;Janssen, Rene A. J.;
2:21:9 Strong Photocurrent Enhancements in Highly Efficient Flexible Organic Solar Cells by Adopting a Microcavity Configuration
DOI:10.1002/adma.201306323 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Chen, Kung-Shih;Yip, Hin-Lap;Salinas, Jose-Francisco;Xu, Yun-Xiang;Chueh, Chu-Chen;Jen, Alex K. -Y.;
2:21:10 High Efficiency Inorganic/Organic Hybrid Tandem Solar Cells
DOI:10.1002/adma.201201419 JN:ADVANCED MATERIALS PY:2012 TC:38 AU: Seo, Ji Hoon;Kim, Dong-Ho;Kwon, Se-Hun;Song, Myungkwan;Choi, Min-Seung;Ryu, Seung Yoon;Lee, Hyung Woo;Park, Yun Chang;Kwon, Jung-Dae;Nam, Kee-Seok;Jeong, Yongsoo;Kang, Jae-Wook;Kim, Chang Su;
2:21:11 An Efficient Solution-Processed Intermediate Layer for Facilitating Fabrication of Organic Multi-Junction Solar Cells
DOI:10.1002/aenm.201300372 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:23 AU: Li, Ning;Baran, Derya;Forberich, Karen;Turbiez, Mathieu;Ameri, Tayebeh;Krebs, Frederik C.;Brabec, Christoph J.;
2:21:12 A universal method to form the equivalent ohmic contact for efficient solution-processed organic tandem solar cells
DOI:10.1039/c4ta03182b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Li, Ning;Stubhan, Tobias;Krantz, Johannes;Machui, Florian;Turbiez, Mathieu;Ameri, Tayebeh;Brabec, Christoph J.;
2:21:13 An Efficient Triple-Junction Polymer Solar Cell Having a Power Conversion Efficiency Exceeding 11%
DOI:10.1002/adma.201402072 JN:ADVANCED MATERIALS PY:2014 TC:137 AU: Chen, Chun-Chao;Chang, Wei-Hsuan;Yoshimura, Ken;Ohya, Kenichiro;You, Jingbi;Gao, Jing;Hong, Zirou;Yang, Yang;
2:21:14 High-Efficiency Polymer Tandem Solar Cells with Three-Terminal Structure
DOI:10.1002/adma.200902750 JN:ADVANCED MATERIALS PY:2010 TC:72 AU: Sista, Srinivas;Hong, Ziruo;Park, Mi-Hyae;Xu, Zheng;Yang, Yang;
2:21:15 Controlled current matching in small molecule organic tandem solar cells using doped spacer layers
DOI:10.1063/1.3277051 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:54 AU: Schueppel, Rico;Timmreck, Ronny;Allinger, Nikola;Mueller, Toni;Furno, Mauro;Uhrich, Christian;Leo, Karl;Riede, Moritz;
2:21:16 Measuring the External Quantum Efficiency of Two-Terminal Polymer Tandem Solar Cells
DOI:10.1002/adfm.201001167 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:45 AU: Gilot, Jan;Wienk, Martijn M.;Janssen, Rene A. J.;
2:21:17 HATCN-based Charge Recombination Layers as Effective Interconnectors for Tandem Organic Solar Cells
DOI:10.1021/am504620x JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Wang, Rong-Bin;Wang, Qian-Kun;Xie, Hao-Jun;Xu, Lu-Hai;Duhm, Steffen;Li, Yan-Qing;Tang, Jian-Xin;
2:21:18 Double junction polymer solar cells
DOI:10.1039/c4ta00470a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Adebanjo, Olusegun;Vaagensmith, Bjorn;Qiao, Qiquan;
2:21:19 Graphene Oxide-Based Carbon Interconnecting Layer for Polymer Tandem Solar Cells
DOI:10.1021/nl4046284 JN:NANO LETTERS PY:2014 TC:13 AU: Chen, Yonghua;Lin, Wei-Chun;Liu, Jun;Dai, Liming;
2:21:20 Inverted tandem organic solar cells with a MoO3/Ag/Al/Ca intermediate layer
DOI:10.1063/1.3469928 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: Sun, X. W.;Zhao, D. W.;Ke, L.;Kyaw, A. K. K.;Lo, G. Q.;Kwong, D. L.;
2:21:21 High-Performance Inverted Tandem Polymer Solar Cells Utilizing Thieno[3,4-c]pyrrole-4,6-dione Copolymer
DOI:10.1021/am5029318 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Yusoff, Abd. Rashid Bin Mohd;Lee, Seung Joo;Kim, Jaeyeon;Shneider, Fabio Kurt;da Silva, Wilson Jose;Jang, Jin;
2:21:22 Design of the Solution-Processed Intermediate Layer by Engineering for Inverted Organic Multi junction Solar Cells
DOI:10.1002/aenm.201200659 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:27 AU: Li, Ning;Stubhan, Tobias;Baran, Derya;Min, Jie;Wang, Haiqiao;Ameri, Tayebeh;Brabec, Christoph J.;
2:21:23 Environmentally Printing Efficient Organic Tandem Solar Cells with High Fill Factors: A Guideline Towards 20% Power Conversion Efficiency
DOI:10.1002/aenm.201400084 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:18 AU: Li, Ning;Baran, Derya;Spyropoulos, George D.;Zhang, Hong;Berny, Stephane;Turbiez, Mathieu;Ameri, Tayebeh;Krebs, Frederik C.;Brabec, Christoph J.;
2:21:24 Fluorinated Zinc Phthalocyanine as Donor for Efficient Vacuum-Deposited Organic Solar Cells
DOI:10.1002/adfm.201101799 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:23 AU: Meiss, Jan;Merten, Andre;Hein, Moritz;Schuenemann, Christoph;Schaefer, Stefan;Tietze, Max;Uhrich, Christian;Pfeiffer, Martin;Leo, Karl;Riede, Moritz;
2:21:25 Microcavity-Enhanced Light-Trapping for Highly Efficient Organic Parallel Tandem Solar Cells
DOI:10.1002/adma.201402782 JN:ADVANCED MATERIALS PY:2014 TC:14 AU: Zuo, Lijian;Chueh, Chu-Chen;Xu, Yun-Xiang;Chen, Kung-Shih;Zang, Yue;Li, Chang-Zhi;Chen, Hongzheng;Jen, Alex K-Y;
2:21:26 High-efficiency inverted tandem polymer solar cells with step-Al-doped MoO3 interconnection layer
DOI:10.1016/j.solmat.2013.06.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Liu, Jian;Shao, Shuyan;Fang, Gang;Wang, Jiantai;Meng, Bin;Xie, Zhiyuan;Wang, Lixiang;
2:21:27 Optimization of inverted tandem organic solar cells
DOI:10.1016/j.solmat.2010.11.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:25 AU: Zhao, D. W.;Ke, L.;Li, Y.;Tan, S. T.;Kyaw, A. K. K.;Demir, H. V.;Sun, X. W.;Carroll, D. L.;Lo, G. Q.;Kwong, D. L.;
2:21:28 Design of intermediate layers for solution-processed tandem organic solar cells: Guidelines from a case study on TiOx and ZnO
DOI:10.1016/j.solmat.2013.08.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Lechene, Balthazar;Perrier, Gerard;Emmanouil, Konstantinos;Kennou, Stella;Bouthinon, Benjamin;de Bettignies, Remi;
2:21:29 An efficient interconnection unit composed of electron-transporting layer/metal/p-doped hole-transporting layer for tandem organic photovoltaics
DOI:10.1063/1.4807918 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Shim, Hyun-Sub;Kim, Sei-Yong;Kim, Ji Whan;Kim, Tae-Min;Lee, Chang-Heon;Kim, Jang-Joo;
2:21:30 Efficient hybrid inorganic/organic tandem solar cells with tailored recombination contacts
DOI:10.1016/j.solmat.2014.04.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Albrecht, Steve;Grootoonk, Bjorn;Neubert, Sebastian;Roland, Steffen;Wordenweber, Jan;Meier, Matthias;Schlatmann, Rutger;Gordijn, Aad;Neher, Dieter;
2:21:31 Towards large-scale production of solution-processed organic tandem modules based on ternary composites: Design of the intermediate layer, device optimization and laser based module processing
DOI:10.1016/j.solmat.2013.09.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:15 AU: Li, Ning;Kubis, Peter;Forberich, Karen;Ameri, Tayebeh;Krebs, Frederik C.;Brabec, Christoph J.;
2:21:32 High work function transparent middle electrode for organic tandem solar cells
DOI:10.1063/1.3387863 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Moet, D. J. D.;de Bruyn, P.;Blom, P. W. M.;
2:21:33 Role of transition metal oxides in the charge recombination layer used in tandem organic photovoltaic cells
DOI:10.1039/c2jm30272a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Li, Jian;Bao, Qin-Ye;Wei, Huai-Xin;Xu, Zai-Quan;Yang, Jin-Peng;Li, Yan-Qing;Lee, Shuit-Tong;Tang, Jian-Xin;
2:21:34 Graphene Intermediate Layer in Tandem Organic Photovoltaic Cells
DOI:10.1002/adfm.201101376 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:21 AU: Tong, Shi Wun;Wang, Yu;Zheng, Yi;Ng, Man-Fai;Loh, Kian Ping;
2:21:35 8.91% Power Conversion Efficiency for Polymer Tandem Solar Cells
DOI:10.1002/adfm.201303471 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:15 AU: Yusoff, Abd Rashid bin Mohd;Lee, Seung Joo;Kim, Hyeong Pil;Shneider, Fabio Kurt;da Silva, Wilson Jose;Jang, Jin;
2:21:36 Indium Tin Oxide-Free Tandem Polymer Solar Cells on Opaque Substrates with Top Illumination
DOI:10.1021/am503267e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Gupta, Dhritiman;Wienk, Martijn M.;Janssen, Rene A. J.;
2:21:37 High efficiency organic/a-Si hybrid tandem solar cells with complementary light absorption
DOI:10.1039/c4ta02690j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Qin, Wei;Yu, Wei;Zi, Wei;Liu, Xiang;Yuan, Tao;Yang, Dong;Wang, Shubo;Tu, Guoli;Zhang, Jian;Liu, Frank S.;Li, Can;
2:21:38 Solution processed inverted tandem polymer solar cells with self-assembled monolayer modified interfacial layers
DOI:10.1063/1.3530431 JN:APPLIED PHYSICS LETTERS PY:2010 TC:20 AU: Hau, Steven K.;Yip, Hin-Lap;Chen, Kung-Shih;Zou, Jingyu;Jen, Alex K. -Y.;
2:21:39 Maximizing the open-circuit voltage of polymer: Fullerene solar cells
DOI:10.1063/1.3480598 JN:APPLIED PHYSICS LETTERS PY:2010 TC:23 AU: Bijleveld, J. C.;Verstrijden, R. A. M.;Wienk, M. M.;Janssen, R. A. J.;
2:21:40 Highly doped layers as efficient electron-hole recombination contacts for tandem organic solar cells
DOI:10.1063/1.3467786 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:30 AU: Timmreck, Ronny;Olthof, Selina;Leo, Karl;Riede, Moritz K.;
2:21:41 Structure induced conductivity enhancement in metal-doped molybdenum oxide thin films
DOI:10.1063/1.4789352 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Cheyns, David;Kam, Benjamin;Vasseur, Karolien;Heremans, Paul;Rand, Barry P.;
2:21:42 Correlation of the electronic structure of an interconnection unit with the device performance of tandem organic solar cells
DOI:10.1039/c3ta14628f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Shim, Hyun-Sub;Chang, Jung-Hung;Yoo, Seung-Jun;Wu, Chih-I.;Kim, Jang-Joo;
2:21:43 Solution-Processed Parallel Tandem Polymer Solar Cells Using Silver Nanowires as Intermediate Electrode
DOI:10.1021/nn505559w JN:ACS NANO PY:2014 TC:6 AU: Guo, Fei;Kubis, Peter;Li, Ning;Przybilla, Thomas;Matt, Gebhard;Stubhan, Tobias;Ameri, Tayebeh;Butz, Benjamin;Spiecker, Erdmann;Forberich, Karen;Brabec, Christoph J.;
2:21:44 A nanocomposite interconnecting layer for tandem small molecular organic photovoltaic cells
DOI:10.1063/1.4869354 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Luo, D. Y.;Yu, L. M.;Man, J. X.;Liu, Z.;Lu, Z. H.;
2:21:45 Selective absorption enhancement in organic solar cells using light incoupling layers
DOI:10.1063/1.3311559 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:24 AU: Meiss, Jan;Furno, Mauro;Pfuetzner, Steffen;Leo, Karl;Riede, Moritz;
2:21:46 Studies of the optimization of recombination layers for inverted tandem polymer solar cells
DOI:10.1016/j.solmat.2012.08.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Shim, Jae Won;Zhou, Yinhua;Fuentes-Hernandez, Canek;Dindar, Amir;Guan, Zelei;Cheun, Hyeunseok;Kahn, Antoine;Kippelen, Bernard;
2:21:47 Impact of unbalanced charge transport on the efficiency of normal and inverted solar cells
DOI:10.1063/1.3663860 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Kotlarki, J. D.;Blom, P. W. M.;
2:21:48 Highly efficient semitransparent tandem organic solar cells with complementary absorber materials
DOI:10.1063/1.3610551 JN:APPLIED PHYSICS LETTERS PY:2011 TC:23 AU: Meiss, Jan;Menke, Torben;Leo, Karl;Uhrich, Christian;Gnehr, Wolf-Michael;Sonntag, Stefan;Pfeiffer, Martin;Riede, Moritz;
2:21:49 Microcavity tandem solar cells with a short circuit current higher than single cells
DOI:10.1016/j.solmat.2013.02.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Lee, Yang-Eun;Kim, Sei-Yong;Jeong, Won-Ik;Kim, Jang-Joo;
2:21:50 Reversed organic-inorganic hybrid tandem solar cells for improved interfacial series resistances and balanced photocurrents
DOI:10.1016/j.synthmet.2013.05.002 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Kim, Taehee;Kim, Youn-Su;Choi, Jin Young;Jeon, Jun Hong;Park, Won Woong;Moon, Sun Woo;Kim, Sung-Min;Han, Seunghee;Kim, BongSoo;Lee, Doh-Kwon;Kim, Honggon;Kim, Jin Young;Ko, Min Jae;Kim, Kyungkon;
2:21:51 Tetrapropyl-tetraphenyl-diindenoperylene derivative as a green absorber for high-voltage stable organic solar cells
DOI:10.1103/PhysRevB.83.165305 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Meiss, Jan;Hermenau, Martin;Tress, Wolfgang;Schuenemann, Christoph;Selzer, Franz;Hummert, Markus;Alex, Joerg;Lackner, Gerhard;Leo, Karl;Riede, Moritz;
2:21:52 A Depletion-Free, Ionic, Self-Assembled Recombination Layer for Tandem Polymer Solar Cells
DOI:10.1002/aenm.201301226 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:7 AU: Lee, Jinho;Kang, Hongkyu;Kong, Jaemin;Lee, Kwanghee;
2:21:53 Air stable hybrid inverted tandem solar cell design
DOI:10.1063/1.3622119 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Liu, Feng;Nunzi, Jean-Michel;
2:21:54 Ultra-High Voltage Multijunction Organic Solar Cells for Low-Power Electronic Applications
DOI:10.1002/aenm.201200560 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:7 AU: Sullivan, Paul;Schumann, Stefan;Da Campo, Raffaello;Howells, Thomas;Duraud, Amelie;Shipman, Michael;Hatton, Ross A.;Jones, Tim S.;
2:21:55 Triple Junction Polymer Solar Cells for Photoelectrochemical Water Splitting
DOI:10.1002/adma.201300439 JN:ADVANCED MATERIALS PY:2013 TC:20 AU: Esiner, Serkan;van Eersel, Harm;Wienk, Martijn M.;Janssen, Rene A. J.;
2:21:56 Organic-inorganic hybrid tandem multijunction photovoltaics with extended spectral response
DOI:10.1063/1.3580609 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Kim, Taehee;Jeon, Jun Hong;Han, Seunghee;Lee, Doh-Kwon;Kim, Honggon;Lee, Wonmok;Kim, Kyungkon;
2:21:57 Improved organic p-i-n type solar cells with n-doped fluorinated hexaazatrinaphthylene derivatives HATNA-F-6 and HATNA-F-12 as transparent electron transport material
DOI:10.1063/1.4864260 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Selzer, Franz;Falkenberg, Christiane;Hamburger, Manuel;Baumgarten, Martin;Muellen, Klaus;Leo, Karl;Riede, Moritz;
2:21:58 Calcium niobate nanosheets as a novel electron transport material for solution-processed multi-junction polymer solar cells
DOI:10.1039/c2jm33351a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Chang, Lilian;Holmes, Michael A.;Waller, Mollie;Osterloh, Frank E.;Moule, Adam J.;
2:21:59 A transparent conducting oxide as an efficient middle electrode for flexible organic tandem solar cells
DOI:10.1016/j.solmat.2009.11.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:18 AU: Lee, Bong Joon;Kim, Hyo Jung;Jeong, Won-ik;Kim, Jang-Joo;
2:21:60 Inverted Tandem Polymer Solar Cells with Polyethylenimine-Modified MoOX/Al2O3:ZnO Nanolaminate as the Charge Recombination Layers
DOI:10.1002/aenm.201400048 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Shim, Jae Won;Fuentes-Hernandez, Canek;Zhou, Yinhua;Dindar, Amir;Khan, Talha M.;Giordano, Anthony J.;Cheun, Hyeunseok;Yun, Minseong;Marder, Seth R.;Kippelen, Bernard;
2:21:61 Performance of electron beam deposited tungsten doped indium oxide films as anodes in organic solar cells
DOI:10.1016/j.solmat.2011.03.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:8 AU: Hu, Ziyang;Zhang, Jianjun;Chen, Xinliang;Ren, Shirong;Hao, Zhihong;Geng, Xinhua;Zhao, Ying;
2:21:62 Materials and devices design for efficient double junction polymer solar cells
DOI:10.1016/j.solmat.2012.04.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:9 AU: Siddiki, Mahbube Khoda;Venkatesan, Swaminathan;Wang, Mingtai;Qiao, Qiquan;
2:21:63 Current-limiting behavior in multijunction solar cells
DOI:10.1063/1.3596444 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Braun, Avi;Szabo, Nadine;Schwarzburg, Klaus;Hannappel, Thomas;Katz, Eugene A.;Gordon, Jeffrey M.;
2:21:64 Very high open-circuit voltage of 5.89 V in organic solar cells with 10-fold-tandem structure
DOI:10.1063/1.4729009 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Zou, Ye;Deng, Zhenbo;Potscavage, William J.;Hirade, Masaya;Zheng, Yanqiong;Adachi, Chihaya;
2:21:65 Monolithic hybrid tandem solar cells comprising copper indium gallium diselenide and organic subcells
DOI:10.1063/1.4824017 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Reinhard, Manuel;Sonntag, Paul;Eckstein, Ralph;Buerkert, Linda;Bauer, Andreas;Dimmler, Bernhard;Lemmer, Uli;Colsmann, Alexander;
2:21:66 Polymer-based parallel tandem solar cells with a transparent ferroelectric interconnecting layer
DOI:10.1063/1.4866398 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lee, Sang Bong;Yoon, Sung Cheol;Kim, Pan Seok;Park, Sangman;Lim, Jongsun;Yoon, Choon Sup;
2:21:67 Efficiency enhancement of top-emitting organic light-emitting diodes using conversion dyes
DOI:10.1063/1.3656452 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Schwab, Tobias;Thomschke, Michael;Hofmann, Simone;Furno, Mauro;Leo, Karl;Luessem, Bjoern;
2:21:68 Hybrid tandem photovoltaic devices with a transparent conductive interconnecting recombination layer
DOI:10.1016/j.materresbull.2012.04.119 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:8 AU: Kim, Taehee;Choi, Jin Young;Jeon, Jun Hong;Kim, Youn-Su;Kim, Bong-Soo;Lee, Doh-Kwon;Kim, Honggon;Han, Seunghee;Kim, Kyungkon;
2:21:69 Design of organic tandem solar cells using low- and high-bandgap polymer:fullerene composites
DOI:10.1016/j.solmat.2010.07.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:15 AU: Boland, Patrick;Lee, Keejoo;Dean, James;Namkoong, Gon;
2:21:70 Improved photocurrent by using n-doped 2,3,8,9,14,15-hexachloro-5,6,11,12,17,18-hexaazatrinaphthylene as optical spacer layer in p-i-n type organic solar cells
DOI:10.1063/1.3664828 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Falkenberg, Christiane;Leo, Karl;Riede, Moritz K.;
2:21:71 On the fabrication of crystalline C-60 nanorod transistors from solution
DOI:10.1088/0957-4484/23/34/344015 JN:NANOTECHNOLOGY PY:2012 TC:9 AU: Larsen, Christian;Barzegar, Hamid Reza;Nitze, Florian;Wagberg, Thomas;Edman, Ludvig;
2:21:72 A hybrid tandem solar cell based on hydrogenated amorphous silicon and dye-sensitized TiO2 film
DOI:10.1016/j.tsf.2011.08.061 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Hao, Sancun;Wu, Jihuai;Sun, Zhonglin;
2:21:73 Alcohol-induced decomposition of Olmstead's crystalline Ag(I)-fullerene heteronanostructure yields 'bucky cubes'
DOI:10.1039/c2tc00449f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Shrestha, Lok Kumar;Sathish, Marappan;Hill, Jonathan P.;Miyazawa, Kun'ichi;Tsuruoka, Tohru;Sanchez-Ballester, Noelia M.;Honma, Itaru;Ji, Qingmin;Ariga, Katsuhiko;
2:21:74 Experimental and simulation analysis of the dye sensitized solar cell/Cu(In,Ga)Se-2 solar cell tandem structure
DOI:10.1016/j.solmat.2010.05.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:11 AU: Wang, W. L.;Lin, H.;Zhang, J.;Li, X.;Yamada, A.;Konagai, M.;Li, J. B.;
2:21:75 Enhanced performance of polymer solar cells with imprinted nanostructures on the active layer
DOI:10.1016/j.tsf.2014.05.039 JN:THIN SOLID FILMS PY:2014 TC:4 AU: Chen, Bo-Cheng;Cheng, Yu-Shun;Gau, Chie;Lee, Yung-Chun;
2:21:76 Efficiency enhancement in organic solar cells with ferroelectric polymers
DOI:10.1038/NMAT2951 JN:NATURE MATERIALS PY:2011 TC:176 AU: Yuan, Yongbo;Reece, Timothy J.;Sharma, Pankaj;Poddar, Shashi;Ducharme, Stephen;Gruverman, Alexei;Yang, Yang;Huang, Jinsong;
2:21:77 Efficiency improvement of organic solar cells with imprint of nanostructures by capillary force lithography
DOI:10.1016/j.solmat.2013.09.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Cheng, Yu-Shun;Gau, Chie;
2:21:78 Effects of ultraviolet and heat treatment on the performance of photovoltaic cells with vinyl-based conjugated polymers
DOI:10.1016/j.synthmet.2010.11.041 JN:SYNTHETIC METALS PY:2011 TC:1 AU: Deng, Xian-Yu;Yu, Jie;Wong, King-Young;
2:21:79 An External Quantum Efficiency Technique to Directly Observe Current Balancing in Tandem Organic Photovoltaics
DOI:10.1002/aenm.201100462 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:3 AU: Howells, Thomas;New, Edward;Sullivan, Paul;Jones, Tim S.;
2:21:80 Highly efficient semitransparent tandem organic solar cells with complementary absorber materials (vol 99, 043301, 2011)
DOI:10.1063/1.3679552 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Meiss, Jan;Menke, Torben;Leo, Karl;Uhrich, Christian;Gnehr, Wolf-Michael;Sonntag, Stefan;Pfeiffer, Martin;Riede, Moritz;
2:21:81 Tetrabutyl-tetraphenyl-diindenoperylene derivatives as alternative green donor in bulk heterojunction organic solar cells
DOI:10.1016/j.solmat.2010.09.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:5 AU: Meiss, Jan;Hummert, Markus;Petrich, Annette;Pfuetzner, Steffen;Leo, Karl;Riede, Moritz;
2:21:82 Surfactant-Assisted Assembly of Fullerene (C-60) Nanorods and Nanotubes Formed at a Liquid-Liquid Interface
DOI:10.1021/la304549v JN:LANGMUIR PY:2013 TC:9 AU: Shrestha, Lok Kumar;Hill, Jonathan P.;Tsuruoka, Tohru;Miyazawa, Kun'ichi;Ariga, Katsuhiko;
2:22:1 Ideal diode equation for organic heterojunctions. I. Derivation and application
DOI:10.1103/PhysRevB.82.155305 JN:PHYSICAL REVIEW B PY:2010 TC:91 AU: Giebink, N. C.;Wiederrecht, G. P.;Wasielewski, M. R.;Forrest, S. R.;
2:22:2 Co-Evaporated Bulk Heterojunction Solar Cells with > 6.0% Efficiency
DOI:10.1002/adma.201200234 JN:ADVANCED MATERIALS PY:2012 TC:83 AU: Chen, Guo;Sasabe, Hisahiro;Wang, Zhongqiang;Wang, Xiao-Feng;Hong, Ziruo;Yang, Yang;Kido, Junji;
2:22:3 Bulk Heterojunction Photovoltaic Cells with Low Donor Concentration
DOI:10.1002/adma.201102173 JN:ADVANCED MATERIALS PY:2011 TC:81 AU: Zhang, Minlu;Wang, Hui;Tian, Hongkun;Geng, Yanhou;Tang, Ching W.;
2:22:4 A hybrid planar-mixed tetraphenyldibenzoperiflanthene/C-70 photovoltaic cell
DOI:10.1063/1.4793195 JN:APPLIED PHYSICS LETTERS PY:2013 TC:34 AU: Xiao, Xin;Zimmerman, Jeramy D.;Lassiter, Brian E.;Bergemann, Kevin J.;Forrest, Stephen R.;
2:22:5 Independent Control of Bulk and Interfacial Morphologies of Small Molecular Weight Organic Heterojunction Solar Cells
DOI:10.1021/nl302172w JN:NANO LETTERS PY:2012 TC:55 AU: Zimmerman, Jeramy D.;Xiao, Xin;Renshaw, Christopher Kyle;Wang, Siyi;Diev, Vyacheslav V.;Thompson, Mark E.;Forrest, Stephen R.;
2:22:6 Tuning the Energy Level Offset between Donor and Acceptor with Ferroelectric Dipole Layers for Increased Efficiency in Bilayer Organic Photovoltaic Cells
DOI:10.1002/adma.201104509 JN:ADVANCED MATERIALS PY:2012 TC:41 AU: Yang, Bin;Yuan, Yongbo;Sharma, Pankaj;Poddar, Shashi;Korlacki, Rafal;Ducharme, Stephen;Gruverman, Alexei;Saraf, Ravi F.;Huang, Jinsong;
2:22:7 Cascade Organic Solar Cells
DOI:10.1021/cm200525h JN:CHEMISTRY OF MATERIALS PY:2011 TC:42 AU: Schlenker, Cody W.;Barlier, Vincent S.;Chin, Stephanie W.;Whited, Matthew T.;McAnally, R. Eric;Forrest, Stephen R.;Thompson, Mark E.;
2:22:8 Thermodynamic efficiency limit of excitonic solar cells
DOI:10.1103/PhysRevB.83.195326 JN:PHYSICAL REVIEW B PY:2011 TC:43 AU: Giebink, Noel C.;Wiederrecht, Gary P.;Wasielewski, Michael R.;Forrest, Stephen R.;
2:22:9 Small-Molecule Photovoltaics Based on Functionalized Squaraine Donor Blends
DOI:10.1002/adma.201104261 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Xiao, Xin;Wei, Guodan;Wang, Siyi;Zimmerman, Jeramy D.;Renshaw, Christopher K.;Thompson, Mark E.;Forrest, Stephen R.;
2:22:10 Solution-Processed Fullerene-Based Organic Schottky Junction Devices for Large-Open-Circuit-Voltage Organic Solar Cells
DOI:10.1002/adma.201203080 JN:ADVANCED MATERIALS PY:2013 TC:30 AU: Yang, Bin;Guo, Fawen;Yuan, Yongbo;Xiao, Zhengguo;Lu, Yunzhang;Dong, Qingfeng;Huang, Jinsong;
2:22:11 Organic Schottky barrier photovoltaic cells based on MoOx/C-60
DOI:10.1063/1.3415497 JN:APPLIED PHYSICS LETTERS PY:2010 TC:63 AU: Zhang, Minlu;Irfan;Ding, Huanjun;Gao, Yongli;Tang, C. W.;
2:22:12 Chloroboron subphthalocyanine/C60 planar heterojunction organic solar cell with N,N-dicarbazolyl-3,5-benzene blocking layer
DOI:10.1016/j.solmat.2013.12.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:10 AU: Lin, Chi-Feng;Nichols, Valerie M.;Cheng, Yung-Chih;Bardeen, Christopher J.;Wei, Mau-Kuo;Liu, Shun-Wei;Lee, Chih-Chien;Su, Wei-Cheng;Chiu, Tien-Lung;Han, Hsieh-Cheng;Chen, Li-Chyong;Chen, Chin-Ti;Lee, Jiun-Haw;
2:22:13 Efficient Small-Molecule Photovoltaic Cells Using a Crystalline Diindenoperylene Film as a Nanostructured Template
DOI:10.1002/adma.201302167 JN:ADVANCED MATERIALS PY:2013 TC:15 AU: Zhou, Ying;Taima, Tetsuya;Kuwabara, Takayuki;Takahashi, Kohshin;
2:22:14 Ideal diode equation for organic heterojunctions. II. The role of polaron pair recombination
DOI:10.1103/PhysRevB.82.155306 JN:PHYSICAL REVIEW B PY:2010 TC:35 AU: Giebink, N. C.;Lassiter, B. E.;Wiederrecht, G. P.;Wasielewski, M. R.;Forrest, S. R.;
2:22:15 Functionalized Squaraine Donors for Nanocrystalline Organic Photovoltaics
DOI:10.1021/nn204676j JN:ACS NANO PY:2012 TC:40 AU: Wei, Guodan;Xiao, Xin;Wang, Siyi;Sun, Kai;Bergemann, Kevin J.;Thompson, Mark E.;Forrest, Stephen R.;
2:22:16 Photoconductivity of C60 as an Origin of Bias-Dependent Photocurrent in Organic Photovoltaics
DOI:10.1002/adfm.201200069 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:25 AU: Jeong, Won-Ik;Lee, Yang Eun;Shim, Hyun-Sub;Kim, Tae-Min;Kim, Sei-Yong;Kim, Jang-Joo;
2:22:17 Organic photovoltaics incorporating electron conducting exciton blocking layers
DOI:10.1063/1.3598426 JN:APPLIED PHYSICS LETTERS PY:2011 TC:32 AU: Lassiter, Brian E.;Wei, Guodan;Wang, Siyi;Zimmerman, Jeramy D.;Diev, Viacheslav V.;Thompson, Mark E.;Forrest, Stephen R.;
2:22:18 Tandem organic photovoltaics using both solution and vacuum deposited small molecules
DOI:10.1063/1.4742921 JN:APPLIED PHYSICS LETTERS PY:2012 TC:34 AU: Lassiter, Brian E.;Zimmerman, Jeramy D.;Panda, Anurag;Xiao, Xin;Forrest, Stephen R.;
2:22:19 Decreased Recombination Through the Use of a Non-Fullerene Acceptor in a 6.4% Efficient Organic Planar Heterojunction Solar Cell
DOI:10.1002/aenm.201301413 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:14 AU: Verreet, Bregt;Cnops, Kjell;Cheyns, David;Heremans, Paul;Stesmans, Andre;Zango, German;Claessens, Christian G.;Torres, Tomas;Rand, Barry P.;
2:22:20 Efficient Organic Photovoltaic Cells Based on Nanocrystalline Mixtures of Boron Subphthalocyanine Chloride and C60
DOI:10.1002/adfm.201101948 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:62 AU: Pandey, Richa;Gunawan, Aloysius A.;Mkhoyan, K. Andre;Holmes, Russell J.;
2:22:21 Efficient, bulk heterojunction organic photovoltaic cells based on boron subphthalocyanine chloride-C-70
DOI:10.1063/1.4737902 JN:APPLIED PHYSICS LETTERS PY:2012 TC:23 AU: Pandey, Richa;Zou, Yunlong;Holmes, Russell J.;
2:22:22 Improved cathode buffer layer to decrease exciton recombination in organic planar heterojunction solar cells
DOI:10.1063/1.4789852 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Verreet, Bregt;Malinowski, Pawel E.;Niesen, Bjoern;Cheyns, David;Heremans, Paul;Stesmans, Andre;Rand, Barry P.;
2:22:23 Halogenated Boron Subphthalocyanines as Light Harvesting Electron Acceptors in Organic Photovoltaics
DOI:10.1002/aenm.201100036 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:53 AU: Sullivan, Paul;Duraud, Amelie;Hancox, Ian;Beaumont, Nicola;Mirri, Giorgio;Tucker, James H. R.;Hatton, Ross A.;Shipman, Michael;Jones, Tim S.;
2:22:24 Investigation of Energy Transfer in Organic Photovoltaic Cells and Impact on Exciton Diffusion Length Measurements
DOI:10.1002/adfm.201001928 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:53 AU: Luhman, Wade A.;Holmes, Russell J.;
2:22:25 High-efficiency simple planar heterojunction organic thin-film photovoltaics with horizontally oriented amorphous donors
DOI:10.1016/j.solmat.2011.10.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:32 AU: Yokoyama, Daisuke;Wang, Zhong Qiang;Pu, Yong-Jin;Kobayashi, Kenta;Kido, Junji;Hong, Ziruo;
2:22:26 Control of Interface Order by Inverse Quasi-Epitaxial Growth of Squaraine/Fullerene Thin Film Photovoltaics
DOI:10.1021/nn403897d JN:ACS NANO PY:2013 TC:26 AU: Zimmerman, Jeramy D.;Lassiter, Brian E.;Xiao, Xin;Sun, Kai;Dolocan, Andrei;Gearba, Raluca;Vanden Bout, David A.;Stevenson, Keith J.;Wickramasinghe, Piyumie;Thompson, Mark E.;Forrest, Stephen R.;
2:22:27 Graded Donor-Acceptor Heterojunctions for Efficient Organic Photovoltaic Cells
DOI:10.1002/adma.201002454 JN:ADVANCED MATERIALS PY:2010 TC:50 AU: Pandey, Richa;Holmes, Russell J.;
2:22:28 Small molecular organic photovoltaic cells with exciton blocking layer at anode interface for improved device performance
DOI:10.1063/1.3650472 JN:APPLIED PHYSICS LETTERS PY:2011 TC:36 AU: Hirade, Masaya;Adachi, Chihaya;
2:22:29 Enhanced photocurrent and open-circuit voltage in a 3-layer cascade organic solar cell
DOI:10.1063/1.4757575 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Cnops, Kjell;Rand, Barry P.;Cheyns, David;Heremans, Paul;
2:22:30 7.9% efficient vapor-deposited organic photovoltaic cells based on a simple bulk heterojunction
DOI:10.1039/c4ta02137a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:11 AU: Zou, Yunlong;Holst, James;Zhang, Yong;Holmes, Russell J.;
2:22:31 Structure and Disorder in Squaraine-C60 Organic Solar Cells: A Theoretical Description of Molecular Packing and Electronic Coupling at the Donor-Acceptor Interface
DOI:10.1002/adfm.201303941 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Fu, Yao-Tsung;da Silva Filho, Demetrio A.;Sini, Gjergji;Asiri, Abdullah M.;Aziz, Saadullah Gary;Risko, Chad;Bredas, Jean-Luc;
2:22:32 Suppressing Recombination in Polymer Photovoltaic Devices via Energy-Level Cascades
DOI:10.1002/adma.201300243 JN:ADVANCED MATERIALS PY:2013 TC:15 AU: Tan, Zhi-Kuang;Johnson, Kerr;Vaynzof, Yana;Bakulin, Artem A.;Chua, Lay-Lay;Ho, Peter K. H.;Friend, Richard H.;
2:22:33 Optical and electrical properties of a squaraine dye in photovoltaic cells
DOI:10.1063/1.4747623 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Chen, Guo;Yokoyama, Daisuke;Sasabe, Hisahiro;Hong, Ziruo;Yang, Yang;Kido, Junji;
2:22:34 Reduction of open circuit voltage loss in a polymer photovoltaic cell via interfacial molecular design: Insertion of a molecular spacer
DOI:10.1063/1.4831974 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Bilby, David;Amonoo, Jojo;Sykes, Matthew E.;Frieberg, Bradley;Huang, Bingyuan;Hungerford, Julian;Shtein, Max;Green, Peter;Kim, Jinsang;
2:22:35 Recovering lost excitons in organic photovoltaics using a transparent dissociation layer
DOI:10.1063/1.4807416 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:13 AU: Barito, A.;Sykes, M. E.;Bilby, D.;Amonoo, J.;Jin, Y.;Morris, S. E.;Green, P. F.;Kim, J.;Shtein, M.;
2:22:36 Small-Molecule Planar-Mixed Heterojunction Photovoltaic Cells with Fullerene-Based Electron Filtering Buffers
DOI:10.1002/aenm.201301557 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:14 AU: Xiao, Xin;Bergemann, Kevin J.;Zimmerman, Jeramy D.;Lee, Kyusang;Forrest, Stephen R.;
2:22:37 Chemical Annealing of Zinc Tetraphenylporphyrin Films: Effects on Film Morphology and Organic Photovoltaic Performance
DOI:10.1021/cm3012777 JN:CHEMISTRY OF MATERIALS PY:2012 TC:10 AU: Trinh, Cong;Whited, Matthew T.;Steiner, Andrew;Tassone, Christopher J.;Toney, Michael F.;Thompson, Mark E.;
2:22:38 Universal Design Principles for Cascade Heterojunction Solar Cells with High Fill Factors and Internal Quantum Efficiencies Approaching 100%
DOI:10.1002/aenm.201400216 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Barito, Adam;Sykes, Matthew E.;Huang, Bingyuan;Bilby, David;Frieberg, Bradley;Kim, Jinsang;Green, Peter F.;Shtein, Max;
2:22:39 Photoconductivity in donor-acceptor heterojunction organic photovoltaics
DOI:10.1103/PhysRevB.86.085324 JN:PHYSICAL REVIEW B PY:2012 TC:11 AU: Renshaw, C. K.;Zimmerman, J. D.;Lassiter, B. E.;Forrest, S. R.;
2:22:40 Effect of Mixed Layer Crystallinity on the Performance of Mixed Heterojunction Organic Photovoltaic Cells
DOI:10.1002/adma.201305099 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Song, Byeongseop;Rolin, Cedric;Zimmerman, Jeramy D.;Forrest, Stephen R.;
2:22:41 Direct Observation of Photoinduced Bound Charge-Pair States at an Organic-Inorganic Semiconductor Interface
DOI:10.1103/PhysRevLett.108.246605 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:18 AU: Vaynzof, Yana;Bakulin, Artem A.;Gelinas, Simon;Friend, Richard H.;
2:22:42 Reducing exciton-polaron annihilation in organic planar heterojunction solar cells
DOI:10.1103/PhysRevB.90.115304 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Verreet, Bregt;Bhoolokam, Ajay;Brigeman, Alyssa;Dhanker, Rijul;Cheyns, David;Heremans, Paul;Stesmans, Andre;Giebink, Noel C.;Rand, Barry P.;
2:22:43 Highly efficient bulk heterojunction photovoltaic cell based on tris[4-(5-phenylthiophen-2-yl)phenyl]amine and C-70 combined with optimized electron transport layer
DOI:10.1063/1.4801954 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Zheng, Yan-qiong;Potscavage, William J., Jr.;Komino, Takeshi;Adachi, Chihaya;
2:22:44 Understanding tandem organic photovoltaic cell performance
DOI:10.1063/1.4807910 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:9 AU: Lassiter, Brian E.;Renshaw, C. Kyle;Forrest, Stephen R.;
2:22:45 High-Efficiency, Vacuum-Deposited, Small-Molecule Organic Tandem and Triple-Junction Photovoltaic Cells
DOI:10.1002/aenm.201400568 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:13 AU: Che, Xiaozhou;Xiao, Xin;Zimmerman, Jeramy D.;Fan, Dejiu;Forrest, Stephen R.;
2:22:46 Characterizing the charge collection efficiency in bulk heterojunction organic photovoltaic cells
DOI:10.1063/1.3686909 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Pandey, Richa;Holmes, Russell J.;
2:22:47 Exciton-blocking phosphonic acid-treated anode buffer layers for organic photovoltaics
DOI:10.1063/1.4844795 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zimmerman, Jeramy D.;Song, Byeongseop;Griffith, Olga;Forrest, Stephen R.;
2:22:48 Accurate spectral response measurements of a complementary absorbing organic tandem cell with fill factor exceeding the subcells
DOI:10.1063/1.4867261 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Cheyns, David;Kim, Minjae;Verreet, Bregt;Rand, Barry P.;
2:22:49 Reducing recombination losses in planar organic photovoltaic cells using multiple step charge separation
DOI:10.1063/1.3585863 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:15 AU: Heidel, T. D.;Hochbaum, D.;Sussman, J. M.;Singh, V.;Bahlke, M. E.;Hiromi, I.;Lee, J.;Baldo, M. A.;
2:22:50 A Fullerene-Based Organic Exciton Blocking Layer with High Electron Conductivity
DOI:10.1021/nl401531t JN:NANO LETTERS PY:2013 TC:23 AU: Bartynski, Andrew N.;Trinh, Cong;Panda, Anurag;Bergemann, Kevin;Lassiter, Brian E.;Zimmerman, Jeramy D.;Forrest, Stephen R.;Thompson, Mark E.;
2:22:51 Understanding the chemical origin of improved thin-film device performance from photodoped ZnO nanoparticles
DOI:10.1016/j.solmat.2014.02.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Morfa, Anthony J.;MacDonald, Brandon I.;Subbiah, Jegadesan;Jasieniak, Jacek J.;
2:22:52 Highly efficient bulk heterojunction photovoltaic cells based on C-70 and tetraphenyldibenzoperiflanthene
DOI:10.1063/1.4801647 JN:APPLIED PHYSICS LETTERS PY:2013 TC:19 AU: Zheng, Yan-qiong;Potscavage, William J., Jr.;Komino, Takeshi;Hirade, Masaya;Adachi, Junji;Adachi, Chihaya;
2:22:53 Crystallinity and Morphology Effects on a Solvent-Processed Solar Cell Using a Triarylamine-Substituted Squaraine
DOI:10.1021/am501965d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Karak, Supravat;Homnick, Paul J.;Della Pelle, Andrea M.;Bae, Youngju;Duzhko, Volodimyr V.;Liu, Feng;Russell, Thomas P.;Lahti, Paul M.;Thayumanavan, S.;
2:22:54 Excited state and charge dynamics of hybrid organic/inorganic heterojunctions. I. Theory
DOI:10.1103/PhysRevB.90.045302 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Renshaw, C. Kyle;Forrest, Stephen R.;
2:22:55 Elucidating the interplay between dark current coupling and open circuit voltage in organic photovoltaics
DOI:10.1063/1.3595679 JN:APPLIED PHYSICS LETTERS PY:2011 TC:19 AU: Erwin, Patrick;Thompson, Mark E.;
2:22:56 Multichromophoric energy sensitization of C-60 for organic photovoltaics
DOI:10.1063/1.4896502 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bartynski, Andrew N.;Cong Trinh;Kirlikovali, Kent O.;Thompson, Mark E.;
2:22:57 Tailored exciton diffusion in organic photovoltaic cells for enhanced power conversion efficiency
DOI:10.1038/NMAT3467 JN:NATURE MATERIALS PY:2013 TC:48 AU: Menke, S. Matthew;Luhman, Wade A.;Holmes, Russell J.;
2:22:58 Controlled growth of dibenzotetraphenylperiflanthene thin films by varying substrate temperature for photovoltaic applications
DOI:10.1016/j.solmat.2011.06.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Zhou, Ying;Taima, Tetsuya;Shibata, Yosei;Miyadera, Tetsuhiko;Yamanari, Toshihiro;Yoshida, Yuji;
2:22:59 Measurement of exciton diffusion lengths in optically thin organic films
DOI:10.1063/1.3668106 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Bergemann, Kevin J.;Forrest, Stephen R.;
2:22:60 Influence of a MoOx interlayer on the open-circuit voltage in organic photovoltaic cells
DOI:10.1063/1.4817075 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Zou, Yunlong;Holmes, Russell J.;
2:22:61 Optical spacing effect in organic photovoltaic cells incorporating a dilute acceptor layer
DOI:10.1063/1.4884384 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Menke, S. Matthew;Lindsay, Christopher D.;Holmes, Russell J.;
2:22:62 Improved Performances in Polymer BHJ Solar Cells Through Frontier Orbital Tuning of Small Molecule Additives in Ternary Blends
DOI:10.1021/am5021759 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Kokil, Akshay;Poe, Ambata M.;Bae, Youngju;Della Pelle, Andrea M.;Homnick, Paul J.;Lahti, Paul M.;Kumar, Jayant;Thayumanavan, S.;
2:22:63 Effect of Ag-doped bathocuproine on the recombination properties of exciton in fullerene
DOI:10.1016/j.jcrysgro.2012.12.126 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:3 AU: Wang, Shenghao;Sakurai, Takeaki;Komatsu, Keiichirou;Akimoto, Katsuhiro;
2:22:64 J-aggregation of a squaraine dye and its application in organic photovoltaic cells
DOI:10.1039/c3tc31243g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Chen, Guo;Sasabe, Hisahiro;Lu, Wei;Wang, Xiao-Feng;Kido, Junji;Hong, Ziruo;Yang, Yang;
2:22:65 Tandem organic photovoltaics incorporating two solution-processed small molecule donor layers
DOI:10.1063/1.4821112 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Lassiter, B. E.;Zimmerman, J. D.;Forrest, S. R.;
2:22:66 Polymer aggregation correlated transition from Schottky-junction to bulk heterojunction organic solar cells
DOI:10.1063/1.4871306 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Yang, Bin;Xiao, Zhengguo;Huang, Jinsong;
2:22:67 Reducing Exciton Binding Energy by Increasing Thin Film Permittivity: An Effective Approach To Enhance Exciton Separation Efficiency in Organic Solar Cells
DOI:10.1021/am402744k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Leblebici, Sibel Y.;Chen, Teresa L.;Oalde-Veasco, Paul;Yang, Wanli;Ma, Biwu;
2:22:68 Efficient Energy Sensitization of C-60 and Application to Organic Photovoltaics
DOI:10.1021/ja4043356 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Trinh, Cong;Kirlikovali, Kent O.;Bartynski, Andrew N.;Tassone, Christopher J.;Toney, Michael F.;Burkhard, George F.;McGehee, Michael D.;Djurovich, Peter I.;Thompson, Mark E.;
2:22:69 Surprisingly High Conductivity and Efficient Exciton Blocking in Fullerene/Wide-Energy-Gap Small Molecule Mixtures
DOI:10.1021/acs.nanolett.5b00908 JN:NANO LETTERS PY:2015 TC:0 AU: Bergemann, Kevin J.;Amonoo, Jojo A.;Song, Byeongseop;Green, Peter F.;Forrest, Stephen R.;
2:22:70 Excited state and charge dynamics of hybrid organic/inorganic heterojunctions. II. Experiment
DOI:10.1103/PhysRevB.90.045303 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Panda, Anurag;Renshaw, C. Kyle;Oskooi, Ardavan;Lee, Kyusang;Forrest, Stephen R.;
2:22:71 Snow cleaning of substrates increases yield of large-area organic photovoltaics
DOI:10.1063/1.4754690 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Wang, Nana;Zimmerman, Jeramy D.;Tong, Xiaoran;Xiao, Xin;Yu, Junsheng;Forrest, Stephen R.;
2:22:72 Detailed balance limit of power conversion efficiency for organic photovoltaics
DOI:10.1063/1.4852676 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Seki, Kazuhiko;Furube, Akihiro;Yoshida, Yuji;
2:22:73 Fullerene derivatives as electron donor for organic photovoltaic cells
DOI:10.1063/1.4830037 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Zhuang, Taojun;Wang, Xiao-Feng;Sano, Takeshi;Hong, Ziruo;Yang, Yang;Kido, Junji;
2:22:74 Fullerene C-70 as a p-type donor in organic photovoltaic cells
DOI:10.1063/1.4894637 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhuang, Taojun;Wang, Xiao-Feng;Sano, Takeshi;Hong, Ziruo;Li, Gang;Yang, Yang;Kido, Junji;
2:22:75 Increased efficiency of low band gap polymer solar cells at elevated temperature and its origins
DOI:10.1063/1.3643450 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Yang, Bin;Cox, James;Yuan, Yongbo;Guo, Fawen;Huang, Jinsong;
2:22:76 Improvement of both efficiency and working lifetime in organic photovoltaic devices by using bathophenanthroline/tin(IV) phthalocyanine dichloride as bilayer exciton blocking layers
DOI:10.1063/1.4729146 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Zhuang, Taojun;Su, Zisheng;Liu, Yadong;Chu, Bei;Li, Wenlian;Wang, Junbo;Jin, Fangming;Yan, Xingwu;Zhao, Bo;Zhang, Feng;Fan, Di;
2:22:77 Exciton Management in Organic Photovoltaic Multidonor Energy Cascades
DOI:10.1021/nl501112z JN:NANO LETTERS PY:2014 TC:15 AU: Griffith, Olga L.;Forrest, Stephen R.;
2:22:78 Reciprocal carrier collection in organic photovoltaics
DOI:10.1103/PhysRevB.84.045315 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Renshaw, C. Kyle;Schlenker, Cody W.;Thompson, Mark E.;Forrest, Stephen R.;
2:22:79 Hole-Transporting Spirothioxanthene Derivatives as Donor Materials for Efficient Small-Molecule-Based Organic Photovoltaic Devices
DOI:10.1021/cm5033699 JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Chan, Chin-Yiu;Wong, Yi-Chun;Chan, Mei-Yee;Cheung, Sin-Hang;So, Shu-Kong;Yam, Vivian Wing-Wah;
2:22:80 Control of interface microscopic processes in organic bilayer structures and their effect on photovoltaic device performance
DOI:10.1063/1.4789622 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Liu, Feilong;Crone, Brian K.;Ruden, P. Paul;Smith, Darryl L.;
2:22:81 Effect of concentration gradients in ZnPc:C-60 bulk heterojunction organic solar cells
DOI:10.1016/j.solmat.2011.06.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Tress, Wolfgang;Leo, Karl;Riede, Moritz;
2:22:82 Comment on "Detailed balance limit of power conversion efficiency for organic photovoltaics" [Appl. Phys. Lett. 103, 253904 (2013)]
DOI:10.1063/1.4870339 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Forrest, S. R.;Giebink, N. C.;
2:22:83 Room Temperature Frenkel-Wannier-Mott Hybridization of Degenerate Excitons in a Strongly Coupled Microcavity
DOI:10.1103/PhysRevLett.112.076401 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:4 AU: Slootsky, Michael;Liu, Xiaoze;Menon, Vinod M.;Forrest, Stephen R.;
2:22:84 Improving an organic photodiode by incorporating a tunnel barrier between the donor and acceptor layers
DOI:10.1063/1.4734505 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Campbell, I. H.;Crone, B. K.;
2:22:85 Improved power conversion efficiency of InP solar cells using organic window layers
DOI:10.1063/1.3549692 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Li, Ning;Lee, Kyusang;Renshaw, Christopher K.;Xiao, Xin;Forrest, Stephen R.;
2:22:86 Response to "Comment on 'Detailed balance limit of power conversion efficiency for organic photovoltaics'" [Appl. Phys. Lett. 104, 146101 (2014)]
DOI:10.1063/1.4870340 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Seki, Kazuhiko;Furube, Akihiro;Yoshida, Yuji;
2:22:87 Hybrid cavity polaritons in a ZnO-perovskite microcavity
DOI:10.1103/PhysRevB.84.195449 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Lanty, G.;Zhang, S.;Lauret, J. S.;Deleporte, E.;Audebert, P.;Bouchoule, S.;Lafosse, X.;Zuniga-Perez, J.;Semond, F.;Lagarde, D.;Medard, F.;Leymarie, J.;
2:22:88 Chloroboron subphthalocyanine/C60 planar heterojunction organic solar cell with N,N-dicarbazolyl-3,5-benzene blocking layer (vol 122, pg 264, 2014)
DOI:10.1016/j.solmat.2014.05.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Lin, Chi-Feng;Nichols, Valerie;Cheng, Yung-Chih;Bardeen, Christopher J.;Wei, Mau-Kuo;Liu, Shun-Wei;Lee, Chih-Chien;Su, Wei-Cheng;Chiu, Tien-Lung;Han, Hsieh-Cheng;Chen, Li-Chyong;Chen, Chin-Ti;Lee, Jiun-Haw;
2:23:1 Optimization and simplification of polymer-fullerene solar cells through polymer and active layer design
DOI:10.1016/j.polymer.2013.07.053 JN:POLYMER PY:2013 TC:41 AU: Khlyabich, Petr P.;Burkhart, Beate;Rudenko, Andrey E.;Thompson, Barry C.;
2:23:2 P3HT:PCBM, Best Seller in Polymer Photovoltaic Research
DOI:10.1002/adma.201100792 JN:ADVANCED MATERIALS PY:2011 TC:388 AU: Minh Trung Dang;Hirsch, Lionel;Wantz, Guillaume;
2:23:3 Efficient Ternary Blend Bulk Heterojunction Solar Cells with Tunable Open-Circuit Voltage
DOI:10.1021/ja205977z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:80 AU: Khlyabich, Petr P.;Burkhart, Beate;Thompson, Barry C.;
2:23:4 Organic Ternary Solar Cells: A Review
DOI:10.1002/adma.201300623 JN:ADVANCED MATERIALS PY:2013 TC:112 AU: Ameri, Tayebeh;Khoram, Parisa;Min, Jie;Brabec, Christoph J.;
2:23:5 Near IR Sensitization of Organic Bulk Heterojunction Solar Cells: Towards Optimization of the Spectral Response of Organic Solar Cells
DOI:10.1002/adfm.200901473 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:125 AU: Koppe, Markus;Egelhaaf, Hans-Joachim;Dennler, Gilles;Scharber, Markus C.;Brabec, Christoph J.;Schilinsky, Pavel;Hoth, Claudia N.;
2:23:6 Effect of Fullerene Tris-adducts on the Photovoltaic Performance of P3HT:Fullerene Ternary Blends
DOI:10.1021/am400695e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Kang, Hyunbum;Kim, Ki-Hyun;Kang, Tae Eui;Cho, Chul-Hee;Park, Sunhee;Yoon, Sung Cheol;Kim, Bumjoon J.;
2:23:7 Ternary Bulk Heterojunction Solar Cells: Addition of Soluble NIR Dyes for Photocurrent Generation beyond 800 nm
DOI:10.1021/am5007172 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Lim, Bogyu;Bloking, Jason T.;Ponec, Andrew;McGehee, Michael D.;Sellinger, Alan;
2:23:8 Performance Enhancement of the P3HT/PCBM Solar Cells through NIR Sensitization Using a Small-Bandgap Polymer
DOI:10.1002/aenm.201200219 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:65 AU: Ameri, Tayebeh;Min, Jie;Li, Ning;Machui, Florian;Baran, Derya;Forster, Michael;Schottler, Kristina J.;Dolfen, Daniel;Scherf, Ullrich;Brabec, Christoph J.;
2:23:9 Selenophene-Thiophene Block Copolymer Solar Cells with Thermostable Nanostructures
DOI:10.1021/nn3021844 JN:ACS NANO PY:2012 TC:35 AU: Gao, Dong;Hollinger, Jon;Seferos, Dwight S.;
2:23:10 Improving the Performance of P3HT-Fullerene Solar Cells with Side-Chain-Functionalized Poly(thiophene) Additives: A New Paradigm for Polymer Design
DOI:10.1021/nn204589u JN:ACS NANO PY:2012 TC:76 AU: Lobez, Jose M.;Andrew, Trisha L.;Bulovic, Vladimir;Swager, Timothy M.;
2:23:11 Selective Dye Loading at the Heterojunction in Polymer/Fullerene Solar Cells
DOI:10.1002/aenm.201100094 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:72 AU: Honda, Satoshi;Ohkita, Hideo;Benten, Hiroaki;Ito, Shinzaburo;
2:23:12 Parallel-like Bulk Heterojunction Polymer Solar Cells
DOI:10.1021/ja211597w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:71 AU: Yang, Liqiang;Zhou, Huaxing;Price, Samuel C.;You, Wei;
2:23:13 Compositional Dependence of the Open-Circuit Voltage in Ternary Blend Bulk Heterojunction Solar Cells Based on Two Donor Polymers
DOI:10.1021/ja302935n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:68 AU: Khlyabich, Petr P.;Burkhart, Beate;Thompson, Barry C.;
2:23:14 Origin of the Tunable Open-Circuit Voltage in Ternary Blend Bulk Heterojunction Organic Solar Cells
DOI:10.1021/ja3112143 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:49 AU: Street, Robert A.;Davies, Daniel;Khlyabich, Petr P.;Burkhart, Beate;Thompson, Barry C.;
2:23:15 A DMF-assisted solution process boosts the efficiency in P3HT:PCBM solar cells up to 5.31%
DOI:10.1088/0957-4484/24/48/484008 JN:NANOTECHNOLOGY PY:2013 TC:8 AU: Cheng, Pei;Li, Yongfang;Zhan, Xiaowei;
2:23:16 Influence of Polymer Compatibility on the Open-Circuit Voltage in Ternary Blend Bulk Heterojunction Solar Cells
DOI:10.1021/am502122a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:22 AU: Khlyabich, Petr P.;Rudenko, Andrey E.;Street, Robert A.;Thompson, Barry C.;
2:23:17 Improved Efficiency of Bulk Heterojunction Polymer Solar Cells by Doping Low-Bandgap Small Molecules
DOI:10.1021/am500074s JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:21 AU: An, Qiaoshi;Zhang, Fujun;Li, Lingliang;Wang, Jian;Zhang, Jian;Zhou, Lingyu;Tang, Weihua;
2:23:18 Improved power conversion efficiency of bulk heterojunction poly(3-hexylthiophene):PCBM photovoltaic devices using small molecule additive
DOI:10.1016/j.solmat.2010.12.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:34 AU: Sharma, S. S.;Sharma, G. D.;Mikroyannidis, J. A.;
2:23:19 Perylene Sensitization of Fullerenes for Improved Performance in Organic Photovoltaics
DOI:10.1002/aenm.201100211 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:28 AU: Hesse, Holger C.;Weickert, Jonas;Hundschell, Christian;Feng, Xinliang;Muellen, Klaus;Nickel, Bert;Mozer, Attila J.;Schmidt-Mende, Lukas;
2:23:20 Complementary Absorbing Star-Shaped Small Molecules for the Preparation of Ternary Cascade Energy Structures in Organic Photovoltaic Cells
DOI:10.1002/adfm.201201913 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:47 AU: Cha, Hyojung;Chung, Dae Sung;Bae, Suk Young;Lee, Min-Jung;An, Tae Kyu;Hwang, Jihun;Kim, Kyung Hwan;Kim, Yun-Hi;Choi, Dong Hoon;Park, Chan Eon;
2:23:21 Influence of a ternary donor material on the morphology of a P3HT:PCBM blend for organic photovoltaic devices
DOI:10.1039/c2jm31882b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:39 AU: Machui, Florian;Rathgeber, Silke;Li, Ning;Ameri, Tayebeh;Brabec, Christoph J.;
2:23:22 A ternary cascade structure enhances the efficiency of polymer solar cells
DOI:10.1039/b918362k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:53 AU: Huang, Jen-Hsien;Velusamy, Marappan;Ho, Kuo-Chuan;Lin, Jiann-Tsuen;Chu, Chih-Wei;
2:23:23 Improving the efficiency of organic solar cell with a novel ambipolar polymer to form ternary cascade structure
DOI:10.1016/j.solmat.2011.05.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:35 AU: Chen, M. C.;Liaw, D. J.;Huang, Y. C.;Wu, H. Y.;Tai, Y.;
2:23:24 A Bifunctional Copolymer Additive to Utilize Photoenergy Transfer and To Improve Hole Mobility for Organic Ternary Bulk-Heterojunction Solar Cell
DOI:10.1021/am501209t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Chi, Cheng-Yu;Chen, Ming-Chung;Liaw, Der-Jang;Wu, Han-Yu;Huang, Ying-Chi;Tai, Yian;
2:23:25 Bis(tri-n-hexylsilyl oxide) Silicon Phthalocyanine: A Unique Additive in Ternary Bulk Heterojunction Organic Photovoltaic Devices
DOI:10.1021/am503038t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Lessard, Benoit H.;Dang, Jeremy D.;Grant, Trevor M.;Gao, Dong;Seferos, Dwight S.;Bender, Timothy P.;
2:23:26 Improvement of photovoltaic performance by ternary blending of amorphous and semi-crystalline polymer analogues with PCBM
DOI:10.1039/c3ta01070h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:22 AU: Kaestner, C.;Rathgeber, S.;Egbe, D. A. M.;Hoppe, H.;
2:23:27 Morphology analysis of near IR sensitized polymer/fullerene organic solar cells by implementing low bandgap heteroanalogue C-/Si-PCPDTBT
DOI:10.1039/c4ta04070h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:7 AU: Ameri, Tayebeh;Khoram, Parisa;Heumueller, Thomas;Baran, Derya;Machui, Florian;Troeger, Anna;Sgobba, Vito;Guldi, Dirk M.;Halik, Marcus;Rathgeber, Silke;Scherf, Ullrich;Brabec, Christoph J.;
2:23:28 Enhanced performance of polymer solar cells through sensitization by a narrow band gap polymer
DOI:10.1016/j.solmat.2013.07.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:24 AU: An, Qiaoshi;Zhang, Fujun;Zhang, Jian;Tang, Weihua;Wang, Zixuan;Li, Lingliang;Xu, Zheng;Teng, Feng;Wang, Yongsheng;
2:23:29 Tunable open-circuit voltage in ternary organic solar cells
DOI:10.1063/1.4761246 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Li, Hui;Zhang, Zhi-Guo;Li, YongFang;Wang, Jizheng;
2:23:30 Two Similar Near-Infrared (IR) Absorbing Benzannulated Aza-BODIPY Dyes as Near-IR Sensitizers for Ternary Solar Cells
DOI:10.1021/am400923b JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Min, Jie;Ameri, Tayebeh;Gresser, Roland;Lorenz-Rothe, Melanie;Baran, Derya;Troeger, Anna;Sgobba, Vito;Leo, Karl;Riede, Moritz;Guldi, Dirk M.;Brabec, Christoph J.;
2:23:31 Determination of phase diagrams of binary and ternary organic semiconductor blends for organic photovoltaic devices
DOI:10.1016/j.solmat.2011.08.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:33 AU: Li, Ning;Machui, Florian;Waller, David;Koppe, Markus;Brabec, Christoph J.;
2:23:32 Enhancing quantum efficiency of parallel-like bulk heterojunction solar cells
DOI:10.1063/1.4821441 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Seo, Ji-Won;Lee, Sang-Hoon;Lee, Jung-Yong;
2:23:33 Doping Poly(3-hexylthiophene) Nanowires with Selenophene Increases the Performance of Polymer-Nanowire Solar Cells
DOI:10.1021/cm501985d JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Yan, Han;Hollinger, Jon;Bridges, Colin R.;McKeown, George R.;Al-Faouri, Tamara;Seferos, Dwight S.;
2:23:34 Mobility and photovoltaic performance studies on polymer blends: effects of side chains volume fraction
DOI:10.1039/c0jm02668a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Adam, Getachew;Pivrikas, Almantas;Ramil, Alberto M.;Tadesse, Sisay;Yohannes, Teketel;Sariciftci, Niyazi S.;Egbe, Daniel A. M.;
2:23:35 Improving efficiencies by modulating the central metal ion in porphyrin-oligothiophene-mediated P3HT/PCBM organic solar cells
DOI:10.1016/j.synthmet.2013.06.013 JN:SYNTHETIC METALS PY:2013 TC:7 AU: Lyons, Dani M.;Kesters, Jurgen;Maes, Wouter;Bielawski, Christopher W.;Sessler, Jonathan L.;
2:23:36 Charge Carrier Dynamics in a Ternary Bulk Heterojunction System Consisting of P3HT, Fullerene, and a Low Bandgap Polymer
DOI:10.1002/aenm.201201076 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:28 AU: Koppe, Markus;Egelhaaf, Hans-Joachim;Clodic, Ewan;Morana, Mauro;Lueer, Larry;Troeger, Anna;Sgobba, Vito;Guldi, Dirk M.;Ameri, Tayebeh;Brabec, Christoph J.;
2:23:37 Improving the efficiency of an organic solar cell by a polymer additive to optimize the charge carriers mobility
DOI:10.1063/1.3664127 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Chen, Ming-Chung;Liaw, Der-Jang;Chen, Wen-Hsiang;Huang, Ying-Chi;Sharma, Jadab;Tai, Yian;
2:23:38 Enhancing the efficiency of low bandgap conducting polymer bulk heterojunction solar cells using P3HT as a morphology control agent
DOI:10.1039/c2ta00990k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:22 AU: Chang, Sheng-Yung;Liao, Hsueh-Chung;Shao, Yu-Tsun;Sung, Yu-Ming;Hsu, Sheng-Hao;Ho, Chun-Chih;Su, Wei-Fang;Chen, Yang-Fang;
2:23:39 Enhancement of ternary blend organic solar cell efficiency using PTB7 as a sensitizer
DOI:10.1016/j.synthmet.2014.03.020 JN:SYNTHETIC METALS PY:2014 TC:6 AU: Lin, Rui;Wright, Matthew;Veettil, Binesh Puthen;Uddin, Ashraf;
2:23:40 Efficient bulk heterojunction solar cells based on low band gap bisazo dyes containing anthracene and/or pyrrole units
DOI:10.1016/j.solmat.2010.08.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:24 AU: Mikroyannidis, J. A.;Tsagkournos, D. V.;Sharma, S. S.;Kumar, Anil;Vijay, Y. K.;Sharma, G. D.;
2:23:41 Triple bulk heterojunctions as means for recovering the microstructure of photoactive layers in organic solar cell devices
DOI:10.1016/j.solmat.2013.08.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Kan, Zhipeng;Colella, Letizia;Canesi, Eleonora V.;Lerario, Giovanni;Kumar, R. Sai Santosh;Bonometti, Valentina;Mussini, Patrizia. R.;Cavallo, Gabriella;Terraneo, Giancarlo;Pattanasattayavong, Pichaya;Anthopoulos, Thomas D.;Bertarelli, Chiara;Keivanidis, Panagiotis E.;
2:23:42 Dipyrrolidinyl-substituted perylene diimide as additive for poly(3-hexylthiophene): [6,6]-Phenyl C61 butyric acid methylester bulk-heterojunction blends
DOI:10.1016/j.tsf.2013.08.106 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Vivo, Paola;Dubey, Rajeev;Lehtonen, Elina;Kivisto, Hannele;Vuorinen, Tommi;Lemmetyinen, Helge;
2:23:43 Ultimate performance of polymer: fullerene bulk heterojunction tandem solar cells
DOI:10.1063/1.3549693 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Kotlarski, J. D.;Blom, P. W. M.;
2:23:44 Ternary Blend Hybrid Solar Cells Incorporating Wide and Narrow Bandgap Polymers
DOI:10.1021/am503311f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Kim, Hyung Do;Ohkita, Hideo;Benten, Hiroaki;Ito, Shinzaburo;
2:23:45 Correlation between polymer architecture, mesoscale structure and photovoltaic performance in side-chain-modified poly(p-arylene-ethynylene)-alt-poly(p-arylene-vinylene): PCBM bulk-heterojunction solar cells
DOI:10.1016/j.polymer.2011.06.008 JN:POLYMER PY:2011 TC:21 AU: Rathgeber, Silke;Perlich, Jan;Kuehnlenz, Florian;Tuerk, Stefan;Egbe, Daniel A. M.;Hoppe, Harald;Gehrke, Rainer;
2:23:46 Improved efficiency of bulk heterojunction poly(3-hexylthiophene):[6,6]-phenyl-C-61-butyric acid methyl ester photovoltaic devices using discotic liquid crystal additives
DOI:10.1063/1.3395391 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Jeong, Seonju;Kwon, Younghwan;Choi, Byeong-Dae;Ade, Harald;Han, Yoon Soo;
2:23:47 Near-IR dye sensitization of polymer blend solar cells
DOI:10.1016/j.polymer.2014.04.045 JN:POLYMER PY:2014 TC:8 AU: Xu, Huajun;Ohkita, Hideo;Hirata, Toshiaki;Benten, Hiroaki;Ito, Shinzaburo;
2:23:48 Extension of Light-Harvesting Area of Bulk-Heterojunction Solar Cells by Cosensitization with Ring-Expanded Metallophthalocyanines Fused with Fluorene Skeletons
DOI:10.1021/am4005896 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Yamamoto, Satoshi;Kimura, Mutsumi;
2:23:49 Solution-processed bulk heterojunction organic solar cells with high polarity small molecule sensitizer
DOI:10.1016/j.solmat.2011.02.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Choi, Jin Woo;Kulshreshtha, Chandramouli;Kennedy, G. P.;Kwon, Jang Hyuk;Jung, Sung-Hyun;Chae, Miyoung;
2:23:50 A squaraine dye as molecular sensitizer for increasing light harvesting in polymer solar cells
DOI:10.1016/j.synthmet.2014.02.018 JN:SYNTHETIC METALS PY:2014 TC:5 AU: Chen, Guo;Sasabe, Hisahiro;Wang, Xiao-Feng;Hong, Ziruo;Kido, Junji;
2:23:51 Near-infrared photoresponse sensitization of solvent additive processed poly(3-hexylthiophene)/fullerene solar cells by a low band gap polymer
DOI:10.1063/1.4742143 JN:APPLIED PHYSICS LETTERS PY:2012 TC:14 AU: Hu, Zhongjian;Tang, Simon;Ahlvers, Anne;Khondaker, Saiful I.;Gesquiere, Andre J.;
2:23:52 Can morphology tailoring based on functionalized fullerene nanostructures improve the performance of organic solar cells?
DOI:10.1039/c2jm33380e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Chen, Lie;Yao, Kai;Chen, Yiwang;
2:23:53 Influence of selenophene on the properties of semi-random polymers and their blends with PC61BM
DOI:10.1088/0957-4484/24/48/484002 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Rudenko, Andrey E.;Noh, Sangtaik;Thompson, Barry C.;
2:23:54 Chiral (S)-5-octyloxy-2-[{4-(2-methylbuthoxy)-phenylimino}-methyl]-phenol liquid crystalline compound as additive into polymer solar cells
DOI:10.1016/j.solmat.2010.02.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:21 AU: Canli, N. Yilmaz;Gunes, S.;Pivrikas, A.;Fuchsbauer, A.;Sinwel, D.;Sariciftci, N. S.;Yasa, Oe.;Bilgin-Eran, B.;
2:23:55 Effect of shifting of aromatic rings on charge carrier mobility and photovoltaic response of anthracene and thiophene-containing MEH-PPE-PPVs
DOI:10.1016/j.solmat.2009.11.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:18 AU: Gunes, Serap;Wild, Andreas;Cevik, Emel;Pivrikas, Almantas;Schubert, Ulrich S.;Egbe, Daniel A. M.;
2:23:56 A study of the factors influencing the performance of ternary MEH-PPV:porphyrin:PCBM heterojunction devices: Electronic effects in porphyrinoid ternary blend bulk heterojunction photovoltaic devices
DOI:10.1016/j.solmat.2011.10.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Cooling, Nathan A.;Zhou, Xiaojing;Sales, Timothy A.;Sauer, Samantha E.;Lind, Samuel J.;Gordon, Keith C.;Jones, Timothy W.;Burke, Kerry B.;Dastoor, Paul C.;Belcher, Warwick J.;
2:23:57 An equivalent circuit model for ternary blend P3HT:pC(6)TP:PCBM low band gap devices
DOI:10.1016/j.solmat.2013.02.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Duck, Benjamin C.;Vaughan, Benjamin;Cooling, Nathan;Zhou, Xiaojing;Holdsworth, John L.;Wen, Lee Li;Rasmussen, Seth C.;Dastoor, Paul C.;Belcher, Warwick J.;
2:23:58 Porphyrin-oligothiophene conjugates as additives for P3HT/PCBM solar cells
DOI:10.1039/c2jm34037b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Lyons, Dani M.;Ono, Robert J.;Bielawski, Christopher W.;Sessler, Jonathan L.;
2:23:59 Bulk Heterojunction Photovoltaics Using Broadly Absorbing Small Molecules Based on 2-Styry1-5-phenylazo-pyrrole
DOI:10.1021/la103168t JN:LANGMUIR PY:2010 TC:6 AU: Mikroyannidis, J. A.;Kabanakis, A. N.;Balraju, P.;Sharma, G. D.;
2:23:60 Spectral response tuning using an optical spacer in broad-band organic solar cells
DOI:10.1063/1.4773556 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zhang, Yuliang;Pandey, Ajay K.;Tao, Chen;Fang, Yuan;Jin, Hui;Burn, Paul L.;Meredith, Paul;
2:23:61 A study of the factors influencing the performance of ternary MEH-PPV:porphyrin:PCBM heterojunction devices: A steric approach to controlling charge recombination
DOI:10.1016/j.solmat.2011.01.046 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Cooling, Nathan;Burke, Kerry B.;Zhou, Xiaojing;Lind, Samuel J.;Gordon, Keith C.;Jones, Timothy W.;Dastoor, Paul C.;Belcher, Warwick J.;
2:23:62 Palladium-Catalyzed Dehydrohalogenative Polycondensation of 2-Bromo-3-hexylthiophene: An Efficient Approach to Head-to-Tail Poly(3-hexylthiophene)
DOI:10.1021/ja105767z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:100 AU: Wang, Qifeng;Takita, Ryo;Kikuzaki, Yuuta;Ozawa, Fumiyuki;
2:23:63 Integration of an M-phthalocyanine layer into solution-processed organic photovoltaic cells for improved spectral coverage
DOI:10.1016/j.solmat.2011.01.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:16 AU: Bamsey, Nathan M.;Yuen, Avery P.;Hor, Ah-Mee;Klenkler, Richard;Preston, John S.;Loutfy, Rafik O.;
2:23:64 Electrodeposited cobalt sulfide hole collecting layer for polymer solar cells
DOI:10.1063/1.4892845 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zampetti, Andrea;De Rossi, Francesca;Brunetti, Francesca;Reale, Andrea;Di Carlo, Aldo;Brown, Thomas M.;
2:23:65 Ternary Solar Cells Based on the Benzo[1,2-b:4,5-b ']dithiophene-Containing Polymer and Small Molecule
DOI:10.1080/15421406.2014.933303 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Cho, Ara;Lim, Eunhee;
2:23:66 Bilayer polymer/fullerene solar cells with a liquid crystal
DOI:10.1016/j.tsf.2013.11.119 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Canli, N. Yilmaz;Safak-Boroglu, M.;Bilgin-Eran, B.;Gunes, S.;
2:23:67 1,7- And 1,6-Regioisomers of Diphenoxy and Dipyrrolidinyl Substituted Perylene Diimides: Synthesis, Separation, Characterization, and Comparison of Electrochemical and Optical Properties
DOI:10.1021/cm1018647 JN:CHEMISTRY OF MATERIALS PY:2011 TC:50 AU: Dubey, Rajeev K.;Efimov, Alexander;Lemmetyinen, Helge;
2:23:68 Synthesis, Electroluminescence, and Photovoltaic Cells of New Vinylene-Copolymers with 4-(Anthracene-10-yl)-2,6-Diphenylpyridine Segments
DOI:10.1002/app.30958 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Mikroyannidis, John A.;Vellis, Panagiotis D.;Yang, Sheng-Hsiung;Hsu, Chain-Shu;
2:23:69 Bulk heterojunction solar cells based on a low band gap soluble bisazopyrrole and the corresponding BF2-azopyrrole complex
DOI:10.1039/c0jm00122h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:12 AU: Mikroyannidis, J. A.;Kabanakis, A. N.;Tsagkournos, D. V.;Balraju, P.;Sharma, G. D.;
2:23:70 5 ',5 ''-(9,10-Bis((4-hexylphenyl)ethynyl) anthracene-2,6-diyl)bis(5-hexyl-2,2 '-bithiophene) as an Organic Semiconductor and its Application to Thin Film Transistors
DOI:10.1080/15421406.2011.563718 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:3 AU: Bae, Suk Young;Jo, So Young;Kim, Kyung Hwan;Lee, Tae Wan;Choi, Dong Hoon;
2:24:1 Graphene-On-Silicon Schottky Junction Solar Cells
DOI:10.1002/adma.200904383 JN:ADVANCED MATERIALS PY:2010 TC:301 AU: Li, Xinming;Zhu, Hongwei;Wang, Kunlin;Cao, Anyuan;Wei, Jinquan;Li, Chunyan;Jia, Yi;Li, Zhen;Li, Xiao;Wu, Dehai;
2:24:2 Work Function Engineering of Graphene Electrode via Chemical Doping
DOI:10.1021/nn1005478 JN:ACS NANO PY:2010 TC:188 AU: Shi, Yumeng;Kim, Ki Kang;Reina, Alfonso;Hofmann, Mario;Li, Lain-Jong;Kong, Jing;
2:24:3 High Efficiency Graphene Solar Cells by Chemical Doping
DOI:10.1021/nl204414u JN:NANO LETTERS PY:2012 TC:193 AU: Miao, Xiaochang;Tongay, Sefaattin;Petterson, Maureen K.;Berke, Kara;Rinzler, Andrew G.;Appleton, Bill R.;Hebard, Arthur F.;
2:24:4 Graphene-Silicon Schottky Diodes
DOI:10.1021/nl104364c JN:NANO LETTERS PY:2011 TC:130 AU: Chen, Chun-Chung;Aykol, Mehmet;Chang, Chia-Chi;Levi, A. F. J.;Cronin, Stephen B.;
2:24:5 Colloidal Antireflection Coating Improves Graphene-Silicon Solar Cells
DOI:10.1021/nl400353f JN:NANO LETTERS PY:2013 TC:70 AU: Shi, Enzheng;Li, Hongbian;Yang, Long;Zhang, Luhui;Li, Zhen;Li, Peixu;Shang, Yuanyuan;Wu, Shiting;Li, Xinming;Wei, Jinquan;Wang, Kunlin;Zhu, Hongwei;Wu, Dehai;Fang, Ying;Cao, Anyuan;
2:24:6 Graphene/Silicon Nanowire Schottky Junction for Enhanced Light Harvesting
DOI:10.1021/am1010354 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:71 AU: Fan, Guifeng;Zhu, Hongwei;Wang, Kunlin;Wei, Jinquan;Li, Xinming;Shu, Qinke;Guo, Ning;Wu, Dehai;
2:24:7 Metal-semiconductor-metal photodetectors based on graphene/p-type silicon Schottky junctions
DOI:10.1063/1.4773992 JN:APPLIED PHYSICS LETTERS PY:2013 TC:20 AU: An, Yanbin;Behnam, Ashkan;Pop, Eric;Ural, Ant;
2:24:8 Anomalous Behaviors of Graphene Transparent Conductors in Graphene-Silicon Heterojunction Solar Cells
DOI:10.1002/aenm.201300052 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:22 AU: Li, Xinming;Xie, Dan;Park, Hyesung;Zeng, Tingying Helen;Wang, Kunlin;Wei, Jinquan;Zhong, Minlin;Wu, Dehai;Kong, Jing;Zhu, Hongwei;
2:24:9 Surface passivation and band engineering: a way toward high efficiency graphene-planar Si solar cells
DOI:10.1039/c3ta11384a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:26 AU: Xie, Chao;Zhang, Xiaozhen;Wu, Yiming;Zhang, Xiujuan;Zhang, Xiwei;Wang, Yan;Zhang, Wenjun;Gao, Peng;Han, Yuanyuan;Jie, Jiansheng;
2:24:10 Monolayer graphene film/silicon nanowire array Schottky junction solar cells
DOI:10.1063/1.3643473 JN:APPLIED PHYSICS LETTERS PY:2011 TC:34 AU: Xie, Chao;Lv, Peng;Nie, Biao;Jie, Jiansheng;Zhang, Xiwei;Wang, Zhi;Jiang, Peng;Hu, Zhizhong;Luo, Linbao;Zhu, Zhifeng;Wang, Li;Wu, Chunyan;
2:24:11 High-efficiency graphene/Si nanoarray Schottky junction solar cells via surface modification and graphene doping
DOI:10.1039/c3ta10203c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:27 AU: Zhang, Xiaozhen;Xie, Chao;Jie, Jiansheng;Zhang, Xiwei;Wu, Yiming;Zhang, Wenjun;
2:24:12 Tunable Graphene-Silicon Heterojunctions for Ultrasensitive Photodetection
DOI:10.1021/nl303682j JN:NANO LETTERS PY:2013 TC:43 AU: An, Xiaohong;Liu, Fangze;Jung, Yung Joon;Kar, Swastik;
2:24:13 Graphene/gallium arsenide-based Schottky junction solar cells
DOI:10.1063/1.4839515 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Jie, Wenjing;Zheng, Fengang;Hao, Jianhua;
2:24:14 High-efficiency, air stable graphene/Si micro-hole array Schottky junction solar cells
DOI:10.1039/c3ta13750c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:13 AU: Xie, Chao;Zhang, Xiujuan;Ruan, Kaiqun;Shao, Zhibin;Dhaliwal, Sunny Singh;Wang, Liu;Zhang, Qing;Zhang, Xiwei;Jie, Jiansheng;
2:24:15 Hybrid Heterojunction and Solid-State Photoelectrochemical Solar Cells
DOI:10.1002/aenm.201400224 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:5 AU: Li, Xiao;Zang, Xiaobei;Li, Xinming;Zhu, Miao;Chen, Qiao;Wang, Kunlin;Zhong, Minlin;Wei, Jinquan;Wu, Dehai;Zhu, Hongwei;
2:24:16 GaN nanowire ultraviolet photodetector with a graphene transparent contact
DOI:10.1063/1.4829756 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Babichev, A. V.;Zhang, H.;Lavenus, P.;Julien, F. H.;Egorov, A. Yu.;Lin, Y. T.;Tu, L. W.;Tchernycheva, M.;
2:24:17 Determination of Schottky barrier heights and Fermi-level unpinning at the graphene/n-type Si interfaces by X-ray photoelectron spectroscopy and Kelvin probe
DOI:10.1016/j.apsusc.2014.10.062 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Lin, Yow-Jon;Zeng, Jian-Jhou;
2:24:18 Graphene-based Schottky junction solar cells
DOI:10.1039/c2jm33809b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Ye, Yu;Dai, Lun;
2:24:19 Enhanced efficiency of graphene/silicon heterojunction solar cells by molecular doping
DOI:10.1039/c3ta01634j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:38 AU: Cui, Tongxiang;Lv, Ruitao;Huang, Zheng-Hong;Chen, Shuxiao;Zhang, Zexia;Gan, Xin;Jia, Yi;Li, Xinming;Wang, Kunlin;Wu, Dehai;Kang, Feiyu;
2:24:20 Schottky barrier inhomogeneities at the interface of few layer epitaxial graphene and silicon carbide
DOI:10.1063/1.4711769 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Shivaraman, Shriram;Herman, Lihong H.;Rana, Farhan;Park, Jiwoong;Spencer, Michael G.;
2:24:21 Schottky barrier inhomogeneity for graphene/Si-nanowire arrays/n-type Si Schottky diodes
DOI:10.1063/1.4870258 JN:APPLIED PHYSICS LETTERS PY:2014 TC:9 AU: Zeng, Jian-Jhou;Lin, Yow-Jon;
2:24:22 Graphene based Schottky junction solar cells on patterned silicon-pillar-array substrate
DOI:10.1063/1.3665404 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Feng, Tingting;Xie, Dan;Lin, Yuxuan;Zang, Yongyuan;Ren, Tianling;Song, Rui;Zhao, Haiming;Tian, He;Li, Xiao;Zhu, Hongwei;Liu, Litian;
2:24:23 Graphene/GaN Schottky diodes: Stability at elevated temperatures
DOI:10.1063/1.3628315 JN:APPLIED PHYSICS LETTERS PY:2011 TC:24 AU: Tongay, S.;Lemaitre, M.;Schumann, T.;Berke, K.;Appleton, B. R.;Gila, B.;Hebard, A. F.;
2:24:24 Tuning the work function of graphene by ultraviolet irradiation
DOI:10.1063/1.4804289 JN:APPLIED PHYSICS LETTERS PY:2013 TC:12 AU: Lin, Yow-Jon;Zeng, Jian-Jhou;
2:24:25 Core-Shell Heterojunction of Silicon Nanowire Arrays and Carbon Quantum Dots for Photovoltaic Devices and Self-Driven Photodetectors
DOI:10.1021/nn501001j JN:ACS NANO PY:2014 TC:22 AU: Xie, Chao;Nie, Biao;Zeng, Longhui;Liang, Feng-Xia;Wang, Ming-Zheng;Luo, Linbao;Feng, Mei;Yu, Yongqiang;Wu, Chun-Yan;Wu, Yucheng;Yu, Shu-Hong;
2:24:26 Boron Doping of Graphene for Graphene-Silicon p-n Junction Solar Cells
DOI:10.1002/aenm.201100671 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:30 AU: Li, Xiao;Fan, Lili;Li, Zhen;Wang, Kunlin;Zhong, Minlin;Wei, Jinquan;Wu, Dehai;Zhu, Hongwei;
2:24:27 Gate tunable graphene-silicon Ohmic/Schottky contacts
DOI:10.1063/1.4768921 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Chen, Chun-Chung;Chang, Chia-Chi;Li, Zhen;Levi, A. F. J.;Cronin, Stephen B.;
2:24:28 Characterization of graphene-silicon Schottky barrier diodes using impedance spectroscopy
DOI:10.1063/1.4829140 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Yim, Chanyoung;McEvoy, Niall;Duesberg, Georg S.;
2:24:29 Surface plasmon resonance enhanced highly efficient planar silicon solar cell
DOI:10.1016/j.nanoen.2014.07.003 JN:NANO ENERGY PY:2014 TC:3 AU: Luo, Lin-Bao;Xie, Chao;Wang, Xian-He;Yu, Yong-Qiang;Wu, Chun-Yan;Hu, Han;Zhou, Ke-Ya;Zhang, Xi-Wei;Jie, Jian-Sheng;
2:24:30 Schottky solar cells based on graphene nanoribbon/multiple silicon nanowires junctions
DOI:10.1063/1.4711205 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Xie, Chao;Jie, Jiansheng;Nie, Biao;Yan, Tianxin;Li, Qiang;Lv, Peng;Li, Fangze;Wang, Mingzheng;Wu, Chunyan;Wang, Li;Luo, Linbao;
2:24:31 Enhanced efficiency of graphene-silicon Schottky junction solar cells by doping with Au nanoparticles
DOI:10.1063/1.4901106 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, X.;Zhang, X. W.;Yin, Z. G.;Meng, J. H.;Gao, H. L.;Zhang, L. Q.;Zhao, Y. J.;Wang, H. L.;
2:24:32 Annealing effect on Schottky barrier inhomogeneity of graphene/n-type Si Schottky diodes
DOI:10.1016/j.apsusc.2014.05.044 JN:APPLIED SURFACE SCIENCE PY:2014 TC:7 AU: Lin, Yow-Jon;Lin, Jian-Huang;
2:24:33 Ideal Graphene/Silicon Schottky Junction Diodes
DOI:10.1021/nl501735k JN:NANO LETTERS PY:2014 TC:14 AU: Sinha, Dhiraj;Lee, Ji Ung;
2:24:34 Graphene-based ultrafast diode
DOI:10.1063/1.3501051 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:20 AU: Dragoman, D.;Dragoman, M.;Plana, R.;
2:24:35 Electronic transport for graphene/n-type Si Schottky diodes with and without H2O2 treatment
DOI:10.1016/j.tsf.2013.11.079 JN:THIN SOLID FILMS PY:2014 TC:14 AU: Lin, Jian-Huang;Zeng, Jian-Jhou;Lin, Yow-Jon;
2:24:36 Electrical and optoelectronic properties of graphene Schottky contact on Si-nanowire arrays with and without H2O2 treatment
DOI:10.1007/s00339-013-8157-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Zeng, Jian-Jhou;Lin, Yow-Jon;
2:24:37 Self-adaptive electronic contact between graphene and semiconductors
DOI:10.1063/1.3696671 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Zhong, Haijian;Liu, Zhenghui;Xu, Gengzhao;Fan, Yingmin;Wang, Jianfeng;Zhang, Xuemin;Liu, Liwei;Xu, Ke;Yang, Hui;
2:24:38 Ohmic contact formation between metal and AlGaN/GaN heterostructure via graphene insertion
DOI:10.1063/1.4801940 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Park, Pil Sung;Reddy, Kongara M.;Nath, Digbijoy N.;Yang, Zhichao;Padture, Nitin P.;Rajan, Siddharth;
2:24:39 Novel attributes in modeling and optimizing of the new graphene based InxGa1-xN Schottky barrier solar cells
DOI:10.1063/1.4878158 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Arefinia, Zahra;Asgari, Asghar;
2:24:40 Screening-Engineered Field-Effect Solar Cells
DOI:10.1021/nl3020022 JN:NANO LETTERS PY:2012 TC:9 AU: Regan, William;Byrnes, Steven;Gannett, Will;Ergen, Onur;Vazquez-Mena, Oscar;Wang, Feng;Zettl, Alex;
2:24:41 Role of Interfacial Oxide in High-Efficiency Graphene-Silicon Schottky Barrier Solar Cells
DOI:10.1021/nl505011f JN:NANO LETTERS PY:2015 TC:4 AU: Song, Yi;Li, Xinming;Mackin, Charles;Zhang, Xu;Fang, Wenjing;Palacios, Tomas;Zhu, Hongwei;Kong, Jing;
2:24:42 Direct Growth of Nanocrystalline Graphene/Graphite Transparent Electrodes on Si/SiO2 for Metal-Free Schottky Junction Photodetectors
DOI:10.1002/adfm.201301924 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:9 AU: Zhang, Zengxing;Guo, Yunxian;Wang, Xiaojuan;Li, Dong;Wang, Fengli;Xie, Sishen;
2:24:43 Graphene in ohmic contact for both n-GaN and p-GaN
DOI:10.1063/1.4880732 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Zhong, Haijian;Liu, Zhenghui;Shi, Lin;Xu, Gengzhao;Fan, Yingmin;Huang, Zengli;Wang, Jianfeng;Ren, Guoqiang;Xu, Ke;
2:24:44 Charge transport mechanisms of graphene/semiconductor Schottky barriers: A theoretical and experimental study
DOI:10.1063/1.4859500 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:9 AU: Zhong, Haijian;Xu, Ke;Liu, Zhenghui;Xu, Gengzhao;Shi, Lin;Fan, Yingmin;Wang, Jianfeng;Ren, Guoqiang;Yang, Hui;
2:24:45 Interface engineering for efficient and stable chemical-doping-free graphene-on-silicon solar cells by introducing a graphene oxide interlayer
DOI:10.1039/c4ta02216e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:15 AU: Yang, Lifei;Yu, Xuegong;Xu, Mingsheng;Chen, Hongzheng;Yang, Deren;
2:24:46 Number of graphene layers as a modulator of the open-circuit voltage of graphene-based solar cell
DOI:10.1063/1.3464319 JN:APPLIED PHYSICS LETTERS PY:2010 TC:27 AU: Ihm, Kyuwook;Lim, Jong Tae;Lee, Kyoung-Jae;Kwon, Jae Wook;Kang, Tai-Hee;Chung, Sukmin;Bae, Sukang;Kim, Jin Ho;Hong, Byung Hee;Yeom, Geun Young;
2:24:47 Schottky junction solar cells based on graphene with different numbers of layers
DOI:10.1063/1.4863683 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Li, Y. F.;Yang, W.;Tu, Z. Q.;Liu, Z. C.;Yang, F.;Zhang, L. Q.;Hatakeyama, R.;
2:24:48 Near-Ultraviolet-Sensitive Graphene/Porous Silicon Photodetectors
DOI:10.1021/am5053812 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Kim, Jungkil;Joo, Soong Sin;Lee, Kyeong Won;Kim, Ju Hwan;Shin, Dong Hee;Kim, Sung;Choi, Suk-Ho;
2:24:49 Graphene oxide as an effective interfacial layer for enhanced graphene/silicon solar cell performance
DOI:10.1039/c4tc00705k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Jiao, Kejia;Wang, Xueliang;Wang, Yu;Chen, Yunfa;
2:24:50 Improved Efficiency of Graphene/Si Heterojunction Solar Cells by Optimizing Hydrocarbon Feed Rate
DOI:10.1155/2014/359305 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:2 AU: Zhang, Zexia;Cui, Tongxiang;Lv, Ruitao;Zhu, Hongwei;Wang, Kunlin;Wu, Dehai;Kang, Feiyu;
2:24:51 High Schottky barrier height of Au contact on Si-nanowire arrays with sulfide treatment
DOI:10.1063/1.4825069 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:11 AU: Ruan, Cheng-He;Lin, Yow-Jon;
2:24:52 Antireflection properties of graphene layers on planar and textured silicon surfaces
DOI:10.1088/0957-4484/24/16/165402 JN:NANOTECHNOLOGY PY:2013 TC:5 AU: Kumar, Rakesh;Sharma, A. K.;Bhatnagar, Mehar;Mehta, B. R.;Rath, Shyama;
2:24:53 Quantum Carrier Reinvestment-Induced Ultrahigh and Broadband Photocurrent Responses in Graphene - Silicon junctions
DOI:10.1021/nn503484s JN:ACS NANO PY:2014 TC:4 AU: Liu, Fangze;Kar, Swastik;
2:24:54 Direct Growth of Nanographene on Silicon with Thin Oxide Layer for High-Performance Nanographene-Oxide-Silicon Diodes
DOI:10.1002/adfm.201402099 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Zhang, Qichong;Wang, Xiaojuan;Li, Dong;Zhang, Zengxing;
2:24:55 A computational study of graphene silicon contact
DOI:10.1063/1.4759152 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Chauhan, Jyotsna;Rinzler, Andrew;Guo, Jing;
2:24:56 Modified, semiconducting graphene in contact with a metal: Characterization of the Schottky diode
DOI:10.1063/1.3495777 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Nourbakhsh, Amirhasan;Cantoro, Mirco;Hadipour, Afshin;Vosch, Tom;van der Veen, Marleen H.;Heyns, Marc M.;Sels, Bert F.;De Gendt, Stefan;
2:24:57 Modelling the inhomogeneous SiC Schottky interface
DOI:10.1063/1.4842096 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:8 AU: Gammon, P. M.;Perez-Tomas, A.;Shah, V. A.;Vavasour, O.;Donchev, E.;Pang, J. S.;Myronov, M.;Fisher, C. A.;Jennings, M. R.;Leadley, D. R.;Mawby, P. A.;
2:24:58 Effects of sulfide treatment on electronic transport of graphene/n-type Si Schottky diodes
DOI:10.1016/j.matchemphys.2014.02.018 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:4 AU: Zeng, Jian-Jhou;Lin, Yow-Jon;
2:24:59 Graphene applications in Schottky barrier solar cells
DOI:10.1016/j.tsf.2012.09.040 JN:THIN SOLID FILMS PY:2012 TC:16 AU: Lancellotti, L.;Polichetti, T.;Ricciardella, F.;Tari, O.;Gnanapragasam, S.;Daliento, S.;Di Francia, G.;
2:24:60 Theoretical simulation of photovoltaic response of graphene-on-semiconductors
DOI:10.1007/s00339-012-7335-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:9 AU: Behura, Sanjay Kumar;Mahala, Pramila;Ray, Abhijit;Mukhopadhyay, Indrajit;Jani, Omkar;
2:24:61 Graphene/silicon photoelectrode with high and stable photoelectrochemical response in aqueous solution
DOI:10.1016/j.apsusc.2011.04.015 JN:APPLIED SURFACE SCIENCE PY:2011 TC:11 AU: Wu, Kedi;Quan, Wenying;Yu, Hongtao;Zhao, Huimin;Chen, Shuo;
2:24:62 Self-powered microwave devices based on graphene ink decorated with gold nanoislands
DOI:10.1063/1.4754860 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Radoi, Anotonio;Dragoman, M.;Cismaru, Alina;Konstantinidis, George;Dragoman, Daniela;
2:24:63 ZnSe nanoribbon/Si nanowire p-n heterojunction arrays and their photovoltaic application with graphene transparent electrodes
DOI:10.1039/c2jm34720b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Zhang, Xiwei;Zhang, Xiujuan;Zhang, Xiaozhen;Zhang, Yuping;Bian, Liang;Wu, Yiming;Xie, Chao;Han, Yuanyuan;Wang, Yan;Gao, Peng;Wang, Liu;Jie, Jiansheng;
2:24:64 Exceptional Charge Transport Properties of Graphene on Germanium
DOI:10.1021/nn503381m JN:ACS NANO PY:2014 TC:2 AU: Cavallo, Francesca;Delgado, Richard Rojas;Kelly, Michelle M.;Perez, Jose R. Sanchez;Schroeder, Daniel P.;Xing, Huili Grace;Eriksson, Mark A.;Lagally, Max G.;
2:24:65 Electronic transport and Schottky barrier heights of p-type CuAlO2 Schottky diodes
DOI:10.1063/1.4806970 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Lin, Yow-Jon;Luo, Jie;Hung, Hao-Che;
2:24:66 Photosensitive Schottky-type heterojunctions prepared by the drawing of graphite films
DOI:10.1063/1.4872467 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Brus, V. V.;Maryanchuk, P. D.;
2:24:67 Photovoltaic Device Performance of Single-Walled Carbon Nanotube and Polyaniline Films on n-Si: Device Structure Analysis
DOI:10.1021/am201426y JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:13 AU: Bourdo, Shawn E.;Saini, Viney;Piron, Jimmy;Al-Brahim, Ismael;Boyer, Cyril;Rioux, Julian;Bairi, Venugopal;Biris, Alexandru S.;Viswanathan, Tito;
2:24:68 A study of temperature-related non-linearity at the metal-silicon interface
DOI:10.1063/1.4768718 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Gammon, P. M.;Donchev, E.;Perez-Tomas, A.;Shah, V. A.;Pang, J. S.;Petrov, P. K.;Jennings, M. R.;Fisher, C. A.;Mawby, P. A.;Leadley, D. R.;Alford, N. McN.;
2:24:69 Transport and photoconduction characteristics of metal-graphene-4H-SiC(0001) heterojunction devices
DOI:10.1063/1.4902877 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Hosseini, T.;Tomer, D.;Rajput, S.;Li, L.;Kouklin, N.;
2:24:70 Temperature dependent transport characteristics of graphene/n-Si diodes
DOI:10.1063/1.4905110 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Parui, S.;Ruiter, R.;Zomer, P. J.;Wojtaszek, M.;van Wees, B. J.;Banerjee, T.;
2:24:71 Graphene as tunable transparent electrode material on GaN: Layer-number-dependent optical and electrical properties
DOI:10.1063/1.4818787 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Shiu, Hung Wei;Chang, Lo Yueh;Lee, Kai-Hsuan;Chen, Hung-Ying;Gwo, Shangjr;Chen, Chia-Hao;
2:24:72 Enhanced infrared light harvesting of inorganic nanocrystal photovoltaic and photodetector on graphene electrode
DOI:10.1063/1.3605682 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Lin, Chih-Cheng;Wang, Di-Yan;Tu, Kun-Hua;Jiang, You-Ting;Hsieh, Meng-Hsiang;Chen, Chia-Chun;Chen, Chun-Wei;
2:24:73 Effects of surface properties on barrier height and barrier inhomogeneities of platinum contacts to n-type 4H-SiC
DOI:10.1063/1.4816158 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Huang, Lingqin;Qin, Fuwen;Li, Shijuan;Wang, Dejun;
2:24:74 Graphene-Silicon Schottky Diodes (vol 11, pg 1863, 2011)
DOI:10.1021/nl203288r JN:NANO LETTERS PY:2011 TC:1 AU: Chen, Chun-Chung;Aykol, Mehmet;Chang, Chia-Chi;Levi, A. F. J.;Cronin, Stephen B.;
2:24:75 Impacts of image force on the Schottky barrier height at metal-carbon nanotube contacts
DOI:10.1063/1.4705300 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Zhang, Gang;Shi, Qing;
2:24:76 Electronic rectification devices from carbon nanocones
DOI:10.1063/1.3684276 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Ming, Chen;Lin, Zheng-Zhe;Zhuang, Jun;Ning, Xi-Jing;
2:25:1 Conjugated-Polymer-Functionalized Graphene Oxide: Synthesis and Nonvolatile Rewritable Memory Effect
DOI:10.1002/adma.200903469 JN:ADVANCED MATERIALS PY:2010 TC:180 AU: Zhuang, Xiao-Dong;Chen, Yu;Liu, Gang;Li, Pei-Pei;Zhu, Chun-Xiang;Kang, En-Tang;Neoh, Koon-Gee;Zhang, Bin;Zhu, Jin-Hui;Li, Yong-Xi;
2:25:2 Polymer-Based Resistive Memory Materials and Devices
DOI:10.1002/adma.201302637 JN:ADVANCED MATERIALS PY:2014 TC:53 AU: Lin, Wen-Peng;Liu, Shu-Juan;Gong, Tao;Zhao, Qiang;Huang, Wei;
2:25:3 Synthesis, Morphology, and Properties of Poly(3-hexylthiophene)-block-Poly(vinylphenyl oxadiazole) Donor-Acceptor Rod-Coil Block Copolymers and Their Memory Device Applications
DOI:10.1002/adfm.201000879 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:76 AU: Fang, Yi-Kai;Liu, Cheng-Liang;Li, Chaoxu;Lin, Chih-Jung;Mezzenga, Raffaele;Chen, Wen-Chang;
2:25:4 Adjustment of charge trap number and depth in molecular backbone to achieve tunable multilevel data storage performance
DOI:10.1039/c3tc00745f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Miao, Shifeng;Zhu, Yongxiang;Zhuang, Hao;Xu, Xiaoping;Li, Hua;Sun, Ru;Li, Najun;Ji, Shunjun;Lu, Jianmei;
2:25:5 Electrically programmable digital memory behaviors based on novel functional aromatic polyimide/TiO2 hybrids with a high ON/OFF ratio
DOI:10.1039/c3tc32580f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Chen, Chih-Jung;Tsai, Chia-Liang;Liou, Guey-Sheng;
2:25:6 Single Polymer-Based Ternary Electronic Memory Material and Device
DOI:10.1002/adma.201104307 JN:ADVANCED MATERIALS PY:2012 TC:53 AU: Liu, Shu-Juan;Wang, Peng;Zhao, Qiang;Yang, Hui-Ying;Wong, Jenit;Sun, Hui-Bin;Dong, Xiao-Chen;Lin, Wen-Peng;Huang, Wei;
2:25:7 Novel programmable functional polyimides: preparation, mechanism of CT induced memory, and ambipolar electrochromic behavior
DOI:10.1039/c3tc31598c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Chen, Chih-Jung;Yen, Hung-Ju;Hu, Yi-Cheng;Liou, Guey-Sheng;
2:25:8 Flexible Multi-Colored Electrochromic and Volatile Polymer Memory Devices Derived from Starburst Triarylamine-Based Electroactive Polyimide
DOI:10.1002/adfm.201300569 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:44 AU: Yen, Hung-Ju;Chen, Chih-Jung;Liou, Guey-Sheng;
2:25:9 New random copolymers with pendant carbazole donor and 1,3,4-oxadiazole acceptor for high performance memory device applications
DOI:10.1039/c0jm02535f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:47 AU: Fang, Yi-Kai;Liu, Cheng-Liang;Chen, Wen-Chang;
2:25:10 Resistive switching non-volatile and volatile memory behavior of aromatic polyimides with various electron-withdrawing moieties
DOI:10.1039/c2jm32155f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:26 AU: Chen, Chih-Jung;Yen, Hung-Ju;Chen, Wen-Chang;Liou, Guey-Sheng;
2:25:11 Molecular length adjustment for organic azo-based nonvolatile ternary memory devices
DOI:10.1039/c2jm32992a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Miao, Shifeng;Li, Hua;Xu, Qingfeng;Li, Najun;Zheng, Junwei;Sun, Ru;Lu, Jianmei;Li, Chang Ming;
2:25:12 Benzothiazole derivatives containing different electron acceptors exhibiting totally different data-storage performances
DOI:10.1039/c3tc32008a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Su, Zhe;Zhuang, Hao;Liu, Haifeng;Li, Hua;Xu, Qingfeng;Lu, Jianmei;Wang, Lihua;
2:25:13 Tunable Electrical Memory Characteristics Using Polyimide:Polycyclic Aromatic Compound Blends on Flexible Substrates
DOI:10.1021/am4006594 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:13 AU: Yu, An-Dih;Kurosawa, Tadanori;Chou, Ying-Hsuan;Aoyagi, Koutarou;Shoji, Yu;Higashihara, Tomoya;Ueda, Mitsuru;Liu, Cheng-Liang;Chen, Wen-Chang;
2:25:14 A Small-Molecule-Based Ternary Data-Storage Device
DOI:10.1021/ja910243f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:52 AU: Li, Hua;Xu, Qingfeng;Li, Najun;Sun, Ru;Ge, Jianfeng;Lu, Jianmei;Gu, Hongwei;Yan, Feng;
2:25:15 Flexible polymer memory devices derived from triphenylamine-pyrene containing donor-acceptor polyimides
DOI:10.1039/c2jm33852a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Yu, An-Dih;Kurosawa, Tadanori;Lai, Yi-Cang;Higashihara, Tomoya;Ueda, Mitsuru;Liu, Cheng-Liang;Chen, Wen-Chang;
2:25:16 Role of oxadiazole moiety in different D-A polyazothines and related resistive switching properties
DOI:10.1039/c3tc30826j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Pan, Liang;Hu, Benlin;Zhu, Xiaojian;Chen, Xinxin;Shang, Jie;Tan, Hongwei;Xue, Wuhong;Zhu, Yuejin;Liu, Gang;Li, Run-Wei;
2:25:17 Polyfluorene-Based Push-Pull Type Functional Materials for Write-Once-Read-Many-Times Memory Devices
DOI:10.1021/cm1012872 JN:CHEMISTRY OF MATERIALS PY:2010 TC:61 AU: Zhuang, Xiao-Dong;Chen, Yu;Li, Bi-Xin;Ma, Dong-Ge;Zhang, Bin;Li, Yongxi;
2:25:18 Nonvolatile bistable resistive switching in a new polyimide bearing 9-phenyl-9H-carbazole pendant
DOI:10.1039/c1jm13849a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Hu, Benlin;Zhuge, Fei;Zhu, Xiaojian;Peng, Shanshan;Chen, Xinxin;Pan, Liang;Yan, Qing;Li, Run-Wei;
2:25:19 Synthesis, Characterization, and Nonvolatile Ternary Memory Behavior of a Larger Heteroacene with Nine Linearly Fused Rings and Two Different Heteroatoms
DOI:10.1021/ja408208c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:35 AU: Gu, Pei-Yang;Zhou, Feng;Gao, Junkuo;Li, Gang;Wang, Chengyuan;Xu, Qing-Feng;Zhang, Qichun;Lu, Jian-Mei;
2:25:20 Effects of terminal electron acceptor strength on film morphology and ternary memory performance of triphenylamine donor based devices
DOI:10.1039/c3tc30228h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Zhuang, Hao;Zhang, Qijian;Zhu, Yongxiang;Xu, Xufeng;Liu, Haifeng;Li, Najun;Xu, Qingfeng;Li, Hua;Lu, Jianmei;Wang, Lihua;
2:25:21 Study of the influences of molecular planarity and aluminum evaporation rate on the performances of electrical memory devices
DOI:10.1039/c4tc00311j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Liu, Hongzhang;Bo, Rongcheng;Liu, Haifeng;Li, Najun;Xu, Qingfeng;Li, Hua;Lu, Jianmei;Wang, Lihua;
2:25:22 Tunable electrical memory characteristics by the morphology of self-assembled block copolymers:PCBM nanocomposite films
DOI:10.1039/c1sm06622f JN:SOFT MATTER PY:2012 TC:31 AU: Chen, Jhao-Cheng;Liu, Cheng-Liang;Sun, Ya-Sen;Tung, Shih-Huang;Chen, Wen-Chang;
2:25:23 Tailoring of Molecular Planarity to Reduce Charge Injection Barrier for High-Performance Small-Molecule-Based Ternary Memory Device with Low Threshold Voltage
DOI:10.1002/adma.201202319 JN:ADVANCED MATERIALS PY:2012 TC:26 AU: Miao, Shifeng;Li, Hua;Xu, Qingfeng;Li, Youyong;Ji, Shunjun;Li, Najun;Wang, Lihua;Zheng, Junwei;Lu, Jianmei;
2:25:24 New Donor-Acceptor Oligoimides for High-Performance Nonvolatile Memory Devices
DOI:10.1021/cm201665g JN:CHEMISTRY OF MATERIALS PY:2011 TC:43 AU: Lee, Wen-Ya;Kurosawa, Tadanori;Lin, Shiang-Tai;Higashihara, Tomoya;Ueda, Mitsuru;Chen, Wen-Chang;
2:25:25 Design and synthesis of conjugated polymers containing Pt(II) complexes in the side-chain and their application in polymer memory devices
DOI:10.1039/c2jm16287c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Wang, Peng;Liu, Shu-Juan;Lin, Zhen-Hua;Dong, Xiao-Chen;Zhao, Qiang;Lin, Wen-Peng;Yi, Ming-Dong;Ye, Shang-Hui;Zhu, Chun-Xiang;Huang, Wei;
2:25:26 Preparation and Memory Performance of a Nanoaggregated Dispersed Red 1-Functionalized Poly (N-vinylcarbazole) Film via Solution-Phase Self-Assembly
DOI:10.1002/adfm.201000258 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:51 AU: Zhuang, Xiao-Dong;Chen, Yu;Liu, Gang;Zhang, Bin;Neoh, Koon-Gee;Kang, En-Tang;Zhu, Chun-Xiang;Li, Yong-Xi;Niu, Li-Juan;
2:25:27 Structural and Electrical Characterization of a Block Copolymer-Based Unipolar Nonvolatile Memory Device
DOI:10.1002/adma.201103862 JN:ADVANCED MATERIALS PY:2012 TC:41 AU: Kang, Nam-Goo;Cho, Byungjin;Kang, Beom-Goo;Song, Sunghoon;Lee, Takhee;Lee, Jae-Suk;
2:25:28 Conjugated polymers with cationic iridium(III) complexes in the side-chain for flash memory devices utilizing switchable through-space charge transfer
DOI:10.1039/c2jm31963b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Liu, Shu-Juan;Lin, Wen-Peng;Yi, Ming-Dong;Xu, Wen-Juan;Tang, Chao;Zhao, Qiang;Ye, Shang-Hui;Liu, Xiang-Mei;Huang, Wei;
2:25:29 Electrical conductivity switching and memory effects in poly(N-vinylcarbazole) derivatives with pendant azobenzene chromophores and terminal electron acceptor moieties
DOI:10.1039/c0jm04344c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:40 AU: Liu, Gang;Zhang, Bin;Chen, Yu;Zhu, Chun-Xiang;Zeng, Longjia;Chan, D. Siu-Hung;Neoh, Koon-Gee;Chen, Junneng;Kang, En-Tang;
2:25:30 Flash-Memory Effect for Polyfluorenes with On-Chain Iridium(III) Complexes
DOI:10.1002/adfm.201001884 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:45 AU: Liu, Shu-Juan;Lin, Zhen-Hua;Zhao, Qiang;Ma, Yun;Shi, Hui-Fang;Yi, Ming-Dong;Ling, Qi-Dan;Fan, Qu-Li;Zhu, Chun-Xiang;Kang, En-Tang;Huang, Wei;
2:25:31 Programmable Bipolar and Unipolar Nonvolatile Memory Devices Based on Poly(2-(N-carbazolyl)ethyl methacrylate) End-Capped with Fullerene
DOI:10.1002/adma.201103647 JN:ADVANCED MATERIALS PY:2012 TC:43 AU: Hahm, Suk Gyu;Kang, Nam-Goo;Kwon, Wonsang;Kim, Kyungtae;Ko, Yong-Gi;Ahn, Seonyoung;Kang, Beom-Goo;Chang, Taihyun;Lee, Jae-Suk;Ree, Moonhor;
2:25:32 Novel triphenylamine-containing ambipolar polyimides with pendant anthraquinone moiety for polymeric memory device, electrochromic and gas separation applications
DOI:10.1039/c2jm33266c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Hu, Yi-Cheng;Chen, Chih-Jung;Yen, Hung-Ju;Lin, Kun-Ying;Yeh, Jui-Ming;Chen, Wen-Chang;Liou, Guey-Sheng;
2:25:33 Adjustment of conformation change and charge trapping in ion-doped polymers to achieve ternary memory performance
DOI:10.1039/c3tc31759e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: He, Dongwei;Zhuang, Hao;Liu, Haifeng;Liu, Hongzhang;Li, Hua;Lu, Jianmei;
2:25:34 Size Control of Gold Nanoparticles Grown on Polyaniline Nanofibers for Bistable Memory Devices
DOI:10.1021/nn200992w JN:ACS NANO PY:2011 TC:53 AU: Baker, Christina O.;Shedd, Brian;Tseng, Ricky J.;Martinez-Morales, Alfredo A.;Ozkan, Cengiz S.;Ozkan, Mihri;Yang, Yang;Kanert, Richard B.;
2:25:35 Conjugated Fluorene Based Rod-Coil Block Copolymers and Their PCBM Composites for Resistive Memory Switching Devices
DOI:10.1021/am201190s JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:23 AU: Lian, Shiang-Ling;Liu, Cheng-Liang;Chen, Wen-Chang;
2:25:36 Improving the ON/OFF Ratio and Reversibility of Recording by Rational Structural Arrangement of Donor-Acceptor Molecules
DOI:10.1002/adfm.200901692 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:37 AU: Ma, Ying;Cao, Xingbo;Li, Guo;Wen, Yongqiang;Yang, Ye;Wang, Jingxia;Du, Shixuan;Yang, Lianming;Gao, Hongjun;Song, Yanlin;
2:25:37 Synthesis and Nonvolatile Memory Behaviors of Dioxatetraazapentacene Derivatives
DOI:10.1021/am4023434 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:37 AU: Li, Gang;Zheng, Ke;Wang, Chengyuan;Leck, Kheng Swee;Hu, Fangzhong;Sun, Xiao Wei;Zhang, Qichun;
2:25:38 Adjustment of ON-State Retention Ability Based on New Donor-Acceptor Imides through Structural Tailoring for Volatile Device Applications
DOI:10.1021/am405000c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Zhuang, Hao;Zhou, Qianhao;Li, Yang;Zhang, Qijian;Li, Hua;Xu, Qingfeng;Li, Najun;Lu, Jianmei;Wang, Lihua;
2:25:39 High Temperature Polyimide Containing Anthracene Moiety and Its Structure, Interface, and Nonvolatile Memory Behavior
DOI:10.1021/am101125d JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:31 AU: Park, Samdae;Kim, Kyungtae;Kim, Dong Min;Kwon, Wonsang;Choi, Junman;Ree, Moonhor;
2:25:40 Novel Starburst Triarylamine-Containing Electroactive Aramids with Highly Stable Electrochromism in Near-Infrared and Visible Light Regions
DOI:10.1021/cm103552k JN:CHEMISTRY OF MATERIALS PY:2011 TC:66 AU: Yen, Hung-Ju;Lin, Hung-Yi;Liou, Guey-Sheng;
2:25:41 High-Performance Functional Polyimides Containing Rigid Nonplanar Conjugated Triphenylethylene Moieties
DOI:10.1021/cm3003172 JN:CHEMISTRY OF MATERIALS PY:2012 TC:27 AU: Liu, Yiwu;Zhang, Yi;Lan, Qj;Liu, Siwei;Qin, Zexin;Chen, Lianghui;Zhao, Cunyuan;Chi, Zhenguo;Xu, Jiarui;Economy, James;
2:25:42 Nonvolatile memory devices based on polyimides bearing noncoplanar twisted biphenyl units containing carbazole and triphenylamine side-chain groups
DOI:10.1039/c1jm12453f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Li, Yue-Qin;Fang, Run-Chen;Zheng, An-Min;Chu, Yue-Ying;Tao, Xian;Xu, Hui-Hua;Ding, Shi-Jin;Shen, Ying-Zhong;
2:25:43 Memory devices based on functionalized copolymers exhibiting a linear dependence of switch threshold voltage with the pendant nitro-azobenzene moiety content change
DOI:10.1039/c2jm33426g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Fan, Naiyong;Liu, Haifeng;Zhou, Qianhao;Zhuang, Hao;Li, Yang;Li, Hua;Xu, Qingfeng;Li, Najun;Lu, Jianmei;
2:25:44 Preparation of homopolymers from new azobenzene organic molecules with different terminal groups and study of their nonvolatile memory effects
DOI:10.1016/j.polymer.2013.04.043 JN:POLYMER PY:2013 TC:2 AU: Ye, Fei-Long;Gu, Pei-Yang;Zhou, Feng;Liu, Hai-Feng;Xu, Xiao-Ping;Li, Hua;Xu, Qing-Feng;Lu, Jian-Mei;
2:25:45 Tuning of Nonvolatile Bipolar Memristive Switching in Co(III) Polymer with an Extended Azo Aromatic Ligand
DOI:10.1021/ja106945v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Bandyopadhyay, Anasuya;Sahu, Satyajit;Higuchi, Masayoshi;
2:25:46 Multilevel Conductance Switching of Memory Device through Photoelectric Effect
DOI:10.1021/ja305354y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:19 AU: Ye, Changqing;Peng, Qian;Li, Mingzhu;Luo, Jia;Tang, Zhengming;Pei, Jian;Chen, Jianming;Shuai, Zhigang;Jiang, Lei;Song, Yanlin;
2:25:47 Yolk-shell nanorattles encapsulating a movable Au nanocore in electroactive polyaniline shells for flexible memory device
DOI:10.1039/c4tc00144c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Zhang, Bin;Cai, Tao;Li, Shuai;Zhang, Xinxing;Chen, Yu;Neoh, Koon-Gee;Kang, En-Tang;Wang, Cheng;
2:25:48 Synthesis and nonvolatile memory characteristics of thermally, dimensionally and chemically stable polyimides
DOI:10.1016/j.polymer.2011.03.021 JN:POLYMER PY:2011 TC:24 AU: Park, Samdae;Kim, Kyungtae;Kim, Jin Chul;Kwon, Wonsang;Kim, Dong Min;Ree, Moonhor;
2:25:49 Synthesis and memory characteristics of polyimides containing noncoplanar aryl pendant groups
DOI:10.1016/j.polymer.2011.11.044 JN:POLYMER PY:2012 TC:16 AU: Li, Yueqin;Chu, Yueying;Fang, Runchen;Ding, Shijin;Wang, Yulong;Shen, Yingzhong;Zheng, Anmin;
2:25:50 Volatile static random access memory behavior of an aromatic polyimide bearing carbazole-tethered triphenylamine moieties
DOI:10.1016/j.polymer.2013.12.046 JN:POLYMER PY:2014 TC:5 AU: Shi, Lei;Tian, Guofeng;Ye, Hebo;Qi, Shengli;Wu, Dezhen;
2:25:51 Electrically bistable memory devices based on all-conjugated block copolythiophenes and their PCBM composite films
DOI:10.1039/c1jm11570g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Lai, Yi-Cang;Ohshimizu, Kaoru;Lee, Wen-Ya;Hsu, Jung-Ching;Higashihara, Tomoya;Ueda, Mitsuru;Chen, Wen-Chang;
2:25:52 Electrical switching of molecular thin films filled in metal oxide cracks
DOI:10.1007/s00339-012-7284-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:2 AU: Li, J. C.;Gong, X.;Wang, D.;Ba, D. C.;
2:25:53 Enhanced near-infrared electrochromism in triphenylamine-based aramids bearing phenothiazine redox centers
DOI:10.1039/c0jm01889a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:25 AU: Yen, Hung-Ju;Liou, Guey-Sheng;
2:25:54 A minimally coloured dioxypyrrole polymer as a counter electrode material in polymeric electrochromic window devices
DOI:10.1039/c2jm15057c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Knott, Eric P.;Craig, Michael R.;Liu, David Y.;Babiarz, Joseph E.;Dyer, Aubrey L.;Reynolds, John R.;
2:25:55 Flexible memory devices with tunable electrical bistability via controlled energetics in donor-donor and donor-acceptor conjugated polymers
DOI:10.1039/c4tc00039k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Yen, Hung-Ju;Tsai, Hsinhan;Kuo, Cheng-Yu;Nie, Wanyi;Mohite, Aditya D.;Gupta, Gautam;Wang, Jian;Wu, Jia-Hao;Liou, Guey-Sheng;Wang, Hsing-Lin;
2:25:56 Tuning memory performances from WORM to flash or DRAM by structural tailoring with different donor moieties
DOI:10.1039/c4tc00943f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Zhou, Feng;He, Jing-Hui;Liu, Quan;Gu, Pei-Yang;Li, Hua;Xu, Guo-Qin;Xu, Qing-Feng;Lu, Jian-Mei;
2:25:57 Synthesis of Alternating Copolysiloxane with Terthiophene and Perylenediimide Derivative Pendants for Involatile WORM Memory Device
DOI:10.1002/adfm.201304004 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Wen, Guanyin;Ren, Zhongjie;Sun, Dianming;Zhang, Tingjie;Liu, Lili;Yan, Shouke;
2:25:58 Enabling Strategies in Organic Electronics Using Ordered Block Copolymer Nanostructures
DOI:10.1002/adma.201002649 JN:ADVANCED MATERIALS PY:2010 TC:12 AU: De Rosa, Claudio;Auriemma, Finizia;Di Girolamo, Rocco;Pepe, Giovanni Piero;Napolitano, Teresa;Scaldaferri, Rossana;
2:25:59 Synthesis and memory characteristics of highly organo-soluble polyimides bearing a noncoplanar twisted biphenyl unit containing aromatic side-chain groups
DOI:10.1039/c0jm02547j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Li, Yueqin;Xu, Huihua;Tao, Xian;Qian, Kejia;Fu, Shuang;Shen, Yingzhong;Ding, Shijin;
2:25:60 A small-molecule-based device for data storage and electro-optical switch applications
DOI:10.1039/c1jm00065a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Li, Hua;Jin, Zhengneng;Li, Najun;Xu, Qingfeng;Gu, Hongwei;Lu, Jianmei;Xia, Xuewei;Wang, Lihua;
2:25:61 Tunable electrical memory characteristics of brush copolymers bearing electron donor and acceptor moieties
DOI:10.1039/c3tc30894d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Kim, Kyungtae;Fang, Yi-Kai;Kwon, Wonsang;Pyo, Seungmoon;Chen, Wen-Chang;Ree, Moonhor;
2:25:62 Preparation of TCPP: block copolymer composites and study of their memory behavior by tuning the loading ratio of TCPP in the polymer matrix
DOI:10.1039/c3tc30359d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Liu, Juan;Gu, Peiyang;Zhou, Feng;Xu, Qingfeng;Lu, Jianmei;Li, Hua;Wang, Lihua;
2:25:63 Synthesis and electrochromic properties of aromatic polyimides bearing pendent triphenylamine units
DOI:10.1016/j.polymer.2014.03.031 JN:POLYMER PY:2014 TC:7 AU: Hsiao, Sheng-Huei;Chou, Yu-Tan;
2:25:64 Morphology-Driven Modulation of Charge Transport in Radical/Ion-Containing, Self-Assembled Block Copolymer Platform
DOI:10.1002/adma.201103222 JN:ADVANCED MATERIALS PY:2011 TC:15 AU: Suga, Takeo;Takeuchi, Shunya;Nishide, Hiroyuki;
2:25:65 A Three-State Surface-Confined Molecular Switch with Multiple Channel Outputs
DOI:10.1021/ja204898u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:24 AU: Simao, Claudia;Mas-Torrent, Marta;Casado-Montenegro, Javier;Oton, Francisco;Veciana, Jaume;Rovira, Concepcio;
2:25:66 Electrically bistable digital memory behaviors of thin films of polyimides based on conjugated bis(triphenylamine) derivatives
DOI:10.1016/j.polymer.2012.07.025 JN:POLYMER PY:2012 TC:16 AU: Kim, Kyungtae;Yen, Hung-Ju;Ko, Yong-Gi;Chang, Cha-Wen;Kwon, Wonsang;Liou, Guey-Sheng;Ree, Moonhor;
2:25:67 Transmissive to black electrochromic aramids with high near-infrared and multicolor electrochromism based on electroactive tetraphenylbenzidine units
DOI:10.1039/c1jm10210a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:22 AU: Yen, Hung-Ju;Lin, Kun-Ying;Liou, Guey-Sheng;
2:25:68 Observation of Negative Charge Trapping and Investigation of Its Physicochemical Origin in Newly Synthesized Poly(tetraphenyl)silole Siloxane Thin Films
DOI:10.1021/ja1108112 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:11 AU: Choi, Jin-Kyu;Jang, Seunghyun;Kim, Ki-Jeong;Sohn, Honglae;Jeong, Hyun-Dam;
2:25:69 Ultrahigh density data storage based on organic materials with SPM techniques
DOI:10.1039/c0jm02471f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:14 AU: Ma, Ying;Wen, Yongqiang;Song, Yanlin;
2:25:70 Digital memory behaviors of aromatic polyimides bearing bis(trifluoromethyl)- and bithiophenyl-triphenylamine units
DOI:10.1016/j.polymer.2012.02.043 JN:POLYMER PY:2012 TC:8 AU: Kim, Dong Min;Ko, Yong-Gi;Choi, Jun Keol;Kim, Kyungtae;Kwon, Wonsang;Jung, Jungwoon;Yoon, Tae-Ho;Ree, Moonhor;
2:25:71 Surface-Confined Electroactive Molecules for Multistate Charge Storage Information
DOI:10.1002/adma.201201510 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Mas-Torrent, M.;Rovira, C.;Veciana, J.;
2:25:72 Nonvolatile memory effect of a functional polyimide containing ferrocene as the electroactive moiety
DOI:10.1063/1.3592575 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Tian, Guofeng;Qi, Shengli;Chen, Fei;Shi, Lei;Hu, Wenping;Wu, Dezhen;
2:25:73 Organic semiconductor memory devices based on a low-band gap polyfluorene derivative with isoindigo as electron-trapping moieties
DOI:10.1063/1.3554756 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Xu, Xinjun;Li, Lidong;Liu, Bo;Zou, Yingping;
2:25:74 Clues to the Electrical Switching Mechanism of Carbazole-Containing Polyimide Thin Films
DOI:10.1021/am506915n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Ree, Brian J.;Kwon, Wonsang;Kim, Kyungtae;Ko, Yong-Gi;Kim, Young Yong;Lee, Hoyeol;Ree, Moonhor;
2:25:75 Digital Memory Versatility of Fully pi-Conjugated Donor-Acceptor Hybrid Polymers
DOI:10.1021/am5013134 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Ko, Yong-Gi;Kim, Dong Min;Kim, Kyungtae;Jung, Sungmin;Wi, Dongwoo;Michinobu, Tsuyoshi;Ree, Moonhor;
2:25:76 Tuning the electrical memory characteristics from WORM to flash by alpha- and beta-substitution of the electron-donating naphthylamine moieties in functional polyimides
DOI:10.1039/c3tc31369g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Shi, Lei;Ye, Hebo;Liu, Wenlu;Tian, Guofeng;Qi, Shengli;Wu, Dezhen;
2:25:77 New fluorinated poly(ether sulfone imide)s with high thermal stability and low dielectric constant
DOI:10.1016/j.matchemphys.2013.10.012 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:5 AU: Wang, Chenyi;Chen, Wentao;Chen, Yunyun;Zhao, Xiaoyan;Li, Jian;Ren, Qiang;
2:25:78 Memory effect in polymer brushes containing pendant carbazole groups
DOI:10.1016/j.polymer.2011.01.044 JN:POLYMER PY:2011 TC:6 AU: Wei, Yuyan;Gao, Dazhi;Li, Liang;Shang, Songmin;
2:25:79 Synthesis, structural characterization and properties of novel functional poly(ether imide)/titania nanocomposite thin films
DOI:10.1016/j.polymer.2014.10.021 JN:POLYMER PY:2014 TC:6 AU: Dinari, Mohammad;Ahmadizadegan, Hashem;
2:25:80 Distinct electronic switching behaviors of triphenylamine-containing polyimide memories with different bottom electrodes
DOI:10.1063/1.3431658 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Liu, Qisheng;Jiang, Kejian;Wang, Lihua;Wen, Yongqiang;Wang, Jingxia;Ma, Ying;Song, Yanlin;
2:25:81 Azo Anion Radical Complex of Rhodium as a Molecular Memory Switching Device: Isolation, Characterization, and Evaluation of Current-Voltage Characteristics
DOI:10.1021/ja212197s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:15 AU: Paul, Nanda D.;Rana, Utpal;Goswami, Sreetosh;Mondal, Tapan K.;Goswami, Sreebrata;
2:25:82 WORM memory devices based on conformation change of a PVK derivative with a rigid spacer in side chain
DOI:10.1016/j.matchemphys.2010.05.037 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:12 AU: Liu, Yuanhua;Li, Najun;Xia, Xuewei;Xu, Qingfeng;Ge, Jianfeng;Lu, Jianmei;
2:25:83 Synthesis and properties of new fluorene-based polyimides containing trifluoromethyl and isopropyl substituents
DOI:10.1016/j.matchemphys.2014.01.039 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Wang, Chenyi;Chen, Wentao;Chen, Yunyun;Zhao, Xiaoyan;Li, Jian;Ren, Qiang;
2:25:84 Investigation on bistable resistance switching characteristics of an organic donor-acceptor material for high density data storage
DOI:10.1007/s00339-012-7513-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: Ma, Ying;Wang, Qing;Shi, Fangxiao;
2:25:85 Colorless Triphenylamine-Based Aliphatic Thermoset Epoxy for Multicolored and Near-Infrared Electrochromic Applications
DOI:10.1021/am405803z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Chuang, Ya-Wen;Yen, Hung-Ju;Wu, Jia-Hao;Liou, Guey-Sheng;
2:25:86 Novel near-infrared and multi-colored electrochromic polybenzoxazines with electroactive triarylamine moieties
DOI:10.1039/c4tc01469c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Lin, Lu-Chi;Yen, Hung-Ju;Kung, Yu-Ruei;Leu, Chyi-Ming;Lee, Tzong-Ming;Liou, Guey-Sheng;
2:25:87 A new DRAM-type memory devices based on polymethacrylate containing pendant 2-methylbenzothiazole
DOI:10.1016/j.matchemphys.2012.02.063 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Wang, Dong;Li, Hua;Li, Najun;Zhao, Ying;Zhou, Qianhao;Xu, Qingfeng;Lu, Jianmei;Wang, Lihua;
2:25:88 Electronic memory devices based on the chalcone with negative electrostatic potential regions
DOI:10.1016/j.matchemphys.2013.06.056 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Yan, Bao-Long;Sun, Ru;Ge, Jian-Feng;Wang, Dong;Li, Hua;Lu, Jian-Mei;
2:25:89 Novel electrochromic gel with high optical contrast in the visible and near-infrared
DOI:10.1016/j.matchemphys.2013.04.005 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:3 AU: Cospito, Sante;De Simone, Bruna Clara;Beneduci, Amerigo;Imbardelli, Daniela;Chidichimo, Giuseppe;
2:25:90 Syntheses and characterizations of cardo polyimides based on new spirobifluorene diamine monomer
DOI:10.1016/j.matchemphys.2013.02.057 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:5 AU: Wen, Pushan;Kim, Youngkuk;Chun, Hyunaee;Yang, Si-Young;Lee, Myong-Hoon;
2:25:91 Memory devices based on small organic molecules donor-acceptor system
DOI:10.1016/j.tsf.2010.07.009 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Salaoru, I.;Paul, S.;
2:25:92 High organosolubility and optical transparency of novel polyimides derived from 2 ',7 '-bis(4-amino-2-trifluoromethylphenoxy)-spiro (fluorene-9,9 '-xanthene)
DOI:10.1016/j.matchemphys.2011.03.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:11 AU: Zhang, Shu-Jiang;Bu, Qian-Qian;Li, Yan-Feng;Gong, Chen-Liang;Xu, Xiang-Yang;Li, Hui;
2:25:93 Conductivity switching and memory effect in polymer brushes with carbazole pendant moieties
DOI:10.1016/j.synthmet.2012.05.015 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Liu, Yang;Lv, Shujun;Li, Liang;Shang, Songmin;
2:25:94 High-performance optoelectrical dual-mode memory based on spiropyran-containing polyimide
DOI:10.1063/1.3529453 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Liu, Qisheng;Jiang, Kejian;Wen, Yongqiang;Wang, Jingxia;Luo, Jia;Song, Yanlin;
2:25:95 Electrical phase transition of poly(4,4 '-aminotriphenylene hexafluoroisopropylidenediphthalimide) by photogenerated charged carrier injection
DOI:10.1063/1.3681776 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Lee, Kyoung-Jae;Kim, Dong Min;Ihm, Kyuwook;Ree, Moonhor;Kang, Tai-Hee;Chung, Sukmin;
2:25:96 Synthesis and Characterization of Ternary-Copolymer of Soluble Fluorinated Polyimides Based on 1,4-bis (4-amino-2-trifluoromethylphenoxy) benzene
DOI:10.1002/app.37740 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:4 AU: Fang, Cheng;Zhou, Yuming;He, Man;Bu, Xiaohai;Yin, Kang;Weng, Jiajia;Zhang, Zewu;
2:25:97 Synthesis and characterization of high-performance polyimides based on 6,4 '-diamino-2-phenylbenzimidazole
DOI:10.1002/app.38709 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:6 AU: Xia, Qingming;Liu, Junpeng;Dong, Jie;Yin, Chaoqing;Du, Yuxuan;Xu, Qian;Zhang, Qinghua;
2:25:98 Theoretical study of the influence of salt doping in the functioning of OLEDs
DOI:10.1039/c0jm01688h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:1 AU: Pereira, Andre;Barbosa, Helder M. C.;Correia, Helena M. G.;Marques, Luis;Ramos, Marta M. D.;
2:25:99 Exploiting stable radical states for multifunctional properties in triarylamine-based porous organic polymers
DOI:10.1039/c4ta01925c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Hua, Carol;Rawal, Aditya;Faust, Thomas B.;Southon, Peter D.;Babarao, Ravichandar;Hook, James M.;D'Alessandro, Deanna M.;
2:25:100 Fabrication CdS nanoparticles on the edges of reduced graphene oxided sheets with P2VP polymer brushes
DOI:10.1016/j.matlet.2013.12.075 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Yang, Yongfang;Li, Mao;Xie, Yulei;Song, Xiaohui;Qu, Xiongwei;Zhao, Hanying;
2:25:101 New cross pi-conjugated aromatic polyketones: Synthesis and chemical properties
DOI:10.1016/j.synthmet.2013.08.007 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Abe, Masahiro;Yamamoto, Takakazu;
2:26:1:1 Theory of Dielectric Elastomers Capable of Giant Deformation of Actuation
DOI:10.1103/PhysRevLett.104.178302 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:90 AU: Zhao, Xuanhe;Suo, Zhigang;
2:26:1:2 Harnessing snap-through instability in soft dielectrics to achieve giant voltage-triggered deformation
DOI:10.1039/c1sm06736b JN:SOFT MATTER PY:2012 TC:97 AU: Keplinger, Christoph;Li, Tiefeng;Baumgartner, Richard;Suo, Zhigang;Bauer, Siegfried;
2:26:1:3 Dielectric elastomer actuators under equal-biaxial forces, uniaxial forces, and uniaxial constraint of stiff fibers
DOI:10.1039/c2sm25692d JN:SOFT MATTER PY:2012 TC:53 AU: Lu, Tongqing;Huang, Jiangshui;Jordi, Christa;Kovacs, Gabor;Huang, Rui;Clarke, David R.;Suo, Zhigang;
2:26:1:4 Method for measuring energy generation and efficiency of dielectric elastomer generators
DOI:10.1063/1.3653239 JN:APPLIED PHYSICS LETTERS PY:2011 TC:37 AU: Kaltseis, Rainer;Keplinger, Christoph;Baumgartner, Richard;Kaltenbrunner, Martin;Li, Tiefeng;Maechler, Philipp;Schwoediauer, Reinhard;Suo, Zhigang;Bauer, Siegfried;
2:26:1:5 Giant, voltage-actuated deformation of a dielectric elastomer under dead load
DOI:10.1063/1.3680591 JN:APPLIED PHYSICS LETTERS PY:2012 TC:32 AU: Huang, Jiangshui;Li, Tiefeng;Foo, Choon Chiang;Zhu, Jian;Clarke, David R.;Suo, Zhigang;
2:26:1:6 Bioinspired Tunable Lens with Muscle-Like Electroactive Elastomers
DOI:10.1002/adfm.201101253 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:81 AU: Carpi, Federico;Frediani, Gabriele;Turco, Simona;De Rossi, Danilo;
2:26:1:7 An integrated, self-priming dielectric elastomer generator
DOI:10.1063/1.3478468 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: McKay, Thomas;O'Brien, Benjamin;Calius, Emilio;Anderson, Iain;
2:26:1:8 The thickness and stretch dependence of the electrical breakdown strength of an acrylic dielectric elastomer
DOI:10.1063/1.4754549 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Huang, Jiangshui;Shian, Samuel;Diebold, Roger M.;Suo, Zhigang;Clarke, David R.;
2:26:1:9 An aluminum nanoparticle-acrylate copolymer nanocomposite as a dielectric elastomer with a high dielectric constant
DOI:10.1039/c3tc31929f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Hu, Wei;Zhang, Suki Naifang;Niu, Xiaofan;Liu, Chao;Pei, Qibing;
2:26:1:10 Two types of transitions to wrinkles in dielectric elastomers
DOI:10.1039/c2sm26034d JN:SOFT MATTER PY:2012 TC:19 AU: Zhu, Jian;Kollosche, Matthias;Lu, Tongqing;Kofod, Guggi;Suo, Zhigang;
2:26:1:11 Maximizing the Energy Density of Dielectric Elastomer Generators Using Equi-Biaxial Loading
DOI:10.1002/adfm.201300402 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:23 AU: Huang, Jiangshui;Shian, Samuel;Suo, Zhigang;Clarke, David R.;
2:26:1:12 Energy harvesting of dielectric elastomer generators concerning inhomogeneous fields and viscoelastic deformation
DOI:10.1063/1.4745049 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:18 AU: Li, Tiefeng;Qu, Shaoxing;Yang, Wei;
2:26:1:13 Dielectric elastomers: Stretching the capabilities of energy harvesting
DOI:10.1557/mrs.2012.41 JN:MRS BULLETIN PY:2012 TC:27 AU: Kornbluh, Roy D.;Pelrine, Ron;Prahlad, Harsha;Wong-Foy, Annjoe;McCoy, Brian;Kim, Susan;Eckerle, Joseph;Low, Tom;
2:26:1:14 Charge localization instability in a highly deformable dielectric elastomer
DOI:10.1063/1.4862325 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Lu, Tongqing;Keplinger, Christoph;Arnold, Nikita;Bauer, Siegfried;Suo, Zhigang;
2:26:1:15 Improved electromechanical behavior in castable dielectric elastomer actuators
DOI:10.1063/1.4793420 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Akbari, Samin;Rosset, Samuel;Shea, Herbert R.;
2:26:1:16 Computational model of deformable lenses actuated by dielectric elastomers
DOI:10.1063/1.4821028 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Lu, Tongqing;Cai, Shengqiang;Wang, Huiming;Suo, Zhigang;
2:26:1:17 Enhanced Electroactive Response of Unidirectional Elastomeric Composites with High-Dielectric-Constant Fibers
DOI:10.1002/adma.201305821 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Subramani, Krishna Bala;Cakmak, Enes;Spontak, Richard J.;Ghosh, Tushar K.;
2:26:1:18 Large, uni-directional actuation in dielectric elastomers achieved by fiber stiffening
DOI:10.1063/1.4720181 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Huang, Jiangshui;Lu, Tongqing;Zhu, Jian;Clarke, David R.;Suo, Zhigang;
2:26:1:19 Bistable Large-Strain Actuation of Interpenetrating Polymer Networks
DOI:10.1002/adma.201202876 JN:ADVANCED MATERIALS PY:2012 TC:16 AU: Niu, Xiaofan;Yang, Xinguo;Brochu, Paul;Stoyanov, Hristiyan;Yun, Sungryul;Yu, Zhibin;Pei, Qibing;
2:26:1:20 Optimizing the Electrical Energy Conversion Cycle of Dielectric Elastomer Generators
DOI:10.1002/adma.201402291 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Shian, Samuel;Huang, Jiangshui;Zhu, Shijie;Clarke, David R.;
2:26:1:21 Highly deformable actuators made of dielectric elastomers clamped by rigid rings
DOI:10.1063/1.4876722 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Lu, Tongqing;Foo, Choon Chiang;Huang, Jiangshui;Zhu, Jian;Suo, Zhigang;
2:26:1:22 Influence of the temperature and deformation-dependent dielectric constant on the stability of dielectric elastomers
DOI:10.1002/app.38361 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Sheng, Junjie;Chen, Hualing;Li, Bo;Wang, Yongquan;
2:26:1:23 Electromechanical stability in charge-controlled dielectric elastomer actuation
DOI:10.1063/1.3670048 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Li, Bo;Zhou, Jinxiong;Chen, Hualing;
2:26:1:24 The dielectric breakdown limit of silicone dielectric elastomer actuators
DOI:10.1063/1.4863816 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Gatti, Davide;Haus, Henry;Matysek, Marc;Frohnapfel, Bettina;Tropea, Cameron;Schlaak, Helmut F.;
2:26:1:25 A model for conditional polarization of the actuation enhancement of a dielectric elastomer
DOI:10.1039/c1sm05847a JN:SOFT MATTER PY:2012 TC:16 AU: Li, Bo;Chen, Hualing;Qiang, Junhua;Zhou, Jinxiong;
2:26:1:26 Giant voltage-induced deformation of a dielectric elastomer under a constant pressure
DOI:10.1063/1.48958151 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Godaba, Hareesh;Foo, Choon Chiang;Zhang, Zhi Qian;Khoo, Boo Cheong;Zhu, Jian;
2:26:1:27 Experimental investigation of mesoscale crack front triple line
DOI:10.1007/s00339-013-7841-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Budzik, Michal K.;Jumel, Julien;Shanahan, Martin E. R.;
2:26:1:28 Electromechanical coupling in anodic niobium oxide: Electric field-induced strain, internal stress, and dielectric response
DOI:10.1063/1.4729319 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Van Overmeere, Q.;Blaffart, F.;La Mantia, F.;Di Quarto, F.;Proost, J.;
2:26:2:1 High Breakdown Field Dielectric Elastomer Actuators Using Encapsulated Polyaniline as High Dielectric Constant Filler
DOI:10.1002/adfm.201000486 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:105 AU: Molberg, Martin;Crespy, Daniel;Rupper, Patrick;Nueesch, Frank;Manson, Jan-Anders E.;Loewe, Christiane;Opris, Dorina M.;
2:26:2:2 Molecular composites with enhanced energy density for electroactive polymers
DOI:10.1039/c0jm00519c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:42 AU: Stoyanov, Hristiyan;Kollosche, Matthias;McCarthy, Denis N.;Kofod, Guggi;
2:26:2:3 Elastic block copolymer nanocomposites with controlled interfacial interactions for artificial muscles with direct voltage control
DOI:10.1039/c0sm00715c JN:SOFT MATTER PY:2011 TC:57 AU: Stoyanov, Hristiyan;Kollosche, Matthias;Risse, Sebastian;McCarthy, Denis N.;Kofod, Guggi;
2:26:2:4 High performance dielectric composites by latex compounding of graphene oxide-encapsulated carbon nanosphere hybrids with XNBR
DOI:10.1039/c4ta01600a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Tian, Ming;Ma, Qin;Li, Xiaolin;Zhang, Liqun;Nishi, Toshio;Ning, Nanying;
2:26:2:5 PDMS/MWCNT nanocomposite actuators using silicone functionalized multiwalled carbon nanotubes via nitrene chemistry
DOI:10.1039/c3tc30888j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Yadav, Santosh Kumar;Kim, Il Jin;Kim, Hyun Ji;Kim, Joohoon;Hong, Soon Man;Koo, Chong Min;
2:26:2:6 Enhancement Of Dielectric Permittivity And Electromechanical Response In Silicone Elastomers: Molecular Grafting Of Organic Dipoles To The Macromolecular Network
DOI:10.1002/adfm.201100884 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:54 AU: Kussmaul, Bjoern;Risse, Sebastian;Kofod, Guggi;Wache, Remi;Wegener, Michael;McCarthy, Denis N.;Krueger, Hartmut;Gerhard, Reimund;
2:26:2:7 Enhanced dielectric properties and actuated strain of elastomer composites with dopamine-induced surface functionalization
DOI:10.1039/c3ta12090b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Yang, Dan;Tian, Ming;Li, Dongdong;Wang, Wencai;Ge, Fengxing;Zhang, Liqun;
2:26:2:8 Dielectric elastomer transducers with enhanced force output and work density
DOI:10.1063/1.4730953 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Stoyanov, Hristiyan;Brochu, Paul;Niu, Xiaofan;Della Gaspera, Enrico;Pei, Qibing;
2:26:2:9 Towards materials with enhanced electro-mechanical response: CaCu3Ti4O12-polydimethylsiloxane composites
DOI:10.1039/c2jm34674e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Romasanta, Laura J.;Leret, Pilar;Casaban, Leandro;Hernandez, Marianella;de la Rubia, Miguel A.;Fernandez, Jose F.;Kenny, Jose M.;Lopez-Manchado, Miguel A.;Verdejo, Raquel;
2:26:2:10 Largely improved actuation strain at low electric field of dielectric elastomer by combining disrupting hydrogen bonds with ionic conductivity
DOI:10.1039/c4tc01140f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Tian, Ming;Yan, Bingyue;Yao, Yang;Zhang, Liqun;Nishi, Toshio;Ning, Nanying;
2:26:2:11 Increased electroaction through a molecular flexibility tuning process in TiO2-polydimethylsilicone nanocomposites
DOI:10.1039/c2ta01026g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:26 AU: Zhao, Hang;Wang, Dong-Rui;Zha, Jun-Wei;Zhao, Jun;Dang, Zhi-Min;
2:26:2:12 New Silicone Composites for Dielectric Elastomer Actuator Applications In Competition with Acrylic Foil
DOI:10.1002/adfm.201101039 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:48 AU: Opris, Dorina M.;Molberg, Martin;Walder, Christian;Ko, Yee Song;Fischer, Beatrice;Nueesch, Frank A.;
2:26:2:13 Synergistic Improvement of Actuation Properties with Compatibilized High Permittivity Filler
DOI:10.1002/adfm.201200320 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:31 AU: Risse, Sebastian;Kussmaul, Bjoern;Krueger, Hartmut;Kofod, Guggi;
2:26:2:14 Electrical failure in blends of chemically identical, soft thermoplastic elastomers with different elastic stiffness
DOI:10.1063/1.3319513 JN:APPLIED PHYSICS LETTERS PY:2010 TC:37 AU: Kollosche, Matthias;Kofod, Guggi;
2:26:2:15 Mechanical, Dielectric, and Electromechanical Properties of Silicone Dielectric Elastomer Actuators
DOI:10.1002/app.40030 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Kim, Il Jin;Min, Kyoungho;Park, Hyunchul;Hong, Soon Man;Kim, Woo Nyon;Kang, Seung Hyun;Koo, Chong Min;
2:26:2:16 Soft capacitors for wave energy harvesting
DOI:10.1039/c1jm12454d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Ahnert, Karsten;Abel, Markus;Kollosche, Matthias;Jorgensen, Per Jorgen;Kofod, Guggi;
2:26:2:17 Enhanced electro-mechanical actuation strain in polyaniline nanorods/silicone rubber nanodielectric elastomer films
DOI:10.1063/1.4884362 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Dongrui;Zhang, Ling;Zhang, Liang;Zha, Jun-Wei;Yu, Haizhu;Hu, Sheng;Dang, Zhi-Min;
2:26:2:18 A high-performance dielectric elastomer consisting of bio-based polyester elastomer and titanium dioxide powder
DOI:10.1063/1.4824805 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Yang, Dan;Tian, Ming;Dong, Yingchao;Kang, Hailan;Gong, Daolin;Zhang, Liqun;
2:26:2:19 Lead magnesium niobate-filled silicone dielectric elastomer with large actuated strain
DOI:10.1002/app.36428 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:17 AU: Yang, Dan;Zhang, Liqun;Liu, Haoliang;Dong, Yingchao;Yu, Yingchun;Tian, Ming;
2:26:2:20 New polyester dielectric elastomer with large actuated strain at low electric field
DOI:10.1016/j.matlet.2012.02.084 JN:MATERIALS LETTERS PY:2012 TC:16 AU: Yang, Dan;Tian, Ming;Kang, Hailan;Dong, Yingchao;Liu, Haoliang;Yu, Yingchun;Zhang, Liqun;
2:26:2:21 Silicone elastomers with high dielectric permittivity and high dielectric breakdown strength based on dipolar copolymers
DOI:10.1016/j.polymer.2014.09.056 JN:POLYMER PY:2014 TC:10 AU: Madsen, Frederikke Bahrt;Yu, Liyun;Daugaard, Anders Egede;Hvilsted, Soren;Skov, Anne Ladegaard;
2:26:2:22 Thermally expanded graphene nanoplates/polydimethylsiloxane composites with high dielectric constant, low dielectric loss and improved actuated strain
DOI:10.1016/j.compscitech.2014.05.004 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2014 TC:8 AU: Tian, Ming;Wei, Zhaoyang;Zan, Xiaoqing;Zhang, Liqun;Zhang, Jing;Ma, Qin;Ning, Nanying;Nishi, Toshio;
2:26:2:23 A control method for triblock copolymer actuators by nano-lamellar pattern
DOI:10.1039/c1sm06184d JN:SOFT MATTER PY:2011 TC:13 AU: Jang, Yeonju;Hirai, Toshihiro;
2:26:2:24 Electric Actuation of Nanostructured Thermoplastic Elastomer Gels with Ultralarge Electrostriction Coefficients
DOI:10.1002/adfm.201100298 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:15 AU: Kim, Bori;Park, Youn Duk;Min, Kyoungho;Lee, Jin Hong;Hwang, Seung Sang;Hong, Soon Man;Kim, Bong Hoon;Kim, Sang Ouk;Koo, Chong Min;
2:26:2:25 Electromechanical Strain Responses of SEBS/Carbon Composite
DOI:10.1080/15421401003608410 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Kim, Myeong Hee;Kim, Seong Hun;La Kwak, Hee;Park, Youn Duk;Hwang, Seung Sang;Koo, Chong Min;Hong, Soon Man;
2:26:2:26 The Electromechanical Properties of SEBS and SEBS-g-MA Dielectric Elastomer Gels
DOI:10.1080/15421401003604070 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Kim, Bori;Min, Kyongho;Kim, Jungahn;Hong, Soon Man;Koo, Chong Min;
2:26:3:1 Multi-functional dielectric elastomer artificial muscles for soft and smart machines
DOI:10.1063/1.4740023 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:70 AU: Anderson, Iain A.;Gisby, Todd A.;McKay, Thomas G.;O'Brien, Benjamin M.;Calius, Emilio P.;
2:26:3:2 Flexible and stretchable electrodes for dielectric elastomer actuators
DOI:10.1007/s00339-012-7402-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:57 AU: Rosset, Samuel;Shea, Herbert R.;
2:26:3:3 Soft generators using dielectric elastomers
DOI:10.1063/1.3572338 JN:APPLIED PHYSICS LETTERS PY:2011 TC:41 AU: McKay, Thomas G.;O'Brien, Benjamin M.;Calius, Emilio P.;Anderson, Iain A.;
2:26:3:4 Self-priming dielectric elastomer generators
DOI:10.1088/0964-1726/19/5/055025 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:55 AU: McKay, Thomas;O'Brien, Benjamin;Calius, Emilio;Anderson, Iain;
2:26:3:5 A thin membrane artificial muscle rotary motor
DOI:10.1007/s00339-009-5434-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:28 AU: Anderson, Iain A.;Hale, Thom;Gisby, Todd;Inamura, Tokushu;McKay, Thomas;O'Brien, Benjamin;Walbran, Scott;Calius, Emilio P.;
2:26:3:6 Rotating turkeys and self-commutating artificial muscle motors
DOI:10.1063/1.3685708 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: O'Brien, Benjamin M.;McKay, Thomas G.;Gisby, Todd A.;Anderson, Iain A.;
2:26:3:7 Capacitive Energy Harvesting Using Highly Stretchable Silicone-Carbon Nanotube Composite Electrodes
DOI:10.1002/aenm.201300659 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:0 AU: Brochu, Paul;Stoyanov, Hristiyan;Chang, Ryan;Niu, Xiaofan;Hu, Wei;Pei, Qibing;
2:26:3:8 Dielectric elastomer switches for smart artificial muscles
DOI:10.1007/s00339-010-5857-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:30 AU: O'Brien, Benjamin M.;Calius, Emilio P.;Inamura, Tokushu;Xie, Sheng Q.;Anderson, Iain A.;
2:26:3:9 Ionic Skin
DOI:10.1002/adma.201403441 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Sun, Jeong-Yun;Keplinger, Christoph;Whitesides, George M.;Suo, Zhigang;
2:26:3:10 A soft and dexterous motor
DOI:10.1063/1.3565195 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Anderson, Iain A.;Tse, Tony Chun Hin;Inamura, Tokushu;O'Brien, Benjamin M.;McKay, Thomas;Gisby, Todd;
2:26:3:11 Harnessing electromechanical membrane wrinkling for actuation
DOI:10.1063/1.4764101 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Conn, Andrew T.;Rossiter, Jonathan;
2:26:3:12 Modelling of dielectric polymers for energy scavenging applications
DOI:10.1088/0964-1726/19/10/105006 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:26 AU: Jean-Mistral, C.;Basrour, S.;Chaillout, J-J;
2:26:3:13 Ion implanted dielectric elastomer circuits
DOI:10.1007/s00339-012-7319-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: O'Brien, Benjamin M.;Rosset, Samuel;Anderson, Iain A.;Shea, Herbert R.;
2:26:3:14 Self sensing feedback for dielectric elastomer actuators
DOI:10.1063/1.4805352 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Gisby, Todd A.;O'Brien, Benjamin M.;Anderson, Iain A.;
2:26:3:15 Energy harvesting with stacked dielectric elastomer transducers: Nonlinear theory, optimization, and linearized scaling law
DOI:10.1063/1.4904473 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Tutcuoglu, A.;Majidi, C.;
2:26:3:16 Advances for dielectric elastomer generators: Replacement of high voltage supply by electret
DOI:10.1063/1.4761949 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Jean-Mistral, C.;Cong, T. Vu;Sylvestre, A.;
2:26:3:17 Solar to electrical conversion via liquid crystal elastomers
DOI:10.1063/1.3581134 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Hiscock, T.;Warner, M.;Palffy-Muhoray, P.;
2:26:3:18 On the energy conversion and efficiency of a dielectric electroactive polymer generator
DOI:10.1063/1.4737439 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Wang, Huaming;Wang, Chengshu;Yuan, Tongyan;
2:26:3:19 An artificial muscle computer
DOI:10.1063/1.4793648 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: O'Brien, Benjamin Marc;Anderson, Iain Alexander;
2:26:3:20 Photoferroelectric solar to electrical conversion
DOI:10.1063/1.4789907 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Knezevic, Milos;Warner, Mark;
2:26:3:21 Tunable millimeter-wave phase shifter based on dielectric elastomer actuation
DOI:10.1063/1.4862272 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Romano, P.;Araromi, O.;Rosset, S.;Shea, H.;Perruisseau-Carrier, J.;
2:26:3:22 Niobium Nanowire Yarns and their Application as Artificial Muscles
DOI:10.1002/adfm.201203808 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:7 AU: Mirvakili, Seyed M.;Pazukha, Alexey;Sikkema, William;Sinclair, Chad W.;Spinks, Geoffrey M.;Baughman, Ray H.;Madden, John D. W.;
2:26:3:23 Fabrication and Performance of a Donut-Shaped Generator Based on Dielectric Elastomer
DOI:10.1002/app.40076 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Lee, Ran Hee;Basuli, Utpal;Lyu, Min-Young;Kim, Eun Soo;Nah, Changwoon;
2:26:4:1 Viscoelastic creep elimination in dielectric elastomer actuation by preprogrammed voltage
DOI:10.1063/1.4903059 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhang, Junshi;Wang, Yanjie;McCoul, David;Pei, Qibing;Chen, Hualing;
2:26:4:2 Model of dissipative dielectric elastomers
DOI:10.1063/1.3680878 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:37 AU: Foo, Choon Chiang;Cai, Shengqiang;Koh, Soo Jin Adrian;Bauer, Siegfried;Suo, Zhigang;
2:26:4:3 Cyclic performance of viscoelastic dielectric elastomers with solid hydrogel electrodes
DOI:10.1063/1.4865200 JN:APPLIED PHYSICS LETTERS PY:2014 TC:4 AU: Bai, Yuanyuan;Jiang, Yanhui;Chen, Baohong;Foo, Choon Chiang;Zhou, Yongcun;Xiang, Feng;Zhou, Jinxiong;Wang, Hong;Suo, Zhigang;
2:26:4:4 Performance of dissipative dielectric elastomer generators
DOI:10.1063/1.4714557 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:20 AU: Foo, Choon Chiang;Koh, Soo Jin Adrian;Keplinger, Christoph;Kaltseis, Rainer;Bauer, Siegfried;Suo, Zhigang;
2:26:4:5 Viscoelastic deformation of a dielectric elastomer membrane subject to electromechanical loads
DOI:10.1063/1.4807911 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:11 AU: Wang, Huiming;Lei, Ming;Cai, Shengqiang;
2:26:4:6 Dynamic electromechanical performance of viscoelastic dielectric elastomers
DOI:10.1063/1.4823861 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Sheng, Junjie;Chen, Hualing;Liu, Lei;Zhang, Junshi;Wang, Yongquan;Jia, Shuhai;
2:26:4:7 Dynamic performance of dissipative dielectric elastomers under alternating mechanical load
DOI:10.1007/s00339-013-8092-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:6 AU: Zhang, Junshi;Chen, Hualing;Sheng, Junjie;Liu, Lei;Wang, Yongquan;Jia, Shuhai;
2:26:4:8 Temperature dependence of the dielectric constant of acrylic dielectric elastomer
DOI:10.1007/s00339-012-7254-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:7 AU: Sheng, Junjie;Chen, Hualing;Li, Bo;Chang, Longfei;
2:26:4:9 Viscoelastic effects on electromechanical instabilities in dielectric elastomers
DOI:10.1039/c2sm27375f JN:SOFT MATTER PY:2013 TC:17 AU: Park, Harold S.;Nguyen, Thao D.;
2:26:4:10 Voltage-induced deformation in dielectric
DOI:10.1063/1.4745023 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Liu, Liwu;Liu, Yanju;Leng, Jinsong;
2:26:4:11 Viscoelastic effects on frequency tuning of a dielectric elastomer membrane resonator
DOI:10.1063/1.4869666 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Zhou, Jianyou;Jiang, Liying;Khayat, Roger E.;
2:26:4:12 On electromechanical stability analysis of dielectric elastomer actuators
DOI:10.1063/1.3504702 JN:APPLIED PHYSICS LETTERS PY:2010 TC:28 AU: Xu, Bai-Xiang;Mueller, Ralf;Klassen, Markus;Gross, Dietmar;
2:26:4:13 Large deformation and electromechanical instability of a dielectric elastomer tube actuator
DOI:10.1063/1.3490186 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:28 AU: Zhu, Jian;Stoyanov, Hristiyan;Kofod, Guggi;Suo, Zhigang;
2:26:4:14 Dynamic performance of dielectric elastomers utilized as acoustic actuators
DOI:10.1007/s00339-012-6837-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:15 AU: Hochradel, K.;Rupitsch, S. J.;Sutor, A.;Lerch, R.;Vu, D. K.;Steinmann, P.;
2:26:4:15 A dynamic visco-hyperelastic model of dielectric elastomers and their energy dissipation characteristics
DOI:10.1007/s00339-013-7740-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:6 AU: Wang, Yongquan;Xue, Huanhuan;Chen, Hualing;Qiang, Junhua;
2:26:4:16 Rupture of a highly stretchable acrylic dielectric elastomer
DOI:10.1063/1.4721777 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:9 AU: Pharr, Matt;Sun, Jeong-Yun;Suo, Zhigang;
2:26:4:17 Experimental characterization of the hysteretic and rate-dependent electromechanical behavior of dielectric electro-active polymer actuators
DOI:10.1088/0964-1726/19/9/094014 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:26 AU: York, A.;Dunn, J.;Seelecke, S.;
2:26:4:18 Dynamic analysis of dielectric elastomer actuators
DOI:10.1063/1.3694267 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Xu, Bai-Xiang;Mueller, Ralf;Theis, Anika;Klassen, Markus;Gross, Dietmar;
2:26:4:19 Modeling of the muscle-like actuation in soft dielectrics: deformation mode and electromechanical stability
DOI:10.1007/s00339-012-7457-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:3 AU: Li, Bo;Chen, Hualing;Zhou, Jinxiong;
2:26:4:20 Temporal change in the electromechanical properties of dielectric elastomer minimum energy structures
DOI:10.1063/1.4880155 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Buchberger, G.;Hauser, B.;Schoeftner, J.;Bauer, S.;Jakoby, B.;Hilber, W.;
2:26:4:21 Multilayer coaxial fiber dielectric elastomers for actuation and sensing
DOI:10.1007/s00339-010-6066-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:7 AU: Kofod, G.;Stoyanov, H.;Gerhard, R.;
2:26:4:22 Electromechanical stability of semi-crystalline polymer
DOI:10.1016/j.tsf.2011.01.119 JN:THIN SOLID FILMS PY:2011 TC:10 AU: Kong, Xianghao;Li, Yibin;Liu, Liwu;He, Xiaodong;
2:26:5:1 Enhanced soft dielectric composite generators: the role of ceramic fillers
DOI:10.1016/j.jeurceramsoc.2013.12.014 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2014 TC:4 AU: Bortot, Eliana;Springhetti, Roberta;Gei, Massimiliano;
2:26:5:2 Damage induced dissipation in electroactive polymer harvesters
DOI:10.1063/1.4900485 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Colonnelli, S.;Saccomandi, G.;Zurlo, G.;
2:26:5:3 Current status and future prospects of power generators using dielectric elastomers
DOI:10.1088/0964-1726/20/12/124006 JN:SMART MATERIALS & STRUCTURES PY:2011 TC:20 AU: Chiba, Seiki;Waki, Mikio;Kornbluh, Roy;Pelrine, Ron;
2:26:5:4 Analysis of microstructural induced enhancement of electromechanical coupling in soft dielectrics
DOI:10.1063/1.4801775 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Rudykh, Stephan;Lewinstein, Arnon;Uner, Gil;deBotton, Gal;
2:26:5:5 Electromechanical instability and oscillating deformations in electroactive polymer films
DOI:10.1063/1.4772956 JN:APPLIED PHYSICS LETTERS PY:2013 TC:12 AU: De Tommasi, D.;Puglisi, G.;Zurlo, G.;
2:26:5:6 PZT-PDMS composite for active damping of vibrations
DOI:10.1016/j.compscitech.2013.01.004 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2013 TC:8 AU: Sharma, Satinder K.;Gaur, Himani;Kulkarni, Manish;Patil, Ganesh;Bhattacharya, Bishakh;Sharma, Ashutosh;
2:26:5:7 Compression-induced failure of electroactive polymeric thin films
DOI:10.1063/1.3568885 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: De Tommasi, D.;Puglisi, G.;Zurlo, G.;
2:26:5:8 Comparison of electroactive polymers for energy scavenging applications
DOI:10.1088/0964-1726/19/8/085012 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:18 AU: Jean-Mistral, C.;Basrour, S.;Chaillout, J-J;
2:26:5:9 Highly flexible piezoelectric 0-3 PZT-PDMS composites with high filler content
DOI:10.1016/j.compscitech.2013.11.027 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2014 TC:4 AU: Babu, Indu;de With, Gijsbertus;
2:26:6:1 Soft Conductive Elastomer Materials for Stretchable Electronics and Voltage Controlled Artificial Muscles
DOI:10.1002/adma.201202728 JN:ADVANCED MATERIALS PY:2013 TC:23 AU: Stoyanov, Hristiyan;Kollosche, Matthias;Risse, Sebastian;Wache, Remi;Kofod, Guggi;
2:26:6:2 Actuating dielectric elastomers in pure shear deformation by elastomeric conductors
DOI:10.1063/1.4864402 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Wang, Yin;Chen, Baohong;Bai, Yuanyuan;Wang, Hong;Zhou, Jinxiong;
2:26:6:3 Modeling of dielectric elastomer as electromechanical resonator
DOI:10.1063/1.4896584 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Li, Bo;Zhang, Junshi;Liu, Lei;Chen, Hualing;Jia, Shuhai;Li, Dichen;
2:26:6:4 Strongly enhanced sensitivity in elastic capacitive strain sensors
DOI:10.1039/c0jm03786a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Kollosche, Matthias;Stoyanov, Hristiyan;Laflamme, Simon;Kofod, Guggi;
2:26:6:5 Interfacial treatment effects on behavior of soft nano-composites for highly stretchable dielectrics
DOI:10.1016/j.polymer.2014.06.054 JN:POLYMER PY:2014 TC:3 AU: Saleem, H.;Thunga, M.;Kollosche, M.;Kessler, M. R.;Laflamme, S.;
2:26:7:1 Dielectric elastomer actuators with elastomeric electrodes
DOI:10.1063/1.4748114 JN:APPLIED PHYSICS LETTERS PY:2012 TC:16 AU: Bozlar, Michael;Punckt, Christian;Korkut, Sibel;Zhu, Jian;Foo, Choon Chiang;Suo, Zhigang;Aksay, Ilhan A.;
2:26:7:2 Highly Stretchable and Transparent Ionogels as Nonvolatile Conductors for Dielectric Elastomer Transducers
DOI:10.1021/am501130t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Chen, Baohong;Lu, Jing Jing;Yang, Can Hui;Yang, Jian Hai;Zhou, Jinxiong;Chen, Yong Mei;Suo, Zhigang;
2:26:7:3 Transparent hydrogel with enhanced water retention capacity by introducing highly hydratable salt
DOI:10.1063/1.4898189 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bai, Yuanyuan;Chen, Baohong;Xiang, Feng;Zhou, Jinxiong;Wang, Hong;Suo, Zhigang;
2:26:7:4 Buckling of dielectric elastomeric plates for soft, electrically active microfluidic pumps
DOI:10.1039/c4sm00753k JN:SOFT MATTER PY:2014 TC:4 AU: Tavakol, Behrouz;Bozlar, Michael;Punckt, Christian;Froehlicher, Guillaume;Stone, Howard A.;Aksay, Ilhan A.;Holmes, Douglas P.;
2:26:8:1 Self-healing electrodes for dielectric elastomer actuators
DOI:10.1039/c2jm32228e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Michel, Silvain;Chu, Bryan T. T.;Grimm, Sascha;Nueesch, Frank A.;Borgschulte, Andreas;Opris, Dorina M.;
2:26:8:2 Electrical conductivity and Young's modulus of flexible nanocomposites made by metal-ion implantation of polydimethylsiloxane: The relationship between nanostructure and macroscopic properties
DOI:10.1016/j.actamat.2010.10.030 JN:ACTA MATERIALIA PY:2011 TC:31 AU: Niklaus, M.;Shea, H. R.;
2:26:8:3 Effects of fibre dispersion on the effective elastic properties of 2D overlapping random fibre composites
DOI:10.1016/j.commatsci.2013.07.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:2 AU: Leclerc, W.;Karamian-Surville, P.;
2:26:8:4 Pseudo-percolation: Critical volume fractions and mechanical percolation in polymer nanocomposites
DOI:10.1016/j.compscitech.2011.04.010 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:7 AU: Baxter, Sarah C.;Robinson, Christopher T.;
2:26:8:5 Graphene Electrodes for Artificial Muscles
DOI:10.1080/15421406.2011.566507 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:6 AU: Min, Kyoungho;Jung, Ji Young;Han, Tae Hee;Park, Younduk;Jung, Cheolsoo;Hong, Soon Man;Koo, Chong Min;
2:26:9:1 Very high dielectric strength for dielectric elastomer actuators in liquid dielectric immersion
DOI:10.1063/1.4806976 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: La, Thanh-Giang;Lau, Gih-Keong;
2:26:9:2 Measurement of insulating and dielectric properties of acrylic elastomer membranes at high electric fields
DOI:10.1063/1.3676201 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:10 AU: Di Lillo, L.;Schmidt, A.;Carnelli, D. A.;Ermanni, P.;Kovacs, G.;Mazza, E.;Bergamini, A.;
2:26:9:3 Large actuation and high dielectric strength in metallized dielectric elastomer actuators
DOI:10.1063/1.4709480 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Low, Sze Hsien;Shiau, Li Lynn;Lau, Gih-Keong;
2:26:9:4 Frequency-dependent dielectric response model for polyimide-poly(vinilydenefluoride) multilayered dielectrics
DOI:10.1063/1.4731763 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Di Lillo, Luigi;Bergamini, Andrea;Carnelli, Dario Albino;Ermanni, Paolo;
2:26:10:1 Low moduli elastomers with low viscous dissipation
DOI:10.1039/c2sm25134e JN:SOFT MATTER PY:2012 TC:23 AU: Bejenariu, Anca Gabriela;Yu, Liyun;Skov, Ladegaard;
2:26:10:2 Optimization of PDMS network for a fast response and sensitive actuation material applied in a MEMS spatial light modulator
DOI:10.1007/s00339-011-6348-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:9 AU: Ouyang, G.;Wang, K.;Akram, M. N.;Henriksen, L.;Chen, X. Y.;
2:26:11:1 Molecular dynamics simulations of phase transition of lamellar lipid membrane in water under an electric field
DOI:10.1039/c0sm00555j JN:SOFT MATTER PY:2011 TC:10 AU: Sun, Sheng;Wong, Joseph T. Y.;Zhang, Tong-Yi;
2:26:11:2 Effects of external electric fields on the self-assembly of phospholipids/water mixtures-coarse-grained molecular dynamics simulations
DOI:10.1039/c1sm05883e JN:SOFT MATTER PY:2011 TC:4 AU: Sun, Sheng;Wong, Joseph T. Y.;Zhang, Tong-Yi;
2:27:1:1 A Unifying Model for the Operation of Light-Emitting Electrochemical Cells
DOI:10.1021/ja1045555 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:63 AU: van Reenen, Stephan;Matyba, Piotr;Dzwilewski, Andrzej;Janssen, Rene A. J.;Edman, Ludvig;Kemerink, Martijn;
2:27:1:2 Operating Modes of Sandwiched Light-Emitting Electrochemical Cells
DOI:10.1002/adfm.201002587 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:75 AU: Lenes, Martijn;Garcia-Belmonte, Germa;Tordera, Daniel;Pertegas, Antonio;Bisquert, Juan;Bolink, Henk J.;
2:27:1:3 Concerted Emission and Local Potentiometry of Light-Emitting Electrochemical Cells
DOI:10.1021/nn1003315 JN:ACS NANO PY:2010 TC:44 AU: Rodovsky, Deanna B.;Reid, Obadiah G.;Pingree, Liam S. C.;Ginger, David S.;
2:27:1:4 Shedding Light on the Operation of Polymer Light-Emitting Electrochemical Cells Using Impedance Spectroscopy
DOI:10.1002/adfm.201102687 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:14 AU: Munar, Antoni;Sandstrom, Andreas;Tang, Shi;Edman, Ludvig;
2:27:1:5 Simple, Fast, Bright, and Stable Light Sources
DOI:10.1002/adma.201104047 JN:ADVANCED MATERIALS PY:2012 TC:53 AU: Tordera, Daniel;Meier, Sebastian;Lenes, Martijn;Costa, Ruben D.;Orti, Enrique;Sarfert, Wiebke;Bolink, Henk J.;
2:27:1:6 Salt Concentration Effects in Planar Light-Emitting Electrochemical Cells
DOI:10.1002/adfm.201002360 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:27 AU: van Reenen, Stephan;Matyba, Piotr;Dzwilewski, Andrzej;Janssen, Rene A. J.;Edman, Ludvig;Kemerink, Martijn;
2:27:1:7 Encapsulating light-emitting electrochemical cells for improved performance
DOI:10.1063/1.4714696 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Asadpoordarvish, Amir;Sandstrom, Andreas;Tang, Shi;Granstrom, Jimmy;Edman, Ludvig;
2:27:1:8 Universal Transients in Polymer and Ionic Transition Metal Complex Light-Emitting Electrochemical Cells
DOI:10.1021/ja3107803 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: van Reenen, Stephan;Akatsuka, Takeo;Tordera, Daniel;Kemerink, Martijn;Bolink, Henk J.;
2:27:1:9 Dynamic Doping in Planar Ionic Transition Metal Complex-Based Light-Emitting Electrochemical Cells
DOI:10.1002/adfm.201202689 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:15 AU: Meier, Sebastian B.;van Reenen, Stephan;Lefevre, Bastien;Hartmann, David;Bolink, Henk J.;Winnacker, Albrecht;Sarfert, Wiebke;Kemerink, Martijn;
2:27:1:10 Separating Ion and Electron Transport: The Bilayer Light-Emitting Electrochemical Cell
DOI:10.1021/ja102038e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:24 AU: Sandstrom, Andreas;Matyba, Piotr;Inganas, Olle;Edman, Ludvig;
2:27:1:11 Yellow-green light-emitting electrochemical cells with long lifetime and high efficiency
DOI:10.1063/1.3299018 JN:APPLIED PHYSICS LETTERS PY:2010 TC:31 AU: Sandstrom, Andreas;Matyba, Piotr;Edman, Ludvig;
2:27:1:12 The dynamic behavior of thin-film ionic transition metal complex-based light-emitting electrochemical cells
DOI:10.1063/1.4895060 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Meier, Sebastian B.;Hartmann, David;Winnacker, Albrecht;Sarfert, Wiebke;
2:27:1:13 Dynamic Processes in Sandwich Polymer Light-Emitting Electrochemical Cells
DOI:10.1002/adfm.201200880 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:13 AU: van Reenen, Stephan;Janssen, Rene A. J.;Kemerink, Martijn;
2:27:1:14 Identifying Key Properties of Electrolytes for Light-Emitting Electrochemical Cells
DOI:10.1021/cm5022905 JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Tang, Shi;Mindemark, Jonas;Araujo, Carlos Moyses Graca;Brandell, Daniel;Edman, Ludvig;
2:27:1:15 Double-Gate Light-Emitting Electrochemical Transistor: Confining the Organic p-n Junction
DOI:10.1021/ja407049b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Liu, Jiang;Engquist, Isak;Berggren, Magnus;
2:27:1:16 Long-term, intermittent testing of sandwich polymer light-emitting electrochemical cells
DOI:10.1063/1.4847377 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Li, Xiaoyu;AlTal, Faleh;Liu, Guojun;Gao, Jun;
2:27:1:17 Direct Imaging and Probing of the p-n Junction in a Planar Polymer Light-Emitting Electrochemical Cell
DOI:10.1021/ja1093106 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:19 AU: Hu, Yufeng;Gao, Jun;
2:27:1:18 Spatial Control of p-n Junction in an Organic Light-Emitting Electrochemical Transistor
DOI:10.1021/ja210936n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Liu, Jiang;Engquist, Isak;Crispin, Xavier;Berggren, Magnus;
2:27:1:19 Low Current Density Driving Leads to Efficient, Bright, and Stable Green Electroluminescence
DOI:10.1002/aenm.201300284 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:10 AU: Tordera, Daniel;Frey, Julien;Vonlanthen, David;Constable, Edwin;Pertegas, Antonio;Orti, Enrique;Bolink, Henk J.;Baranoff, Etienne;Nazeeruddin, M. Khaja;
2:27:1:20 The Compromises of Printing Organic Electronics: A Case Study of Gravure-Printed Light-Emitting Electrochemical Cells
DOI:10.1002/adma.201305541 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Hernandez-Sosa, Gerardo;Tekoglu, Serpil;Stolz, Sebastian;Eckstein, Ralph;Teusch, Claudia;Trapp, Jannik;Lemmer, Uli;Hamburger, Manuel;Mechau, Norman;
2:27:1:21 Saturated and Multi-Colored Electroluminescence from Quantum Dots Based Light Emitting Electrochemical Cells
DOI:10.1002/adfm.201400167 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Qian, Gang;Lin, Ying;Wantz, Guillaume;Davis, Andrew R.;Carter, Kenneth R.;Watkins, James J.;
2:27:1:22 Photoluminescence quenching in films of conjugated polymers by electrochemical doping
DOI:10.1103/PhysRevB.89.205206 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: van Reenen, S.;Vitorino, M. V.;Meskers, S. C. J.;Janssen, R. A. J.;Kemerink, M.;
2:27:1:23 Decoupled luminance decay and voltage drift in polymer light-emitting electrochemical cells: Forward bias vs. reverse bias operation
DOI:10.1063/1.4870836 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Gao, Jun;AlTal, Faleh;
2:27:1:24 White Light from a Single-Emitter Light-Emitting Electrochemical Cell
DOI:10.1021/ja312548b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:12 AU: Tang, Shi;Pan, Junyou;Buchholz, Herwig A.;Edman, Ludvig;
2:27:1:25 Dynamically Doped White Light Emitting Tandem Devices
DOI:10.1002/adma.201303552 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Akatsuka, Takeo;Roldan-Carmona, Cristina;Orti, Enrique;Bolink, Henk J.;
2:27:1:26 Inkjet Printed Bilayer Light-Emitting Electrochemical Cells for Display and Lighting Applications
DOI:10.1002/smll.201400840 JN:SMALL PY:2014 TC:4 AU: Lindh, E. Mattias;Sandstroem, Andreas;Edman, Ludvig;
2:27:1:27 Characterization of Ion Profiles in Light-Emitting Electrochemical Cells by Secondary Ion Mass Spectrometry
DOI:10.1021/am201469t JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:7 AU: Toshner, Samuel B.;Zhu, Zihua;Kosilkin, Ilya V.;Leger, Janelle M.;
2:27:1:28 Engineering Charge Injection Interfaces in Hybrid Light-Emitting Electrochemical Cells
DOI:10.1021/am506697t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Roldan-Carrnona, Cristina;Akatsuka, Takeo;Sessolo, Michele;Watkins, Scott E.;Bolink, Henk J.;
2:27:1:29 Scanning photocurrent and photoluminescence imaging of a frozen polymer p-n junction
DOI:10.1063/1.4773235 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Inayeh, Alex;Dorin, Bryce;Gao, Jun;
2:27:1:30 Characterizing Ion Profiles in Dynamic Junction Light-Emitting Electrochemical Cells
DOI:10.1021/am403805j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Shoji, Tyko D.;Zhu, Zihua;Leger, Janelle M.;
2:27:1:31 Improving the Performance of Light-Emitting Electrochemical Cells by Optical Design
DOI:10.1021/am405530d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Kaihovirta, Nikolai;Larsen, Christian;Edman, Ludvig;
2:27:1:32 Ambipolar organic light-emitting electrochemical transistor based on a heteroleptic charged iridium(III) complex
DOI:10.1063/1.4792842 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Zhou, Ye;Han, Suting;Zhou, Guijiang;Wong, Wai-Yeung;Roy, V. A. L.;
2:27:1:33 Reversible luminance decay in polymer light-emitting electrochemical cells
DOI:10.1063/1.4809603 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Li, Xiaoyu;Gao, Jun;Liu, Guojun;
2:27:1:34 Improving light-emitting electrochemical cells with ionic additives
DOI:10.1063/1.4807674 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Shen, Yulong;Kuddes, Daniel D.;Naquin, Clint A.;Hesterberg, Travis W.;Kusmierz, Caroline;Holliday, Bradley J.;Slinker, Jason D.;
2:27:1:35 Organic electrochemical light emitting field effect transistors
DOI:10.1063/1.3464558 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Yumusak, C.;Sariciftci, N. S.;
2:27:1:36 Precise Color Tuning via Hybrid Light-Emitting Electrochemical Cells
DOI:10.1021/nl103164z JN:NANO LETTERS PY:2011 TC:9 AU: Bader, Amanda J. Norell;Ilkevich, Anton A.;Kosilkin, Ilya V.;Leger, Janelle M.;
2:27:1:37 Charge injection and transport in low-mobility mixed ionic/electronic conducting systems: Regimes of behavior and limiting cases
DOI:10.1103/PhysRevB.85.035203 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Mills, Thomas J.;Lonergan, Mark C.;
2:27:1:38 Polymerizable Ionic Liquids for Fixed-Junction Polymer Light-Emitting Electrochemical Cells
DOI:10.1021/cm1015788 JN:CHEMISTRY OF MATERIALS PY:2010 TC:15 AU: Kosilkin, Ilya V.;Martens, Matt S.;Murphy, Michael P.;Leger, Janelle M.;
2:27:1:39 Light-Emitting Electrochemical Cells Using Cyanine Dyes as the Active Components
DOI:10.1021/ja407515w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:2 AU: Pertegas, Antonio;Tordera, Daniel;Serrano-Perez, Juan J.;Orti, Enrique;Bolink, Henk J.;
2:27:1:40 Electroluminescence and electric current response spectroscopy applied to the characterization of polymer light-emitting electrochemical cells
DOI:10.1063/1.4752438 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Gozzi, Giovani;Faria, Roberto Mendonca;Santos, Lucas Fugikawa;
2:27:1:41 Organic Reprogrammable Circuits Based on Electrochemically Formed Diodes
DOI:10.1021/am503129b JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Liu, Jiang;Engquist, Isak;Berggren, Magnus;
2:27:1:42 Analysing space charge limited currents in organic light emitting diodes
DOI:10.1016/j.synthmet.2009.11.027 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Buckley, A. R.;
2:27:1:43 Transient capacitance of light-emitting electrochemical cells
DOI:10.1063/1.3669411 JN:APPLIED PHYSICS LETTERS PY:2011 TC:1 AU: Davis, Y. A.;Crooker, P. P.;Haegel, N. M.;Yoshioka, Y.;MacKenzie, J. D.;
2:27:1:44 Reversible luminance decay in polymer light-emitting electrochemical cells (vol 102, 223303, 2013)
DOI:10.1063/1.4815991 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Li, Xiaoyu;Gao, Jun;Liu, Guojun;
2:27:1:45 On the temperature dependence of Na migration in thin SiO2 films during ToF-SIMS O-2(+) depth profiling
DOI:10.1016/j.apsusc.2010.06.019 JN:APPLIED SURFACE SCIENCE PY:2010 TC:4 AU: Krivec, Stefan;Detzel, Thomas;Buchmayr, Michael;Hutter, Herbert;
2:27:2:1 Solid-state light-emitting electrochemical cells based on ionic iridium(III) complexes
DOI:10.1039/c2jm16185k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:111 AU: Hu, Tao;He, Lei;Duan, Lian;Qiu, Yong;
2:27:2:2 Highly Efficient Blue-Green and White Light-Emitting Electrochemical Cells Based on a Cationic Iridium Complex with a Bulky Side Group
DOI:10.1021/cm100993j JN:CHEMISTRY OF MATERIALS PY:2010 TC:86 AU: He, Lei;Duan, Lian;Qiao, Juan;Dong, Guifang;Wang, Liduo;Qiu, Yong;
2:27:2:3 Efficient and Long-Living Light-Emitting Electrochemical Cells
DOI:10.1002/adfm.201000043 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:86 AU: Costa, Ruben D.;Orti, Enrique;Bolink, Henk J.;Graber, Stefan;Housecroft, Catherine E.;Constable, Edwin C.;
2:27:2:4 Positively Charged Iridium(III) Triazole Derivatives as Blue Emitters for Light-Emitting Electrochemical Cells
DOI:10.1002/adfm.201000223 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:138 AU: Mydlak, Mathias;Bizzarri, Claudia;Hartmann, David;Sarfert, Wiebke;Schmid, Guenter;De Cola, Luisa;
2:27:2:5 Intramolecular pi-Stacking in a Phenylpyrazole-Based Iridium Complex and Its Use in Light-Emitting Electrochemical Cells
DOI:10.1021/ja1010674 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:73 AU: Costa, Ruben D.;Orti, Enrique;Bolink, Henk J.;Graber, Stefan;Housecroft, Catherine E.;Constable, Edwin C.;
2:27:2:6 Tailoring balance of carrier mobilities in solid-state light-emitting electrochemical cells by doping a carrier trapper to enhance device efficiencies
DOI:10.1039/c1jm13245h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Liao, Chih-Teng;Chen, Hsiao-Fan;Su, Hai-Ching;Wong, Ken-Tsung;
2:27:2:7 Efficient Light-Emitting Electrochemical Cells (LECs) Based on Ionic Iridium(III) Complexes with 1,3,4-Oxadiazole Ligands
DOI:10.1002/adfm.201300344 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:12 AU: Zhang, Jing;Zhou, Li;Al-Attar, Hameed A.;Shao, Kuizhan;Wang, Li;Zhu, Dongxia;Su, Zhongmin;Bryce, Martin R.;Monkman, Andrew P.;
2:27:2:8 Stable and Efficient Solid-State Light-Emitting Electrochemical Cells Based on a Series of Hydrophobic Iridium Complexes
DOI:10.1002/aenm.201000069 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:36 AU: Costa, Ruben D.;Orti, Enrique;Tordera, Daniel;Pertegas, Antonio;Bolink, Henk J.;Graber, Stefan;Housecroft, Catherine E.;Sachno, Ludmila;Neuburger, Markus;Constable, Edwin C.;
2:27:2:9 Improving the Turn-On Time of Light-Emitting Electrochemical Cells without Sacrificing their Stability
DOI:10.1021/cm903549u JN:CHEMISTRY OF MATERIALS PY:2010 TC:37 AU: Costa, Ruben D.;Pertegas, Antonio;Orti, Enrique;Bolink, Henk J.;
2:27:2:10 Efficient orange light-emitting electrochemical cells
DOI:10.1039/c2jm33969b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Tordera, Daniel;Pertegas, Antonio;Shavaleev, Nail M.;Scopelliti, Rosario;Orti, Enrique;Bolink, Henk J.;Baranoff, Etienne;Graetzel, Michael;Nazeeruddin, Mohammad K.;
2:27:2:11 Fluorine-free blue-green emitters for light-emitting electrochemical cells
DOI:10.1039/c4tc00542b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Evariste, Sloane;Sandroni, Martina;Rees, Thomas W.;Roldan-Carmona, Cristina;Gil-Escrig, Lidon;Bolink, Henk J.;Baranoff, Etienne;Zysman-Colman, Eli;
2:27:2:12 High stability light-emitting electrochemical cells from cationic iridium complexes with bulky 5,5 ' substituents
DOI:10.1039/c1jm12984h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Sun, Liangfeng;Galan, Armand;Ladouceur, Sebastien;Slinker, Jason D.;Zysman-Colman, Eli;
2:27:2:13 Highly efficient double-doped solid-state white light-emitting electrochemical cells
DOI:10.1039/c1jm10507h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:33 AU: Su, Hai-Ching;Chen, Hsiao-Fan;Shen, Yu-Chun;Liao, Chih-Teng;Wong, Ken-Tsung;
2:27:2:14 p-n Metallophosphor based on cationic iridium(III) complex for solid-state light-emitting electrochemical cells
DOI:10.1039/c1jm11987g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Xu, Wen-Juan;Liu, Shu-Juan;Ma, Ting-Chun;Zhao, Qiang;Pertegas, Antonio;Tordera, Daniel;Bolink, Henk J.;Ye, Shang-Hui;Liu, Xiang-Mei;Sun, Shi;Huang, Wei;
2:27:2:15 A deep-blue emitting charged bis-cyclometallated iridium(III) complex for light-emitting electrochemical cells
DOI:10.1039/c2tc00251e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:26 AU: Meier, Sebastian B.;Sarfert, Wiebke;Junquera-Hernandez, Jose M.;Delgado, Manuel;Tordera, Daniel;Orti, Enrique;Bolink, Henk J.;Kessler, Florian;Scopelliti, Rosario;Graetzel, Michael;Nazeeruddin, M. Khaja;Baranoff, Etienne;
2:27:2:16 Pulsed-current versus constant-voltage light-emitting electrochemical cells with trifluoromethyl-substituted cationic iridium(III) complexes
DOI:10.1039/c3tc00808h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Shavaleev, Nail M.;Scopelliti, Rosario;Graetzel, Michael;Nazeeruddin, Mohammad K.;Pertegas, Antonio;Roldan-Carmona, Cristina;Tordera, Daniel;Bolink, Henk J.;
2:27:2:17 Copper(I) complexes for sustainable light-emitting electrochemical cells
DOI:10.1039/c1jm12607e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:56 AU: Costa, Ruben D.;Tordera, Daniel;Orti, Enrique;Bolink, Henk J.;Schoenle, Jonas;Graber, Stefan;Housecroft, Catherine E.;Constable, Edwin C.;Zampese, Jennifer A.;
2:27:2:18 Efficient solid-state white light-emitting electrochemical cells based on phosphorescent sensitization
DOI:10.1039/c2jm35483g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Su, Hai-Ching;Chen, Hsiao-Fan;Chen, Po-Hsien;Lin, Shih-Wei;Liao, Chih-Teng;Wong, Ken-Tsung;
2:27:2:19 Host-guest blue light-emitting electrochemical cast
DOI:10.1039/c3tc31983k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Pertegas, Antonio;Shavaleev, Nail M.;Tordera, Daniel;Orti, Enrique;Nazeeruddin, Mohammad K.;Bolink, Henk J.;
2:27:2:20 Constructive Effects of Long Alkyl Chains on the Electroluminescent Properties of Cationic Iridium Complex-Based Light-Emitting Electrochemical Cells
DOI:10.1021/am5058426 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Sunesh, Chozhidakath Damodharan;Mathai, George;Choe, Youngson;
2:27:2:21 Blue light emitting electrochemical cells incorporating triazole-based luminophores
DOI:10.1039/c3tc31307g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Fernandez-Hernandez, Jesus M.;Ladouceur, Sebastien;Shen, Yulong;Iordache, Adriana;Wang, Xiaorong;Donato, Loic;Gallagher-Duval, Shawn;Villa, Manuel de Anda;Slinker, Jason D.;De Cola, Luisa;Zysman-Colman, Eli;
2:27:2:22 Efficient doped red light-emitting electrochemical cells based on cationic iridium complexes
DOI:10.1016/j.synthmet.2012.12.017 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Hu, Tao;Duan, Lian;Qiao, Juan;He, Lei;Zhang, Deqiang;Wang, Liduo;Qiu, Yong;
2:27:2:23 Control of the Mutual Arrangement of Cyclometalated Ligands in Cationic Iridium(III) Complexes. Synthesis, Spectroscopy, and Electroluminescence of the Different Isomers
DOI:10.1021/ja201691b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:55 AU: Fernandez-Hernandez, Jesus M.;Yang, Cheng-Han;Beltran, Juan I.;Lemaur, Vincent;Polo, Federico;Froehlich, Roland;Cornil, Jerome;De Cola, Luisa;
2:27:2:24 Stable Green Electroluminescence from an Iridium Tris-Heteroleptic Ionic Complex
DOI:10.1021/cm3011716 JN:CHEMISTRY OF MATERIALS PY:2012 TC:24 AU: Tordera, Daniel;Delgado, Manuel;Orti, Enrique;Bolink, Henk J.;Frey, Julien;Nazeeruddin, Md Khaja;Baranoff, Etienne;
2:27:2:25 Correlating the Lifetime and Fluorine Content of Iridium(III) Emitters in Green Light-Emitting Electrochemical Cells
DOI:10.1021/cm402473j JN:CHEMISTRY OF MATERIALS PY:2013 TC:12 AU: Tordera, Daniel;Serrano-Perez, Juan J.;Pertegas, Antonio;Orti, Enrique;Bolink, Henk J.;Baranoff, Etienne;Nazeeruddin, Md. Khaja;Frey, Julien;
2:27:2:26 Anionic iridium complexes for solid state light-emitting electrochemical cells
DOI:10.1039/c2jm30443k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Chen, Hsiao-Fan;Wu, Chao;Kuo, Ming-Cheng;Thompson, Mark E.;Wong, Ken-Tsung;
2:27:2:27 Bright and stable light-emitting electrochemical cells based on an intramolecularly pi-stacked, 2-naphthyl-substituted iridium complex
DOI:10.1039/c4tc01171f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Schneider, Gabriel E.;Pertegas, Antonio;Constable, Edwin C.;Housecroft, Catherine E.;Hostettler, Nik;Morris, Collin D.;Zampese, Jennifer A.;Bolink, Henk J.;Junquera-Hernandez, Jose M.;Orti, Enrique;Sessolo, Michele;
2:27:2:28 White Light-Emitting Electrochemical Cells Based on the Langmuir-Blodgett Technique
DOI:10.1021/la503144v JN:LANGMUIR PY:2014 TC:0 AU: Fernandez-Hernandez, Jesus M.;De Cola, Luisa;Bolink, Henk J.;Clemente-Leon, Miguel;Coronado, Eugenio;Forment-Aliaga, Alicia;Lopez-Munoz, Angel;Repetto, Diego;
2:27:2:29 Electroluminescent properties of yellow light-emitting electrochemical cells based on a cationic iridium complex and the effect of ionic liquids incorporation in an active layer
DOI:10.1016/j.tsf.2013.01.073 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Sunesh, Chozhidakath Damodharan;Ok, Sunseong;Mathai, George;Choe, Youngson;
2:27:2:30 Polymer light-emitting diodes based on cationic iridium(III) complexes with a 1,10-phenanthroline derivative containing a bipolar carbazole-oxadiazole unit as the auxiliary ligand
DOI:10.1016/j.optmat.2014.08.013 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Tang, Huaijun;Wei, Liying;Meng, Guoyun;Li, Yanhu;Wang, Guanze;Yang, Furui;Wu, Hongbin;Yang, Wei;Cao, Yong;
2:27:2:31 Solid-state light-emitting electrochemical cells employing phosphor-sensitized fluorescence
DOI:10.1039/c0jm00429d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:28 AU: Su, Hai-Ching;Lin, You-Heng;Chang, Chih-Hao;Lin, Hao-Wu;Wu, Chung-Chih;Fang, Fu-Chuan;Chen, Hsiao-Fan;Wong, Ken-Tsung;
2:27:2:32 Highly luminescent yellow and yellowish-green light-emitting electrochemical cells based on cationic iridium complexes with phenanthroline based ancillary ligands
DOI:10.1016/j.optmat.2012.09.023 JN:OPTICAL MATERIALS PY:2013 TC:10 AU: Sunesh, Chozhidakath Damodharan;Chandran, Midhun;Mathai, George;Choe, Youngson;
2:27:2:33 Electrophosphorescent devices based on cationic iridium complexes: The effect of fluorinating the pendant phenyl ring of the ancillary ligand on the device performances
DOI:10.1016/j.synthmet.2013.01.019 JN:SYNTHETIC METALS PY:2013 TC:4 AU: He, Lei;Duan, Lian;Qiao, Juan;Zhang, Deqiang;Dong, Guifang;Wang, Liduo;Qiu, Yong;
2:27:2:34 Bis(diphenylamino)-9,9 '-spirobifluorene functionalized Ir(III) complex: a conceptual design en route to a three-in-one system possessing emitting core and electron and hole transport peripherals
DOI:10.1039/c0jm02097d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Chen, Hsiao-Fan;Wong, Ken-Tsung;Liu, Yi-Hung;Wang, Yu;Cheng, Yi-Ming;Chung, Min-Wen;Chou, Pi-Tai;Su, Hai-Ching;
2:27:2:35 An ionic terfluorene derivative for saturated deep-blue solid state light-emitting electrochemical cells
DOI:10.1039/c0jm03446k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Chen, Hsiao-Fan;Liao, Chih-Teng;Chen, Te-Chuan;Su, Hai-Ching;Wong, Ken-Tsung;Guo, Tzung-Fang;
2:27:2:36 Green and Reddish-Orange Light-Emitting Electrochemical Cells Using Cationic Iridium (III) Phenanthroline Complexes
DOI:10.1080/15421406.2013.849444 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Moon, Dan Bi;Choe, Young Son;
2:27:2:37 Effect of ionic liquids on the electroluminescence of yellowish-green light-emitting electrochemical cells using bis(2-(2,4-difluorophenyl)pyridine)4,7-diphenyl-1,10-phenanthroline-irid ium(III) hexafluorophosphate
DOI:10.1016/j.matchemphys.2012.06.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Sunesh, Chozhidakath Damodharan;Sunseong, Ok;Chandran, Midhun;Moon, Danbi;Choe, Youngson;
2:27:2:38 Effect of Smaller Counter Anion, BF4-, on the Electroluminescent Properties of Cationic Iridium Complex Based Light-Emitting Electrochemical Cells
DOI:10.1080/15421406.2013.849476 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:4 AU: Sunesh, Chozhidakath Damodharan;Chandran, Midhun;Ok, Sunseong;Choe, Youngson;
2:27:2:39 Light Emitting Electrochemical Cells Based on Ionic Iridium Complexes and Ionic Conductor Blend as the Active Layer
DOI:10.1080/15421406.2014.940798 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Chandran, Midhun;Kwon, Yiseul;Choe, Youngson;
2:27:2:40 Characteristics of Light Emitting Electrochemical Cells Using Cationic Iridium(III) Complexes with Imidazole Based Ancillary Ligand
DOI:10.1080/15421406.2014.944340 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Cha, Sangyoon;Choe, Youngson;
2:27:2:41 Solution processable single layer organic light-emitting devices with a single small molecular ionic iridium compound
DOI:10.1063/1.3503455 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:11 AU: Park, Byoungchoo;Huh, Yoon Ho;Jeon, Hong Goo;Park, Chan Huk;Kang, Tae Kyung;Kim, Byeong Hyo;Park, Jongwoon;
2:27:2:42 Iridium-based light-emitting electrochemical cells containing ionic liquids in the luminous layer
DOI:10.1016/j.materresbull.2012.04.122 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:2 AU: Park, Sujin;Moon, Danbi;Damodharan, Sunesh C.;Chandran, Midhun;Choe, Youngson;
2:27:2:43 Electroluminescence from single-layer thin-film devices based on three binuclear Ru(II) complexes with different length of flexible bridges
DOI:10.1016/j.tsf.2011.01.235 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Ju, Chuan-Chuan;Chen, Chun-Hui;Yuan, Chui-Li;Wang, Ke-Zhi;
2:27:3:1 Flexible and Metal-Free Light-Emitting Electrochemical Cells Based on Graphene and PEDOT-PSS as the Electrode Materials
DOI:10.1021/nn102704h JN:ACS NANO PY:2011 TC:50 AU: Matyba, Piotr;Yamaguchi, Hisato;Chhowalla, Manish;Robinson, Nathaniel D.;Edman, Ludvig;
2:27:3:2 White Light-Emitting Electrochemical Cell
DOI:10.1021/am200559b JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:15 AU: Tang, Shi;Pan, Junyou;Buchholz, Herwig;Edman, Ludvig;
2:27:3:3 A Solution-Processed Trilayer Electrochemical Device: Localizing the Light Emission for Optimized Performance
DOI:10.1021/ja3041916 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Tang, Shi;Sandstrom, Andreas;Fang, Junfeng;Edman, Ludvig;
2:27:3:4 Incorporating triphenyl sulfonium salts in polyfluorene PLEDs: an all-organic approach to improved charge injection
DOI:10.1039/c0jm04567e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Georgiadou, Dimitra G.;Palilis, Leonidas C.;Vasilopoulou, Maria;Pistolis, George;Dimotikali, Dimitra;Argitis, Panagiotis;
2:27:3:5 Reconstruction of Conjugated Oligoelectrolyte Electron Injection Layers
DOI:10.1021/ja1056856 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:11 AU: Chen, Zhao;Dang, Xuan-Dung;Gutacker, Andrea;Garcia, Andrew;Li, Huaping;Xu, Yunhua;Ying, Lei;Nguyen, Thuc-Quyen;Bazan, Guillermo C.;
2:27:3:6 Optically pumped amplified spontaneous emission in an ionic liquid-based polymer light-emitting electrochemical cell
DOI:10.1063/1.4730948 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Sakanoue, Tomo;Sawabe, Kosuke;Yomogida, Yohei;Takenobu, Taishi;Seki, Shiro;Ono, Shimpei;
2:27:3:7 Influence of the anion on the optoelectronic characteristics of triphenylsulfonium salts modified polymer light emitting devices
DOI:10.1016/j.synthmet.2013.08.002 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Georgiadou, Dimitra G.;Palilis, Leonidas C.;Vasilopoulou, Maria;Pistolis, George;Dimotikali, Dimitra;Argitis, Panagiotis;
2:27:3:8 Temperature-dependent kinetics of printed polymer light-emitting electrochemical cells
DOI:10.1016/j.synthmet.2011.04.013 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Burnett, K. O.;Crooker, P. P.;Haegel, N. M.;Yoshioka, Y.;MacKenzie, D.;
2:27:3:9 Variations in Hole Injection due to Fast and Slow Interfacial Traps in Polymer Light-Emitting Diodes with Interlayers
DOI:10.1002/adfm.200900352 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:7 AU: Harding, M. James;Poplavskyy, Dmitry;Choong, Vi-En;So, Franky;Campbell, Alasdair J.;
2:27:3:10 Efficient blue-green and white organic light-emitting diodes with a small-molecule host and cationic iridium complexes as dopants
DOI:10.1007/s00339-010-5967-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:10 AU: He, Lei;Duan, Lian;Qiao, Juan;Zhang, Deqiang;Wang, Liduo;Qiu, Yong;
2:27:3:11 Field enhanced charge carrier reconfiguration in electronic and ionic coupled dynamic polymer resistive memory
DOI:10.1088/0957-4484/21/13/134003 JN:NANOTECHNOLOGY PY:2010 TC:7 AU: Zhao, Jun Hui;Thomson, Douglas J.;Pilapil, Matt;Pillai, Rajesh G.;Rahman, G. M. Aminur;Freund, Michael S.;
2:27:3:12 Synthesis and Physical Properties of Polyfluorene Derivative with Imidazolium Units
DOI:10.1080/15421401003604229 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:3 AU: Heo, Hyo Jung;Nagamura, Toshihiko;
2:27:4:1 Graphene and Mobile Ions: The Key to All-Plastic, Solution-Processed Light-Emitting Devices
DOI:10.1021/nn9018569 JN:ACS NANO PY:2010 TC:128 AU: Matyba, Piotr;Yamaguchi, Hisato;Eda, Goki;Chhowalla, Manish;Edman, Ludvig;Robinson, Nathaniel D.;
2:27:4:2 Spraying Light: Ambient-Air Fabrication of Large-Area Emissive Devices on Complex-Shaped Surfaces
DOI:10.1002/adma.201401286 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Sandstrom, Andreas;Asadpoordarvish, Amir;Enevold, Jenny;Edman, Ludvig;
2:27:4:3 Graphene arch gate SiO2 shell silicon nanowire core field effect transistors
DOI:10.1063/1.3663629 JN:APPLIED PHYSICS LETTERS PY:2011 TC:0 AU: Jin, J. E.;Lee, J. H.;Hwang, D. H.;Kim, D. W.;Kim, M. J.;Son, K. S.;Whang, D.;Hwang, S. W.;
2:27:5:1 Light-emitting electrochemical cells using polymeric ionic liquid/polyfluorene blends as luminescent material
DOI:10.1063/1.3279155 JN:APPLIED PHYSICS LETTERS PY:2010 TC:30 AU: Marcilla, Rebeca;Mecerreyes, David;Winroth, Gustaf;Brovelli, Sergio;Yebra, Maria del Mar Rodriguez;Cacialli, Franco;
2:27:5:2 Hybrid organic-inorganic light-emitting electrochemical cells using fluorescent polymer and ionic liquid blend as an active layer
DOI:10.1063/1.3602923 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Lee, Hyun Jung;Lee, Bo Ram;Park, Ji Sun;Kim, Sang Ouk;Kim, Jin Young;Song, Myoung Hoon;
2:27:5:3 Fundamental emission characteristics of light-emitting liquid crystal cells with rubrene-doped 4-cyano-4'-pentylbiphenyl
DOI:10.1007/s00339-013-7882-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Honma, Michinori;Horiuchi, Takao;Tanimoto, Masashi;Nose, Toshiaki;
2:27:5:4 Carrier mobility in rubrene-doped 4-cyano-4 '-pentylbiphenyl studied by the time-of-flight method
DOI:10.1063/1.4819955 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Honma, Michinori;Nose, Toshiaki;
2:27:5:5 Fundamental properties of light-emitting liquid crystal cells operated under alternating voltage
DOI:10.1063/1.4817173 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Honma, Michinori;Horiuchi, Takao;Nose, Toshiaki;
2:27:5:6 Polymer light-emitting devices based on a polymer/salt mixture
DOI:10.1063/1.4749286 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Gautier, Bathilde;Gao, Jun;
2:27:6:1 Highly efficient exciplex emission in solid-state light-emitting electrochemical cells based on mixed ionic hole-transport triarylamine and ionic electron-transport 1,3,5-triazine derivatives
DOI:10.1039/c3tc30518j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Chen, Hsiao-Fan;Liao, Chih-Teng;Su, Hai-Ching;Yeh, Yun-Shiuan;Wong, Ken-Tsung;
2:28:1 Organic Thin-Film Transistors for Chemical and Biological Sensing
DOI:10.1002/adma.201103334 JN:ADVANCED MATERIALS PY:2012 TC:206 AU: Lin, Peng;Yan, Feng;
2:28:2 Biomaterials-Based Electronics: Polymers and Interfaces for Biology and Medicine
DOI:10.1002/adhm.201200071 JN:ADVANCED HEALTHCARE MATERIALS PY:2012 TC:43 AU: Muskovich, Meredith;Bettinger, Christopher J.;
2:28:3 Organic Electrochemical Transistors Integrated in Flexible Microfluidic Systems and Used for Label-Free DNA Sensing
DOI:10.1002/adma.201102017 JN:ADVANCED MATERIALS PY:2011 TC:57 AU: Lin, Peng;Luo, Xiaoteng;Hsing, I-Ming;Yan, Feng;
2:28:4 The Application of Organic Electrochemical Transistors in Cell-Based Biosensors
DOI:10.1002/adma.201000971 JN:ADVANCED MATERIALS PY:2010 TC:66 AU: Lin, Peng;Yan, Feng;Yu, Jinjiang;Chan, Helen L. W.;Yang, Mo;
2:28:5 Water-gated organic field effect transistors - opportunities for biochemical sensing and extracellular signal transduction
DOI:10.1039/c3tb20340a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:19 AU: Cramer, T.;Campana, A.;Leonardi, F.;Casalini, S.;Kyndiah, A.;Murgia, M.;Biscarini, F.;
2:28:6 Organic Electronics at the Interface with Biology
DOI:10.1557/mrs2010.583 JN:MRS BULLETIN PY:2010 TC:81 AU: Owens, Roisin M.;Malliaras, George G.;
2:28:7 Highly Conformable Conducting Polymer Electrodes for In Vivo Recordings
DOI:10.1002/adma.201102378 JN:ADVANCED MATERIALS PY:2011 TC:62 AU: Khodagholy, Dion;Doublet, Thomas;Gurfinkel, Moshe;Quilichini, Pascale;Ismailova, Esma;Leleux, Pierre;Herve, Thierry;Sanaur, Sebastien;Bernard, Christophe;Malliaras, George G.;
2:28:8 High- Performance Dopamine Sensors Based on WholeGraphene Solution- Gated Transistors
DOI:10.1002/adfm.201302359 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:16 AU: Zhang, Meng;Liao, Caizhi;Yao, Yanli;Liu, Zhike;Gong, Fengfei;Yan, Feng;
2:28:9 In Situ, Label-Free DNA Detection Using Organic Transistor Sensors
DOI:10.1002/adma.201000790 JN:ADVANCED MATERIALS PY:2010 TC:59 AU: Khan, Hadayat Ullah;Roberts, Mark E.;Johnson, Olasupo;Foerch, Renate;Knoll, Wolfgang;Bao, Zhenan;
2:28:10 A facile biofunctionalisation route for solution processable conducting polymer devices
DOI:10.1039/c3tb21491e JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:11 AU: Strakosas, Xenofon;Sessolo, Michele;Hama, Adel;Rivnay, Jonathan;Stavrinidou, Eleni;Malliaras, George G.;Owens, Roisin M.;
2:28:11 Investigation of Protein Detection Parameters Using Nanofunctionalized Organic Field-Effect Transistors
DOI:10.1021/nn305903q JN:ACS NANO PY:2013 TC:22 AU: Hammock, Mallory L.;Knopfmacher, Oren;Naab, Benjamin D.;Tok, Jeffrey B. -H.;Bao, Zhenan;
2:28:12 Influence of Device Geometry on Sensor Characteristics of Planar Organic Electrochemical Transistors
DOI:10.1002/adma.200902329 JN:ADVANCED MATERIALS PY:2010 TC:53 AU: Cicoira, Fabio;Sessolo, Michele;Yaghmazadeh, Omid;DeFranco, John A.;Yang, Sang Yoon;Malliaras, George G.;
2:28:13 A Water-Gate Organic Field-Effect Transistor
DOI:10.1002/adma.200904163 JN:ADVANCED MATERIALS PY:2010 TC:64 AU: Kergoat, Loig;Herlogsson, Lars;Braga, Daniele;Piro, Benoit;Pham, Minh-Chau;Crispin, Xavier;Berggren, Magnus;Horowitz, Gilles;
2:28:14 Highly selective and sensitive glucose sensors based on organic electrochemical transistors with graphene-modified gate electrodes
DOI:10.1039/c3tb20451k JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:10 AU: Liao, Caizhi;Zhang, Meng;Niu, Liyong;Zheng, Zijian;Yan, Feng;
2:28:15 Organic Transistors with Ordered Nanoparticle Arrays as a Tailorable Platform for Selective, In Situ Detection
DOI:10.1021/nn204830b JN:ACS NANO PY:2012 TC:27 AU: Hammock, Mallory L.;Sokolov, Anatoliy N.;Stoltenberg, Randall M.;Naab, Benjamin D.;Bao, Zhenan;
2:28:16 Highly Sensitive Glucose Biosensors Based on Organic Electrochemical Transistors Using Platinum Gate Electrodes Modified with Enzyme and Nanomaterials
DOI:10.1002/adfm.201002117 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:44 AU: Tang, Hao;Yan, Feng;Lin, Peng;Xu, Jianbin;Chan, Helen L. W.;
2:28:17 Highly sensitive dopamine biosensors based on organic electrochemical transistors
DOI:10.1016/j.bios.2011.05.025 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:35 AU: Tang, Hao;Lin, Peng;Chan, Helen L. W.;Yan, Feng;
2:28:18 Organic electrochemical transistor incorporating an ionogel as a solid state electrolyte for lactate sensing
DOI:10.1039/c2jm15716k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:36 AU: Khodagholy, Dion;Curto, Vincenzo F.;Fraser, Kevin J.;Gurfinkel, Moshe;Byrne, Robert;Diamond, Dermot;Malliaras, George G.;Benito-Lopez, Fernando;Owens, Roisin M.;
2:28:19 Organic electrochemical transistors with graphene-modified gate electrodes for highly sensitive and selective dopamine sensors
DOI:10.1039/c3tb21079k JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:10 AU: Liao, Caizhi;Zhang, Meng;Niu, Liyong;Zheng, Zijian;Yan, Feng;
2:28:20 Organic Electrochemical Transistor Array for Recording Transepithelial Ion Transport of Human Airway Epithelial Cells
DOI:10.1002/adma.201302615 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Yao, Chunlei;Xie, Changyan;Lin, Peng;Yan, Feng;Huang, Pingbo;Hsing, I-Ming;
2:28:21 Effect of the gate electrode on the response of organic electrochemical transistors
DOI:10.1063/1.3491216 JN:APPLIED PHYSICS LETTERS PY:2010 TC:26 AU: Tarabella, Giuseppe;Santato, Clara;Yang, Sang Yoon;Iannotta, Salvatore;Malliaras, George G.;Cicoira, Fabio;
2:28:22 Double layer capacitance measured by organic field effect transistor operated in water
DOI:10.1063/1.3699218 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Cramer, T.;Kyndiah, A.;Murgia, M.;Leonardi, F.;Casalini, S.;Biscarini, F.;
2:28:23 Ion-Sensitive Properties of Organic Electrochemical Transistors
DOI:10.1021/am100154e JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:40 AU: Lin, Peng;Yan, Feng;Chan, Helen L. W.;
2:28:24 Patterned Free-Standing Conductive Nanofilms for Ultraconformable Circuits and Smart Interfaces
DOI:10.1021/am402142c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Greco, Francesco;Zucca, Alessandra;Taccola, Silvia;Mazzolai, Barbara;Mattoli, Virgilio;
2:28:25 Pentacene Based Organic Thin Film Transistors as the Transducer for Biochemical Sensing in Aqueous Media
DOI:10.1021/cm103685c JN:CHEMISTRY OF MATERIALS PY:2011 TC:36 AU: Khan, Hadayat Ullah;Roberts, Mark E.;Knoll, Wolfgang;Bao, Zhenan;
2:28:26 In Situ Antibody Detection and Charge Discrimination Using Aqueous Stable Pentacene Transistor Biosensors
DOI:10.1021/ja107088m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:25 AU: Khan, Hadayat Ullah;Jang, Junhyuk;Kim, Jang-Joo;Knoll, Wolfgang;
2:28:27 Detection of bacteria with organic electrochemical transistors
DOI:10.1039/c2jm33667g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: He, Rong-Xiang;Zhang, Meng;Tan, Fei;Leung, Polly H. M.;Zhao, Xing-Zhong;Chan, Helen L. W.;Yang, Mo;Yan, Feng;
2:28:28 Facile maskless fabrication of organic field effect transistors on biodegradable substrates
DOI:10.1063/1.4818549 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Campana, Alessandra;Cramer, Tobias;Greco, Pierpaolo;Foschi, Giulia;Murgia, Mauro;Biscarini, Fabio;
2:28:29 Biofunctional Electrolyte-Gated Organic Field-Effect Transistors
DOI:10.1002/adma.201201841 JN:ADVANCED MATERIALS PY:2012 TC:21 AU: Buth, Felix;Donner, Andreas;Sachsenhauser, Matthias;Stutzmann, Martin;Garrido, Jose A.;
2:28:30 Flexible, all-polymer microelectrode arrays for the capture of cardiac and neuronal signals
DOI:10.1016/j.biomaterials.2010.11.014 JN:BIOMATERIALS PY:2011 TC:35 AU: Blau, Axel;Murr, Angelika;Wolff, Sandra;Sernagor, Evelyne;Medini, Paolo;Iurilli, Giuliano;Ziegler, Christiane;Benfenati, Fabio;
2:28:31 Organic electrochemical transistor based immunosensor for prostate specific antigen (PSA) detection using gold nanoparticles for signal amplification
DOI:10.1016/j.bios.2010.04.013 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:50 AU: Kim, Duck-Jin;Lee, Nae-Eung;Park, Joon-Shik;Park, In-Jun;Kim, Jung-Gu;Cho, Hyoung J.;
2:28:32 Electronic Control of Cell Detachment Using a Self-Doped Conducting Polymer
DOI:10.1002/adma.201101724 JN:ADVANCED MATERIALS PY:2011 TC:32 AU: Persson, Kristin M.;Karlsson, Roger;Svennersten, Karl;Loffler, Susanne;Jager, Edwin W. H.;Richter-Dahlfors, Agneta;Konradsson, Peter;Berggren, Magnus;
2:28:33 Measurement of Barrier Tissue Integrity with an Organic Electrochemical Transistor
DOI:10.1002/adma.201202612 JN:ADVANCED MATERIALS PY:2012 TC:35 AU: Jimison, Leslie H.;Tria, Scherrine A.;Khodagholy, Dion;Gurfinkel, Moshe;Lanzarini, Erica;Hama, Adel;Malliaras, George G.;Owens, Roisin M.;
2:28:34 Easy-to-Fabricate Conducting Polymer Microelectrode Arrays
DOI:10.1002/adma.201204322 JN:ADVANCED MATERIALS PY:2013 TC:17 AU: Sessolo, Michele;Khodagholy, Dion;Rivnay, Jonathan;Maddalena, Fabien;Gleyzes, Melanie;Steidl, Esther;Buisson, Bruno;Malliaras, George G.;
2:28:35 Electrolyte-gated organic field-effect transistors for sensing applications
DOI:10.1063/1.3581882 JN:APPLIED PHYSICS LETTERS PY:2011 TC:22 AU: Buth, F.;Kumar, D.;Stutzmann, M.;Garrido, J. A.;
2:28:36 Towards flexible organic thin film transistors (OTFTs) for biosensing
DOI:10.1039/c3tb20590h JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:6 AU: Werkmeister, Franz;Nickel, Bert;
2:28:37 Control of cell migration using a conducting polymer device
DOI:10.1039/b923064e JN:SOFT MATTER PY:2010 TC:27 AU: Gumus, Abdurrahman;Califano, Joseph P.;Wan, Alwin M. D.;Huynh, John;Reinhart-King, Cynthia A.;Malliaras, George G.;
2:28:38 Detection of Transmitter Release from Single Living Cells Using Conducting Polymer Microelectrodes
DOI:10.1002/adma.201100035 JN:ADVANCED MATERIALS PY:2011 TC:30 AU: Yang, Sang Yoon;Kim, Brian N.;Zakhidov, Alexander A.;Taylor, Priscilla G.;Lee, Jin-Kyun;Ober, Christopher K.;Lindau, Manfred;Malliaras, George G.;
2:28:39 The Rise of Organic Bioelectronics
DOI:10.1021/cm4022003 JN:CHEMISTRY OF MATERIALS PY:2014 TC:45 AU: Rivnay, Jonathan;Owens, Roisin M.;Malliaras, George G.;
2:28:40 PEDOT:TOS with PEG: a biofunctional surface with improved electronic characteristics
DOI:10.1039/c2jm32188b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Jimison, Leslie H.;Hama, Adel;Strakosas, Xenofon;Armel, Vanessa;Khodagholy, Dion;Ismailova, Esma;Malliaras, George G.;Winther-Jensen, Bjorn;Owens, Roisin M.;
2:28:41 Ultralow Voltage, OTFT-Based Sensor for Label-Free DNA Detection
DOI:10.1002/adma.201202996 JN:ADVANCED MATERIALS PY:2013 TC:22 AU: Lai, S.;Demelas, M.;Casula, G.;Cosseddu, P.;Barbaro, M.;Bonfiglio, A.;
2:28:42 High speed and high density organic electrochemical transistor arrays
DOI:10.1063/1.3652912 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Khodagholy, Dion;Gurfinkel, Moshe;Stavrinidou, Eleni;Leleux, Pierre;Herve, Thierry;Sanaur, Sebastien;Malliaras, George G.;
2:28:43 Stable organic thin film transducers for biochemical and label-free sensing under physiological conditions
DOI:10.1039/c2jm32561f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Ramesh, Mohan;Lin, Hong-Cheu;Chu, Chih-Wei;
2:28:44 PEDOT:gelatin composites mediate brain endothelial cell adhesion
DOI:10.1039/c3tb20374c JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:16 AU: Bongo, Manuelle;Winther-Jensen, Orawan;Himmelberger, Scott;Strakosas, Xenofon;Ramuz, Marc;Hama, Adel;Stavrinidou, Eleni;Malliaras, George G.;Salleo, Alberto;Winther-Jensen, Bjorn;Owens, Roisin M.;
2:28:45 Ion-Selective Organic Electrochemical Transistors
DOI:10.1002/adma.201400731 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Sessolo, Michele;Rivnay, Jonathan;Bandiello, Enrico;Malliaras, George G.;Bolink, Henk J.;
2:28:46 The improvement of glucose bioelectrocatalytic properties of platinum electrodes modified with electrospun TiO2 nanofibers
DOI:10.1016/j.bios.2009.11.027 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:55 AU: Tang, Hao;Yan, Feng;Tai, Qidong;Chan, Helen L. W.;
2:28:47 Aqueous electrolyte-gated ZnO transistors for environmental and biological sensing
DOI:10.1039/c4tc02075h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Bandiello, E.;Sessolo, M.;Bolink, H. J.;
2:28:48 Electrical Control of Protein Conformation
DOI:10.1002/adma.201200436 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Wan, Alwin M. D.;Schur, Rebecca M.;Ober, Christopher K.;Fischbach, Claudia;Gourdon, Delphine;Malliaras, George G.;
2:28:49 Direct Measurement of Ion Mobility in a Conducting Polymer
DOI:10.1002/adma.201301240 JN:ADVANCED MATERIALS PY:2013 TC:27 AU: Stavrinidou, Eleni;Leleux, Pierre;Rajaona, Harizo;Khodagholy, Dion;Rivnay, Jonathan;Lindau, Manfred;Sanaur, Sebastien;Malliaras, George G.;
2:28:50 Detection of Glutamate and Acetylcholine with Organic Electrochemical Transistors Based on Conducting Polymer/Platinum Nanoparticle Composites
DOI:10.1002/adma.201401608 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Kergoat, Loig;Piro, Benoit;Simon, Daniel T.;Minh-Chau Pham;Noel, Vincent;Berggren, Magnus;
2:28:51 Irreversible evolution of eumelanin redox states detected by an organic electrochemical transistor: en route to bioelectronics and biosensing
DOI:10.1039/c3tb20639d JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:12 AU: Tarabella, Giuseppe;Pezzella, Alessandro;Romeo, Agostino;D'Angelo, Pasquale;Coppede, Nicola;Calicchio, Marco;d'Ischia, Marco;Mosca, Roberto;Iannotta, Salvatore;
2:28:52 Human stress monitoring through an organic cotton-fiber biosensor
DOI:10.1039/c4tb00317a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:3 AU: Coppede, Nicola;Tarabella, Giuseppe;Villani, Marco;Calestani, Davide;Iannotta, Salvatore;Zappettini, Andrea;
2:28:53 Dynamic Monitoring of Salmonella typhimurium Infection of Polarized Epithelia Using Organic Transistors
DOI:10.1002/adhm.201300632 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:12 AU: Tria, Scherrine A.;Ramuz, Marc;Huerta, Miriam;Leleux, Pierre;Rivnay, Jonathan;Jimison, Leslie H.;Hama, Adel;Malliaras, George G.;Owens, Roisin M.;
2:28:54 Controlling the Dimensionality of Charge Transport in an Organic Electrochemical Transistor by Capacitive Coupling
DOI:10.1002/adma.201103131 JN:ADVANCED MATERIALS PY:2011 TC:14 AU: Larsson, Oscar;Laiho, Ari;Schmickler, Wolfgang;Berggren, Magnus;Crispin, Xavier;
2:28:55 Electrolyte-Gated Organic Field-Effect Transistor for Selective Reversible Ion Detection
DOI:10.1002/adma.201303281 JN:ADVANCED MATERIALS PY:2013 TC:11 AU: Schmoltner, Kerstin;Kofler, Johannes;Klug, Andreas;List-Kratochvil, Emil J. W.;
2:28:56 Organic Electrochemical Transistors with Maximum Transconductance at Zero Gate Bias
DOI:10.1002/adma.201303080 JN:ADVANCED MATERIALS PY:2013 TC:12 AU: Rivnay, Jonathan;Leleux, Pierre;Sessolo, Michele;Khodagholy, Dion;Herve, Thierry;Fiocchi, Michel;Malliaras, George G.;
2:28:57 A High Transconductance Accumulation Mode Electrochemical Transistor
DOI:10.1002/adma.201403150 JN:ADVANCED MATERIALS PY:2014 TC:1 AU: Inal, Sahika;Rivnay, Jonathan;Leleux, Pierre;Ferro, Marc;Ramuz, Marc;Brendel, Johannes C.;Schmidt, Martina M.;Thelakkat, Mukundan;Malliaras, George G.;
2:28:58 Electronic Readout Enzyme-Linked Immunosorbent Assay with Organic Field-Effect Transistors as a Preeclampsia Prognostic
DOI:10.1002/adma.201401829 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Hammock, Mallory L.;Knopfmacher, Oren;Ng, Tse Nga;Tok, Jeffrey B. -H.;Bao, Zhenan;
2:28:59 Electrocardiographic Recording with Conformable Organic Electrochemical Transistor Fabricated on Resorbable Bioscaffold
DOI:10.1002/adma.201400263 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Campana, Alessandra;Cramer, Tobias;Simon, Daniel T.;Berggren, Magnus;Biscarini, Fabio;
2:28:60 Plain Poly(acrylic acid) Gated Organic Field-Effect Transistors on a Flexible Substrate
DOI:10.1021/am403008b JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Dumitru, Liviu M.;Manoli, Kyriaki;Magliulo, Maria;Sabbatini, Luigia;Palazzo, Gerardo;Torsi, Luisa;
2:28:61 Stable Organic Field-Effect Transistors for Continuous and Nondestructive Sensing of Chemical and Biologically Relevant Molecules in Aqueous Environment
DOI:10.1021/am404460j JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Yun, Minseong;Sharma, Asha;Fuentes-Hernandez, Canek;Hwang, Do Kyung;Dindar, Amir;Singh, Sanjeev;Choi, Sangmoo;Kippelen, Bernard;
2:28:62 A single cotton fiber organic electrochemical transistor for liquid electrolyte saline sensing
DOI:10.1039/c2jm34898e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Tarabella, Giuseppe;Villani, Marco;Calestani, Davide;Mosca, Roberto;Iannotta, Salvatore;Zappettini, Andrea;Coppede, Nicola;
2:28:63 Copolythiophene-based water-gated organic field-effect transistors for biosensing
DOI:10.1039/c3tb00525a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:8 AU: Suspene, Clement;Piro, Benoit;Reisberg, Steeve;Pham, Minh-Chau;Toss, Henrik;Berggren, Magnus;Yassar, Abderrahim;Horowitz, Gilles;
2:28:64 Resolving Sub-Molecular Binding and Electrical Switching Mechanisms of Single Proteins at Electroactive Conducting Polymers
DOI:10.1002/smll.201201686 JN:SMALL PY:2013 TC:11 AU: Gelmi, A.;Higgins, M. J.;Wallace, G. G.;
2:28:65 Unusually Large Enhancement of Thermopower in an Electric Field Induced Two-Dimensional Electron Gas
DOI:10.1002/adma.201103809 JN:ADVANCED MATERIALS PY:2012 TC:15 AU: Ohta, Hiromichi;Mizuno, Taku;Zheng, Shijian;Kato, Takeharu;Ikuhara, Yuichi;Abe, Katsumi;Kumomi, Hideya;Nomura, Kenji;Hosono, Hideo;
2:28:66 Electrolyte-Gated Organic Field-Effect Transistor Sensors Based on Supported Biotinylated Phospholipid Bilayer
DOI:10.1002/adma.201203587 JN:ADVANCED MATERIALS PY:2013 TC:36 AU: Magliulo, Maria;Mallardi, Antonia;Mulla, Mohammad Yusuf;Cotrone, Serafina;Pistillo, Bianca Rita;Favia, Pietro;Vikholm-Lundin, Inger;Palazzo, Gerardo;Torsi, Luisa;
2:28:67 Solution processable carbon nanotube network thin-film transistors operated in electrolytic solutions at various pH
DOI:10.1063/1.4768683 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Haeberle, Tobias;Muenzer, Alexandra M.;Buth, Felix;Garrido, Jose Antonio;Abdellah, Alaa;Fabel, Bernhard;Lugli, Paolo;Scarpa, Giuseppe;
2:28:68 Accurate and reproducible detection of proteins in water using an extended-gate type organic transistor biosensor
DOI:10.1063/1.4883739 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Minamiki, Tsukuru;Minami, Tsuyoshi;Kurita, Ryoji;Niwa, Osamu;Wakida, Shin-ichi;Fukuda, Kenjiro;Kumaki, Daisuke;Tokito, Shizuo;
2:28:69 Hydrogen ion-selective electrolyte-gated organic field-effect transistor for pH sensing
DOI:10.1063/1.4878539 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Kofler, Johannes;Schmoltner, Kerstin;Klug, Andreas;List-Kratochvil, Emil J. W.;
2:28:70 Effect of passivation on the sensitivity and stability of pentacene transistor sensors in aqueous media
DOI:10.1016/j.bios.2011.03.031 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:13 AU: Khan, Hadayat Ullah;Jang, Junhyuk;Kim, Jang-Joo;Knoll, Wolfgang;
2:28:71 Pentacene Thin-Film Transistors Encapsulated by a Thin Alkane Layer Operated in an Aqueous Ionic Environment
DOI:10.1002/adma.201001345 JN:ADVANCED MATERIALS PY:2010 TC:11 AU: Goellner, Martin;Huth, Martin;Nickel, Bert;
2:28:72 An analytical model for bio-electronic organic field-effect transistor sensors
DOI:10.1063/1.4820347 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Macchia, Eleonora;Giordano, Francesco;Magliulo, Maria;Palazzo, Gerardo;Torsi, Luisa;
2:28:73 Influence of geometry variations on the response of organic electrochemical transistors
DOI:10.1063/1.4816781 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Huetter, Philipp C.;Rothlaender, Thomas;Haase, Anja;Trimmel, Gregor;Stadlober, Barbara;
2:28:74 Combined Optical and Electronic Sensing of Epithelial Cells Using Planar Organic Transistors
DOI:10.1002/adma.201401706 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Ramuz, Marc;Hama, Adel;Huerta, Miriam;Rivnay, Jonathan;Leleux, Pierre;Owens, Roisin M.;
2:28:75 Label-free low-cost disposable DNA hybridization detection systems using organic TFTs
DOI:10.1016/j.bios.2009.09.008 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:23 AU: Zhang, Qintao;Jagannathan, Lakshmi;Subramanian, Vivek;
2:28:76 Organic thin film transistors as selective sensing platforms for Hg2+ ions and the amino acid cysteine
DOI:10.1016/j.bios.2012.10.050 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:3 AU: Ramesh, Mohan;Lin, Hong-Cheu;Chu, Chih-Wei;
2:28:77 Investigation of Ag-poly(3,4-ethylenedioxythiophene): polystyrene sulfonate nanocomposite films prepared by a one-step aqueous method
DOI:10.1063/1.3596570 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Wang, Seok-Joo;Choi, Yong-June;Park, Hyung-Ho;
2:28:78 Selective Surface Chemistry Using Alumina Nanoparticles Generated from Block Copolymers
DOI:10.1021/la104094h JN:LANGMUIR PY:2011 TC:6 AU: Stoltenberg, Randall M.;Liu, Chong;Bao, Zhenan;
2:28:79 Electron transporting water-gated thin film transistors
DOI:10.1063/1.4757131 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Al Naim, Abdullah;Grell, Martin;
2:28:80 An ionic liquid-gated polymer thin film transistor with exceptionally low "on" resistance
DOI:10.1063/1.4875746 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Algarni, Saud A.;Althagafi, Talal M.;Smith, Patrick J.;Grell, Martin;
2:28:81 Volatile general anesthetic sensing with organic field-effect transistors integrating phospholipid membranes
DOI:10.1016/j.bios.2012.07.068 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:6 AU: Angione, Maria Daniela;Magliulo, Maria;Cotrone, Serafina;Mallardi, Antonia;Altamura, Davide;Giannini, Cinzia;Cioffi, Nicola;Sabbatini, Luigia;Gobeljic, Danka;Scamarcio, Gaetano;Palazzo, Gerardo;Torsi, Luisa;
2:28:82 Alcohol vapour detection at the three phase interface using enzyme-conducting polymer composites
DOI:10.1016/j.bios.2013.08.033 JN:BIOSENSORS & BIOELECTRONICS PY:2014 TC:4 AU: Winther-Jensen, Orawan;Kerr, Robert;Winther-Jensen, Bjorn;
2:28:83 Organic field-effect transistor-based biosensors functionalized with protein receptors
DOI:10.1063/1.3518681 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Maddalena, Francesco;Kuiper, Marjon J.;Poolman, Bert;Brouwer, Frank;Hummelen, Jan C.;de Leeuw, Dago M.;De Boer, Bert;Blom, Paul W. M.;
2:28:84 Organic solvents as gate media for thin-film transistors
DOI:10.1063/1.4768203 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Al Naim, Abdullah F.;Grell, Martin;
2:28:85 Optical switching of protein interactions on photosensitive-electroactive polymers measured by atomic force microscopy
DOI:10.1039/c3tb00463e JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:3 AU: Gelmi, Amy;Zanoni, Michele;Higgins, Michael J.;Gambhir, Sanjeev;Officer, David L.;Diamond, Dermot;Wallace, Gordon G.;
2:28:86 Multi-Order Dynamic Range DNA Sensor Using a Gold Decorated SWCNT Random Network
DOI:10.1021/nn102938h JN:ACS NANO PY:2011 TC:16 AU: Ko, Jung Woo;Woo, Jun-Myung;Ahn, Jinhong;Cheon, Jun Ho;Lim, Jae Heung;Kim, Seok Hyang;Chun, Honggu;Kim, Eunhye;Park, Young June;
2:28:87 Ionic Liquid Gel-Assisted Electrodes for Long-Term Cutaneous Recordings
DOI:10.1002/adhm.201300614 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:5 AU: Leleux, Pierre;Johnson, Camryn;Strakosas, Xenofon;Rivnay, Jonathan;Herve, Thierry;Owens, Roisin M.;Malliaras, George G.;
2:28:88 Stretchable Polymeric Multielectrode Array for Conformal Neural Interfacing
DOI:10.1002/adma.201304140 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Guo, Liang;Ma, Mingming;Zhang, Ning;Langer, Robert;Anderson, Daniel G.;
2:28:89 Enhanced mobility of organic thin film transistors by water absorption of collagen hydrolysate gate dielectric
DOI:10.1063/1.4813075 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Hsieh, Chao-Ying;Hwang, Jenn-Chang;Chang, Ting-Hao;Li, Jiun-Yi;Chen, Shih-Han;Mao, Lung-Kai;Tsai, Li-Shiuan;Chueh, Yu-Lun;Lyu, Ping-Chiang;Hsu, Shawn S. H.;
2:28:90 DNA hybridization sensor based on pentacene thin film transistor
DOI:10.1016/j.bios.2010.09.047 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:19 AU: Kim, Jung-Min;Jha, Sandeep Kumar;Chand, Rohit;Lee, Dong-Hoon;Kim, Yong-Sang;
2:28:91 Modulation of Electron Tunneling in a Nanoparticle Array by Sound Waves: An Avenue to High-Speed, High-Sensitivity Sensors
DOI:10.1002/smll.201100519 JN:SMALL PY:2011 TC:5 AU: Berry, Vikas;Saraf, Ravi F.;
2:28:92 Electronic Transduction of Proton Translocations in Nanoassembled Lamellae of Bacteriorhodopsin
DOI:10.1021/nn503135y JN:ACS NANO PY:2014 TC:2 AU: Palazzo, Gerardo;Magliulo, Maria;Mallardi, Antonia;Angione, Maria Daniela;Gobeljic, Danka;Scamarcio, Gaetano;Fratini, Emiliano;Ridi, Francesca;Torsi, Luisa;
2:28:93 Conducting Polymer Electrodes for Electroencephalography
DOI:10.1002/adhm.201300311 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:8 AU: Leleux, Pierre;Badier, Jean-Michel;Rivnay, Jonathan;Benar, Christian;Herve, Thierry;Chauvel, Patrick;Malliaras, George G.;
2:28:94 A simple model for ion injection and transport in conducting polymers
DOI:10.1063/1.4812236 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Stavrinidou, Eleni;Leleux, Pierre;Rajaona, Harizo;Fiocchi, Michel;Sanaur, Sebastien;Malliaras, George G.;
2:28:95 Electric-field thermopower modulation in SrTiO3-based field-effect transistors
DOI:10.1007/s10853-012-6856-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Ohta, Hiromichi;
2:28:96 High-Performance Dopamine Sensors Based on Whole-Graphene Solution-Gated Transistors (vol 7, pg 978, 2014)
DOI:10.1002/adfm.201400059 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Zhang, Meng;Liao, Caizhi;Yao, Yanli;Liu, Zhike;Gong, Fengfei;Yan, Feng;
2:28:97 A physical interpretation of impedance at conducting polymer/electrolyte junctions
DOI:10.1063/1.4863297 JN:AIP ADVANCES PY:2014 TC:1 AU: Stavrinidou, Eleni;Sessolo, Michele;Winther-Jensen, Bjorn;Sanaur, Sebastien;Malliaras, George G.;
2:28:98 Performance improvement of bottom-contact pentacene-based organic thin-film transistors by inserting a thin polytetrafluoroethylene buffer layer
DOI:10.1063/1.3499366 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Fan, Ching-Lin;Yang, Tsung-Hsien;Chiu, Ping-Cheng;
2:28:99 Synthesis, characterization, and anomalous dielectric and conductivity performance of one-dimensional (bdaH)InSe2 (bda=1,4-butanediamine)
DOI:10.1016/j.materresbull.2011.07.020 JN:MATERIALS RESEARCH BULLETIN PY:2011 TC:2 AU: Du, Ke-Zhao;Hu, Wan-Biao;Hu, Bing;Guan, Xiang-Feng;Huang, Xiao-Ying;
2:29:1:1 Microscopic modeling of magnetic-field effects on charge transport in organic semiconductors
DOI:10.1103/PhysRevB.84.075204 JN:PHYSICAL REVIEW B PY:2011 TC:32 AU: Schellekens, A. J.;Wagemans, W.;Kersten, S. P.;Bobbert, P. A.;Koopmans, B.;
2:29:1:2 Magnetoconductance Response in Unipolar and Bipolar Organic Diodes at Ultrasmall Fields
DOI:10.1103/PhysRevLett.105.166804 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:40 AU: Nguyen, T. D.;Gautam, B. R.;Ehrenfreund, E.;Vardeny, Z. V.;
2:29:1:3 Magnetic-Field Dependence of the Electroluminescence of Organic Light-Emitting Diodes: A Competition between Exciton Formation and Spin Mixing
DOI:10.1103/PhysRevLett.106.197402 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:37 AU: Kersten, S. P.;Schellekens, A. J.;Koopmans, B.;Bobbert, P. A.;
2:29:1:4 Traps and trions as origin of magnetoresistance in organic semiconductors
DOI:10.1103/PhysRevB.88.035202 JN:PHYSICAL REVIEW B PY:2013 TC:8 AU: Cox, M.;Janssen, P.;Zhu, F.;Koopmans, B.;
2:29:1:5 Spin-Spin Interactions in Organic Magnetoresistance Probed by Angle-Dependent Measurements
DOI:10.1103/PhysRevLett.106.196802 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:25 AU: Wagemans, W.;Schellekens, A. J.;Kemper, M.;Bloom, F. L.;Bobbert, P. A.;Koopmans, B.;
2:29:1:6 Large magnetic field effects in electrochemically doped organic light-emitting diodes
DOI:10.1103/PhysRevB.88.125203 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: van Reenen, S.;Kersten, S. P.;Wouters, S. H. W.;Cox, M.;Janssen, P.;Koopmans, B.;Bobbert, P. A.;Kemerink, M.;
2:29:1:7 Spin-Flip Induced Magnetoresistance in Positionally Disordered Organic Solids
DOI:10.1103/PhysRevLett.108.186602 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:26 AU: Harmon, N. J.;Flatte, M. E.;
2:29:1:8 Tuning the Performance of Organic Spintronic Devices Using X-Ray Generated Traps
DOI:10.1103/PhysRevLett.109.076603 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:21 AU: Rybicki, J.;Lin, R.;Wang, F.;Wohlgenannt, M.;He, C.;Sanders, T.;Suzuki, Y.;
2:29:1:9 Effects of spin-spin interactions on magnetoresistance in disordered organic semiconductors
DOI:10.1103/PhysRevB.85.245213 JN:PHYSICAL REVIEW B PY:2012 TC:10 AU: Harmon, N. J.;Flatte, M. E.;
2:29:1:10 Semiclassical theory of magnetoresistance in positionally disordered organic semiconductors
DOI:10.1103/PhysRevB.85.075204 JN:PHYSICAL REVIEW B PY:2012 TC:14 AU: Harmon, N. J.;Flatte, M. E.;
2:29:1:11 Investigating the influence of traps on organic magnetoresistance by molecular doping
DOI:10.1103/PhysRevB.89.085201 JN:PHYSICAL REVIEW B PY:2014 TC:2 AU: Cox, M.;van der Heijden, E. H. M.;Janssen, P.;Koopmans, B.;
2:29:1:12 Anisotropic magnetoconductance in polymer thin films
DOI:10.1103/PhysRevB.89.195204 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Cox, M.;Zhu, F.;Veerhoek, J. M.;Koopmans, B.;
2:29:1:13 The influence of device physics on organic magnetoresistance
DOI:10.1016/j.synthmet.2012.11.017 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Cox, M.;Janssen, P.;Wouters, S. H. W.;van der Heijden, E. H. M.;Kemerink, M.;Koopmans, B.;
2:29:1:14 Organic magnetoresistance from deep traps
DOI:10.1063/1.4891476 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Harmon, N. J.;Flatte, M. E.;
2:29:1:15 Slow dynamics of spin pairs in a random hyperfine field: Role of inequivalence of electrons and holes in organic magnetoresistance
DOI:10.1103/PhysRevB.87.195206 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Roundy, R. C.;Raikh, M. E.;
2:29:1:16 Role of recombination, dissociation, and competition between exciton-charge reactions in magnetoconductance of polymeric semiconductor device
DOI:10.1063/1.4901506 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Radaoui, M.;Saidani, M. A.;Ben Fredj, A.;Romdhane, S.;Havlicek, M.;Egbe, D. A. M.;Sariciftci, N. S.;Bouchriha, H.;
2:29:1:17 Organic magnetoresistance under resonant ac drive
DOI:10.1103/PhysRevB.88.125206 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Roundy, R. C.;Raikh, M. E.;
2:29:1:18 Organic magnetoresistance near saturation: Mesoscopic effects in small devices
DOI:10.1103/PhysRevB.88.075207 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Roundy, R. C.;Vardeny, Z. V.;Raikh, M. E.;
2:29:1:19 Including fringe fields from a nearby ferromagnet in a percolation theory of organic magnetoresistance
DOI:10.1103/PhysRevB.87.121203 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Harmon, N. J.;Macia, F.;Wang, F.;Wohlgenannt, M.;Kent, A. D.;Flatte, M. E.;
2:29:1:20 Unraveling the temperature and voltage dependence of magnetic field effects in organic semiconductors
DOI:10.1063/1.4827864 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Janssen, Paul;Wouters, Steinar H. W.;Cox, Matthijs;Koopmans, Bert;
2:29:1:21 Anomalous organic magnetoresistance from competing carrier-spin-dependent interactions with localized electronic and nuclear spins
DOI:10.1103/PhysRevB.90.060204 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Wang, Y.;Harmon, N. J.;Sahin-Tiras, K.;Wohlgenannt, M.;Flatte, M. E.;
2:29:1:22 Magnetic field effects on electron-hole recombination in disordered organic semiconductors
DOI:10.1103/PhysRevB.84.115212 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Shushin, A. I.;
2:29:1:23 Route towards huge magnetoresistance in doped polymers
DOI:10.1103/PhysRevB.86.045210 JN:PHYSICAL REVIEW B PY:2012 TC:9 AU: Kersten, S. P.;Meskers, S. C. J.;Bobbert, P. A.;
2:29:1:24 Sign change in the organic magnetoresistance of tris(8-hydroxyquinolinato)aluminum upon annealing
DOI:10.1063/1.3684873 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Kang, Hoju;Lee, Ik-Jae;Yoon, Choon Sup;
2:29:1:25 Separating photocurrent and injected current contributions to the organic magnetoresistance
DOI:10.1016/j.synthmet.2009.11.010 JN:SYNTHETIC METALS PY:2010 TC:12 AU: Wagemans, W.;Engelen, W. J.;Bloom, F. L.;Koopmans, B.;
2:29:1:26 Tunable magneto-conductance and magneto-electroluminescence in polymer light-emitting electrochemical planar devices
DOI:10.1063/1.4841776 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Geng, R.;Mayhew, N. T.;Nguyen, T. D.;
2:29:1:27 Pauli Spin Blockade and the Ultrasmall Magnetic Field Effect
DOI:10.1103/PhysRevLett.111.066802 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Danon, Jeroen;Wang, Xuhui;Manchon, Aurelien;
2:29:1:28 ORGANIC SEMICONDUCTORS What makes the spin relax?
DOI:10.1038/nmat2718 JN:NATURE MATERIALS PY:2010 TC:13 AU: Bobbert, Peter A.;
2:29:1:29 Study of magneto-electroluminescence and magneto-conductance in polymer light-emitting electrochemical cells
DOI:10.1063/1.3605251 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Ni, G.;Nguyen, T. D.;Vardeny, Z. V.;
2:29:1:30 Intrinsic magnetic field effects in organic semiconductors
DOI:10.1557/mrs.2014.132 JN:MRS BULLETIN PY:2014 TC:2 AU: Wohlgenannt, Markus;Bobbert, Peter A.;Koopmans, Bert;
2:29:1:31 Effect of hyperfine interactions on exciton formation in organic semiconductors
DOI:10.1016/j.synthmet.2010.11.040 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Kersten, S. P.;Schellekens, A. J.;Koopmans, B.;Bobbert, P. A.;
2:29:1:32 Magnetic field effects on the conductivity of organic bipolar and unipolar devices at room temperature
DOI:10.1016/j.synthmet.2009.11.020 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Gomez, J. A.;Nueesch, F.;Zuppiroli, L.;Graeff, C. F. O.;
2:29:1:33 The spin-polarized organic light emitting diode
DOI:10.1016/j.synthmet.2012.11.015 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Nguyen, Tho D.;Ehrenfreund, Eitan;Vardeny, Z. Valy;
2:29:1:34 Electron beam deposition system causing little damage to organic layers
DOI:10.1016/j.tsf.2011.03.056 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Yamada, Minoru;Matsumura, Michio;Maeda, Yasuhiro;
2:29:2:1 Hyperfine-Field-Mediated Spin Beating in Electrostatically Bound Charge Carrier Pairs
DOI:10.1103/PhysRevLett.104.017601 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:49 AU: McCamey, D. R.;van Schooten, K. J.;Baker, W. J.;Lee, S. -Y.;Paik, S. -Y.;Lupton, J. M.;Boehme, C.;
2:29:2:2 Differentiation between polaron-pair and triplet-exciton polaron spin-dependent mechanisms in organic light-emitting diodes by coherent spin beating
DOI:10.1103/PhysRevB.84.165205 JN:PHYSICAL REVIEW B PY:2011 TC:18 AU: Baker, W. J.;McCamey, D. R.;van Schooten, K. J.;Lupton, J. M.;Boehme, C.;
2:29:2:3 Bipolaron Formation in Organic Solar Cells Observed by Pulsed Electrically Detected Magnetic Resonance
DOI:10.1103/PhysRevLett.105.176601 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:28 AU: Behrends, J.;Schnegg, A.;Lips, K.;Thomsen, E. A.;Pandey, A. K.;Samuel, I. D. W.;Keeble, D. J.;
2:29:2:4 Spin-dependent dynamics of polaron pairs in organic semiconductors
DOI:10.1103/PhysRevB.82.125206 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: McCamey, D. R.;Lee, S-Y.;Paik, S-Y.;Lupton, J. M.;Boehme, C.;
2:29:2:5 Slow Hopping and Spin Dephasing of Coulombically Bound Polaron Pairs in an Organic Semiconductor at Room Temperature
DOI:10.1103/PhysRevLett.108.267601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:10 AU: Baker, W. J.;Keevers, T. L.;Lupton, J. M.;McCamey, D. R.;Boehme, C.;
2:29:2:6 Numerical study of spin-dependent transition rates within pairs of dipolar and exchange coupled spins with s=1/2 during magnetic resonant excitation
DOI:10.1103/PhysRevB.87.165204 JN:PHYSICAL REVIEW B PY:2013 TC:4 AU: Limes, M. E.;Wang, J.;Baker, W. J.;Lee, S. -Y.;Saam, B.;Boehme, C.;
2:29:2:7 Analytical study of spin-dependent transition rates within pairs of dipolar and strongly exchange coupled spins with s=1/2 during magnetic resonant excitation
DOI:10.1103/PhysRevB.87.165205 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Glenn, R.;Limes, M. E.;Saam, B.;Boehme, C.;Raikh, M. E.;
2:29:2:8 Analytical description of spin-Rabi oscillation controlled electronic transitions rates between weakly coupled pairs of paramagnetic states with S=1/2
DOI:10.1103/PhysRevB.87.155208 JN:PHYSICAL REVIEW B PY:2013 TC:4 AU: Glenn, R.;Baker, W. J.;Boehme, C.;Raikh, M. E.;
2:29:2:9 Mechanisms of spin-dependent dark conductivity in films of a soluble fullerene derivative under bipolar injection
DOI:10.1103/PhysRevB.89.125311 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Morishita, H.;Baker, W. J.;Waters, D. P.;Baarda, R.;Lupton, J. M.;Boehme, C.;
2:29:2:10 Tuning Hyperfine Fields in Conjugated Polymers for Coherent Organic Spintronics
DOI:10.1021/ja108352d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:14 AU: Lee, Sang-Yun;Paik, Seo-Young;McCamey, Dane R.;Yu, Justin;Burn, Paul L.;Lupton, John M.;Boehme, Christoph;
2:29:2:11 Electrically detected crystal orientation dependent spin-Rabi beat oscillation of c-Si(111)/SiO2 interface states
DOI:10.1103/PhysRevB.84.235305 JN:PHYSICAL REVIEW B PY:2011 TC:1 AU: Paik, Seoyoung;Lee, Sang-Yun;McCamey, Dane R.;Boehme, Christoph;
2:29:2:12 Spin-dependent processes in amorphous silicon-rich silicon-nitride
DOI:10.1063/1.3509406 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Lee, S. -Y.;Paik, S. -Y.;McCamey, D. R.;Hu, J.;Zhu, F.;Madan, A.;Boehme, C.;
2:29:2:13 Displacement current induced by spin resonance in air-treated conjugated polymer diodes
DOI:10.1103/PhysRevB.86.125201 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Kanemoto, Katsuichi;Matsuoka, Hidenobu;Ueda, Yujiro;Takemoto, Keisuke;Kimura, Keiji;Hashimoto, Hideki;
2:29:2:14 Delayed fluorescence in alpha-quaterthiophene single crystal
DOI:10.1016/j.synthmet.2011.10.015 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Saidani, M. A.;Benfredj, A.;Kouki, F.;Romdhane, S.;Fave, J. L.;Bouchriha, H.;
2:29:2:15 Electrically detected magnetic resonance modeling and fitting: An equivalent circuit approach
DOI:10.1063/1.4862178 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Leite, D. M. G.;Batagin-Neto, A.;Nunes-Neto, O.;Gomez, J. A.;Graeff, C. F. O.;
2:29:2:16 Modulation frequency dependence of continuous-wave optically/electrically detected magnetic resonance
DOI:10.1103/PhysRevB.86.115204 JN:PHYSICAL REVIEW B PY:2012 TC:6 AU: Lee, Sang-Yun;Paik, Seoyoung;McCamey, Dane R.;Boehme, Christoph;
2:29:2:17 Spin-orbit interactions between interchain excitations in conjugated polymers
DOI:10.1103/PhysRevB.81.035206 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: Barford, William;Bursill, Robert J.;Makhov, Dmitry V.;
2:29:2:18 ORGANIC ELECTRONICS Organic thin-film magnetometers
DOI:10.1038/nmat3390 JN:NATURE MATERIALS PY:2012 TC:1 AU: Shinar, Joseph;
2:29:3:1 Effect of excited states and applied magnetic fields on the measured hole mobility in an organic semiconductor
DOI:10.1103/PhysRevB.82.085205 JN:PHYSICAL REVIEW B PY:2010 TC:24 AU: Song, J. Y.;Stingelin, N.;Drew, A. J.;Kreouzis, T.;Gillin, W. P.;
2:29:3:2 Direct measurement of the magnetic field effects on carrier mobilities and recombination in tri-(8-hydroxyquinoline)-aluminum based light-emitting diodes
DOI:10.1063/1.3478014 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Li, Feng;Xin, Linyuan;Liu, Shiyong;Hu, Bin;
2:29:3:3 The charge-trapping and triplet-triplet annihilation processes in organic light-emitting diodes: A duty cycle dependence study on magneto-electroluminescence
DOI:10.1063/1.4788681 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Peng, Qiming;Chen, Ping;Li, Feng;
2:29:3:4 Investigation of the magnetic field effects on electron mobility in tri-(8-hydroxyquinoline)-aluminum based light-emitting devices
DOI:10.1063/1.3615305 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Peng, Qiming;Sun, Jixiang;Li, Xianjie;Li, Mingliang;Li, Feng;
2:29:3:5 Magnetic-field dependent differential capacitance of polymer diodes
DOI:10.1063/1.4748797 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Djidjou, Thaddee K.;Basel, Tek;Rogachev, Andrey;
2:29:3:6 Experimental investigation on the origin of magneto-conductance and magneto-electroluminescence in organic light emitting devices
DOI:10.1016/j.synthmet.2013.01.001 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Peng, Qiming;Chen, Ping;Li, Feng;
2:29:3:7 Frequency dependence of organic magnetoresistance
DOI:10.1063/1.3491217 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Wagemans, W.;Janssen, P.;van der Heijden, E. H. M.;Kemerink, M.;Koopmans, B.;
2:29:3:8 Admittance spectroscopy study of polymer diodes in small magnetic fields
DOI:10.1063/1.4737773 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Djidjou, Thaddee K.;Basel, Tek;Rogachev, Andrey;
2:29:3:9 Time-resolved spin-dependent processes in magnetic field effects in organic semiconductors
DOI:10.1063/1.4768474 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Peng, Qiming;Li, Xianjie;Li, Feng;
2:29:3:10 Magnetic field modulated exciton generation in organic semiconductors: An intermolecular quantum correlated effect
DOI:10.1103/PhysRevB.82.205209 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Ding, Baofu;Yao, Yao;Sun, Xiaoyu;Gao, Xindong;Xie, Zuoti;Sun, Zhengyi;Wang, Zijun;Ding, Xunmin;Wu, Yizheng;Jin, Xiaofeng;Choy, Wallace C. H.;Wu, Chang-Qin;Hou, Xiaoyuan;
2:29:3:11 Changing inter-molecular spin-orbital coupling for generating magnetic field effects in phosphorescent organic semiconductors
DOI:10.1063/1.3673561 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Yan, Liang;Shao, Ming;Graeff, Carlos F. O.;Hummelgen, Ivo;Ma, Dongge;Hu, Bin;
2:29:3:12 Optically Tunable Magneto-Capacitance Phenomenon in Organic Semiconducting Materials Developed by Electrical Polarization of Intermolecular Charge-Transfer States
DOI:10.1002/adma.201305965 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: He, Lei;Li, Mingxing;Urbas, Augustine;Hu, Bin;
2:29:3:13 Magnetic-field effect in organic photoconductive devices studied by time-of-flight
DOI:10.1103/PhysRevB.83.241202 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Wang, F.;Rybicki, J.;Hutchinson, K. A.;Wohlgenannt, M.;
2:29:3:14 On the role of minority carriers in the frequency dependence of organic magnetoresistance
DOI:10.1016/j.synthmet.2011.01.013 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Janssen, P.;Wagemans, W.;Verhoeven, W.;van der Heijden, E. H. M.;Kemerink, M.;Koopmans, B.;
2:29:3:15 Study of the magnetic field effects on carriers' mobility in polymer based light-emitting diodes
DOI:10.1016/j.synthmet.2011.11.033 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Sun, Jixiang;Peng, Qiming;Li, Xianjie;Li, Mingliang;Li, Feng;
2:29:3:16 Pulsed magnetic resonance of Alq(3) OLED detected by electroluminescence
DOI:10.1016/j.synthmet.2012.12.037 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Comande, F.;Ansermet, J-Ph;
2:29:3:17 Ambipolar Charge Transport in "Traditional" Organic Hole Transport Layers
DOI:10.1002/adma.201103830 JN:ADVANCED MATERIALS PY:2012 TC:6 AU: Khademi, S.;Song, J. Y.;Wyatt, P. B.;Kreouzis, T.;Gillin, W. P.;
2:29:3:18 Magnetocurrent of Charge-Polarizable C-60-Diphenylaminofluorene Monoadduct-Derived Magnetic Nanocomposites
DOI:10.1021/ja210812u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:3 AU: Yan, Liang;Wang, Min;Raju, N. P.;Epstein, Arthur;Tan, Loon-Seng;Urbas, Augustine;Chiang, Long Y.;Hu, Bin;
2:29:3:19 Frequency dependence of organic magnetoresistance
DOI:10.1016/j.synthmet.2010.11.046 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Wang, Fujian;Rybicki, James;Lin, Ran;Hutchinson, Kent A.;Hou, Jia;Wohlgenannt, Markus;
2:29:3:20 Extremely strong room-temperature transient photocurrent-detected magnetic resonance in organic devices
DOI:10.1103/PhysRevB.86.235442 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;
2:29:4:1 Identifying the efficient inter-conversion between singlet and triplet charge-transfer states by magneto-electroluminescence study
DOI:10.1063/1.4791562 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Chen, Ping;Peng, Qiming;Yao, Liang;Gao, Na;Li, Feng;
2:29:4:2 Isotope effect in the spin response of aluminum tris(8-hydroxyquinoline) based devices
DOI:10.1103/PhysRevB.85.245437 JN:PHYSICAL REVIEW B PY:2012 TC:11 AU: Nguyen, Tho D.;Basel, T. P.;Pu, Y. -J.;Li, X-G.;Ehrenfreund, E.;Vardeny, Z. V.;
2:29:4:3 Investigation of energy transfer and charge trapping in dye-doped organic light-emitting diodes by magneto-electroluminescence measurement
DOI:10.1063/1.4807009 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Peng, Qiming;Gao, Na;Li, Weijun;Chen, Ping;Li, Feng;Ma, Yuguang;
2:29:4:4 Identifying the roles of the excited states on the magnetoconductance in tris-(8-hydroxyquinolinato) aluminum
DOI:10.1063/1.4795937 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Lei, Y. L.;Zhang, Q. M.;Chen, L. J.;Yang, X. H.;Xiong, Z. H.;
2:29:4:5 Studying the influence of triplet deactivation on the singlet-triplet inter-conversion in intra-molecular charge-transfer fluorescence-based OLEDs by magneto-electroluminescence
DOI:10.1039/c4tc00885e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Peng, Qiming;Li, Aiwu;Fan, Yunxia;Chen, Ping;Li, Feng;
2:29:4:6 Identifying the magnetoconductance responses by the induced charge transfer complex states in pentacene-based diodes
DOI:10.1063/1.4742135 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Huang, Wei-Shun;Lee, Tsung-Hsun;Guo, Tzung-Fang;Huang, J. C. A.;Wen, Ten-Chin;
2:29:4:7 Magnetoconductance responses of triplet polaron pair charge reaction in hyperfine coupling regime
DOI:10.1063/1.4852755 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Huang, Wei-Shun;Xu, Zhe-Rui;Hu, Bin;Guo, Tzung-Fang;Huang, J. C. A.;Wen, Ten-Chin;
2:29:4:8 Spectrally resolved hyperfine interactions between polaron and nuclear spins in organic light emitting diodes: Magneto-electroluminescence studies
DOI:10.1063/1.4898700 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Crooker, S. A.;Liu, F.;Kelley, M. R.;Martinez, N. J. D.;Nie, W.;Mohite, A.;Nayyar, I. H.;Tretiak, S.;Smith, D. L.;Ruden, P. P.;
2:29:4:9 Magnetic field effect spectroscopy of C-60-based films and devices
DOI:10.1063/1.4800546 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Gautam, Bhoj R.;Nguyen, Tho D.;Ehrenfreund, Eitan;Vardeny, Z. Valy;
2:29:4:10 Magnetoconductance responses in organic charge-transfer-complex molecules
DOI:10.1063/1.3627170 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Lee, Tsung-Hsun;Li, Jhen-Hao;Huang, Wei-Shun;Hu, Bin;Huang, J. C. A.;Guo, Tzung-Fang;Wen, Ten-Chin;
2:29:4:11 Hyperfine interaction and its effects on spin dynamics in organic solids
DOI:10.1103/PhysRevB.87.205446 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Yu, Z. G.;Ding, Feizhi;Wang, Haobin;
2:29:4:12 Spin dependent reactions of polaron pairs in PPV-based organic diodes
DOI:10.1016/j.synthmet.2009.06.014 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Wang, F.;Yang, C. G.;Ehrenfreund, E.;Vardeny, Z. V.;
2:29:4:13 Understanding magnetic field effects in organic light-emitting devices
DOI:10.1016/j.synthmet.2010.11.049 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Yao, Yao;Si, Wei;Wu, Chang-Qin;
2:29:5:1 Investigating the magnetic field effect on electron-hole pair in organic semiconductor devices
DOI:10.1063/1.4805044 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Qin, W.;Gao, K.;Yin, S.;Xie, S. J.;
2:29:5:2 Evidence for different origins of the magnetic field effect on current and electroluminescence in organic light-emitting diodes
DOI:10.1063/1.3696051 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Buchschuster, Andreas;Schmidt, Tobias D.;Bruetting, Wolfgang;
2:29:5:3 Investigation on organic magnetoconductance based on polaron-bipolaron transition
DOI:10.1063/1.4726185 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Qin, W.;Yin, S.;Gao, K.;Xie, S. J.;
2:29:5:4 Simultaneous monitoring of singlet and triplet exciton variations in solid organic semiconductors driven by an external static magnetic field
DOI:10.1063/1.4890315 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ding, Baofu;Alameh, Kamal;
2:29:5:5 Magnetoluminescence of light-emitting field-effect transistors based on alpha sexithiophene
DOI:10.1063/1.4870407 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Pham, Song-Toan;Tada, Hirokazu;
2:29:5:6 Magnetic field effects on the electroluminescence of organic light emitting devices: A tool to indicate the carrier mobility
DOI:10.1063/1.3505343 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Ding, B. F.;Yao, Y.;Sun, Z. Y.;Wu, C. Q.;Gao, X. D.;Wang, Z. J.;Ding, X. M.;Choy, W. C. H.;Hou, X. Y.;
2:29:5:7 Room-temperature spin-polarized organic light-emitting diodes with a single ferromagnetic electrode
DOI:10.1063/1.4879461 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Ding, Baofu;Song, Qunliang;Alameh, Kamal;
2:29:5:8 Device-spectroscopy of magnetic field effects in several different polymer organic light-emitting diodes
DOI:10.1016/j.synthmet.2009.08.051 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Nguyen, T. D.;Sheng, Y.;Rybicki, J.;Veeraraghavan, G.;Wohlgenannt, M.;
2:29:5:9 A possible mechanism to tune magneto-electroluminescence in organic light-emitting diodes through adjusting the triplet exciton density
DOI:10.1063/1.3644147 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Chen, P.;Song, Q. L.;Choy, W. C. H.;Ding, B. F.;Liu, Y. L.;Xiong, Z. H.;
2:29:5:10 Theoretical investigation of organic magnetoresistance based on hyperfine interaction
DOI:10.1063/1.3701167 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Li, X. X.;Dong, X. F.;Lei, J.;Xie, S. J.;Saxena, A.;
2:29:5:11 Electrical dipole-dipole interaction effects on magnetocurrent in organic phosphorescent materials
DOI:10.1063/1.3623435 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Shao, Ming;Dai, Yanfeng;Ma, Dongge;Hu, Bin;
2:29:5:12 High contrast tandem organic light emitting devices
DOI:10.1063/1.4755784 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Ding, Bao-Fu;Hou, Xiao-Yuan;Alameh, Kamal;
2:29:5:13 Tuning of organic magneto resistance by reversible modification of the active material
DOI:10.1016/j.synthmet.2009.06.012 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Niedermeier, U.;Bagnich, S. A.;Melzer, C.;Sarfert, W.;von Seggern, H.;
2:29:6:1 Determining the influence of excited states on current transport in organic light emitting diodes using magnetic field perturbation
DOI:10.1103/PhysRevB.82.195208 JN:PHYSICAL REVIEW B PY:2010 TC:20 AU: Gillin, W. P.;Zhang, Sijie;Rolfe, N. J.;Desai, P.;Shakya, P.;Drew, A. J.;Kreouzis, T.;
2:29:6:2 Modeling of positive and negative organic magnetoresistance in organic light-emitting diodes
DOI:10.1103/PhysRevB.86.075206 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Zhang, Sijie;Rolfe, N. J.;Desai, P.;Shakya, P.;Drew, A. J.;Kreouzis, T.;Gillin, W. P.;
2:29:6:3 Modelling of organic magnetoresistance as a function of temperature using the triplet polaron interaction
DOI:10.1016/j.synthmet.2010.11.027 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Zhang, Sijie;Drew, A. J.;Kreouzis, T.;Gillin, W. P.;
2:29:6:4 Low temperature magnetic field effects on the efficiency of aluminium tris(8-hydroxyquinoline) based organic light emitting diodes in the absence of magnetoresistance
DOI:10.1016/j.synthmet.2012.11.016 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Zhang, Sijie;Kreouzis, T.;Gillin, W. P.;
2:29:6:5 Understanding the role of electron and hole trions on current transport in aluminium tris(8-hydroxyquinoline) using organic magnetoresistance
DOI:10.1063/1.4863684 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhang, Sijie;Willis, M.;Gotto, R.;Roy, K. A.;Rolfe, N. J.;Kreouzis, T.;Gillin, W. P.;
2:29:7:1 Magnetic field effect on excited-state spectroscopies of pi-conjugated polymer films
DOI:10.1103/PhysRevB.85.205207 JN:PHYSICAL REVIEW B PY:2012 TC:11 AU: Gautam, Bhoj R.;Nguyen, Tho D.;Ehrenfreund, Eitan;Vardeny, Z. Valy;
2:29:7:2 Enhancement of magneto-conductance in n-Si/n-PS/NPB structures at room temperature
DOI:10.1016/j.mseb.2013.08.019 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:2 AU: Radaoui, M.;Ben Fredj, A.;Romdhane, S.;Bouaicha, M.;Bouchriha, H.;
2:29:7:3 Magnetic field effects in singlet-polaron quenching in molecularly doped fluorescence organic light-emitting diodes
DOI:10.1063/1.4892625 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Xu, Kai;Ma, Dongge;
2:29:7:4 Magneto-conductance of pi-conjugated polymer based unipolar and bipolar diodes
DOI:10.1016/j.synthmet.2010.11.051 JN:SYNTHETIC METALS PY:2011 TC:9 AU: Nguyen, T. D.;Gautam, B. R.;Ehrenfreund, E.;Vardeny, Z. V.;
2:29:7:5 Spin-orbit coupling and spin relaxation rate in singly charged pi-conjugated polymer chains
DOI:10.1016/j.synthmet.2009.09.032 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Rybicki, J.;Nguyen, T. D.;Sheng, Y.;Wohlgenannt, M.;
2:29:7:6 Photo-induced charge separation process in (PCBM-C120O)/(M3EH-PPV) blend solid film studied by means of X and K-bands ESR at 77 and 120 K
DOI:10.1016/j.synthmet.2009.11.036 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Konkin, A.;Ritter, U.;Scharff, P.;Roth, H. -K.;Aganov, A.;Sariciftci, N. S.;Egbe, D. A. M.;
2:29:8:1 Revealing the origin of magnetoresistance in unipolar amorphous organic field-effect transistors
DOI:10.1039/c4tc00702f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Isenberg, Carolin;Saragi, Tobat P. I.;
2:29:8:2 Photoinduced magnetoresistance in organic field-effect transistors
DOI:10.1063/1.3554388 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Reichert, Thomas;Saragi, Tobat P. I.;
2:29:8:3 Organic magnetoresistance in ambipolar field-effect transistors
DOI:10.1063/1.4823708 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Pham, Song-Toan;Kawasugi, Yoshitaka;Tada, Hirokazu;
2:29:8:4 Magnetic-field effects in illuminated tetracene field-effect transistors
DOI:10.1063/1.3684835 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Saragi, Tobat P. I.;Reichert, Thomas;
2:29:8:5 Spin dynamics control of recombination current in organic semiconductors
DOI:10.1016/j.synthmet.2009.08.053 JN:SYNTHETIC METALS PY:2010 TC:5 AU: Prigodin, Vladimir N.;Epstein, Arthur J.;
2:29:9:1 Tuning magneto-electroluminescence in organic light emitting diodes by controlling the competition between singlet fission and triplet fusion
DOI:10.1016/j.synthmet.2014.10.002 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Liu, H.;Jia, W. Y.;Zhang, Y.;Zhang, Q. M.;Lei, Y. L.;Lu, C. L.;Ling, Y. Z.;Xiong, Z. H.;
2:29:9:2 Magnetoresistance for organic semiconductors: Small molecule, oligomer, conjugated polymer, and non-conjugated polymer
DOI:10.1016/j.synthmet.2010.01.009 JN:SYNTHETIC METALS PY:2010 TC:14 AU: Martin, J. L.;Bergeson, J. D.;Prigodin, V. N.;Epstein, A. J.;
2:29:9:3 Temperature effect on spin relaxation in organic semiconductors
DOI:10.1016/j.synthmet.2013.01.003 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Yin, Sun;Xie, S. J.;Gao, K.;Wang, X. R.;
2:29:9:4 Molecular hyperfine fields in organic magnetoresistance devices
DOI:10.1103/PhysRevB.87.125204 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Giro, Ronaldo;Rosselli, Flavia P.;Carvalho, Rafael dos Santos;Capaz, Rodrigo B.;Cremona, Marco;Achete, Carlos A.;
2:29:9:5 The effect of deuteration on organic magnetoresistance
DOI:10.1016/j.synthmet.2010.11.044 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Rolfe, N. J.;Heeney, M.;Wyatt, P. B.;Drew, A. J.;Kreouzis, T.;Gillin, W. P.;
2:29:9:6 Positive and negative components of magnetoconductance in hole transport limited organic light-emitting diodes
DOI:10.1063/1.3599555 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Zhang, Q. M.;Lei, Y. L.;Song, Q. L.;Chen, P.;Zhang, Y.;Xiong, Z. H.;
2:29:10:1 Spin relaxation and magnetoresistance in disordered organic semiconductors
DOI:10.1016/j.synthmet.2009.06.002 JN:SYNTHETIC METALS PY:2010 TC:20 AU: Bobbert, P. A.;Nguyen, T. D.;Wagemans, W.;van Oost, F. W. A.;Koopmans, B.;Wohlgenannt, M.;
2:29:10:2 Degradation effect on the magnetoresistance in organic light emitting diodes
DOI:10.1016/j.synthmet.2010.12.011 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Schmidt, Tobias D.;Buchschuster, Andreas;Holm, Matthias;Nowy, Stefan;Weber, Josef A.;Bruetting, Wolfgang;
2:29:10:3 Generation of electron spin polarization in disordered organic semiconductors
DOI:10.1103/PhysRevB.86.035206 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Shushin, A. I.;
2:29:10:4 Magnetic effect on hopping rate of electrons in organic semiconductors
DOI:10.1063/1.4827809 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Zhao, Junqing;Wang, Ting;Zhang, Meisheng;Zhang, Ningyu;Pang, Yantao;Li, Luyan;Ji, Yanju;Zhuang, Shidong;Mao, Jinhua;Wang, Huilin;
2:29:10:5 Generation of electron spin polarization in disordered organic semiconductors (vol 86, 035206, 2012)
DOI:10.1103/PhysRevB.86.079915 JN:PHYSICAL REVIEW B PY:2012 TC:0 AU: Shushin, A. I.;
2:29:11:1 Scaling approach to hopping magnetoresistivity in dilute magnetic semiconductors
DOI:10.1103/PhysRevB.88.115210 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Nenashev, A. V.;Jansson, F.;Wiemer, M.;Petznick, S.;Klar, P. J.;Hetterich, M.;Dvurechenskii, A. V.;Gebhard, F.;Baranovskii, S. D.;
2:29:11:2 Large positive magnetoresistance effects in the dilute magnetic semiconductor (Zn,Mn)Se in the regime of electron hopping
DOI:10.1063/1.4894236 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Jansson, F.;Wiemer, M.;Nenashev, A. V.;Petznick, S.;Klar, P. J.;Hetterich, M.;Gebhard, F.;Baranovskii, S. D.;
2:29:11:3 Interference mechanism of magnetoresistance in variable-range hopping conduction: The effect of paramagnetic electron spins and continuous spectrum of scatterer energies
DOI:10.1103/PhysRevB.85.115203 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Shumilin, A. V.;Kozub, V. I.;
2:29:12:1 Optically tunable spin-exchange energy at donor: acceptor interfaces in organic solar cells
DOI:10.1063/1.4889807 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Li, Mingxing;Wang, Hongfeng;He, Lei;Zang, Huidong;Xu, Hengxing;Hu, Bin;
2:29:12:2 Magnetophotocurrent effect in organic photovoltaic cells at low temperatures
DOI:10.1016/j.synthmet.2009.07.024 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Tajima, H.;Miyakawa, M.;Isozaki, H.;Yasui, M.;Suzuki, N.;Matsuda, M.;
2:29:12:3 Magnetophotoluminescence line-shape narrowing through interactions between excited states in organic semiconducting materials
DOI:10.1103/PhysRevB.89.155304 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: He, Lei;Li, Mingxing;Urbas, Augustine;Hu, Bin;
2:29:13:1 Organic light-emitting diodes with a spacer enhanced exciplex emission
DOI:10.1063/1.4871690 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Yan, Fei;Chen, Rui;Sun, Handong;Sun, Xiao Wei;
2:29:13:2 White organic light-emitting devices with tunable color emission fabricated utilizing exciplex formation at heterointerfaces including m-MDATA
DOI:10.1016/j.tsf.2011.01.171 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Lee, Kwang Seop;Choo, Dong Chul;Kim, Tae Whan;
2:29:13:3 The Electroluminescence Spectra of Light-Emitting Devices Based on Zinc Complexes of Amino-Substituted Ligands
DOI:10.1080/15421406.2013.871905 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kaplunov, M. G.;Krasnikova, S. S.;Nikitenko, S. L.;Yakushchenko, I. K.;
2:30:1 Paper Electronics
DOI:10.1002/adma.201004692 JN:ADVANCED MATERIALS PY:2011 TC:273 AU: Tobjork, Daniel;Osterbacka, Ronald;
2:30:2 Foldable Printed Circuit Boards on Paper Substrates
DOI:10.1002/adfm.200901363 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:205 AU: Siegel, Adam C.;Phillips, Scott T.;Dickey, Michael D.;Lu, Nanshu;Suo, Zhigang;Whitesides, George M.;
2:30:3 Pen-on-Paper Flexible Electronics
DOI:10.1002/adma.201101328 JN:ADVANCED MATERIALS PY:2011 TC:146 AU: Russo, Analisa;Ahn, Bok Yeop;Adams, Jacob J.;Duoss, Eric B.;Bernhard, Jennifer T.;Lewis, Jennifer A.;
2:30:4 Direct Monolithic Integration of Organic Photovoltaic Circuits on Unmodified Paper
DOI:10.1002/adma.201101263 JN:ADVANCED MATERIALS PY:2011 TC:83 AU: Barr, Miles C.;Rowehl, Jill A.;Lunt, Richard R.;Xu, Jingjing;Wang, Annie;Boyce, Christopher M.;Im, Sung Gap;Bulovic, Vladimir;Gleason, Karen K.;
2:30:5 Organic Electronics on Banknotes
DOI:10.1002/adma.201003374 JN:ADVANCED MATERIALS PY:2011 TC:72 AU: Zschieschang, Ute;Yamamoto, Tatsuya;Takimiya, Kazuo;Kuwabara, Hirokazu;Ikeda, Masaaki;Sekitani, Tsuyoshi;Someya, Takao;Klauk, Hagen;
2:30:6 Highly Transparent and Flexible Nanopaper Transistors
DOI:10.1021/nn304407r JN:ACS NANO PY:2013 TC:72 AU: Huang, Jia;Zhu, Hongli;Chen, Yuchen;Preston, Colin;Rohrbach, Kathleen;Cumings, John;Hu, Liangbing;
2:30:7 Paper-Based, Capacitive Touch Pads
DOI:10.1002/adma.201200137 JN:ADVANCED MATERIALS PY:2012 TC:50 AU: Mazzeo, Aaron D.;Kalb, William B.;Chan, Lawrence;Killian, Matthew G.;Bloch, Jean-Francis;Mazzeo, Brian A.;Whitesides, George M.;
2:30:8 Inkjet Printing of Conjugated Polymer Precursors on Paper Substrates for Colorimetric Sensing and Flexible Electrothermochromic Display
DOI:10.1002/adma.201103471 JN:ADVANCED MATERIALS PY:2011 TC:65 AU: Yoon, Bora;Ham, Dae-Young;Yarimaga, Oktay;An, Hyosung;Lee, Chan Woo;Kim, Jong-Man;
2:30:9 Printed Paper Photovoltaic Cells
DOI:10.1002/aenm.201100394 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:65 AU: Huebler, Arved;Trnovec, Bystrik;Zillger, Tino;Ali, Moazzam;Wetzold, Nora;Mingebach, Markus;Wagenpfahl, Alexander;Deibel, Carsten;Dyakonov, Vladimir;
2:30:10 Inkjet-Compatible Single-Component Polydiacetylene Precursors for Thermochromic Paper Sensors
DOI:10.1021/am303300g JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Yoon, Bora;Shin, Hyora;Kang, Eun-Mi;Cho, Dae Won;Shin, Kayeong;Chung, Hoeil;Lee, Chan Woo;Kim, Jong-Man;
2:30:11 Role of mesoporosity in cellulose fibers for paper-based fast electrochemical energy storage
DOI:10.1039/c3ta10972k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Chen, Xinyi;Zhu, Hongli;Liu, Chanyuan;Chen, Yu-Chen;Weadock, Nicholas;Rubloff, Gary;Hu, Liangbing;
2:30:12 Transparent Nanopaper-Based Flexible Organic Thin-Film Transistor Array
DOI:10.1002/adfm.201303024 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:21 AU: Fujisaki, Yoshihide;Koga, Hirotaka;Nakajima, Yoshiki;Nakata, Mitsuru;Tsuji, Hiroshi;Yamamoto, Toshihiro;Kurita, Taiichiro;Nogi, Masaya;Shimidzu, Naoki;
2:30:13 Direct Writing on Paper of Foldable Capacitive Touch Pads with Silver Nanowire Inks
DOI:10.1021/am506987w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:11 AU: Li, Ruo-Zhou;Hu, Anming;Zhang, Tong;Oakes, Ken D.;
2:30:14 Nanostructured paper for flexible energy and electronic devices
DOI:10.1557/mrs.2013.59 JN:MRS BULLETIN PY:2013 TC:35 AU: Zheng, Guangyuan;Cui, Yi;Karabulut, Erdem;Wagberg, Lars;Zhu, Hongli;Hu, Liangbing;
2:30:15 An inkjet-printable microemulsion system for colorimetric polydiacetylene supramolecules on paper substrates
DOI:10.1039/c2jm30301a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Yoon, Bora;Shin, Hyora;Yarimaga, Oktay;Ham, Dae-Young;Kim, Jiwan;Park, In Sung;Kim, Jong-Man;
2:30:16 Top-illuminated Organic Photovoltaics on a Variety of Opaque Substrates with Vapor-printed Poly(3,4-ethylenedioxythiophene) Top Electrodes and MoO3 Buffer Layer
DOI:10.1002/aenm.201200112 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:19 AU: Barr, Miles C.;Howden, Rachel M.;Lunt, Richard R.;Bulovic, Vladimir;Gleason, Karen K.;
2:30:17 Foldable Graphene Electronic Circuits Based on Paper Substrates
DOI:10.1002/adma.201302063 JN:ADVANCED MATERIALS PY:2013 TC:23 AU: Hyun, Woo Jin;Park, O. Ok;Chin, Byung Doo;
2:30:18 Low-voltage indium gallium zinc oxide thin film transistors on paper substrates
DOI:10.1063/1.3309753 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: Lim, Wantae;Douglas, E. A.;Norton, D. P.;Pearton, S. J.;Ren, F.;Heo, Young-Woo;Son, S. Y.;Yuh, J. H.;
2:30:19 Inkjet-printed silver nanoparticles on nano-engineered cellulose films for electrically conducting structures and organic transistors: concept and challenges
DOI:10.1007/s11051-012-1213-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:12 AU: Chinga-Carrasco, Gary;Tobjork, Daniel;Osterbacka, Ronald;
2:30:20 Heavily Doped poly(3,4-ethylenedioxythiophene) Thin Films with High Carrier Mobility Deposited Using Oxidative CVD: Conductivity Stability and Carrier Transport
DOI:10.1002/adfm.201401282 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Lee, Sunghwan;Paine, David C.;Gleason, Karen K.;
2:30:21 Paper-based batteries: A review
DOI:10.1016/j.bios.2013.11.007 JN:BIOSENSORS & BIOELECTRONICS PY:2014 TC:23 AU: Nguyen, Thu H.;Fraiwan, Arwa;Choi, Seokheun;
2:30:22 Highly transparent and writable wood all-cellulose hybrid nanostructured paper
DOI:10.1039/c3tc31331j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Fang, Zhiqiang;Zhu, Hongli;Preston, Colin;Han, Xiaogang;Li, Yuanyuan;Lee, Seongwoo;Chai, Xinsheng;Chen, Gang;Hu, Liangbing;
2:30:23 All-Printed Paper Memory
DOI:10.1021/nn501231z JN:ACS NANO PY:2014 TC:8 AU: Lien, Der-Hsien;Kao, Zhen-Kai;Huang, Teng-Han;Liao, Ying-Chih;Lee, Si-Chen;He, Jr-Hau;
2:30:24 Omniphobic "R-F Paper" Produced by Silanization of Paper with Fluoroalkyltrichlorosilanes
DOI:10.1002/adfm.201300780 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:21 AU: Glavan, Ana C.;Martinez, Ramses V.;Subramaniam, Anand Bala;Yoon, Hyo Jae;Nunes, Rui M. D.;Lange, Heiko;Thuo, Martin M.;Whitesides, George M.;
2:30:25 The Cellulose Nanofibers for Optoelectronic Conversion and Energy Storage
DOI:10.1155/2014/654512 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Luo, Yongfeng;Zhang, Jianxiong;Li, Xi;Liao, Chunrong;Li, Xianjun;
2:30:26 The influence of fibril composition and dimension on the performance of paper gated oxide transistors
DOI:10.1088/0957-4484/25/9/094007 JN:NANOTECHNOLOGY PY:2014 TC:9 AU: Pereira, L.;Gaspar, D.;Guerin, D.;Delattre, A.;Fortunato, E.;Martins, R.;
2:30:27 Assembling surface mounted components on ink-jet printed double sided paper circuit board
DOI:10.1088/0957-4484/25/9/094002 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Andersson, Henrik A.;Manuilskiy, Anatoliy;Haller, Stefan;Hummelgard, Magnus;Siden, Johan;Hummelgard, Christine;Olin, Hakan;Nilsson, Hans-Erik;
2:30:28 Nanotechnology in paper electronics
DOI:10.1088/0957-4484/25/9/090201 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Osterbacka, Ronald;Han, Jin-Woo;
2:30:29 An electrothermochromic paper display based on colorimetrically reversible polydiacetylenes
DOI:10.1088/0957-4484/25/9/094011 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Shin, Hyora;Yoon, Bora;Park, In Sung;Kim, Jong-Man;
2:30:30 Novel Nanostructured Paper with Ultrahigh Transparency and Ultrahigh Haze for Solar Cells
DOI:10.1021/nl404101p JN:NANO LETTERS PY:2014 TC:33 AU: Fang, Zhiqiang;Zhu, Hongli;Yuan, Yongbo;Ha, Dongheon;Zhu, Shuze;Preston, Colin;Chen, Qingxia;Li, Yuanyuan;Han, Xiaogang;Lee, Seongwoo;Chen, Gang;Li, Teng;Munday, Jeremy;Huang, Jinsong;Hu, Liangbing;
2:30:31 Paper-based electroanalytical devices for accessible diagnostic testing
DOI:10.1557/mrs.2013.56 JN:MRS BULLETIN PY:2013 TC:41 AU: Maxwell, E. Jane;Mazzeo, Aaron D.;Whitesides, George M.;
2:30:32 Aqueous Gating of van der Waals Materials on Bilayer Nanopaper
DOI:10.1021/nn504125b JN:ACS NANO PY:2014 TC:0 AU: Bao, Wenzhong;Fang, Zhiqiang;Wan, Jiayu;Dai, Jiaqi;Zhu, Hongli;Han, Xiaogang;Yang, Xiaofeng;Preston, Colin;Hu, Liangbing;
2:30:33 Recyclable, Flexible, Low-Power Oxide Electronics
DOI:10.1002/adfm.201202907 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:25 AU: Martins, Rodrigo F. P.;Ahnood, Arman;Correia, Nuno;Pereira, Luis M. N. P.;Barros, Raquel;Barquinha, Pedro M. C. B.;Costa, Ricardo;Ferreira, Isabel M. M.;Nathan, Arokia;Fortunato, Elvira E. M. C.;
2:30:34 Inkjet Printing of Conductive Inks with High Lateral Resolution on Omniphobic "R-F Paper" for Paper-Based Electronics and MEMS
DOI:10.1002/adma.201401053 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Lessing, Joshua;Glavan, Ana C.;Walker, S. Brett;Keplinger, Christoph;Lewis, Jennifer A.;Whitesides, George M.;
2:30:35 Synthesis and Self-Assembly of Large-Area Cu Nanosheets and Their Application as an Aqueous Conductive Ink on Flexible Electronics
DOI:10.1021/am404708z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Dang, Rui;Song, Lingling;Dong, Wenjun;Li, Chaorong;Zhang, Xiaobo;Wang, Ge;Chen, Xiaobo;
2:30:36 Electrical functionality of inkjet-printed silver nanoparticle conductive tracks on nanostructured paper compared with those on plastic substrates
DOI:10.1039/c3tc31220h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Thi Thi Nge;Nogi, Masaya;Suganuma, Katsuaki;
2:30:37 Paper as a novel material platform for devices
DOI:10.1557/mrs.2013.58 JN:MRS BULLETIN PY:2013 TC:19 AU: Rolland, Jason P.;Mourey, Devin A.;
2:30:38 High thermal stability of optical transparency in cellulose nanofiber paper
DOI:10.1063/1.4804361 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Nogi, Masaya;Kim, Changjae;Sugahara, Tohru;Inui, Tetsuji;Takahashi, Tsukasa;Suganuma, Katsuaki;
2:30:39 Electrowetting on Paper for Electronic Paper Display
DOI:10.1021/am100757g JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:31 AU: Kim, Duk Young;Steckl, Andrew J.;
2:30:40 Ultra-Low-Cost and Flexible Paper-Based Microplasma Generation Devices for Maskless Patterning of Poly(ethylene oxide)-like Films
DOI:10.1021/am502468q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Yang, Yao-Jhen;Tsai, Meng-Yu;Liang, Wei-Chieh;Chen, Hsien-Yeh;Hsu, Cheng-Che;
2:30:41 Effect of graphitic filler size and shape on the microstructure, electrical percolation behavior and thermal properties of nanostructured multilayered carbon films deposited onto paper substrates
DOI:10.1557/jmr.2013.343 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:2 AU: Muhlbauer, Rachel L.;Pruyn, Timothy L.;Puckett, Waylon T.;Gerhardt, Rosario A.;
2:30:42 Nanocrystalline cellulose applied simultaneously as the gate dielectric and the substrate in flexible field effect transistors
DOI:10.1088/0957-4484/25/9/094008 JN:NANOTECHNOLOGY PY:2014 TC:12 AU: Gaspar, D.;Fernandes, S. N.;de Oliveira, A. G.;Fernandes, J. G.;Grey, P.;Pontes, R. V.;Pereira, L.;Martins, R.;Godinho, M. H.;Fortunato, E.;
2:30:43 Printed Transistors on Paper: Towards Smart Consumer Product Packaging
DOI:10.1002/adfm.201400129 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Grau, Gerd;Kitsomboonloha, Rungrot;Swisher, Sarah L.;Kang, Hongki;Subramanian, Vivek;
2:30:44 Paper-Based Vapor Detection of Hydrogen Peroxide: Colorimetric Sensing with Tunable Interface
DOI:10.1021/am1012535 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:31 AU: Xu, Miao;Bunes, Benjamin R.;Zang, Ling;
2:30:45 Paper surfaces for metal nanoparticle inkjet printing
DOI:10.1016/j.apsusc.2012.07.112 JN:APPLIED SURFACE SCIENCE PY:2012 TC:16 AU: Ohlund, Thomas;Ortegren, Jonas;Forsberg, Sven;Nilsson, Hans-Erik;
2:30:46 Solid-state, flexible, high strength paper-based supercapacitors
DOI:10.1039/c3ta10827a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:16 AU: Zhang, Xiaodan;Lin, Ziyin;Chen, Bo;Sharma, Sudhir;Wong, Ching-ping;Zhang, Wei;Deng, Yulin;
2:30:47 Displays from Transparent Film of Natural Nanofibers
DOI:10.1557/mrs2010.654 JN:MRS BULLETIN PY:2010 TC:40 AU: Nakagaito, Antonio Norio;Nogi, Masaya;Yano, Hiroyuki;
2:30:48 Active Digital Microfl uidic Paper Chips with Inkjet- Printed Patterned Electrodes
DOI:10.1002/adma.201305014 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Ko, Hyojin;Lee, Jumi;Kim, Yongjun;Lee, Byeongno;Jung, Chan-Hee;Choi, Jae-Hak;Kwon, Oh-Sun;Shin, Kwanwoo;
2:30:49 Low-cost, quasi-solid-state and TCO-free highly bendable dye-sensitized cells on paper substrate
DOI:10.1039/c2jm32011h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Fan, Ke;Peng, Tianyou;Chen, Junnian;Zhang, Xiaohu;Li, Renjie;
2:30:50 Random laser emission from a paper-based device
DOI:10.1039/c3tc31860e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Viola, Ilenia;Ghofraniha, Neda;Zacheo, Antonella;Arima, Valentina;Conti, Claudio;Gigli, Giuseppe;
2:30:51 The effect of substrate pore size on the network interconnectivity and electrical properties of dropcasted multiwalled carbon nanotube thin films
DOI:10.1557/jmr.2013.143 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Muhlbauer, Rachel L.;Joshi, Salil M.;Gerhardt, Rosario A.;
2:30:52 Highly conductive paper fabricated with multiwalled carbon nanotubes and poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) by unidirectional drying
DOI:10.1007/s10853-011-5617-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:6 AU: Huang, Lianghui;Chen, Kefu;Peng, Chunqing;Gerhardt, Rosario A.;
2:30:53 Impact of humidity on functionality of on-paper printed electronics
DOI:10.1088/0957-4484/25/9/094003 JN:NANOTECHNOLOGY PY:2014 TC:3 AU: Bollstrom, Roger;Pettersson, Fredrik;Dolietis, Peter;Preston, Janet;Osterbacka, Ronald;Toivakka, Martti;
2:30:54 Electrical performance and reliability evaluation of inkjet-printed Ag interconnections on paper substrates
DOI:10.1016/j.matlet.2012.08.030 JN:MATERIALS LETTERS PY:2012 TC:12 AU: Xie, Li;Mantysalo, Matti;Cabezas, Ana Lopez;Feng, Yi;Jonsson, Fredrik;Zheng, Li-Rong;
2:30:55 Transfer writing of foldable graphene nanoplatelet patterns on paper substrates
DOI:10.1016/j.matlet.2013.09.043 JN:MATERIALS LETTERS PY:2013 TC:1 AU: Valentini, L.;Bon, S. Bittolo;Kenny, J. M.;
2:30:56 Papery solar cells based on dielectric/metal hybrid transparent cathode
DOI:10.1016/j.solmat.2010.03.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:18 AU: Wang, Fei;Chen, Zhijian;Xiao, Lixin;Qu, Bo;Gong, Qihuang;
2:30:57 Specific Colorimetric Detection of Proteins Using Bidentate Aptamer-Conjugated Polydiacetylene (PDA) Liposomes
DOI:10.1002/adfm.201001008 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:27 AU: Jung, Yun Kyung;Kim, Tae Won;Park, Hyun Gyu;Soh, H. Tom;
2:30:58 Synthesis and characterization of conductive silver ink for electrode printing on cellulose film
DOI:10.1007/s00339-012-7419-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:3 AU: Khondoker, Mohammad Abu Hasan;Mun, Seong Cheol;Kim, Jaehwan;
2:30:59 Design optimized membrane-based flexible paper accelerometer with silver nano ink
DOI:10.1063/1.4818734 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Zhang, Yuanfeng;Lei, Chupeng;Kim, Woo Soo;
2:30:60 Waterproof Active Paper via Laser Surface Micropatterning of Magnetic Nanoparticles
DOI:10.1021/am3011065 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:6 AU: Chitnis, G.;Ziaie, B.;
2:30:61 Small-size biofuel cell on paper
DOI:10.1016/j.bios.2012.02.035 JN:BIOSENSORS & BIOELECTRONICS PY:2012 TC:34 AU: Zhang, Lingling;Zhou, Ming;Wen, Dan;Bai, Lu;Lou, Baohua;Dong, Shaojun;
2:30:62 Carbon nanotube ink for writing on cellulose paper
DOI:10.1016/j.materresbull.2013.10.048 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:3 AU: Han, Jin-Woo;Kim, Beomseok;Li, Jing;Meyyappan, M.;
2:30:63 High brightness phosphorescent organic light emitting diodes on transparent and flexible cellulose films
DOI:10.1088/0957-4484/25/9/094012 JN:NANOTECHNOLOGY PY:2014 TC:8 AU: Purandare, Sumit;Gomez, Eliot F.;Steckl, Andrew J.;
2:30:64 Preparation of conductive Cu patterns by directly writing using nano-Cu ink
DOI:10.1016/j.matchemphys.2014.02.045 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:2 AU: Li, Wei;Li, Wenjiang;Wei, Jun;Tan, Junjun;Chen, Minfang;
2:30:65 Pentacene organic thin-film transistors on flexible paper and glass substrates
DOI:10.1088/0957-4484/25/9/094005 JN:NANOTECHNOLOGY PY:2014 TC:8 AU: Zocco, Adam T.;You, Han;Hagen, Joshua A.;Steckl, Andrew J.;
2:30:66 Dye sensitized solar cells on paper substrates
DOI:10.1016/j.solmat.2011.02.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:25 AU: Wang, Bo;Kerr, Lei L.;
2:30:67 Picture-to-picture switching in full-color thermochromic paper displays
DOI:10.1063/1.3656972 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Hennerdal, Lars-Olov;Berggren, Magnus;
2:30:68 A paper-based microbial fuel cell: Instant battery for disposable diagnostic devices
DOI:10.1016/j.bios.2013.06.001 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:17 AU: Fraiwan, Arwa;Mukherjee, Sayantika;Sundermier, Steven;Lee, Hyung-Sool;Choi, Seokheun;
2:30:69 Electrical conductivity of carbon-nanotube/cellulose composite paper
DOI:10.1063/1.3319675 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Tanaka, Tomo;Sano, Eiichi;Imai, Masanori;Akiyama, Kousuke;
2:30:70 Thermal Annealing Effects on the Characteristics of Transparent Semiconducting Zn2SnO4 Thin Films Prepared by RF-Magnetron Sputtering with Powder Target
DOI:10.1080/15421406.2013.853552 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Lee, Gyo Jung;Lee, Do Kyung;Sohn, Sang Ho;
2:30:71 Disposable chemical sensors and biosensors made on cellulose paper
DOI:10.1088/0957-4484/25/9/092001 JN:NANOTECHNOLOGY PY:2014 TC:9 AU: Kim, Joo-Hyung;Mun, Seongcheol;Ko, Hyun-U;Yun, Gyu-Young;Kim, Jaehwan;
2:30:72 Adaptive Fabrication of a Flexible Electrode by Optically Self-Selected Interfacial Adhesion and Its Application to Highly Transparent and Conductive Film
DOI:10.1002/smll.201201485 JN:SMALL PY:2013 TC:4 AU: Kang, Bongchul;Yun, Jinho;Kim, Sung-Gaun;Yang, Minyang;
2:30:73 Printed hydrogen sulfide gas sensor on paper substrate based on polyaniline composite
DOI:10.1016/j.tsf.2013.02.055 JN:THIN SOLID FILMS PY:2013 TC:9 AU: Sarfraz, J.;Ihalainen, P.;Maattanen, A.;Peltonen, J.;Linden, M.;
2:30:74 Fabrication and characterization of superhydrophobic high opacity paper with titanium dioxide nanoparticles
DOI:10.1007/s10853-010-5112-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:10 AU: Huang, Lianghui;Chen, Kefu;Lin, Chunxiang;Yang, Rendang;Gerhardt, Rosario A.;
2:30:75 Characteristics of Facing Target-Sputtered Amorphous InGaZnO Thin Films as the Active Channel Layer in Transparent Thin Film Transistor on Polymeric Substrate
DOI:10.1080/15421406.2011.600180 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:1 AU: Shin, Han Jae;Han, Dong Cheul;Choi, Young Cheol;Lee, Do Kyung;
2:30:76 Role of Ga2O3-In2O3-ZnO channel composition on the electrical performance of thin-film transistors
DOI:10.1016/j.matchemphys.2011.10.013 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:12 AU: Olziersky, A.;Barquinha, P.;Vila, A.;Magana, C.;Fortunato, E.;Morante, J. R.;Martins, R.;
2:30:77 Full-Range Magnetic Manipulation of Droplets via Surface Energy Traps Enables Complex Bioassays
DOI:10.1002/adma.201300383 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Zhang, Yi;Wang, Tza-Huei;
2:30:78 Effect of calendering on paper surface properties
DOI:10.1016/j.apsusc.2010.05.004 JN:APPLIED SURFACE SCIENCE PY:2010 TC:2 AU: Vernhes, P.;Dube, M.;Bloch, J-F.;
2:30:79 Flexible substrate and release layer for flexible MEMS devices
DOI:10.1116/1.4816938 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:0 AU: Ahmed, Moinuddin;Butler, Donald P.;
2:30:80 Pulsed-radio frequency plasma enhanced chemical vapour deposition of low temperature silicon nitride for thin film transistors
DOI:10.1016/j.tsf.2012.03.010 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Ahnood, Arman;Suzuki, Yuji;Madan, Arun;Nathan, Arokia;
2:31:1 Electrolyte-Gated Transistors for Organic and Printed Electronics
DOI:10.1002/adma.201202790 JN:ADVANCED MATERIALS PY:2013 TC:104 AU: Kim, Se Hyun;Hong, Kihyon;Xie, Wei;Lee, Keun Hyung;Zhang, Sipei;Lodge, Timothy P.;Frisbie, C. Daniel;
2:31:2 Periodic Array of Polyelectrolyte-Gated Organic Transistors from Electrospun Poly(3-hexylthiophene) Nanofibers
DOI:10.1021/nl903722z JN:NANO LETTERS PY:2010 TC:82 AU: Lee, Sung W.;Lee, Hyun J.;Choi, Ji H.;Koh, Won G.;Myoung, Jae M.;Hur, Jae H.;Park, Jong J.;Cho, Jeong H.;Jeong, Unyong;
2:31:3 Printed, sub-2V ZnO Electrolyte Gated Transistors and Inverters on Plastic
DOI:10.1002/adma.201300211 JN:ADVANCED MATERIALS PY:2013 TC:33 AU: Hong, Kihyon;Kim, Se Hyun;Lee, Keun Hyung;Frisbie, C. Daniel;
2:31:4 Printed Sub-2 V Gel-Electrolyte-Gated Polymer Transistors and Circuits
DOI:10.1002/adfm.200901845 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:68 AU: Xia, Yu;Zhang, Wei;Ha, Mingjing;Cho, Jeong Ho;Renn, Michael J.;Kim, Chris H.;Frisbie, C. Daniel;
2:31:5 Low-Voltage Ring Oscillators Based on Polyelectrolyte-Gated Polymer Thin-Film Transistors
DOI:10.1002/adma.200901850 JN:ADVANCED MATERIALS PY:2010 TC:48 AU: Herlogsson, Lars;Coelle, Michael;Tierney, Steven;Crispin, Xavier;Berggren, Magnus;
2:31:6 Ambipolar Organic Single-Crystal Transistors Based on Ion Gels
DOI:10.1002/adma.201200655 JN:ADVANCED MATERIALS PY:2012 TC:30 AU: Yomogida, Yohei;Pu, Jiang;Shimotani, Hidekazu;Ono, Shimpei;Hotta, Shu;Iwasa, Yoshihiro;Takenobu, Taishi;
2:31:7 "Cut and Stick" Rubbery Ion Gels as High Capacitance Gate Dielectrics
DOI:10.1002/adma.201200950 JN:ADVANCED MATERIALS PY:2012 TC:55 AU: Lee, Keun Hyung;Kang, Moon Sung;Zhang, Sipei;Gu, Yuanyan;Lodge, Timothy P.;Frisbie, C. Daniel;
2:31:8 Utilizing Carbon Nanotube Electrodes to Improve Charge Injection and Transport in Bis(trifluoromethyl)-dimethyl-rubrene Ambipolar Single Crystal Transistors
DOI:10.1021/nn4045694 JN:ACS NANO PY:2013 TC:8 AU: Xie, Wei;Prabhumirashi, Pradyumna L.;Nakayama, Yasuo;McGarry, Kathryn A.;Geier, Michael L.;Uragami, Yuki;Mase, Kazuhiko;Douglas, Christopher J.;Ishii, Hisao;Hersam, Mark C.;Frisbie, C. Daniel;
2:31:9 Inkjet Printed, High Mobility Inorganic-Oxide Field Effect Transistors Processed at Room Temperature
DOI:10.1021/nn202992v JN:ACS NANO PY:2011 TC:30 AU: Dasgupta, Subho;Kruk, Robert;Mechau, Norman;Hahn, Horst;
2:31:10 Printed and Electrochemically Gated, High-Mobility, Inorganic Oxide Nanoparticle FETs and Their Suitability for High-Frequency Applications
DOI:10.1002/adfm.201200951 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:19 AU: Dasgupta, Subho;Stoesser, Ganna;Schweikert, Nina;Hahn, Ramona;Dehm, Simone;Kruk, Robert;Hahn, Horst;
2:31:11 Cellulose-Based Ionogels for Paper Electronics
DOI:10.1002/adfm.201302026 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:14 AU: Thiemann, Stefan;Sachnov, Swetlana J.;Pettersson, Fredrik;Bollstrom, Roger;Osterbacka, Ronald;Wasserscheid, Peter;Zaumseil, Jana;
2:31:12 Electrostatic and Electrochemical Nature of Liquid-Gated Electric-Double-Layer Transistors Based on Oxide Semiconductors
DOI:10.1021/ja108912x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:41 AU: Yuan, Hongtao;Shimotani, Hidekazu;Ye, Jianting;Yoon, Sungjae;Aliah, Hasniah;Tsukazaki, Atsushi;Kawasaki, Masashi;Iwasa, Yoshihiro;
2:31:13 Aerosol Jet Printed p- and n-type Electrolyte-Gated Transistors with a Variety of Electrode Materials: Exploring Practical Routes to Printed Electronics
DOI:10.1021/am504171u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Hong, Kihyon;Kim, Se Hyun;Mahajan, Ankit;Frisbie, C. Daniel;
2:31:14 High Capacitance, Photo-Patternable Ion Gel Gate Insulators Compatible with Vapor Deposition of Metal Gate Electrodes
DOI:10.1021/am505298q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Choi, Jae-Hong;Gu, Yuanyan;Hong, Kihyon;Xie, Wei;Frisbie, C. Daniel;Lodge, Timothy P.;
2:31:15 Hydrogenation-Induced Surface Polarity Recognition and Proton Memory Behavior at Protic-Ionic-Liquid/Oxide Electric-Double-Layer Interfaces
DOI:10.1021/ja909110s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:38 AU: Yuan, Hongtao;Shimotani, Hidekazu;Tsukazaki, Atsushi;Ohtomo, Akira;Kawasaki, Masashi;Iwasa, Yoshihiro;
2:31:16 Aerosol Jet Printed, Sub-2 V Complementary Circuits Constructed from P- and N-Type Electrolyte Gated Transistors
DOI:10.1002/adma.201401330 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Hong, Kihyon;Kim, Yong Hyun;Kim, Se Hyun;Xie, Wei;Xu, Weichao David;Kim, Chris H.;Frisbie, C. Daniel;
2:31:17 High-Speed, Low-Voltage, and Environmentally Stable Operation of Electrochemically Gated Zinc Oxide Nanowire Field-Effect Transistors
DOI:10.1002/adfm.201202500 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:22 AU: Nasr, Babak;Wang, Di;Kruk, Robert;Roesner, Harald;Hahn, Horst;Dasgupta, Subho;
2:31:18 Temperature-Independent Transport in High-Mobility Dinaphtho-Thieno-Thiophene (DNTT) Single Crystal Transistors
DOI:10.1002/adma.201300886 JN:ADVANCED MATERIALS PY:2013 TC:18 AU: Xie, Wei;Willa, Kristin;Wu, Yanfei;Haeusermann, Roger;Takimiya, Kazuo;Batlogg, Bertram;Frisbie, C. Daniel;
2:31:19 High-Mobility ZnO Nanorod Field-Effect Transistors by Self-Alignment and Electrolyte-Gating
DOI:10.1021/am3026739 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:15 AU: Thiemann, Stefan;Gruber, Mathias;Lokteva, Irina;Hirschmann, Johannes;Halik, Marcus;Zaumseil, Jana;
2:31:20 Polyelectrolyte-Gated Organic Complementary Circuits Operating at Low Power and Voltage
DOI:10.1002/adma.201101757 JN:ADVANCED MATERIALS PY:2011 TC:21 AU: Herlogsson, Lars;Crispin, Xavier;Tierney, Steve;Berggren, Magnus;
2:31:21 Performance and Stability of Aerosol-Jet-Printed Electrolyte-Gated Transistors Based on Poly(3-hexylthiophene)
DOI:10.1021/am401200y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:18 AU: Kim, Se Hyun;Hong, Kihyon;Lee, Keun Hyung;Frisbie, C. Daniel;
2:31:22 High-performance n-type organic field-effect transistors with ionic liquid gates
DOI:10.1063/1.3493190 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Ono, S.;Minder, N.;Chen, Z.;Facchetti, A.;Morpurgo, A. F.;
2:31:23 Simplified Large-Area Manufacturing of Organic Electrochemical Transistors Combining Printing and a Self-Aligning Laser Ablation Step
DOI:10.1002/adfm.201102827 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:11 AU: Blaudeck, Thomas;Ersman, Peter Andersson;Sandberg, Mats;Heinz, Sebastian;Laiho, Ari;Liu, Jiang;Engquist, Isak;Berggren, Magnus;Baumann, Reinhard R.;
2:31:24 Optimization of Aerosol Jet Printing for High-Resolution, High-Aspect Ratio Silver Lines
DOI:10.1021/am400606y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:17 AU: Mahajan, Ankit;Frisbie, C. Daniel;Francis, Lorraine F.;
2:31:25 Spray-coatable ionogels based on silane-ionic liquids for low voltage, flexible, electrolyte-gated organic transistors
DOI:10.1039/c3tc32465f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Thiemann, S.;Sachnov, S. J.;Gruber, M.;Gannott, F.;Spallek, S.;Schweiger, M.;Krueckel, J.;Kaschta, J.;Spiecker, E.;Wasserscheid, P.;Zaumseil, J.;
2:31:26 Low voltage electrolyte-gated organic transistors making use of high surface area activated carbon gate electrodes
DOI:10.1039/c4tc00864b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Sayago, J.;Soavi, F.;Sivalingam, Y.;Cicoira, F.;Santato, C.;
2:31:27 Ultralow contact resistance in electrolyte-gated organic thin film transistors
DOI:10.1063/1.3518075 JN:APPLIED PHYSICS LETTERS PY:2010 TC:18 AU: Braga, Daniele;Ha, Mingjing;Xie, Wei;Frisbie, C. Daniel;
2:31:28 Aerosol-Jet-Printed, 1 Volt H-Bridge Drive Circuit on Plastic with Integrated Electrochromic Pixel
DOI:10.1021/am404204q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Ha, Mingjing;Zhang, Wei;Braga, Daniele;Renn, Michael J.;Kim, Chris H.;Frisbie, C. Daniel;
2:31:29 Proton conducting zeolite films for low-voltage oxide-based electric-double-layer thin-film transistors and logic gates
DOI:10.1039/c3tc31236d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Wu, Guodong;Zhang, Hongliang;Zhou, Jumei;Huang, Aisheng;Wan, Qing;
2:31:30 Carrier Localization on Surfaces of Organic Semiconductors Gated with Electrolytes
DOI:10.1103/PhysRevLett.105.036802 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:18 AU: Xia, Yu;Xie, Wei;Ruden, P. Paul;Frisbie, C. Daniel;
2:31:31 Electroluminescence in Ion-Gel Gated Conjugated Polymer Field-Effect Transistors
DOI:10.1021/cm301610w JN:CHEMISTRY OF MATERIALS PY:2012 TC:16 AU: Bhat, Shrivalli N.;Di Pietro, Riccardo;Sirringhaus, Henning;
2:31:32 Solution-Processable Electrochemiluminescent Ion Gels for Flexible, Low-Voltage, Emissive Displays on Plastic
DOI:10.1021/ja5002899 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:8 AU: Moon, Hong Chul;Lodge, Timothy P.;Frisbie, C. Daniel;
2:31:33 Random network transistor arrays of embedded ZnO nanorods in ion-gel gate dielectric
DOI:10.1039/c0jm01313g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Choi, Ji-Hyuk;Lee, Sung Won;Kar, Jyoti Prakash;Das, Sachindra Nath;Jeon, Joohee;Moon, Kyeong-Ju;Il Lee, Tae;Jeong, Unyong;Myoung, Jae-Min;
2:31:34 High-Transconductance Organic Thin-Film Electrochemical Transistors for Driving Low-Voltage Red-Green-Blue Active Matrix Organic Light-Emitting Devices
DOI:10.1002/adfm.201102075 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:25 AU: Braga, Daniele;Erickson, Nicholas C.;Renn, Michael J.;Holmes, Russell J.;Frisbie, C. Daniel;
2:31:35 Effect of Gate Electrode Work-Function on Source Charge Injection in Electrolyte-Gated Organic Field-Effect Transistors
DOI:10.1002/adfm.201302070 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:11 AU: Fabiano, Simone;Braun, Slawomir;Fahlman, Mats;Crispin, Xavier;Berggren, Magnus;
2:31:36 Dynamic Electrical Characteristics of Low-Power Ring Oscillators Constructed with Inorganic Nanoparticles on Flexible Plastics
DOI:10.1021/am301483u JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:4 AU: Yun, Junggwon;Cho, Kyoungah;Kim, Sangsig;
2:31:37 DC-Driven, Sub-2 V Solid-State Electrochemiluminescent Devices by Incorporating Redox Coreactants into Emissive Ion Gels
DOI:10.1021/cm502491n JN:CHEMISTRY OF MATERIALS PY:2014 TC:3 AU: Moon, Hong Chul;Lodge, Timothy P.;Frisbie, C. Daniel;
2:31:38 TransCap: a monolithically integrated supercapacitor and electrolyte-gated transistor
DOI:10.1039/c4tc02119c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Sayago, J.;Shafique, U.;Soavi, F.;Cicoira, F.;Santato, C.;
2:31:39 Electric double layers allow for opaque electrodes in high performance organic optoelectronic devices
DOI:10.1063/1.4762823 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Li, Bo;Dalgleish, Simon;Miyoshi, Yasuhito;Yoshikawa, Hirofumi;Matsushita, Michio M.;Awaga, Kunio;
2:31:40 Electrolyte-Gated, High Mobility Inorganic Oxide Transistors from Printed Metal Halides
DOI:10.1021/am403131j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Garlapati, Suresh Kumar;Mishra, Nilesha;Dehm, Simone;Hahn, Ramona;Kruk, Robert;Hahn, Horst;Dasgupta, Subho;
2:31:41 Aerodynamically Focused Nanoparticle (AFN) Printing: Novel Direct Printing Technique of Solvent-Free and Inorganic Nanoparticles
DOI:10.1021/am504304g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Lee, Gil-Yong;Park, Jae-Il;Kim, Chung-Soo;Yoon, Hae-Sung;Yang, Jinkyu;Ahn, Sung-Hoon;
2:31:42 Electrolyte gated single-crystal organic transistors to examine transport in the high carrier density regime
DOI:10.1557/mrs.2012.310 JN:MRS BULLETIN PY:2013 TC:10 AU: Xie, Wei;Frisbie, C. Daniel;
2:31:43 Effect of the Ionic Conductivity on the Performance of Polyelectrolyte-Based Supercapacitors
DOI:10.1002/adfm.201001096 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:18 AU: Wee, Grace;Larsson, Oscar;Srinivasan, Madhavi;Berggren, Magnus;Crispin, Xavier;Mhaisalkar, Subodh;
2:31:44 Transfer Printing of Thermoreversible Ion Gels for Flexible Electronics
DOI:10.1021/am402200n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Lee, Keun Hyung;Zhang, Sipei;Gu, Yuanyan;Lodge, Timothy P.;Frisbie, C. Daniel;
2:31:45 Ion Dependence of Gate Dielectric Behavior of Alkali Metal Ion-Incorporated Aluminas in Oxide Field-Effect Transistors
DOI:10.1021/cm4012537 JN:CHEMISTRY OF MATERIALS PY:2013 TC:10 AU: Liu, Yu;Guan, Pengfei;Zhang, Bo;Falk, Michael L.;Katz, Howard E.;
2:31:46 Temperature tolerance study of high performance electrochemically gated SnO2 nanowire field-effect transistors
DOI:10.1039/c3tc00061c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Nasr, Babak;Zhao-Karger, Zhirong;Wang, Di;Kruk, Robert;Hahn, Horst;Dasgupta, Subho;
2:31:47 Direct Imaging of Nanoscale Conductance Evolution in Ion-Gel-Gated Oxide Transistors
DOI:10.1021/acs.nanolett.5b01631 JN:NANO LETTERS PY:2015 TC:0 AU: Ren, Yuan;Yuan, Hongtao;Wu, Xiaoyu;Chen, Zhuoyu;Iwasa, Yoshihiro;Cui, Yi;Hwang, Harold Y.;Lai, Keji;
2:31:48 Charge Density Dependent Two-Channel Conduction in Organic Electric Double Layer Transistors ( EDLTs)
DOI:10.1002/adma.201304946 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Xie, Wei;Liu, Feilong;Shi, Sha;Ruden, P. Paul;Frisbie, C. Daniel;
2:31:49 Organic complementary oscillators with stage-delays below 1 mu s
DOI:10.1063/1.3373630 JN:APPLIED PHYSICS LETTERS PY:2010 TC:16 AU: Bode, Dieter;Myny, Kris;Verreet, Bregt;van der Putten, Bas;Bakalov, Petar;Steudel, Soeren;Smout, Steve;Vicca, Peter;Genoe, Jan;Heremans, Paul;
2:31:50 Proton conducting sodium alginate electrolyte laterally coupled low-voltage oxide-based transistors
DOI:10.1063/1.4870078 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Liu, Yang Hui;Zhu, Li Qiang;Shi, Yi;Wan, Qing;
2:31:51 High performance foldable polymer thin film transistors with a side gate architecture
DOI:10.1039/c1jm13079j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Lee, Sung Won;Kim, Bong Soo;Park, Jong Jin;Hur, Jae Hyun;Kim, Jong Min;Sekitani, Tsuyoshi;Someya, Takao;Jeong, Unyong;
2:31:52 Highly efficient organic optoelectronic conversion induced by electric double layers in ionic liquids
DOI:10.1063/1.3697988 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Li, Bo;Noda, Yukiko;Hu, Laigui;Yoshikawa, Hirofumi;Matsushita, Michio M.;Awaga, Kunio;
2:31:53 Coupling of channel conductance and gate-to-channel capacitance in electric double layer transistors
DOI:10.1063/1.4829139 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Liu, Feilong;Xie, Wei;Shi, Sha;Frisbie, C. Daniel;Ruden, P. Paul;
2:31:54 Lateral protonic/electronic hybrid oxide thin-film transistor gated by SiO2 nanogranular films
DOI:10.1063/1.4904967 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhu, Li Qiang;Chao, Jin Yu;Xiao, Hui;
2:31:55 Redox-Gated Three-Terminal Organic Memory Devices: Effect of Composition and Environment on Performance
DOI:10.1021/am4032828 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Das, Bikas C.;Pillai, Rajesh G.;Wu, Yiliang;McCreery, Richard L.;
2:31:56 Spatially Resolved Raman Spectroelectrochemistry of Solid-State Polythiophene/Viologen Memory Devices
DOI:10.1021/ja304458s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:15 AU: Kumar, Rajesh;Pillai, Rajesh G.;Pekas, Nikola;Wu, Yiliang;McCreery, Richard L.;
2:31:57 Examination of Au, Cu, and Al contacts in organic field-effect transistors via displacement current measurements
DOI:10.1063/1.3638706 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Liang, Yan;Chang, Hsiu-Chuang;Ruden, P. Paul;Frisbie, C. Daniel;
2:31:58 The Effects of Moisture in Low-Voltage Organic Field-Effect Transistors Gated with a Hydrous Solid Electrolyte
DOI:10.1002/adfm.201000586 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:16 AU: Kaihovirta, Nikolai;Aarnio, Harri;Wikman, Carl-Johan;Wilen, Carl-Eric;Osterbacka, Ronald;
2:31:59 Ultra-low voltage air-stable polyelectrolyte gated n-type organic thin film transistors
DOI:10.1063/1.3626587 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Malti, Abdellah;Gabrielsson, Erik O.;Berggren, Magnus;Crispin, Xavier;
2:31:60 In-plane-gate indium-tin-oxide thin-film transistors self-assembled on paper substrates
DOI:10.1063/1.3567946 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Jiang, Jie;Sun, Jia;Dou, Wei;Zhou, Bin;Wan, Qing;
2:31:61 Electrochemically gated organic photovoltaic with tunable carbon nanotube cathodes
DOI:10.1063/1.4826145 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Cook, Alexander B.;Yuen, Jonathan D.;Zakhidov, Anvar;
2:31:62 Low-voltage transparent SnO2 nanowire transistors gated by microporous SiO2 solid-electrolyte with improved polarization response
DOI:10.1039/c0jm01233e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Sun, Jia;Liu, Huixuan;Jiang, Jie;Lu, Aixia;Wan, Qing;
2:31:63 Nonvolatile RRAM Cells from Polymeric Composites Embedding Recycled SiC Powders
DOI:10.1021/la503060v JN:LANGMUIR PY:2014 TC:1 AU: Del Mauro, Anna De Girolamo;Nenna, Giuseppe;Miscioscia, Riccardo;Freda, Cesare;Portofino, Sabrina;Galvagno, Sergio;Minarini, Carla;
2:31:64 Vertical polyelectrolyte-gated organic field-effect transistors
DOI:10.1063/1.3488000 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Liu, J.;Herlogsson, L.;Sawatdee, A.;Favia, P.;Sandberg, M.;Crispin, X.;Engquist, I.;Berggren, M.;
2:31:65 Electric double layer transistors with ferroelectric BaTiO3 channels
DOI:10.1063/1.4881059 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Ito, M.;Matsubara, Y.;Kozuka, Y.;Takahashi, K. S.;Kagawa, F.;Ye, J. T.;Iwasa, Y.;Ueno, K.;Tokura, Y.;Kawasaki, M.;
2:31:66 Nanogranular Al2O3 proton conducting films for low-voltage oxide-based homojunction thin-film transistors
DOI:10.1039/c3tc30137k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Zhang, Hongliang;Guo, Liqiang;Wan, Qing;
2:31:67 Reduction and transition in thermal activation for charge transport through electrolyte-gated polythiophene thin films with high hole densities
DOI:10.1063/1.4826276 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Lee, Jiyoul;Cho, Boeun;Chung, Jong Won;Kang, Moon Sung;
2:31:68 Water-Soluble Fluorinated and PEGylated Cyanostilbene Derivative: An Amphiphilic Building Block Forming Self-Assembled Organic Nanorods with Enhanced Fluorescence Emission
DOI:10.1021/cm400988a JN:CHEMISTRY OF MATERIALS PY:2013 TC:15 AU: Shin, Seunghoon;Gihm, Se Hoon;Park, Chong Rae;Kim, Sehoon;Park, Soo Young;
2:31:69 Electrostatic modification of oxide semiconductors by electric double layers of microporous SiO2-based solid electrolyte
DOI:10.1063/1.3553869 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Jiang, Jie;Dai, Minzhi;Sun, Jia;Zhou, Bin;Lu, Aixia;Wan, Qing;
2:31:70 Electrically conductive silicon carbide with the addition of Ti-NbC
DOI:10.1016/j.jeurceramsoc.2012.02.049 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:6 AU: Frajkorova, Frantiska;Hnatko, Miroslav;Lences, Zoltan;Sajgalik, Pavol;
2:31:71 Self-regulating pseudo-monolayer printing of percolating networks of ZnO nanostructures for macroelectronics
DOI:10.1039/c0jm02817g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:1 AU: Choi, Ji-Hyuk;Kar, Jyoti P.;Das, Sachindra N.;Lee, Tae Il;Khang, Dahl-Young;Myoung, Jae-Min;
2:31:72 Characterization and field-effect transistor performance of printed pentacene films prepared by photoconversion of a soluble precursor
DOI:10.1039/c3tc31083c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Nakayama, Ken-ichi;Ohashi, Chika;Oikawa, Yoshisato;Motoyama, Takao;Yamada, Hiroko;
2:31:73 Solubility of Poly(methyl methacrylate) in Ionic Liquids in Relation to Solvent Parameters
DOI:10.1021/la404797g JN:LANGMUIR PY:2014 TC:6 AU: Ueno, Kazuhide;Fukai, Toshimichi;Nagatsuka, Tomomi;Yasuda, Tomohiro;Watanabe, Masayoshi;
2:31:74 Thin-film transistors based on poly, (3,3 '''-dialkyl-quarterthiophene) and zinc oxide nanowires with improved ambient stability
DOI:10.1063/1.3560982 JN:APPLIED PHYSICS LETTERS PY:2011 TC:1 AU: Vieira, Sara M. C.;Hsieh, Gen-Wen;Unalan, Husnu E.;Dag, Sefa;Amaratunga, Gehan A. J.;Milne, William I.;
2:31:75 Remanent polarization in a cryptand-polyanion bilayer implemented in an organic field effect transistor
DOI:10.1063/1.3677663 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Wang, Xiaodong;Laiho, Ari;Berggren, Magnus;Crispin, Xavier;
2:31:76 A novel synthesis route to Sn1-xRExO2-x/2 nanorods via microwave-induced salt-assisted solution combustion process
DOI:10.1016/j.ceramint.2013.03.006 JN:CERAMICS INTERNATIONAL PY:2013 TC:1 AU: Chen, Weifan;Liu, Ming;Lin, Yucui;Liu, Yue;Yu, Lixing;Li, Ting;Hong, Jianming;
2:31:77 Ultrafast materials science and 4D imaging with atomic resolution both in space and time
DOI:10.1557/mrs.2011.14 JN:MRS BULLETIN PY:2011 TC:1 AU: Ziegler, Alexander;
2:32:1 Thin sputter deposited gold films on In2O3:Sn, SnO2:In, TiO2 and glass: Optical, electrical and structural effects
DOI:10.1016/j.solmat.2013.06.051 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Lansaker, P. C.;Petersson, P.;Niklasson, G. A.;Granqvist, C. G.;
2:32:2 TCO/metal/TCO structures for energy and flexible electronics
DOI:10.1016/j.tsf.2011.06.091 JN:THIN SOLID FILMS PY:2011 TC:98 AU: Guillen, C.;Herrero, J.;
2:32:3 Dielectric/metal/dielectric structures using copper as metal and MoO3 as dielectric for use as transparent electrode
DOI:10.1016/j.tsf.2012.06.056 JN:THIN SOLID FILMS PY:2012 TC:14 AU: Lopez, I. Perez;Cattin, L.;Nguyen, D-T.;Morsli, M.;Bernede, J. C.;
2:32:4 Investigation of low resistance transparent MoO3/Ag/MoO3 multilayer and application as anode in organic solar cells
DOI:10.1016/j.tsf.2009.12.031 JN:THIN SOLID FILMS PY:2010 TC:49 AU: Cattin, L.;Morsli, M.;Dahou, F.;Abe, S. Yapi;Khelil, A.;Bernede, J. C.;
2:32:5 MoO3/Au/MoO3-PEDOT:PSS multilayer electrodes for ITO-free organic solar cells
DOI:10.1016/j.mssp.2014.06.034 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:0 AU: Maniruzzaman, Md;Rahman, Mohammad Arifur;Jeong, Kyunghoon;Lee, Jaegab;
2:32:6 Effect of the Ag deposition rate on the properties of conductive transparent MoO3/Ag/MoO3 multilayers
DOI:10.1016/j.solmat.2013.05.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Cattin, L.;Lare, Y.;Makha, M.;Fleury, M.;Chandezon, F.;Abachi, T.;Morsli, M.;Napo, K.;Addou, M.;Bernede, J. C.;
2:32:7 Indium tin oxide-free transparent and conductive electrode based on SnOx vertical bar Ag vertical bar SnOx for organic solar cells
DOI:10.1063/1.4886225 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Bou, A.;Torchio, Ph;Barakel, D.;Thierry, F.;Sangar, A.;Thoulon, P. -Y.;Ricci, M.;
2:32:8 Flexible inverted polymer solar cells with an indium-free tri-layer cathode
DOI:10.1063/1.4861171 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: El Hajj, Ahmad;Kraft, Thomas M.;Lucas, Bruno;Schirr-Bonnans, Martin;Ratier, Bernard;Torchio, Philippe;
2:32:9 Comparison of electrical, optical, structural, and interface properties of IZO-Ag-IZO and IZO-Au-IZO multilayer electrodes for organic photovoltaics
DOI:10.1063/1.3294605 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:38 AU: Jeong, Jin-A;Park, Yong-Seok;Kim, Han-Ki;
2:32:10 Effect of the thickness of the MoO3 layers on optical properties of MoO3/Ag/MoO3 multilayer structures
DOI:10.1063/1.4751334 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:17 AU: Nguyen, D-T.;Vedraine, S.;Cattin, L.;Torchio, P.;Morsli, M.;Flory, F.;Bernede, J. C.;
2:32:11 Cu-based multilayer transparent electrodes: A low-cost alternative to ITO electrodes in organic solar cells
DOI:10.1016/j.solmat.2012.01.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:31 AU: Lim, Sooyeon;Han, Donggeon;Kim, Hoyeon;Lee, Soohyun;Yoo, Seunghyup;
2:32:12 Comparison of ITO/metal/ITO and ZnO/metal/ZnO characteristics as transparent electrodes for third generation solar cells
DOI:10.1016/j.solmat.2012.01.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:33 AU: Girtan, Mihaela;
2:32:13 Semi-transparent metal electrode of Cu-Ni as a replacement of an ITO in organic photovoltaic cells
DOI:10.1016/j.solmat.2010.12.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:30 AU: Ghosh, D. S.;Betancur, R.;Chen, T. L.;Pruneri, V.;Martorell, Jordi;
2:32:14 Numerical optimization of multilayer electrodes without indium for use in organic solar cells
DOI:10.1016/j.solmat2013.12.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Bou, Adrien;Torchio, Philippe;Vedraine, Sylvain;Barakel, Damien;Lucas, Bruno;Bernede, Jean-Christian;Thoulon, Pierre-Yves;Ricci, Marc;
2:32:15 ITO/Au/ITO Sandwich Structure for Near-Infrared Plasmonics
DOI:10.1021/am5026165 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Fang, Xu;Mak, Chee Leung;Dai, Jiyan;Li, Kan;Ye, Hui;Leung, Chi Wah;
2:32:16 Introduction of Ag nanoparticles and AZO layer to prepare AZO/Ag/FTO trilayer films with high overall photoelectric properties
DOI:10.1016/j.ceramint.2014.01.087 JN:CERAMICS INTERNATIONAL PY:2014 TC:11 AU: Ren, Nai-fei;Huang, Li-jing;Zhou, Ming;Li, Bao-jia;
2:32:17 Optimization of ZnO:Al/Ag/ZnO:Al structures for ultra-thin high-performance transparent conductive electrodes
DOI:10.1016/j.tsf.2012.02.080 JN:THIN SOLID FILMS PY:2012 TC:32 AU: Crupi, I.;Boscarino, S.;Strano, V.;Mirabella, S.;Simone, F.;Terrasi, A.;
2:32:18 Transparent conductive and near-infrared reflective Cu-based Al-doped ZnO multilayer films grown by magnetron sputtering at room temperature
DOI:10.1016/j.apsusc.2011.01.068 JN:APPLIED SURFACE SCIENCE PY:2011 TC:34 AU: Wang, Y. P.;Lu, J. G.;Bie, X.;Ye, Z. Z.;Li, X.;Song, D.;Zhao, X. Y.;Ye, W. Y.;
2:32:19 Titanium dioxide-coated fluorine-doped tin oxide thin films for improving overall photoelectric property
DOI:10.1016/j.apsusc.2013.11.001 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Li, Bao-jia;Huang, Li-jing;Ren, Nai-fei;Zhou, Ming;
2:32:20 ITO free MoO3/Au/MoO3 structures using Al2O3 as protective barrier between MoO3 and PEDOT:PSS in organic solar cells
DOI:10.1016/j.renene.2014.05.040 JN:RENEWABLE ENERGY PY:2014 TC:4 AU: Maniruzzaman, Md.;Rahman, Mohammad Arifur;Jeong, Kyunghoon;Nam, Ho-seok;Lee, Jaegab;
2:32:21 Thin gold films on SnO2:In: Temperature-dependent effects on the optical properties
DOI:10.1016/j.tsf.2012.01.016 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Lansaker, P. C.;Niklasson, G. A.;Granqvist, C. G.;
2:32:22 Effect of Ag film thickness on the optical and the electrical properties in CuAlO2/Ag/CuAlO2 multilayer films grown on glass substrates
DOI:10.1016/j.jallcom.2010.10.180 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2011 TC:15 AU: Oh, Dohyun;No, Young Soo;Kim, Su Youn;Cho, Woon Jo;Kwack, Kae Dal;Kim, Tae Whan;
2:32:23 Effect of silver evolution on conductivity and transmittance of ZnO/Ag thin films
DOI:10.1063/1.3592975 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:14 AU: Zhang, Dongyan;Yabe, Hiromi;Akita, Eri;Wang, Pangpang;Murakami, Ri-ichi;Song, Xiaoping;
2:32:24 Transparent conductive Ga-doped ZnO/Cu multilayers prepared on polymer substrates at room temperature
DOI:10.1016/j.solmat.2011.02.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:18 AU: Gong, Li;Lu, Jianguo;Ye, Zhizhen;
2:32:25 Characterization of ZnO:Al/Au/ZnO:Al trilayers for high performance transparent conducting electrodes
DOI:10.1016/j.tsf.2010.09.049 JN:THIN SOLID FILMS PY:2010 TC:26 AU: Dimopoulos, T.;Radnoczi, G. Z.;Pecz, B.;Brueckl, H.;
2:32:26 Low temperature deposition of transparent conducting ITO/Au/ITO films by reactive magnetron sputtering
DOI:10.1016/j.apsusc.2009.10.002 JN:APPLIED SURFACE SCIENCE PY:2010 TC:25 AU: Kim, Daeil;
2:32:27 High quality transparent conductive SnO2/Ag/SnO2 tri-layer films deposited at room temperature by magnetron sputtering
DOI:10.1016/j.matlet.2012.06.108 JN:MATERIALS LETTERS PY:2012 TC:15 AU: Yu, S. H.;Jia, C. H.;Zheng, H. W.;Ding, L. H.;Zhang, W. F.;
2:32:28 Highly flexible, conductive and transparent MoO3/Ag/MoO3 multilayer electrode for organic photovoltaic cells
DOI:10.1016/j.tsf.2013.07.048 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Abachi, T.;Cattin, L.;Louarn, G.;Lare, Y.;Bou, A.;Makha, M.;Torchio, P.;Fleury, M.;Morsli, M.;Addou, M.;Bernede, J. C.;
2:32:29 Infrared reflective properties of AZO/Ag/AZO trilayers prepared by RF magnetron sputtering
DOI:10.1016/j.ceramint.2014.04.139 JN:CERAMICS INTERNATIONAL PY:2014 TC:10 AU: Miao, Dagang;Jiang, Shouxiang;Shang, Songmin;Chen, Zhuoming;
2:32:30 Microstructure and opto-electric properties of Cu/ITO thin films
DOI:10.1016/j.jallcom.2012.04.063 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:1 AU: Wang, Xian;Li, Junlei;Shi, Shiwei;Song, Xueping;Cui, Jingbiao;Sun, Zhaoqi;
2:32:31 Investigation of ZnS-SiO2/Ag/ZnS-SiO2 as high stable transparent and conductive multilayer films
DOI:10.1016/j.apsusc.2012.09.104 JN:APPLIED SURFACE SCIENCE PY:2012 TC:8 AU: Long, Guoyun;Geng, Yongyou;
2:32:32 Metal-in-metal localized surface plasmon resonance
DOI:10.1088/0957-4484/21/1/015203 JN:NANOTECHNOLOGY PY:2010 TC:16 AU: Smith, G. B.;Earp, A. A.;
2:32:33 Transparent conductive ITO/Cu/ITO films prepared on flexible substrates at room temperature
DOI:10.1016/j.apsusc.2011.11.041 JN:APPLIED SURFACE SCIENCE PY:2012 TC:10 AU: Ding, Xingwei;Yan, Jinliang;Li, Ting;Zhang, Liying;
2:32:34 Highly stable Ag-Ni based transparent electrodes on PET substrates for flexible organic solar cells
DOI:10.1016/j.solmat.2012.08.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:12 AU: Formica, Nadia;Sundar Ghosh, Dhriti;Lai Chen, Tong;Eickhoff, Christian;Bruder, Ingmar;Pruneri, Valerio;
2:32:35 Conductive Ga doped ZnO/Cu/Ga doped ZnO thin films prepared by magnetron sputtering at room temperature for flexible electronics
DOI:10.1016/j.tsf.2011.01.396 JN:THIN SOLID FILMS PY:2011 TC:15 AU: Gong, Li;Lu, Jianguo;Ye, Zhizhen;
2:32:36 Effect of electron beam irradiation on the electrical and optical properties of ITO/Ag/ITO and IZO/Ag/IZO films
DOI:10.1016/j.tsf.2011.01.220 JN:THIN SOLID FILMS PY:2011 TC:14 AU: Hong, C. H.;Jo, Y. J.;Kim, H. A.;Lee, I. -H.;Kwak, J. S.;
2:32:37 Influence of Ag thickness on structural, optical, and electrical properties of ZnS/Ag/ZnS multilayers prepared by ion beam assisted deposition
DOI:10.1063/1.3490787 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Leng, Jian;Yu, Zhinong;Xue, Wei;Zhang, Ting;Jiang, Yurong;Zhang, Jie;Zhang, Dongpu;
2:32:38 AZO/Au/AZO tri-layer thin films for the very low resistivity transparent electrode applications
DOI:10.1016/j.mseb.2014.03.016 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:1 AU: Chu, Chien-Hsun;Wu, Hung-Wei;Huang, Jow-Lay;
2:32:39 Transparent and conducting TiO2:Nb films made by sputter deposition: Application to spectrally selective solar reflectors
DOI:10.1016/j.solmat.2009.02.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:20 AU: Maghanga, C. M.;Jensen, J.;Niklasson, G. A.;Granqvist, C. G.;Mwamburi, M.;
2:32:40 High figure-of-merit Ag/Al:ZnO nano-thick transparent electrodes for indium-free flexible photovoltaics
DOI:10.1016/j.solmat.2012.07.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:10 AU: Ghosh, D. S.;Chen, T. L.;Formica, N.;Hwang, J.;Bruder, I.;Pruneri, V.;
2:32:41 Cu-Ag alloy capped with Ni transparent electrodes for indium-free organic photovoltaic and lighting devices
DOI:10.1016/j.solmat.2013.04.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Ghosh, D. S.;Formica, N.;Chen, T. L.;Hwang, J.;Eickhoff, C.;Pruneri, V.;
2:32:42 Au thin films deposited on SnO2:In and glass: Substrate effects on the optical and electrical properties
DOI:10.1016/j.tsf.2010.09.048 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Lansaker, P. C.;Gunnarsson, K.;Roos, A.;Niklasson, G. A.;Granqvist, C. G.;
2:32:43 Design and construction of an improved nanometric ZnS/Ag/ZnS/Ag/ZnS transparent conductive electrode and investigating the effect of annealing on its characteristics
DOI:10.1016/j.tsf.2013.05.064 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Kermani, Hamideh;Fallah, Hamid Reza;Hajimahmoodzadeh, Morteza;Basri, Narges;
2:32:44 Effect of thermal annealing on the performance of WO3-Ag-WO3 transparent conductive film
DOI:10.1016/j.tsf.2014.10.045 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Lin, Boning;Lan, Changyong;Li, Chun;Chen, Zexiang;
2:32:45 Characterization of gold nanoparticle films: Rutherford backscattering spectroscopy, scanning electron microscopy with image analysis, and atomic force microscopy
DOI:10.1063/1.4897340 JN:AIP ADVANCES PY:2014 TC:0 AU: Lansaker, Pia C.;Hallen, Anders;Niklasson, Gunnar A.;Granqvist, Claes G.;
2:32:46 Transparent conductive Ga2O3/Cu/ITO multilayer films prepared on flexible substrates at room temperature
DOI:10.1016/j.apsusc.2014.04.020 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Zhuang, Huihui;Yan, Jinliang;Xu, Chengyang;Meng, Delan;
2:32:47 Radio frequency sputtered Al:ZnO-Ag transparent conductor: A plasmonic nanostructure with enhanced optical and electrical properties
DOI:10.1063/1.4820266 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Sytchkova, Anna;Grilli, Maria Luisa;Rinaldi, Antonio;Vedraine, Sylvain;Torchio, Philippe;Piegari, Angela;Flory, Francois;
2:32:48 Use of Cu-Ag bi-layer films in oxide/metal/oxide transparent electrodes to widen their spectra of transmittance
DOI:10.1016/j.matlet.2013.09.039 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Bernede, Jean Chistian;Cattin, Linda;Abachi, Tahar;Lare, Yendoube;Morsli, Mustapha;Makha, Mohammed;
2:32:49 Improvement of high-temperature resistance of the Ag-based multilayer films deposited by magnetron sputtering
DOI:10.1016/j.matlet.2013.12.033 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Yang, Jingkai;Zhao, Hongli;Sha, Hesong;Li, Jian;Zhao, Liping;Chen, Jiajia;Yu, Bin;Zhang, Fucheng;
2:32:50 Fabrication and surface plasmon coupling studies on the dielectric/Ag structure for transparent conducting electrode applications
DOI:10.1364/OME.4.002078 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:3 AU: Pandey, Rina;Angadi, Basavaraj;Kim, Seong Keun;Choi, Ji Won;Hwang, Do Kyung;Choi, Won Kook;
2:32:51 The effect of annealing on structural, electrical and optical properties of nanostructured ZnS/Ag/ZnS films
DOI:10.1016/j.tsf.2011.03.023 JN:THIN SOLID FILMS PY:2011 TC:11 AU: Neghabi, M.;Behjat, A.;Ghorashi, S. M. B.;Salehi, S. M. A.;
2:32:52 Influence of Ag thickness of aluminum-doped ZnO/Ag/aluminum-doped ZnO thin films
DOI:10.1016/j.tsf.2012.07.124 JN:THIN SOLID FILMS PY:2012 TC:14 AU: Wu, Hung-Wei;Yang, Ru-Yuan;Hsiung, Chin-Min;Chu, Chien-Hsun;
2:32:53 Increased thermal stability of Al-doped ZnO-based transparent conducting electrodes employing ultra-thin Au and Cu layers
DOI:10.1016/j.tsf.2012.03.103 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Dimopoulos, T.;Radnoczi, G. Z.;Horvath, Z. E.;Brueckl, H.;
2:32:54 Study of Sb/SnO2 bi-layer films prepared by ion beam sputtering deposition technique
DOI:10.1016/j.tsf.2014.02.107 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Wang, Chun-Min;Huang, Chun-Chieh;Kuo, Jui-Chao;Huang, Jow-Lay;
2:32:55 TCO/Ag/TCO transparent electrodes for solar cells application
DOI:10.1007/s00339-014-8222-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:4 AU: Boscarino, S.;Crupi, I.;Mirabella, S.;Simone, F.;Terrasi, A.;
2:32:56 Electrical and Optical Properties of ITO/Au/ITO Multilayer Films for High Performance TCO Films
DOI:10.1080/00150193.2013.848766 JN:FERROELECTRICS PY:2013 TC:0 AU: Thonglem, Sutatip;Intatha, Uraiwan;Pengpat, Kamonpan;Rujijanagul, Gobwute;Tunkasiri, Tawee;Eitssayeam, Sukum;
2:32:57 Plasmonic excitations in ZnO/Ag/ZnO multilayer systems: Insight into interface and bulk electronic properties
DOI:10.1063/1.3565047 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Philipp, Martin;Knupfer, Martin;Buechner, Bernd;Gerardin, Hadia;
2:32:58 Effect of Al Nanoparticles on the Microstructure, Electrical, and Optical Properties of AZO/Al/AZO Trilayer Thin Film
DOI:10.1007/s11664-011-1810-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:9 AU: Lin, Yen-Sheng;Tseng, Wei-Chih;
2:32:59 Transparent Conductive ITO/Ag/ITO Multilayer Films Prepared by Low Temperature Process and Physical Properties
DOI:10.1080/15421400903584465 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:7 AU: Kim, Tae Hoon;Choi, Bo Hye;Park, Jae Soung;Lee, Sang Mun;Lee, Yun Su;Park, Lee Soon;
2:32:60 Organic photovoltaic cells fabricated on a SnOx/Ag/SnOx multilayer transparent conducting electrode
DOI:10.1016/j.tsf.2012.05.029 JN:THIN SOLID FILMS PY:2012 TC:13 AU: Yang, Jeong-Do;Cho, Se-Hee;Hong, Tae-Woo;Son, Dong Ick;Park, Dong-Hee;Yoo, Kyung-Hwa;Choi, Won-Kook;
2:32:61 Optimization of ZnO/Ag/ZnO multilayer electrodes obtained by Ion Beam Sputtering for optoelectronic devices
DOI:10.1016/j.tsf.2011.10.193 JN:THIN SOLID FILMS PY:2012 TC:11 AU: El Hajj, A.;Lucas, B.;Chakaroun, M.;Antony, R.;Ratier, B.;Aldissi, M.;
2:32:62 Relationship between surface plasmon and transmittance enhancement in indium-tin-oxide/Ag/indium-tin-oxide multilayer electrodes
DOI:10.1016/j.tsf.2011.12.058 JN:THIN SOLID FILMS PY:2012 TC:10 AU: Oh, Seung Hwa;Lee, Sung-Min;Choi, Kyung Cheol;
2:32:63 Characterization of low pressure annealed ITO/Au/ITO films prepared by reactive magnetron sputtering
DOI:10.1016/j.jallcom.2009.12.056 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:8 AU: Kim, Daeil;
2:32:64 Structural and optoelectronic properties of AZO/Mo/AZO thin films prepared by rf magnetron sputtering
DOI:10.1016/j.matlet.2013.04.017 JN:MATERIALS LETTERS PY:2013 TC:14 AU: Wu, Hung-Wei;Chu, Chien-Hsun;
2:32:65 High Quality Transparent Conductive ITO/Ag/ITO Multilayer Films Deposited on Glass Substrate at Room Temperature
DOI:10.1080/15421406.2010.497048 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:6 AU: Kim, Tae Hoon;Kim, Chang Hwan;Kim, Suk Kyung;Lee, Yun Su;Park, Lee Soon;
2:32:66 Diamond-like carbon based low-emissive coatings
DOI:10.1016/j.solmat.2011.01.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Mahtani, Pratish;Leong, Keith R.;Xiao, Ian;Chutinan, Alongkarn;Kherani, Nazir P.;Zukotynski, Stefan;
2:32:67 Highly flexible indium zinc oxide electrode grown on PET substrate by cost efficient roll-to-roll sputtering process
DOI:10.1016/j.tsf.2009.09.197 JN:THIN SOLID FILMS PY:2010 TC:11 AU: Park, Yong-Seok;Kim, Han-Ki;Jeong, Soon-Wook;Cho, Woon-Jo;
2:32:68 Transparent and conductive titanium indium zinc oxide/Ag/titanium indium zinc oxide multilayer films deposited by radio frequency magnetron co-sputtering
DOI:10.1016/j.tsf.2014.02.045 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Lee, Yu-Ri;Kim, Eun-Mi;Oh, Jeong-Pyo;Oh, Byeong-Yun;Shin, Dong-Chan;Heo, Gi-Seok;
2:32:69 Metal nanoparticle plasmonics inside reflecting metal films
DOI:10.1063/1.3455331 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Earp, A. A.;Smith, G. B.;
2:32:70 Formation and evolution of self-organized Au nanorings on indium-tin-oxide surface
DOI:10.1063/1.3536526 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Ruffino, F.;Crupi, I.;Simone, F.;Grimaldi, M. G.;
2:32:71 Preparation, characterization and performance of Ti1-xAlxN/Ag/Ti1-xAlxN low-emissivity films
DOI:10.1016/j.apsusc.2013.12.146 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Huang, Jiamu;Xiang, Chengjie;Li, Shaohui;Zhao, Xiaoli;He, Guoqing;
2:32:72 Electrical and optical properties of in and Al doped ZnO thin film
DOI:10.1007/s13391-013-0046-9 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:5 AU: Park, Sang-Uk;Koh, Jung-Hyuk;
2:32:73 Effects of air annealing on the optical, electrical, and structural properties of nanostructured ZnS/Au/ZnS films
DOI:10.1016/j.apsusc.2010.08.103 JN:APPLIED SURFACE SCIENCE PY:2010 TC:0 AU: Ghorashi, M. B.;Behjat, A.;Neghabi, M.;Mirjalili, G.;
2:32:74 Highly flexible transparent and conductive ZnS/Ag/ZnS multilayer films prepared by ion beam assisted deposition
DOI:10.1016/j.apsusc.2011.09.099 JN:APPLIED SURFACE SCIENCE PY:2012 TC:6 AU: Yu, Zhinong;Leng, Jian;Xue, Wei;Zhang, Ting;Jiang, Yurong;Zhang, Jie;Zhang, Dongpu;
2:32:75 A general figure of merit for thick and thin transparent conductive carbon nanotube coatings
DOI:10.1063/1.3476278 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Pekker, A.;Kamaras, K.;
2:32:76 A comparison of Ga:ZnO and Ga:ZnO/Ag/Ga:ZnO source/drain electrodes for In-Ga-Zn-O thin film transistors
DOI:10.1016/j.materresbull.2012.04.084 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:5 AU: Choi, Kwang-Hyuk;Jeon, Sanghun;Kim, Han-Ki;
2:32:77 In situ observation of structure and electrical property changes of a Ga-doped ZnO/graphene flexible transparent electrode during deformation
DOI:10.1063/1.4881336 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhang, L. Q.;Gao, Z. F.;Tu, Z. Q.;Liu, C.;Qi, Y.;Yang, F.;Yang, W.;Jiang, D. Q.;Guo, Y. P.;Ye, Z. Z.;Lu, J. G.;Hou, X. Y.;Li, Y. F.;Cui, L. S.;
2:32:78 A study of the optical properties and adhesion of zinc sulfide anti-reflection thin film coated on a germanium substrate
DOI:10.1016/j.apsusc.2011.08.105 JN:APPLIED SURFACE SCIENCE PY:2011 TC:1 AU: Firoozifar, S. A. R.;Behjat, A.;Kadivar, E.;Ghorashi, S. M. B.;Zarandi, M. Borhani;
2:32:79 Tunable asymmetric reflectance in silver films near the percolation threshold
DOI:10.1063/1.3585873 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Chen, Aiqing;Deutsch, Miriam;
2:32:80 Development of New Localized Surface Plasmon Resonance Interfaces Based on Gold Nanostructures Sandwiched between Tin-Doped Indium Oxide Films
DOI:10.1021/la903330d JN:LANGMUIR PY:2010 TC:13 AU: Niedziolka-Jonsson, Joanna;Barka, Fatiha;Castel, Xavier;Pisarek, Marcin;Bezzi, Nacer;Boukherroub, Rabah;Szunerits, Sabine;
2:32:81 The structural and optoelectrical properties of TiON/Au/TiON multilayer films
DOI:10.1016/j.matlet.2009.12.032 JN:MATERIALS LETTERS PY:2010 TC:3 AU: Kim, Daeil;
2:32:82 Effect of the Cu underlayer on the optoelectrical properties of ITO/Cu thin films
DOI:10.1016/j.renene.2009.05.017 JN:RENEWABLE ENERGY PY:2010 TC:6 AU: Chae, J. H.;Kim, Daeil;
2:32:83 Ag thin film on an organic silane monolayer applied as anode of organic light emitting diode
DOI:10.1016/j.tsf.2012.10.108 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Kawamura, M.;Ishizuka, Y.;Yoshida, S.;Abe, Y.;Kim, K. H.;
2:32:84 Determining surface coverage of ultra-thin gold films from X-ray reflectivity measurements
DOI:10.1016/j.tsf.2013.03.057 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Kossoy, A.;Simakov, D.;Olafsson, S.;Leosson, K.;
2:32:85 Variation of optical and electrical properties of amorphous In-Ga-Zn-O/Ag/amorphous In-Ga-Zn-O depending on Ag thickness
DOI:10.1016/j.tsf.2013.03.085 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Kim, Do Hyung;Lee, Sang Yeol;
2:32:86 Transparent and flexible amorphous In-Si-O films for flexible organic solar cells
DOI:10.1063/1.4788687 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Lee, Hye-Min;Kang, Sin-Bi;Chung, Kwun-Bum;Kim, Han-Ki;
2:32:87 Characterization of TiO2/Au/TiO2 films deposited by magnetron sputtering on polycarbonate substrates
DOI:10.1016/j.apsusc.2010.07.038 JN:APPLIED SURFACE SCIENCE PY:2010 TC:3 AU: Kim, Daeil;
2:32:88 Optical and electrochemical properties of ordered macroporous gold array on the ITO surface
DOI:10.1016/j.apsusc.2011.02.117 JN:APPLIED SURFACE SCIENCE PY:2011 TC:1 AU: Lu, Huidan;Liu, Yongping;Han, Guo-Cheng;
2:32:89 Water adsorption behavior on metal surfaces and its influence on surface potential studied by in situ SPM
DOI:10.1016/j.apsusc.2012.06.003 JN:APPLIED SURFACE SCIENCE PY:2012 TC:11 AU: Guo, L. Q.;Zhao, X. M.;Bai, Y.;Qiao, L. J.;
2:32:90 Comment on "Enhancement of light transmission by coupling to surface plasmon polaritons of a layer-plus-islands silver layer" [J. Appl. Phys. 106, 103104 (2009)]
DOI:10.1063/1.3488648 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:1 AU: Lee, Hosun;
2:32:91 New oxygen radical source using selective sputtering of oxygen atoms for high rate deposition of TiO2 films
DOI:10.1116/1.4748803 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:2 AU: Yasuda, Yoji;Lei, Hao;Hoshi, Yoichi;
2:32:92 Preparing transparent conductive Sn/Sb-O2-x thin films by annealing bi-layer Sb/SnO2 with pulse UV laser
DOI:10.1016/j.matlet.2011.12.031 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Wang, Chun-Min;Huang, Chun-Chieh;Kuo, Jui-Chao;Lin, Hao-Tung;Huang, Jow-Lay;
2:32:93 Effect of ITO/Ag/ITO Multilayer Electrode Deposited onto Glass and PET Substrate on the Performance of Organic Light-Emitting Diodes
DOI:10.1080/15421406.2010.495918 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:0 AU: Lee, Sang Mun;Choi, Bo Hye;Park, Jae Soung;Kim, Tae Hoon;Bae, Heung Kwon;Park, Lee Soon;
2:32:94 Fabrication and Properties of Flexible OLEDs on Polyimide-Graphene Composite Film Substrate
DOI:10.1080/15421406.2013.849487 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Kim, Ho Hoon;Kim, Hyo Jin;Choi, Byung Jin;Lee, Yun Su;Park, Soo Young;Park, Lee Soon;
2:32:95 Highly stable Ag-Ni based transparent electrodes on PET substrates for flexible organic solar cells (vol 107, pg 63, 2012)
DOI:10.1016/j.solmat.2012.09.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:0 AU: Formica, Nadia;Ghosh, Dhriti Sundar;Chen, Tong Lai;Eickhoff, Christian;Bruder, Ingmar;Pruneri, Valerio;
2:32:96 Combinatorial growth and analysis of Ti-In-Zn-O films deposited by radio-frequency and direct-current magnetron co-sputtering system
DOI:10.1016/j.tsf.2012.07.127 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Heo, Gi-Seok;Park, Jae-Cheol;Oh, Byeong-Yun;Kim, Sang-Ki;Lee, Yu-Ri;Shin, Dong-Chan;
2:33:1 High-Mobility Field-Effect Transistors from Large-Area Solution-Grown Aligned C-60 Single Crystals
DOI:10.1021/ja210430b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:99 AU: Li, Hanying;Tee, Benjamin C-K.;Cha, Judy J.;Cui, Yi;Chung, Jong Won;Lee, Sang Yoon;Bao, Zhenan;
2:33:2 Controllable Growth and Field-Effect Property of Monolayer to Multilayer Microstripes of an Organic Semiconductor
DOI:10.1021/ja1017267 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:62 AU: Li, Liqiang;Gao, Peng;Schuermann, Klaus C.;Ostendorp, Stefan;Wang, Wenchong;Du, Chuan;Lei, Yong;Fuchs, Harald;De Cola, Luisa;Muellen, Klaus;Chi, Lifeng;
2:33:3 Small organic single-crystalline one-dimensional micro- and nanostructures for miniaturized devices
DOI:10.1039/c3tc30143e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Garcia-Frutos, Eva M.;
2:33:4 High-Performance Transistors and Complementary Inverters Based on Solution-Grown Aligned Organic Single-Crystals
DOI:10.1002/adma.201200151 JN:ADVANCED MATERIALS PY:2012 TC:52 AU: Li, Hanying;Tee, Benjamin C. -K.;Giri, Gaurav;Chung, Jong Won;Lee, Sang Yoon;Bao, Zhenan;
2:33:5 Organic single crystal field-effect transistors: advances and perspectives
DOI:10.1039/b925875b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:68 AU: Jiang, Lang;Dong, Huanli;Hu, Wenping;
2:33:6 High Electron Mobility in Air for N,N '-1H,1H-Perfluorobutyldicyanoperylene Carboxydi-imide Solution-Crystallized Thin-Film Transistors on Hydrophobic Surfaces
DOI:10.1002/adma.201101467 JN:ADVANCED MATERIALS PY:2011 TC:52 AU: Soeda, Junshi;Uemura, Takafumi;Mizuno, Yu;Nakao, Akiko;Nakazawa, Yasuhiro;Facchetti, Antonio;Takeya, Jun;
2:33:7 Solution-Grown Organic Single-Crystalline p-n Junctions with Ambipolar Charge Transport
DOI:10.1002/adma.201302605 JN:ADVANCED MATERIALS PY:2013 TC:20 AU: Fan, Congcheng;Zoombelt, Arjan P.;Jiang, Hao;Fu, Weifei;Wu, Jiake;Yuan, Wentao;Wang, Yong;Li, Hanying;Chen, Hongzheng;Bao, Zhenan;
2:33:8 Controlled Deposition of a High-Performance Small-Molecule Organic Single-Crystal Transistor Array by Direct Ink-Jet Printing
DOI:10.1002/adma.201103032 JN:ADVANCED MATERIALS PY:2012 TC:41 AU: Kim, Yong-Hoon;Yoo, Byungwook;Anthony, John E.;Park, Sung Kyu;
2:33:9 Solution-processed organic nano- and micro-materials: design strategy, growth mechanism and applications
DOI:10.1039/c1jm14599a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:32 AU: Lei, Ting;Pei, Jian;
2:33:10 Controlled growth and assembly of one-dimensional ordered nanostructures of organic functional materials
DOI:10.1039/c0sm00762e JN:SOFT MATTER PY:2011 TC:24 AU: Jiang, Lang;Dong, Huanli;Hu, Wenping;
2:33:11 Air-Stable n-Channel Organic Single Crystal Field-Effect Transistors Based on Microribbons of Core-Chlorinated Naphthalene Diimide
DOI:10.1002/adma.201303392 JN:ADVANCED MATERIALS PY:2013 TC:26 AU: He, Tao;Stolte, Matthias;Wuerthner, Frank;
2:33:12 Highly Crystalline Soluble Acene Crystal Arrays for Organic Transistors: Mechanism of Crystal Growth During Dip-Coating
DOI:10.1002/adfm.201102284 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:37 AU: Jang, Jaeyoung;Nam, Sooji;Im, Kyuhyun;Hur, Jaehyun;Cha, Seung Nam;Kim, Jineun;Son, Hyung Bin;Suh, Hwansoo;Loth, Marsha A.;Anthony, John E.;Park, Jong-Jin;Park, Chan Eon;Kim, Jong Min;Kim, Kinam;
2:33:13 High-Performance Organic Field-Effect Transistors from Organic Single-Crystal Microribbons Formed by a Solution Process
DOI:10.1002/adma.200904171 JN:ADVANCED MATERIALS PY:2010 TC:66 AU: Zhou, Yan;Lei, Ting;Wang, Lei;Pei, Jian;Cao, Yong;Wang, Jian;
2:33:14 Controlled Self-Assembly of Organic Semiconductors for Solution-Based Fabrication of Organic Field-Effect Transistors
DOI:10.1002/adma.201102554 JN:ADVANCED MATERIALS PY:2012 TC:41 AU: Minari, Takeo;Liu, Chuan;Kano, Masataka;Tsukagoshi, Kazuhito;
2:33:15 Microribbon Field-Effect Transistors Based on Dithieno[2,3-d;2,3 '-d]benzo[1,2-b;4,5-b ']dithiophene Processed by Solvent Vapor Diffusion
DOI:10.1021/cm202844g JN:CHEMISTRY OF MATERIALS PY:2011 TC:13 AU: Wang, Suhao;Gao, Peng;Liebewirth, Ingo;Kirchhoff, Katrin;Pang, Shuping;Feng, Xinliang;Pisula, Wojciech;Muellen, Klaus;
2:33:16 Atomically Flat, Large-Sized, Two-Dimensional Organic Nanocrystals
DOI:10.1002/smll.201202390 JN:SMALL PY:2013 TC:9 AU: Jiang, Hui;Zhang, Keke K.;Ye, Jun;Wei, Fengxia;Hu, Peng;Guo, Jun;Liang, Chunyong;Chen, Xiaodong;Zhao, Yang;McNeil, L. E.;Hu, Wenping;Kloc, Christian;
2:33:17 Solution-Based Fabrication of Single-Crystalline Arrays of Organic Nanowires
DOI:10.1021/la902223k JN:LANGMUIR PY:2010 TC:34 AU: Tong, Yanhong;Tang, Qingxin;Lemke, Henrik Till;Moth-Poulsen, Kasper;Westerlund, Fredrik;Hammershoj, Peter;Bechgaard, Klaus;Hu, Wenping;Bjornholm, Thomas;
2:33:18 High-Performance Organic Field-Effect Transistors Based on Single and Large-Area Aligned Crystalline Microribbons of 6,13-Dichloropentacene
DOI:10.1002/adma.201204469 JN:ADVANCED MATERIALS PY:2013 TC:23 AU: Wang, Mao;Li, Jie;Zhao, Guangyao;Wu, Qinghe;Huang, Yangguang;Hu, Wenping;Gao, Xike;Li, Hongxiang;Zhu, Daoben;
2:33:19 Self-Assembly and Hierarchical Patterning of Aligned Organic Nanowire Arrays by Solvent Evaporation on Substrates with Patterned Wettability
DOI:10.1021/am4012885 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Bao, Rong-Rong;Zhang, Cheng-Yi;Zhang, Xiu-Juan;Ou, Xue-Mei;Lee, Chun-Sing;Jie, Jian-Sheng;Zhang, Xiao-Hong;
2:33:20 High ON/OFF ratio single crystal transistors based on ultrathin thienoacene microplates
DOI:10.1039/c4tc00622d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Zhao, Xiaoli;Pei, Tengfei;Cai, Bin;Zhou, Shujun;Tang, Qingxin;Tong, Yanhong;Tian, Hongkun;Geng, Yanhou;Liu, Yichun;
2:33:21 Organic Single Crystal Field-effect Transistors Based on 6H-pyrrolo[3,2-b:4,5-b]bis[1,4]benzothiazine and its Derivatives
DOI:10.1002/adma.201000088 JN:ADVANCED MATERIALS PY:2010 TC:34 AU: Wei, Zhongming;Hong, Wei;Geng, Hua;Wang, Chengliang;Liu, Yaling;Li, Rongjin;Xu, Wei;Shuai, Zhigang;Hu, Wenping;Wang, Quanrui;Zhu, Daoben;
2:33:22 Solution-processed high-performance flexible 9, 10-bis(phenylethynyl)anthracene organic single-crystal transistor and ring oscillator
DOI:10.1063/1.4865239 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Cai, Xiaozhou;Ji, Deyang;Jiang, Lang;Zhao, Guangyao;Tan, Jiahui;Tian, Guofeng;Li, Jingze;Hu, Wenping;
2:33:23 High-Mobility Organic Single-Crystal Microtubes of Soluble Pentacene Semiconductors with Hollow Tetragonal Structures
DOI:10.1021/cm3009573 JN:CHEMISTRY OF MATERIALS PY:2012 TC:12 AU: Kim, Do Hwan;Lee, Dong Yun;Lee, Seung Goo;Cho, Kilwon;
2:33:24 High-Performance, All-Solution-Processed Organic Nanowire Transistor Arrays with Inkjet-Printing Patterned Electrodes
DOI:10.1021/la2033324 JN:LANGMUIR PY:2011 TC:14 AU: Liu, Nanliu;Zhou, Yan;Ai, Na;Luo, Chan;Peng, Junbiao;Wang, Jian;Pei, Jian;Cao, Yong;
2:33:25 Three-Dimensional Charge Transport in Organic Semiconductor Single Crystals
DOI:10.1002/adma.201200525 JN:ADVANCED MATERIALS PY:2012 TC:12 AU: He, Tao;Zhang, Xiying;Jia, Jiong;Li, Yexin;Tao, Xutang;
2:33:26 High-speed solution-processed organic single crystal transistors using a novel triisopropylsilylethynyl anthracene derivative
DOI:10.1063/1.4764062 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Chung, Dae Sung;An, Tae Kyu;Park, Chan Eon;Yun, Hui-Jun;Kwon, Soon-Ki;Kim, Yun-Hi;
2:33:27 Large-Scale Assembly of Organic Micro/Nanocrystals into Highly Ordered Patterns and Their Applications for Strain Sensors
DOI:10.1021/am502060y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Gong, Chao;Deng, Wei;Zou, Bin;Xing, Yuliang;Zhang, Xiujuan;Zhang, Xiaohong;Jie, Jiansheng;
2:33:28 Solution-Processed, High-Performance Nanoribbon Transistors Based on Dithioperylene
DOI:10.1021/ja107599r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:39 AU: Jiang, Wei;Zhou, Yan;Geng, Hua;Jiang, Shidong;Yan, Shouke;Hu, Wenping;Wang, Zhaohui;Shuai, Zhigang;Pei, Jian;
2:33:29 Ultrathin organic single crystals: fabrication, field-effect transistors and thickness dependence of charge carrier mobility
DOI:10.1039/c0jm04383d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Jiang, Hui;Tan, Ke Jie;Zhang, Keke K.;Chen, Xiaodong;Kloc, Christian;
2:33:30 Single-crystal growth of organic semiconductors
DOI:10.1557/mrs.2012.308 JN:MRS BULLETIN PY:2013 TC:11 AU: Jiang, Hui;Kloc, Christian;
2:33:31 High-mobility and solution-processable organic field-effect transistors based on carbazole-dihexylquaterthiophenes with controllable morphology
DOI:10.1016/j.synthmet.2012.12.019 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Chang, Gung-Pei;Hsieh, Kuo-Huang;
2:33:32 Single-Crystal Organic Nanowire Electronics by Direct Printing from Molecular Solutions
DOI:10.1002/adfm.201203540 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:16 AU: Park, Kyung S.;Cho, Boram;Baek, Jangmi;Hwang, Jae K.;Lee, Haiwon;Sung, Myung M.;
2:33:33 Effect of Interfacial Structure on the Transistor Properties: Probing the Role of Surface Modification of Gate Dielectrics with Self-Assembled Monolayer Using Organic Single-Crystal Field-Effect Transistors
DOI:10.1021/am200349j JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:10 AU: Islam, M. Minarul;Pola, Someshwar;Tao, Yu-Tai;
2:33:34 High mobility organic single crystal transistors based on soluble triisopropylsilylethynyl anthracene derivatives
DOI:10.1039/b910226d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:35 AU: Chung, Dae Sung;Park, Jong Won;Park, Jong-Hwa;Moon, Dohyun;Kim, Ghyung Hwa;Lee, Heung-Soo;Lee, Dong Hoon;Shim, Hong-Ku;Kwon, Soon-Ki;Park, Chan Eon;
2:33:35 Aligned ultralong nanowire arrays and their application in flexible photodetector devices
DOI:10.1039/c2jm31657a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Zhang, Yuping;Wang, Xudi;Wu, Yiming;Jie, Jiansheng;Zhang, Xiwei;Xing, Yuliang;Wu, Haihua;Zou, Bin;Zhang, Xiujuan;Zhang, Xiaohong;
2:33:36 1,5-, 2,6-and 9,10-distyrylanthracenes as luminescent organic semiconductors
DOI:10.1039/c3tc30247d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Dadvand, Afshin;Sun, Wei-Hsin;Moiseev, Andrey G.;Belanger-Gariepy, Francine;Rosei, Federico;Meng, Hong;Perepichka, Dmitrii F.;
2:33:37 Single-crystal tetrathiafulvalene microwire arrays formed by drop-casting method in the saturated solvent atmosphere
DOI:10.1016/j.synthmet.2014.10.039 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Liu, Yan;Han, Yijun;Zhao, Xiaoli;Tong, Yanhong;Tang, Qingxin;Liu, Yichun;
2:33:38 Molecular Crystal Lithography: A Facile and Low-Cost Approach to Fabricate Nanogap Electrodes
DOI:10.1002/adma.201103098 JN:ADVANCED MATERIALS PY:2012 TC:6 AU: Jiang, Lang;Dong, Huanli;Meng, Qing;Tan, Jiahui;Jiang, Wei;Xu, Cuiying;Wang, Zhaohui;Hu, Wenping;
2:33:39 Contorted Tetrabenzocoronene Derivatives for Single Crystal Field Effect Transistors: Correlation between Packing and Mobility
DOI:10.1021/cm301190c JN:CHEMISTRY OF MATERIALS PY:2012 TC:18 AU: Pola, Someshwar;Kuo, Chi-Hsien;Peng, Wei-Tao;Islam, Md Minarul;Chao, Ito;Tao, Yu-Tai;
2:33:40 Observation and simulation of microdroplet shapes on surface-energy-patterned substrates: Contact line engineering for printed electronics
DOI:10.1063/1.4816461 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Noda, Yuki;Matsui, Hiroyuki;Minemawari, Hiromi;Yamada, Toshikazu;Hasegawa, Tatsuo;
2:33:41 Substituent effect on the crystal packing and electronic coupling of tetrabenzocoronenes: a structure-property correlation
DOI:10.1039/c4tc00296b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Kuo, Chi-Hsien;Huang, Ding-Chi;Peng, Wei-Tao;Goto, Kenta;Chao, Ito;Tao, Yu-Tai;
2:33:42 Probing the interfacial molecular packing in TIPS-pentacene organic semiconductors by surface enhanced Raman scattering
DOI:10.1039/c3tc32581d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Xu, Jie;Diao, Ying;Zhou, Dongshan;Mao, Yisha;Giri, Gaurav;Chen, Wei;Liu, Nan;Mannsfeld, Stefan C. B.;Xue, Gi;Bao, Zhenan;
2:33:43 Organic Nanowire Crystals Combine Excellent Device Performance and Mechanical Flexibility
DOI:10.1002/smll.201001217 JN:SMALL PY:2011 TC:10 AU: Tang, Qingxin;Tong, Yanhong;Zheng, Yongmei;He, Yudong;Zhang, Yajie;Dong, Huanli;Hu, Wenping;Hassenkam, Tue;Bjornholm, Thomas;
2:33:44 Alignment of Organic Semiconductor Microstripes by Two-Phase Dip-Coating
DOI:10.1002/smll.201303182 JN:SMALL PY:2014 TC:3 AU: Li, Mengmeng;An, Cunbin;Pisula, Wojciech;Muellen, Klaus;
2:33:45 Monolithic Complementary Inverters Based on Organic Single Crystals
DOI:10.1002/adma.201000480 JN:ADVANCED MATERIALS PY:2010 TC:10 AU: Uemura, T.;Yamagishi, M.;Okada, Y.;Nakayama, K.;Yoshizumi, M.;Uno, M.;Takeya, J.;
2:33:46 Controlled Growth of Large-Area High-Performance Small-Molecule Organic Single-Crystalline Transistors by Slot-Die Coating Using A Mixed Solvent System
DOI:10.1002/adma.201301267 JN:ADVANCED MATERIALS PY:2013 TC:16 AU: Chang, Jingjing;Chi, Chunyan;Zhang, Jie;Wu, Jishan;
2:33:47 Single crystal ribbons and transistors of a solution processed sickle-like fused-ring thienoacene
DOI:10.1039/c0jm00963f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Li, Rongjin;Dong, Huanli;Zhan, Xiaowei;He, Yudong;Li, Hongxiang;Hu, Wenping;
2:33:48 Aligned nanowire arrays on thin flexible substrates for organic transistors with high bending stability
DOI:10.1039/c3tc31678e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Deng, Wei;Zhang, Xiujuan;Gong, Chao;Zhang, Qing;Xing, Yuliang;Wu, Yiming;Zhang, Xiwei;Jie, Jiansheng;
2:33:49 Mobility dependence on the conducting channel dimension of organic field-effect transistors based on single-crystalline nanoribbons
DOI:10.1039/c0jm01196g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Zhang, Yajie;Dong, Huanli;Tang, Qingxin;He, Yudong;Hu, Wenping;
2:33:50 One-Step Dry Method for the Synthesis of Supported Single-Crystalline Organic Nanowires Formed by pi-Conjugated Molecules
DOI:10.1021/la1003758 JN:LANGMUIR PY:2010 TC:15 AU: Borras, Ana;Groening, Oliver;Aguirre, Myriam;Gramm, Fabian;Groening, Pierangelo;
2:33:51 Volatilize-Controlled Oriented Growth of the Single-Crystal Layer for Organic Field-Effect Transistors
DOI:10.1021/la503481r JN:LANGMUIR PY:2014 TC:1 AU: Zhao, Haoyan;Li, Dong;Dong, Guifang;Duan, Lian;Liu, Xiaohui;Wang, Liduo;
2:33:52 Large-area aligned growth of single-crystalline organic nanowire arrays for high-performance photodetectors
DOI:10.1088/0957-4484/24/35/355201 JN:NANOTECHNOLOGY PY:2013 TC:8 AU: Wu, Yiming;Zhang, Xiujuan;Pan, Huanhuan;Zhang, Xiwei;Zhang, Yuping;Zhang, Xiaozhen;Jie, Jiansheng;
2:33:53 Cross-Stacked Single-Crystal Organic Nanowire p-n Nanojunction Arrays by Nanotransfer Printing
DOI:10.1021/nl5035623 JN:NANO LETTERS PY:2015 TC:0 AU: Park, Kyung Sun;Lee, Ki Seok;Kang, Chan-mo;Baek, Jangmi;Han, Kyu Seok;Lee, Changhee;Lee, Yong-Eun Koo;Kang, Youngjong;Sung, Myung Mo;
2:33:54 Mica, a Potential Two-Dimensional-Crystal Gate Insulator for Organic Field-Effect Transistors
DOI:10.1002/adma.201103592 JN:ADVANCED MATERIALS PY:2011 TC:10 AU: He, Yudong;Dong, Huanli;Meng, Qing;Jiang, Lang;Shao, Wei;He, Liangfu;Hu, Wenping;
2:33:55 Nanocrystals of a Metal-Organic Complex Exhibit Remarkably High Conductivity that Increases in a Single-Crystal-to-Single-Crystal Transformation
DOI:10.1021/ja4131774 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Hutchins, Kristin M.;Rupasinghe, Thilini P.;Ditzler, Lindsay R.;Swenson, Dale C.;Sander, John R. G.;Baltrusaitis, Jonas;Tivanski, Alexei V.;MacGillivray, Leonard R.;
2:33:56 Solution coating of large-area organic semiconductor thin films with aligned single-crystalline domains
DOI:10.1038/NMAT3650 JN:NATURE MATERIALS PY:2013 TC:127 AU: Diao, Ying;Tee, Benjamin C-K.;Giri, Gaurav;Xu, Jie;Kim, Do Hwan;Becerril, Hector A.;Stoltenberg, Randall M.;Lee, Tae Hoon;Xue, Gi;Mannsfeld, Stefan C. B.;Bao, Zhenan;
2:33:57 Topography-guided spreading and drying of 6,13-bis(triisopropylsilylethynyl)-pentacene solution on a polymer insulator for the field-effect mobility enhancement
DOI:10.1063/1.4807461 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Keum, Chang-Min;Bae, Jin-Hyuk;Kim, Min-Hoi;Park, Hea-Lim;Payne, Marcia M.;Anthony, John E.;Lee, Sin-Doo;
2:33:58 Novel triethylsilylethynyl anthracene-based organic semiconductors for high performance field effect transistors
DOI:10.1039/c2jm34160c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Yun, Hui-Jun;Chung, Dae Sung;Kang, Il;Park, Jong Won;Kim, Yun-Hi;Kwon, Soon-Ki;
2:33:59 An ordered array based on vapor-processed phthalocyanine nanoribbons
DOI:10.1039/c4tc00123k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Min, Qiubing;Zhao, Xiaoli;Cai, Bin;Liu, Yan;Tang, Qingxin;Tong, Yanhong;Hu, Wenping;Liua, Yichun;
2:33:60 Organic field-effect transistors based on semiconducting porphyrin single crystals
DOI:10.1016/j.synthmet.2012.01.005 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Hoang, Mai Ha;Choi, Dong Hoon;Lee, Suk Joong;
2:33:61 Design of Novel Dielectric Surface Modifications for Perylene Thin-Film Transistors
DOI:10.1002/adfm.201101299 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:9 AU: Effertz, Christian;Lahme, Stefan;Schulz, Philip;Segger, Ingolf;Wuttig, Matthias;Classen, Arno;Bolm, Carsten;
2:33:62 Hydrogen-Bonding-Facilitated Layer-by-Layer Growth of Ultrathin Organic Semiconducting Films
DOI:10.1021/am402066t JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Jeong, Sang-Mi;Kim, Taek-Gyoung;Jung, Eunyoung;Park, Ji-Woong;
2:33:63 Understanding Polymorphism in Organic Semiconductor Thin Films through Nanoconfinement
DOI:10.1021/ja507179d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Diao, Ying;Lenn, Kristina M.;Lee, Wen-Ya;Blood-Forsythe, Martin A.;Xu, Jie;Mao, Yisha;Kim, Yeongin;Reinspach, Julia A.;Park, Steve;Aspuru-Guzik, Alan;Xue, Gi;Clancy, Paulette;Bao, Zhenan;Mannsfeld, Stefan C. B.;
2:33:64 Alkyl substituted dithienothieno[2,3-d; 2 ',3 '-d']-benzo[1,2-b:4,5-b'] dithiophenes as solution-processable hexathiaheptacenes
DOI:10.1039/c3tc32478h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Chen, Lie;Baumgarten, Martin;Guo, Xin;Li, Mengmeng;Marszalek, Tomasz;Alsewailem, Fares D.;Pisula, Wojciech;Muellen, Klaus;
2:33:65 Study of 6,13-bis(tri-isopropylsilylethynyl) pentacene (TIPS-pentacene crystal) based organic field effect transistors (OFETs)
DOI:10.1016/j.synthmet.2014.04.034 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Murtaza, Ghulam;Ahmad, Ishtiaq;Chen, HongZheng;Wu, Jiake;
2:33:66 Large-Scale Organic Single-Crystal Thin Films and Transistor Arrays via the Evaporation-Controlled Fluidic Channel Method
DOI:10.1021/am5018804 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Kim, Jaekyun;Cho, Sangho;Kang, Jingu;Kim, Yong-Hoon;Park, Sung Kyu;
2:33:67 Visible effects of static electric field on physical vapor growth of lead phthalocyanine crystals
DOI:10.1063/1.3553859 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Sakai, Masatoshi;Iizuka, Masaaki;Nakamura, Masakazu;Kudo, Kazuhiro;
2:33:68 In-situ observation of electric-field-induced acceleration in crystal growth of tetrathiafulvalene-tetracyanoquinodimethane
DOI:10.1063/1.4802666 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Sakai, Masatoshi;Kuniyoshi, Shigekazu;Yamauchi, Hiroshi;Iizuka, Masaaki;Nakamura, Masakazu;Kudo, Kazuhiro;
2:33:69 Hybrid Energy-Minimization Simulation of Equilibrium Droplet Shapes on Hydrophilic/Hydrophobic Patterned Surfaces
DOI:10.1021/la303717n JN:LANGMUIR PY:2012 TC:4 AU: Matsui, Hiroyuki;Noda, Yuki;Hasegawa, Tatsuo;
2:33:70 Photo-Conversion and Structural Properties of the Drop-Cast Films of 6,13-Pentacene Diketone
DOI:10.1080/15421406.2013.807724 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Ohashi, C.;Yamada, H.;Nakayama, K.;
2:33:71 Organic single crystalline micro- and nanowires field-effect transistors of a tetrathiafulvalene (TTF) derivative with strong pi-pi orbits and S center dot center dot center dot S interactions
DOI:10.1016/j.synthmet.2010.11.009 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Jiang, Hui;Yang, Xianjin;Wang, Erjing;Fu, Yanyan;Liu, Yaling;Li, Hongxiang;Cui, Zhenduo;Liu, Yongchang;Hu, Wenping;
2:33:72 Self-Assembly of -Conjugated Amphiphiles: Free Standing, Ordered Sheets with Enhanced Mobility
DOI:10.1002/adfm.201202298 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:13 AU: Narayan, Bhawani;Senanayak, Satyaprasad P.;Jain, Ankit;Narayan, K. S.;George, Subi J.;
2:33:73 Photo-assisted molecular engineering in solution-processed organic thin-film transistors with a blended semiconductor for high mobility anisotropy
DOI:10.1063/1.4774001 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Park, Jaehoon;Keum, Chang-Min;Kim, Jae-Hyun;Lee, Sin-Doo;Payne, Maricia;Petty, Michael;Anthony, John E.;Bae, Jin-Hyuk;
2:33:74 Electrochemical synthesis of highly ordered polypyrrole on copper modified aluminium substrates
DOI:10.1016/j.apsusc.2014.04.077 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Siddaramanna, Ashoka;Saleema, N.;Sarkar, D. K.;
2:33:75 Solvent-vapor annealing-induced growth, alignment, and patterning of pi-conjugated supramolecular nanowires
DOI:10.1557/jmr.2010.7 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:5 AU: Yip, Hin-Lap;Ma, Hong;Tian, Yanqing;Acton, Orb;Tucker, Neil M.;Jen, Alex K-Y;
2:33:76 A Solution Process for Size-Controlled Growth and Transfer of Organic Nanostructures with Manufacture Scalability
DOI:10.1021/la9036937 JN:LANGMUIR PY:2010 TC:4 AU: Niu, Qiaoli;Zhou, Yan;Wang, Lei;Luo, Chan;Luo, Jia;Peng, Junbiao;Cao, Yong;Pei, Jian;Wang, Jian;
2:33:77 Fabrication of aligned microwire arrays of perylene bisimide by micromolding in capillary
DOI:10.1016/j.synthmet.2010.04.002 JN:SYNTHETIC METALS PY:2010 TC:2 AU: Jung, Yunoh;Seo, Jangwon;Kim, Jong H.;Whang, Dong Ryeol;Gihm, Se Hoon;Park, Chong Rae;Park, Soo Young;
2:34:1 One-Dimensional Nanostructures of pi-Conjugated Molecular Systems: Assembly, Properties, and Applications from Photovoltaics, Sensors, and Nanophotonics to Nanoelectronics
DOI:10.1021/cm102772x JN:CHEMISTRY OF MATERIALS PY:2011 TC:305 AU: Kim, Felix Sunjoo;Ren, Guoqiang;Jenekhe, Samson A.;
2:34:2 Polymer blends with semiconducting nanowires for organic electronics
DOI:10.1039/c2jm16059e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:29 AU: Jo, Sae Byeok;Lee, Wi Hyoung;Qiu, Longzhen;Cho, Kilwon;
2:34:3 High-Efficiency Organic Solar Cells Based on Preformed Poly(3-hexylthiophene) Nanowires
DOI:10.1002/adfm.201000971 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:88 AU: Kim, Jong Soo;Lee, Ji Hwang;Park, Jong Hwan;Shim, Chiyeoung;Sim, Myungsun;Cho, Kilwon;
2:34:4 Polymer Nanowire/Fullerene Bulk Heterojunction Solar Cells: How Nanostructure Determines Photovoltaic Properties
DOI:10.1021/nn9014906 JN:ACS NANO PY:2010 TC:88 AU: Xin, Hao;Reid, Obadiah G.;Ren, Guoqiang;Kim, Felix Sunjoo;Ginger, David S.;Jenekhe, Samson A.;
2:34:5 Conjugated rod-coil and rod-rod block copolymers for photovoltaic applications
DOI:10.1039/c1jm11518a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:56 AU: He, Ming;Qiu, Feng;Lin, Zhiqun;
2:34:6 Solar Cells Based on Block Copolymer Semiconductor Nanowires: Effects of Nanowire Aspect Ratio
DOI:10.1021/nn1017632 JN:ACS NANO PY:2011 TC:52 AU: Ren, Guoqiang;Wu, Pei-Tzu;Jenekhe, Samson A.;
2:34:7 Enhanced Performance of Bulk Heterojunction Solar Cells Using Block Copoly(3-alkylthiophene)s
DOI:10.1021/cm903783w JN:CHEMISTRY OF MATERIALS PY:2010 TC:75 AU: Ren, Guoqiang;Wu, Pei-Tzu;Jenekhe, Samson A.;
2:34:8 Self-Assembly of All-Conjugated Poly(3-alkylthiophene) Diblock Copolymer Nanostructures from Mixed Selective Solvents
DOI:10.1021/nn100543w JN:ACS NANO PY:2010 TC:82 AU: He, Ming;Zhao, Lei;Wang, Jun;Han, Wei;Yang, Yuliang;Qiu, Feng;Lin, Zhiqun;
2:34:9 Alkyl-Chain-Length-Independent Hole Mobility via Morphological Control with Poly(3-alkylthiophene) Nanofibers
DOI:10.1002/adfm.200901471 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:54 AU: Oosterbaan, Wibren D.;Bolsee, Jean-Christophe;Gadisa, Abay;Vrindts, Veerle;Bertho, Sabine;D'Haen, Jan;Cleij, Thomas J.;Lutsen, Laurence;McNeill, Christopher R.;Thomsen, Lars;Manca, Jean V.;Vanderzande, Dirk;
2:34:10 Stable and Controllable Polymer/Fullerene Composite Nanofibers through Cooperative Noncovalent Interactions for Organic Photovoltaics
DOI:10.1021/cm501251n JN:CHEMISTRY OF MATERIALS PY:2014 TC:13 AU: Li, Fei;Yager, Kevin G.;Dawson, Noel M.;Jiang, Ying-Bing;Malloy, Kevin J.;Qin, Yang;
2:34:11 A new insight into controlling poly(3-hexylthiophene) nanofiber growth through a mixed-solvent approach for organic photovoltaics applications
DOI:10.1039/c0jm02109a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:52 AU: Sun, Shuangyong;Salim, Teddy;Wong, Lydia Helena;Foo, Yong Lim;Boey, Freddy;Lam, Yeng Ming;
2:34:12 Controlling microstructure in poly(3-hexylthiophene) nanofibers
DOI:10.1039/c2jm13633c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:50 AU: Roehling, John D.;Arslan, Ilke;Moule, Adam J.;
2:34:13 Poly-(3)hexylthiophene nanowire networks for versatile fabrication of bulk heterojunctions with increased active volume
DOI:10.1116/1.4802928 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:1 AU: Kramer, Theodore J.;Chew, Annabel R.;Schiros, Theanne;Kymissis, Ioannis;Herman, Irving P.;
2:34:14 A New Method to Improve Poly(3-hexyl thiophene) (P3HT) Crystalline Behavior: Decreasing Chains Entanglement To Promote Order-Disorder Transformation in Solution
DOI:10.1021/la903381f JN:LANGMUIR PY:2010 TC:48 AU: Zhao, Kui;Xue, Longjian;Liu, Jiangang;Gao, Xiang;Wu, Shupeng;Han, Yanchun;Geng, Yanhou;
2:34:15 Oriented Poly(3-hexylthiophene) Nanofibril with the pi-pi Stacking Growth Direction by Solvent Directional Evaporation
DOI:10.1021/la105109t JN:LANGMUIR PY:2011 TC:40 AU: Liu, Jiangang;Sun, Yue;Gao, Xiang;Xing, Rubo;Zheng, Lidong;Wu, Shupeng;Geng, Yanhou;Han, Yanchun;
2:34:16 Cross-Linked Conjugated Polymer Fibrils: Robust Nanowires from Functional Polythiophene Diblock Copolymers
DOI:10.1021/cm2018345 JN:CHEMISTRY OF MATERIALS PY:2011 TC:26 AU: Hammer, Brenton A. G.;Bokel, Felicia A.;Hayward, Ryan C.;Emrick, Todd;
2:34:17 Cross-Linked Functionalized Poly(3-hexylthiophene) Nanofibers with Tunable Excitonic Coupling
DOI:10.1021/nn403392b JN:ACS NANO PY:2013 TC:9 AU: Baghgar, Mina;Pentzer, Emily;Wise, Adam J.;Labastide, Joelle A.;Emrick, Todd;Barnes, Michael D.;
2:34:18 Nano-Dimensional Self Assembly of Regioregular Poly (3-hexylthiophene) in Toluene: Structural, Optical, and Morphological Properties
DOI:10.1002/APP.40931 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:2 AU: Kumar, Ashish;Takashima, Wataru;Kaneto, Keiichi;Prakash, Rajiv;
2:34:19 Poly(3-alkylthiophene) nanofibers for optoelectronic devices
DOI:10.1039/c4tc00308j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Dierckx, Wouter;Oosterbaan, Wibren D.;Bolsee, Jean-Christophe;Maes, Wouter;Vanderzande, Dirk;Manca, Jean;
2:34:20 Photovoltaic effect of individual polymer nanotube
DOI:10.1063/1.4705373 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Tan, Jiahui;Jiang, Lang;He, Liangfu;Dong, Huanli;Hu, Wenping;
2:34:21 Novel n-Type Conjugated Ladder Heteroarenes: Synthesis, Self-Assembly of Nanowires, Electron Transport, and Electroluminescence of Bisindenoanthrazolines
DOI:10.1021/cm102147n JN:CHEMISTRY OF MATERIALS PY:2010 TC:26 AU: Ahmed, Eilaf;Earmme, Taeshik;Ren, Guoqiang;Jenekhe, Samson A.;
2:34:22 The Importance of Bridging Points for Charge Transport in Webs of Conjugated Polymer Nanofibers
DOI:10.1002/adfm.201102078 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:13 AU: Bolsee, Jean-Christophe;Oosterbaan, Wibren D.;Lutsen, Laurence;Vanderzande, Dirk;Manca, Jean;
2:34:23 Conjugated Polymers in Cages: Templating Poly(3-hexylthiophene) Nanocrystals by Inert Gel Matrices
DOI:10.1002/adma.201202288 JN:ADVANCED MATERIALS PY:2012 TC:5 AU: Benetti, Edmondo M.;Causin, Valerio;Maggini, Michele;
2:34:24 Self-Assembly of Poly(3-hexyl thiophene)-b-Poly(ethylene oxide) into Cylindrical Micelles in Binary Solvent Mixtures
DOI:10.1002/app.41186 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Li, Jingyi;Li, Xian;Ni, Debin;Wang, Jianying;Tu, Guoli;Zhu, Jintao;
2:34:25 A straightforward route to electron transporting conjugated polymers
DOI:10.1039/c2jm32217j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Nagarjuna, G.;Kokil, Akshay;Kumar, Jayant;Venkataraman, D.;
2:34:26 Morphology and field-effect transistor characteristics of semicrystalline poly(3-hexylthiophene) and poly(stearyl acrylate) blend nanowires
DOI:10.1039/c2jm31362f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Lin, Jung-Chuan;Lee, Wen-Ya;Wu, Hung-Chin;Chou, Chih-Chieh;Chiu, Yu-Cheng;Sun, Ya-Sen;Chen, Wen-Chang;
2:34:27 A quasi-ordered bulk heterojunction of P3HT/PCBM solar cells fabricated by zone-casting
DOI:10.1016/j.solmat.2013.06.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Liu, Jiangang;Gao, Xiang;Sun, Yue;Han, Yanchun;
2:34:28 Enhanced Charge Transportation in Semiconducting Polymer/Insulating Polymer Composites: The Role of an Interpenetrating Bulk Interface
DOI:10.1002/adfm.200902281 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:32 AU: Lu, Guanghao;Tang, Haowei;Huan, Yan;Li, Sijun;Li, Ligui;Wang, Yuzhen;Yang, Xiaoniu;
2:34:29 Nanocomposite "Superhighways" by Solution Assembly of Semiconductor Nanostructures with Ligand-Functionalized Conjugated Polymers
DOI:10.1002/adma.201104788 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Pentzer, Emily B.;Bokel, Felicia A.;Hayward, Ryan C.;Emrick, Todd;
2:34:30 Solubility-driven polythiophene nanowires and their electrical characteristics
DOI:10.1039/c0jm03114c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Park, Yeong Don;Lee, Seung Goo;Lee, Hwa Sung;Kwak, Donghoon;Lee, Dae Ho;Cho, Kilwon;
2:34:31 Template role of polyhexylthiophene nanowires on efficient bilayer photovoltaic cells
DOI:10.1016/j.synthmet.2014.01.006 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Rodrigues, Rita;Ferreira, Quirina;Mendonca, Ana Luisa;Morgadoab, Jorge;
2:34:32 Relationship between structural coherence and intrinsic carrier transport in an isolated poly(3-hexylthiophene) nanofiber
DOI:10.1103/PhysRevB.83.115314 JN:PHYSICAL REVIEW B PY:2011 TC:18 AU: Shimomura, Takeshi;Takahashi, Tomoyuki;Ichimura, Yasutaka;Nakagawa, Shino;Noguchi, Keiichi;Heike, Seiji;Hashizume, Tomihiro;
2:34:33 Microphase separation-promoted crystallization in all-conjugated poly(3-alkylthiophene) diblock copolymers with high crystallinity and carrier mobility
DOI:10.1039/c2jm33204c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Ge, Jing;He, Ming;Yang, Xiubao;Ye, Zhi;Liu, Xiaofeng;Qiu, Feng;
2:34:34 Nanowires with unusual packing of poly-(3-hexylthiophene)s induced by electric fields
DOI:10.1039/c4tc00668b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Ye, Zhi;Yang, Xiubao;Cui, Huina;Qiu, Feng;
2:34:35 Insight into how molecular structures of thiophene-based conjugated polymers affect crystallization behaviors
DOI:10.1016/j.polymer.2011.03.026 JN:POLYMER PY:2011 TC:33 AU: Liu, Jianhua;Mikhaylov, Ivan A.;Zou, Jianhua;Osaka, Itaru;Masunov, Artem E.;McCullough, Richard D.;Zhai, Lei;
2:34:36 Lamellar and liquid crystal ordering in solvent-annealed all-conjugated block copolymers
DOI:10.1039/c3sm53090f JN:SOFT MATTER PY:2014 TC:5 AU: Lin, Yen-Hao;Yager, Kevin G.;Stewart, Bridget;Verduzco, Rafael;
2:34:37 Nano-fibrils formation of pBTTT via adding alkylthiol into solutions: Control of morphology and crystalline structure
DOI:10.1016/j.polymer.2012.11.073 JN:POLYMER PY:2013 TC:2 AU: Wang, Haiyang;Liu, Jiangang;Han, Yanchun;
2:34:38 Poly(3-hexylthiophene) crystalline nanoribbon network for organic field effect transistors
DOI:10.1063/1.3455097 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Arif, M.;Liu, Jianhua;Zhai, Lei;Khondaker, Saiful I.;
2:34:39 Enhanced charge-carrier mobility in polymer nanofibers realized by solvent-resistant soft nanolithography
DOI:10.1039/c2jm33611a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Mele, Elisa;Lezzi, Francesca;Polini, Alessandro;Altamura, Davide;Giannini, Cinzia;Pisignano, Dario;
2:34:40 Fabricating polythiophene into highly aligned microwire film by fast evaporation of its whisker solution
DOI:10.1016/j.polymer.2010.02.049 JN:POLYMER PY:2010 TC:31 AU: He, Ming;Ge, Jing;Fang, Ming;Qiu, Feng;Yang, Yuliang;
2:34:41 Vapor-assisted imprinting to pattern poly(3-hexylthiophene) (P3HT) film with oriented arrangement of nanofibrils and flat-on conformation of P3HT chains
DOI:10.1016/j.polymer.2012.11.011 JN:POLYMER PY:2013 TC:3 AU: Liu, Jiangang;Sun, Yue;Zheng, Lidong;Geng, Yanhou;Han, Yanchun;
2:34:42 On the formation of non-emissive and emissive aggregates of regioregular poly(3-octylthiophene) in different local environments
DOI:10.1016/j.synthmet.2013.10.033 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Potai, Ruttayapon;Kamphan, Anothai;Traiphol, Rakchart;
2:34:43 On the Relation between Morphology and FET Mobility of Poly( 3-alkylthiophene) s at the Polymer/ SiO2 and Polymer/ Air Interface
DOI:10.1002/adfm.201303298 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Oosterbaan, Wibren D.;Bolsee, Jean-Christophe;Wang, Linjun;Vrindts, Veerle;Lutsen, Laurence J.;Lemaur, Vincent;Beljonne, David;McNeill, Christopher R.;Thomsen, Lars;Manca, Jean V.;Vanderzande, Dirk J. M.;
2:34:44 Reversible, Self Cross-Linking Nanowires from Thiol-Functionalized Polythiophene Diblock Copolymers
DOI:10.1021/am500976w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Hammer, Brenton A. G.;Reyes-Martinez, Marcos A.;Bokel, Felicia A.;Liu, Feng;Russell, Thomas P.;Hayward, Ryan C.;Briseno, Alejandro L.;Emrick, Todd;
2:34:45 Efficient bulk heterojunction photovoltaic cells with a pre-organized poly(3-hexylthiophene) phase
DOI:10.1063/1.3628658 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Moerman, D.;Lazzaroni, R.;Douheret, O.;
2:34:46 Encapsulation of Poly(3-hexylthiophene) J-Aggregate Nanofibers with an Amphiphilic Block Copolymer
DOI:10.1021/la3034337 JN:LANGMUIR PY:2012 TC:10 AU: Gao, Jian;Kamps, Amanda;Park, So-Jung;Grey, John K.;
2:34:47 Effects of hole and electron trapping on organic field-effect transistor transfer characteristic
DOI:10.1016/j.synthmet.2011.01.031 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Bolsee, Jean-Christophe;Manca, Jean;
2:34:48 Insulator surface modification of field-effect transistor using isolated poly(3-hexylthiophene) nanofiber
DOI:10.1016/j.synthmet.2013.05.007 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Miki, Takeo;Murasawa, Yoshihiro;Aronggaowa, Borjigin;Ota, Yutaka;Heike, Seiji;Hashizume, Tomihiro;Shimomura, Takeshi;
2:34:49 Robust polythiophene nanowires cross-linked with functional fullerenes
DOI:10.1039/c4tc01898b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Hammer, Brenton A. G.;Reyes-Martinez, Marcos A.;Bokel, Felicia A.;Liu, Feng;Russell, Thomas P.;Hayward, Ryan C.;Briseno, Alejandro L.;Emrick, Todd;
2:34:50 Soft Nanolithography by Polymer Fibers
DOI:10.1002/adfm.201001901 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:10 AU: Tu, Deyu;Pagliara, Stefano;Camposeo, Andrea;Potente, Giovanni;Mele, Elisa;Cingolani, Roberto;Pisignano, Dario;
2:34:51 Controlling the processable ZnO and polythiophene interface for dye-sensitized thin film organic solar cells
DOI:10.1016/j.tsf.2013.04.019 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Das, Sandeep K.;Abe, Katsunori;Yoshino, Kenji;Ogomi, Yuhei;Pandey, Shyam S.;Hayase, Shuzi;
2:34:52 Fabrication of one-dimensional multifunctional poly-Schiff base bars by anodic aluminum oxide template
DOI:10.1007/s11051-013-2135-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:1 AU: Ma, Lina;Niu, Haijun;Cai, Jiwei;Lian, Yongfu;Wu, Wenjun;Bai, Xuduo;Wang, Wen;
2:34:53 Enhancement of light polarization from electrospun polymer fibers by room temperature nanoimprint lithography
DOI:10.1088/0957-4484/21/21/215304 JN:NANOTECHNOLOGY PY:2010 TC:17 AU: Pagliara, Stefano;Camposeo, Andrea;Mele, Elisa;Persano, Luana;Cingolani, Roberto;Pisignano, Dario;
2:34:54 Spectroscopic study of the microstructure and phase transition of regioregular poly(3-dodecylthiophene)
DOI:10.1039/c2sm07191f JN:SOFT MATTER PY:2012 TC:8 AU: Guo, Yan;Jin, Yin;Su, Zhaohui;
2:34:55 Surface-Immobilized Monolayers of Conjugated Oligomers as a Platform for Fluorescent Sensors Design: The Effect of Exciton Delocalization on Chemosensing Performance
DOI:10.1002/adma.201202638 JN:ADVANCED MATERIALS PY:2013 TC:4 AU: Imsick, Brian G.;Acharya, Jiba Raj;Nesterov, Evgueni E.;
2:34:56 Structure Evolution of Poly(3-hexylthiophene) on Si Wafer and Poly(vinylphenol) Sublayer
DOI:10.1021/la501542h JN:LANGMUIR PY:2014 TC:0 AU: Sun, Xiaoli;Ren, Zhongjie;Liu, Junteng;Takahashi, Isao;Yan, Shouke;
2:34:57 Third-order optical susceptibility in polythiophene thin films prepared by spin-coating from high-boiling-point solvents
DOI:10.1016/j.tsf.2013.05.166 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Kobayashi, Takashi;Shinke, Wataru;Nagase, Takashi;Murakami, Shuichi;Naito, Hiroyoshi;
2:35:1 Navigating the Color Palette of Solution-Processable Electrochromic Polymers
DOI:10.1021/cm1021245 JN:CHEMISTRY OF MATERIALS PY:2011 TC:118 AU: Amb, Chad M.;Dyer, Aubrey L.;Reynolds, John R.;
2:35:2 Completing the Color Palette with Spray-Processable Polymer Electrochromics
DOI:10.1021/am200040p JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:70 AU: Dyer, Aubrey L.;Thompson, Emily J.;Reynolds, John R.;
2:35:3 Spray-Processable Blue-to-Highly Transmissive Switching Polymer Electrochromes via the Donor-Acceptor Approach
DOI:10.1002/adma.200902917 JN:ADVANCED MATERIALS PY:2010 TC:60 AU: Amb, Chad M.;Beaujuge, Pierre M.;Reynolds, John R.;
2:35:4 On-Substrate Preparation of an Electroactive Conjugated Polyazomethine from Solution-Processable Monomers and its Application in Electrochromic Devices
DOI:10.1002/adfm.201203657 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:18 AU: Sicard, Lambert;Navarathne, Daminda;Skalski, Thomas;Skene, W. G.;
2:35:5 Broadly Absorbing Black to Transmissive Switching Electrochromic Polymers
DOI:10.1002/adma.201002234 JN:ADVANCED MATERIALS PY:2010 TC:50 AU: Shi, Pengjie;Amb, Chad M.;Knott, Eric P.;Thompson, Emily J.;Liu, David Y.;Mei, Jianguo;Dyer, Aubrey L.;Reynolds, John R.;
2:35:6 Correlating on-substrate prepared electrochromes with their solution processed counterparts - towards validating polyazomethines as electrochromes in functioning devices
DOI:10.1039/c4tc01003e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Mulholland, Michael E.;Navarathne, Daminda;Petrus, Michiel L.;Dingemans, Theo J.;Skene, W. G.;
2:35:7 Material Strategies for Black-to-Transmissive Window-Type Polymer Electrochromic Devices
DOI:10.1021/am101148s JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:37 AU: Vasilyeva, Svetlana V.;Beaujuge, Pierre M.;Wang, Shujun;Babiarz, Joseph E.;Ballarotto, Vincent W.;Reynolds, John R.;
2:35:8 All-Organic Electrochromic Spandex
DOI:10.1021/am900767p JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:37 AU: Invernale, Michael A.;Ding, Yujie;Sotzing, Gregory A.;
2:35:9 Photopatternable Electrochromic Materials from Oxetane Precursors
DOI:10.1021/am500726n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Leliege, Antoine;Barik, Satyananda;Skene, W. G.;
2:35:10 Structure-Performance Correlations in Spray-Processable Green Dioxythiophene-Benzothiadiazole Donor-Acceptor Polymer Electrochromes
DOI:10.1021/cm202117d JN:CHEMISTRY OF MATERIALS PY:2012 TC:24 AU: Beaujuge, Pierre M.;Vasilyeva, Svetlana V.;Liu, David Y.;Ellinger, Stefan;McCarley, Tracy D.;Reynolds, John R.;
2:35:11 A simple, low waste and versatile procedure to make polymer electrochromic devices
DOI:10.1039/c1jm11141h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Ding, Yujie;Invernale, Michael A.;Mamangun, Donna M. D.;Kumar, Amrita;Sotzing, Gregory A.;
2:35:12 Preparation of Conjugated Polymers Inside Assembled Solid-State Devices
DOI:10.1002/adma.200902975 JN:ADVANCED MATERIALS PY:2010 TC:37 AU: Invernale, Michael A.;Ding, Yujie;Mamangun, Donna Marie D.;Yavuz, Mustafa S.;Sotzing, Gregory A.;
2:35:13 Donor-Acceptor Polymer Electrochromes with Tunable Colors and Performance
DOI:10.1021/cm100805g JN:CHEMISTRY OF MATERIALS PY:2010 TC:62 AU: Icli, Merve;Pamuk, Melek;Algi, Fatih;Onal, Ahmet M.;Cihaner, Atilla;
2:35:14 Conjugated thiophenoazomethines: electrochromic materials exhibiting visible-to-near-IR color changes
DOI:10.1039/c3tc30494a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Barik, Satyananda;Navarathne, Daminda;LeBorgne, Maxence;Skene, W. G.;
2:35:15 Solution Processable and Patternable Poly(3,4-alkylenedioxythiophene)s for Large-Area Electrochromic Films
DOI:10.1002/adma.201101900 JN:ADVANCED MATERIALS PY:2011 TC:37 AU: Kim, Jeonghun;You, Jungmok;Kim, Byeonggwan;Park, Teahoon;Kim, Eunkyoung;
2:35:16 Solid-State High-Throughput Screening for Color Tuning of Electrochromic Polymers
DOI:10.1002/adma.201302729 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Alamer, Fahad Alhashmi;Otley, Michael T.;Ding, Yujie;Sotzing, Gregory A.;
2:35:17 Processable donor-acceptor type electrochromes switching between multicolored and highly transmissive states towards single component RGB-based display devices
DOI:10.1039/c0jm01815e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:24 AU: Balan, Abidin;Baran, Derya;Toppare, Levent;
2:35:18 Polyelectrolytes exceeding ITO flexibility in electrochromic devices
DOI:10.1039/c4tc01855a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Zhu, Yumin;Otley, Michael T.;Zhang, Xiaozheng;Li, Mengfang;Asemota, Chris;Li, Geng;Invernalea, Michael A.;Sotzing, Gregory A.;
2:35:19 Direct Photopatterning of Electrochromic Polymers
DOI:10.1002/adfm.201203005 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:17 AU: Jensen, Jacob;Dyer, Aubrey L.;Shen, D. Eric;Krebs, Frederik C.;Reynolds, John R.;
2:35:20 Red, Green, Blue (RGB) Electrochromic Fibers for the New Smart Color Change Fabrics
DOI:10.1021/am502929p JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Li, Kerui;Zhang, Qinghong;Wang, Hongzhi;Li, Yaogang;
2:35:21 Conductivity Trends of PEDOT-PSS Impregnated Fabric and the Effect of Conductivity on Electrochromic Textile
DOI:10.1021/am100036n JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:33 AU: Ding, Yujie;Invernale, Michael A.;Sotzing, Gregory A.;
2:35:22 Fast Switching Water Processable Electrochromic Polymers
DOI:10.1021/am3015394 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:21 AU: Shi, Pengjie;Amb, Chad M.;Dyer, Aubrey L.;Reynolds, John R.;
2:35:23 Towards Electrochromic Devices Having Visible Color Switching Using Electronic Push-Push and Push-Pull Cinnamaldehyde Derivatives
DOI:10.1021/am4040009 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Navarathne, Daminda;Skene, W. G.;
2:35:24 Photochemical stability of electrochromic polymers and devices
DOI:10.1039/c3tc30751d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Jensen, Jacob;Madsen, Morten V.;Krebs, Frederik C.;
2:35:25 In situ spectroelectrochemistry and colour measurement of a complementary electrochromic device based on surface-confined Prussian blue and aqueous solution-phase methyl viologen
DOI:10.1016/j.solmat.2011.11.052 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:21 AU: Mortimer, Roger J.;Varley, Thomas S.;
2:35:26 From the Bottom Up - Flexible Solid State Electrochromic Devices
DOI:10.1002/adma.201402771 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Jensen, Jacob;Krebs, Frederik C.;
2:35:27 A precursor strategy for the synthesis of low band-gap polymers: an efficient route to a series of near-infrared electrochromic polymers
DOI:10.1039/c1jm10629e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Qian, Gang;Abu, Hana;Wang, Zhi Yuan;
2:35:28 Color-Tuning Neutrality for Flexible Electrochromics Via a Single-Layer Dual Conjugated Polymer Approach
DOI:10.1002/adma.201403370 JN:ADVANCED MATERIALS PY:2014 TC:0 AU: Otley, Michael T.;Zhu, Yumin;Zhang, Xiaozheng;Li, Mengfang;Sotzing, Gregory A.;
2:35:29 Electrochromic and electroluminescent devices based on a novel branched quasi-dendric fluorene-carbazole-2,5-bis(2-thienyl)-1H-pyrrole system
DOI:10.1039/c0jm02366c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Koyuncu, Sermet;Usluer, Ozlem;Can, Mustafa;Demic, Serafettin;Icli, Siddik;Sariciftci, Niyazi Serdar;
2:35:30 Ambipolar, multi-electrochromic polypyromellitimides and polynaphthalimides containing di(tert-butyl)-substituted bis(triarylamine) units
DOI:10.1039/c3tc32005g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Wang, Hui-Min;Hsiao, Sheng-Huei;
2:35:31 Solid-state electrochromic devices: relationship of contrast as a function of device preparation parameters
DOI:10.1039/c3tc32319f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:11 AU: Kumar, Amrita;Otley, Michael T.;Alamar, Fahad Alhasmi;Zhu, Yumin;Arden, Blaise G.;Sotzing, Gregory A.;
2:35:32 Gray to Colorless Switching, Crosslinked Electrochromic Polymers with Outstanding Stability and Transmissivity From Naphthalenediimmide-Functionalized EDOT
DOI:10.1002/adma.201200111 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Sassi, Mauro;Salamone, Matteo M.;Ruffo, Riccardo;Mari, Claudio M.;Pagani, Giorgio A.;Beverina, Luca;
2:35:33 Acrylated Poly(3,4-propylenedioxythiophene) for Enhancement of Lifetime and Optical Properties for Single-Layer Electrochromic Devices
DOI:10.1021/am404686w JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Otley, Michael T.;Alamer, Fahad Alhashmi;Zhu, Yumin;Singhayiranon, Ashwin;Zhang, Xiaozheng;Li, Mengfang;Kumar, Amrita;Sotzing, Gregory A.;
2:35:34 Novel Color-Reinforcing Electrochromic Device Based on Surface-Confined Ruthenium Purple and Solution-Phase Methyl Viologen
DOI:10.1021/cm201951n JN:CHEMISTRY OF MATERIALS PY:2011 TC:20 AU: Mortimer, Roger J.;Varley, Thomas S.;
2:35:35 Establishing Dual Electrogenerated Chemiluminescence and Multicolor Electrochromism in Functional Ionic Transition-Metal Complexes
DOI:10.1021/ja2065297 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:17 AU: Puodziukynaite, Egle;Oberst, Justin L.;Dyer, Aubrey L.;Reynolds, John R.;
2:35:36 Synthesis and Spectroelectrochemical Investigation of Low-Bandgap Polymer: Integrated Quinoxaline and Benzimidazole in One Electron Acceptor Unit
DOI:10.1002/APP.40861 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Mahmut, Mamtimin;Awut, Tunsagul;Nurulla, Ismayil;Mijit, Maxhur;
2:35:37 EDOT-containing azomethine: an easily prepared electrochromically active material with tuneable colours
DOI:10.1039/b923821b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:29 AU: Bolduc, Andreanne;Dufresne, Stephane;Skene, W. G.;
2:35:38 A blue to highly transmissive soluble electrochromic polymer based on poly(3,4-propylenedioxyselenophene) with a high stability and coloration efficiency
DOI:10.1039/c0jm04285d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Ozkut, Merve Icli;Atak, Samed;Onal, Ahmet M.;Cihaner, Atilla;
2:35:39 Synthesis and electrochromic properties of polyacrylate functionalized poly(3,4-ethylenedioxythiophene) network films
DOI:10.1039/c2jm32457a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Qin, Leiqiang;Xu, Jingkun;Lu, Baoyang;Lu, Yao;Duan, Xuemin;Nie, Guangming;
2:35:40 Donor-acceptor-donor type conjugated polymers for electrochromic applications: benzimidazole as the acceptor unit
DOI:10.1016/j.polymer.2010.10.045 JN:POLYMER PY:2010 TC:33 AU: Akpinar, Hava;Balan, Abidin;Baran, Derya;Unver, Elif Kose;Toppare, Levent;
2:35:41 A new low band gap electrochromic polymer containing 2,5-bis-dithienyl-1H-pyrrole and 2,1,3-benzoselenadiazole moiety with high contrast ratio
DOI:10.1016/j.polymer.2011.10.017 JN:POLYMER PY:2011 TC:12 AU: Koyuncu, Fatma Baycan;Sefer, Emre;Koyuncu, Sermet;Ozdemir, Eyup;
2:35:42 A Side-Chain Defunctionalization Approach Yields a Polymer Electrochrome Spray-Processable from Water
DOI:10.1002/adma.201003116 JN:ADVANCED MATERIALS PY:2010 TC:22 AU: Beaujuge, Pierre M.;Amb, Chad M.;Reynolds, John R.;
2:35:43 Mapping the Broad CMY Subtractive Primary Color Gamut Using a Dual-Active Electrochromic Device
DOI:10.1021/am500290d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Bulloch, Rayford H.;Kerszulis, Justin A.;Dyer, Aubrey L.;Reynolds, John R.;
2:35:44 Chemical doping of EDOT azomethine derivatives: insight into the oxidative and hydrolytic stability
DOI:10.1039/c2jm14248a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Bolduc, Andreanne;Dufresne, Stephane;Skene, W. G.;
2:35:45 Spectral investigation of conjugated azomethines: A large palette of colors possible with acid and oxidant doping
DOI:10.1016/j.matchemphys.2011.12.002 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:10 AU: Bolduc, Andreanne;Rivier, Lucie;Dufresne, Stephane;Skene, W. G.;
2:35:46 Synthesis and charge carrier mobility of a solution-processable conjugated copolymer based on cyclopenta[c]thiophene
DOI:10.1016/j.polymer.2011.10.014 JN:POLYMER PY:2011 TC:12 AU: Das, Soumyajit;Senanayak, Satyaprasad P.;Bedi, Anjan;Narayan, K. S.;Zade, Sanjio S.;
2:35:47 In Situ Spectroscopic Analysis of Sub-Second Switching Polymer Electrochromes
DOI:10.1002/adfm.201101605 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:4 AU: Liu, David Y.;Chilton, Andrew D.;Shi, Pengjie;Craig, Michael R.;Miles, Steven D.;Dyer, Aubrey L.;Ballarotto, Vincent W.;Reynolds, John R.;
2:35:48 Electrochromic Properties of Inkjet Printed Vanadium Oxide Gel on Flexible Polyethylene Terephthalate/Indium Tin Oxide Electrodes
DOI:10.1021/am301213b JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:14 AU: Costa, Claudia;Pinheiro, Carlos;Henriques, Ines;Laia, Cesar A. T.;
2:35:49 A new organo-inorganic hybrid of poly(cyclotriphosphazene-4,4 '-bipyridinium)chloride with a large electrochromic contrast
DOI:10.1039/c3tc31486c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Sydam, Rambabu;Deepa, Melepurath;
2:35:50 Spectroelectrochemical and electrochemical investigation of a highly conjugated all-thiophene polyazomethine
DOI:10.1016/j.matchemphys.2011.04.060 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:14 AU: Barik, Satyananda;Bishop, Sophie;Skene, W. G.;
2:35:51 Syntheses, electrochemical and photophysical properties of biphenyl containing conjugated copolymers
DOI:10.1016/j.polymer.2013.02.052 JN:POLYMER PY:2013 TC:3 AU: Deniz, Tugba Kaya;Nurioglu, Ayda Goycek;Unlu, Naime Akbasoglu;Sendur, Merve;Toppare, Levent;Cirpan, Ali;
2:35:52 A complementary electrochromic device based on Prussian blue and poly(ProDOT-Et-2) with high contrast and high coloration efficiency
DOI:10.1016/j.solmat.2011.03.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:12 AU: Chen, Kun-Chieh;Hsu, Chih-Yu;Hu, Chih-Wei;Ho, Kuo-Chuan;
2:35:53 Influence of molecular weight on silole-containing cyclopentadithiophene polymer and its impact on the electrochromic properties
DOI:10.1016/j.solmat.2011.11.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Huang, Jen-Hsien;Huang, Annie Tzuyu;Hsu, Chih-Yu;Lin, Jiann-Tsuen;Chu, Chih-Wei;
2:35:54 Fluorene-Carbazole Dendrimers: Synthesis, Thermal, Photophysical and Electroluminescent Device Properties
DOI:10.1002/adfm.201001153 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:28 AU: Usluer, Ozlem;Demic, Serafettin;Egbe, Daniel A. M.;Birckner, Eckhard;Tozlu, Cem;Pivrikas, Almantas;Ramil, Alberto Montaigne;Sariciftci, Niyazi Serdar;
2:35:55 Textile-Based Flexible Electroluminescent Devices
DOI:10.1002/adfm.201001110 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:10 AU: Hu, Bin;Li, Dapeng;Ala, Okan;Manandhar, Prakash;Fan, Qinguo;Kasilingam, Dayalan;Calvert, Paul D.;
2:35:56 The Influence of Charge Trapping on the Electrochromic Performance of Poly(3,4-alkylenedioxythiophene) Derivatives
DOI:10.1021/am900752m JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:25 AU: Huang, Jen-Hsien;Hsu, Chih-Yu;Hu, Chih-Wei;Chu, Chih-Wei;Ho, Kuo-Chuan;
2:35:57 Matched-Dual-Polymer Electrochromic Lenses, Using New Cathodically Coloring Conducting Polymers, with Exceptional Performance and Incorporated Into Automated Sunglasses
DOI:10.1002/app.41043 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:3 AU: Chandrasekhar, Prasanna;Zay, Brian J.;Cai, Chunming;Chai, Yanjie;Lawrence, David;
2:35:58 Towards materials with reversible oxidation and tuneable colours using heterocyclic conjugated azomethines
DOI:10.1039/c0jm00557f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:22 AU: Dufresne, Stephane;Bolduc, Andreanne;Skene, W. G.;
2:35:59 Effective process to achieve enhanced electrochromic performances based on poly(4,4 ',4 ''-tris[4-(2-bithienyl)pheny]amine)/ZnO nanorod composites
DOI:10.1088/0957-4484/24/26/265705 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Lv, X. J.;Sun, J. W.;Hu, B.;Ouyang, M.;Fu, Z. Y.;Wang, P. J.;Bian, G. F.;Zhang, C.;
2:35:60 Electrochromic properties of carbon nanotubes/Prussian blue nanocomposite films
DOI:10.1016/j.solmat.2012.10.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Nossol, Edson;Zarbin, Aldo J. G.;
2:35:61 Near-Infrared Thermochromic Diazapentalene Dyes
DOI:10.1002/adma.201104711 JN:ADVANCED MATERIALS PY:2012 TC:5 AU: Qian, Gang;Wang, Zhi Yuan;
2:35:62 Multi-coloration of polyurethane derivatives through click postfunctionalization, electrochemical oxidation, and Ag+ ion complexation
DOI:10.1039/c2jm30298e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Li, Yongrong;Michinobu, Tsuyoshi;
2:35:63 Synthesis and electrochromic properties of polyamides having pendent carbazole groups
DOI:10.1016/j.matchemphys.2013.05.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:4 AU: Hsiao, Sheng-Huei;Wang, Hui-Min;Lin, Jun-Wen;Guo, Wenjeng;Kung, Yu-Ruei;Leu, Chyi-Ming;Lee, Tzong-Ming;
2:35:64 Synthesis and characterization of conducting copolymer of Trans-1-(4-methyl-3'-thienyl)-2-(ferrocenyl)ethene with EDOT
DOI:10.1002/app.36948 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:10 AU: Turac, Ersen;Sahmetlioglu, Ertugrul;Demircan, Aydin;Toppare, Levent;
2:35:65 Benzo[1,2-b:4,5-b ']dithiophene-based copolymers applied in bottom-contact field-effect transistors
DOI:10.1016/j.polymer.2010.05.022 JN:POLYMER PY:2010 TC:9 AU: Leenen, Mark A. M.;Cucinotta, Fabio;Pisula, Wojciech;Steiger, Juergen;Anselmann, Ralf;Thiem, Heiko;De Cola, Luisa;
2:35:66 A novel terthienyl based polymer electrochrome with peripheral BODIPY
DOI:10.1016/j.polymer.2012.06.007 JN:POLYMER PY:2012 TC:4 AU: Algi, Fatih;Cihaner, Atilla;
2:35:67 Electrochromic devices based on surface-confined Prussian blue or Ruthenium purple and aqueous solution-phase di-n-heptyl viologen
DOI:10.1016/j.solmat.2012.11.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Mortimer, Roger J.;Varley, Thomas S.;
2:35:68 Electrosynthesises and characterizations of copolymers based on thiophene and 3,4-ethylenedioxythiophene in boron trifluoride diethyl etherate
DOI:10.1016/j.synthmet.2012.10.011 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Zhang Zhao-yang;Tao Yi-jie;Xu Xiao-qian;Zhou Yong-jiang;Cheng Hai-feng;Zheng Wen-wei;
2:35:69 Electrosynthesis and characterization of a novel electrochromic film based on poly (4,4'-di(N-carbazolyl)triphenylamine)
DOI:10.1016/j.synthmet.2013.12.002 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Fu, Xingqi;Jia, Chunyang;Wu, Shanlin;Weng, Xiaolong;Xie, Jianliang;Deng, Longjiang;
2:35:70 Electron rich APFO polymer with dual electrochromism and electroluminescence
DOI:10.1039/c1jm10345h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:4 AU: Koldemir, Unsal;Graham, Kenneth R.;Salazar, Danielle H.;McCarley, Tracy D.;Reynolds, John R.;
2:35:71 Colour tunable electrochromic devices based on PProDOT-(Hx)(2) and PProDOT-(EtHx)(2) polymers
DOI:10.1039/c3tc31011f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Weng, Bo;Ashraf, Syed;Innis, Peter C.;Wallace, Gordon G.;
2:35:72 New spirobifluorene-based hole-transporting semiconductors for electroluminescent devices
DOI:10.1039/c4tc01458h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Usluer, Ozlem;
2:35:73 Structure-property relations in donor-acceptor-donor type benzimidazole containing conjugated polymers
DOI:10.1007/s10853-013-7696-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:2 AU: Zaifoglu, Buket;Hacioglu, Serife O.;Unlu, Naime A.;Cirpan, Ali;Toppare, Levent;
2:35:74 New class of 2,5-di(2-thienyl)pyrrole compounds and novel optical properties of its conducting polymer
DOI:10.1016/j.matchemphys.2013.07.019 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:5 AU: Soyleyici, Hakan Can;Ak, Metin;Sahin, Yuksel;Demikol, Dilek Odaci;Timur, Suna;
2:35:75 Neutral state colorless electrochromic polymer networks: Spacer effect on electrochromic performance
DOI:10.1016/j.polymer.2014.09.041 JN:POLYMER PY:2014 TC:0 AU: Gulfidan, Damla;Sefer, Emre;Koyuncu, Sermet;Acar, Metin H.;
2:35:76 Fast switching Prussian blue film by modification with cetyltrimethylammonium bromide
DOI:10.1016/j.solmat.2011.05.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Yang, Dung-Jing;Hsu, Chih-Yu;Lin, Cheng-Lan;Chen, Po-Yen;Hu, Chih-Wei;Vittal, R.;Ho, Kuo-Chuan;
2:35:77 Electronic and optical properties of dibenzothiophen-S,S-dioxide and EDOT based conducting polymers
DOI:10.1016/j.synthmet.2011.06.033 JN:SYNTHETIC METALS PY:2011 TC:10 AU: Camurlu, Pinar;Durak, Tarik;Balan, Abidin;Toppare, Levent;
2:35:78 Azomethine-based phenol polymer: Synthesis, characterization and thermal study
DOI:10.1016/j.synthmet.2010.11.001 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Dogan, Fatih;Kaya, Ismet;Bilici, Ali;
2:35:79 Selective Stabilization of Self-Assembled Hydrogen-Bonded Molecular Capsules Through pi-pi Interactions
DOI:10.1021/ja211410x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Tiefenbacher, Konrad;Rebek, Julius, Jr.;
2:35:80 Specroelectrochemical, Switching Kinetics, and Chronoamperometric Studies of Dibenzyl Derivative of Poly(3,4-propylenedioxythiophene) Thin-Film-Based Electrochromic Device
DOI:10.1002/app.40717 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Lakshmanan, Raja;Raja, Palani Prabhu;Shivaprakash, Narayanapura Channegowda;Nair, Sindhu Sukumaran;
2:35:81 Near infrared electrochromic polymers based on phenazine moieties
DOI:10.1016/j.matchemphys.2011.10.014 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:12 AU: Esmer, Elif Nazli;Tarkuc, Simge;Udum, Yasemin Arslan;Toppare, Levent;
2:35:82 A complementary electrochromic system based on a Prussian blue thin film and a heptyl viologen solution
DOI:10.1016/j.solmat.2011.06.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Lin, Chiao-Fen;Hsu, Chih-Yu;Lo, Hwa-Chiang;Lin, Cheng-Lan;Chen, Lin-Chi;Ho, Kuo-Chuan;
2:35:83 Role played by chain length and polarity of n-substitutents in electrochromic polymers from the tri-heterocyclic monomer pyrrole-thiophene-pyrrole
DOI:10.1016/j.solmat.2011.07.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:4 AU: Salamone, Matteo M.;Silvestri, Fabio;Sassi, Mauro;Mari, Claudio M.;Ruffo, Riccardo;Beverina, Luca;Pagani, Giorgio A.;
2:35:84 Synthesis and electropolymerization of 3,4-substituted quinoxaline functionalized pyrrole monomer and optoelectronic properties of its polymer
DOI:10.1016/j.synthmet.2014:04.002 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Kurtay, Gulbin;Ak, Metin;Gullu, Mustafa;Toppare, Levent;Ak, Mine Sulak;
2:35:85 Synthesis and characterization of low band gap thiadiazolobenzo-imidazole chromophores
DOI:10.1016/j.synthmet.2013.12.014 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Li, Duo;Qian, Gang;Wang, Zhi Yuan;
2:35:86 Surface-Initiated Phase Separation - Fabrication of Two-Layer Organic Light-Emitting Devices in a Single Processing Step
DOI:10.1002/adma.201102368 JN:ADVANCED MATERIALS PY:2011 TC:3 AU: Koehnen, Anne;Riegel, Nina;Mueller, David C.;Meerholz, Klaus;
2:35:87 Synthesis and Properties of Polymer from Bis-3,4-ethylenedioxythiophene Substituted Acenaphthenequinoxaline
DOI:10.1002/app.32376 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:7 AU: Matsidik, Rukiya;Mamtimin, Xirali;Mi, Hong Yu;Nurulla, Ismayil;
2:35:88 Synthesis and Characterization of Conducting Copolymers of Quinoxaline Derivatives
DOI:10.1002/app.33317 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:4 AU: Turac, Ersen;Sahmetlioglu, Ertugrul;Toppare, Levent;Yuruk, Huseyin;
2:35:89 Electrosynthesis and Characterization of an Electrochromic Material from Poly(1,6-bis(2-thienyl)pyrene) and Its Application in Electrochromic Device
DOI:10.1002/app.39770 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:2 AU: Cheng, Xinfeng;Fu, Yunzhi;Zhao, Jinsheng;Zhang, Yucang;
2:35:90 Synthesis of aromatic poly(pyridinium salt)s and their electrochromic properties
DOI:10.1016/j.matchemphys.2013.02.059 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Keshtov, M. L.;Udum, Y. Arslan;Toppare, L.;Kochurov, V. S.;Khokhlov, A. R.;
2:35:91 Ferrocenyl dithiophosphonate functionalized inorganic-organic hybrid conductive polymer with green color in neutral state
DOI:10.1016/j.synthmet.2013.07.017 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Cilgi, Gulbanu Koyundereli;Karakus, Mehmet;Ak, Metin;
2:35:92 Pulse electrodeposition of Prussian Blue thin films
DOI:10.1016/j.tsf.2013.06.029 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Najafisayar, P.;Bahrololoom, M. E.;
2:36:1 Controlled Synthesis of Organic Nanophotonic Materials with Specific Structures and Compositions
DOI:10.1002/adma.201305913 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Cui, Qiu Hong;Zhao, Yong Sheng;Yao, Jiannian;
2:36:2 Organic Single-Crystalline p-n Junction Nanoribbons
DOI:10.1021/ja102779x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:79 AU: Zhang, Yajie;Dong, Huanli;Tang, Qingxin;Ferdous, Sunzida;Liu, Feng;Mannsfeld, Stefan C. B.;Hu, Wenping;Briseno, Alejandro L.;
2:36:3 Two-Photon Pumped Lasing in Single-Crystal Organic Nanowire Exciton Polariton Resonators
DOI:10.1021/ja200549v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:65 AU: Zhang, Chuang;Zou, Chang-Ling;Yan, Yongli;Hao, Rui;Sun, Fang-Wen;Han, Zheng-Fu;Zhao, Yong Sheng;Yao, Jiannian;
2:36:4 Recent Advances in Organic One-Dimensional Composite Materials: Design, Construction, and Photonic Elements for Information Processing
DOI:10.1002/adma.201300325 JN:ADVANCED MATERIALS PY:2013 TC:20 AU: Yan, Yongli;Zhang, Chuang;Yao, Jiannian;Zhao, Yong Sheng;
2:36:5 Fraction of a Millimeter Propagation of Exciton Polaritons in Photoexcited Nanofibers of Organic Dye
DOI:10.1103/PhysRevLett.105.067401 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:45 AU: Takazawa, Ken;Inoue, Jun-ichi;Mitsuishi, Kazutaka;Takamasu, Tadashi;
2:36:6 Wire-on-Wire Growth of Fluorescent Organic Heterojunctions
DOI:10.1021/ja209815f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:33 AU: Zheng, Jian Yao;Yan, Yongli;Wang, Xiaopeng;Zhao, Yong Sheng;Huang, Jiaxing;Yao, Jiannian;
2:36:7 Formation of Photoconductive Nanowires of Tetracene Derivative in Composite Thin Film
DOI:10.1021/am302914w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Suzuki, Tsuyoshi;Okamoto, Toshihiro;Saeki, Akinori;Seki, Shu;Sato, Hiroyasu;Matsuo, Yutaka;
2:36:8 Controlling Chemical Self-Assembly by Solvent-Dependent Dynamics
DOI:10.1021/ja305512g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:38 AU: Korevaar, Peter A.;Schaefer, Charley;de Greef, Tom F. A.;Meijer, E. W.;
2:36:9 Patterned Growth of Vertically Aligned Organic Nanowire Waveguide Arrays
DOI:10.1021/nn901567z JN:ACS NANO PY:2010 TC:54 AU: Zhao, Yong Sheng;Zhan, Peng;Kim, Jaemyung;Sun, Cheng;Huang, Jiaxing;
2:36:10 Polarized Emission and Optical Waveguide in Crystalline Perylene Diimide Microwires
DOI:10.1002/adma.201000731 JN:ADVANCED MATERIALS PY:2010 TC:44 AU: Bao, Qiaoliang;Goh, Bee Min;Yan, Bin;Yu, Ting;Shen, Zexiang;Loh, Kian Ping;
2:36:11 Orange-Blue-Orange Triblock One-Dimensional Heterostructures of Organic Microrods for White-Light Emission
DOI:10.1021/ja9084435 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:57 AU: Lei, Yilong;Liao, Qing;Fu, Hongbing;Yao, Jiannian;
2:36:12 Self-Modulated White Light Outcoupling in Doped Organic Nanowire Waveguides via the Fluctuations of Singlet and Triplet Excitons During Propagation
DOI:10.1002/adma.201003829 JN:ADVANCED MATERIALS PY:2011 TC:37 AU: Zhang, Chuang;Zheng, Jian Yao;Zhao, Yong Sheng;Yao, Jiannian;
2:36:13 Optical Modulation Based on Direct Photon-Plasmon Coupling in Organic/Metal Nanowire Heterojunctions
DOI:10.1002/adma.201202698 JN:ADVANCED MATERIALS PY:2012 TC:17 AU: Yan, Yongli;Zhang, Chuang;Zheng, Jian Yao;Yao, Jiannian;Zhao, Yong Sheng;
2:36:14 One-Dimensional Organic Photonic Heterostructures: Rational Construction and Spatial Engineering of Excitonic Emission
DOI:10.1002/adma.201104326 JN:ADVANCED MATERIALS PY:2012 TC:19 AU: Zhang, Chuang;Yan, Yongli;Jing, Yuan-Yuan;Shi, Qiang;Zhao, Yong Sheng;Yao, Jiannian;
2:36:15 Coaxial Organic p-n Heterojunction Nanowire Arrays: One-Step Synthesis and Photoelectric Properties
DOI:10.1002/adma.201104594 JN:ADVANCED MATERIALS PY:2012 TC:29 AU: Cui, Qiu Hong;Jiang, Lang;Zhang, Chuang;Zhao, Yong Sheng;Hu, Wenping;Yao, Jiannian;
2:36:16 Manipulation of Light Flows in Organic Color-Graded Microstructures towards Integrated Photonic Heterojunction Devices
DOI:10.1002/adma.201300201 JN:ADVANCED MATERIALS PY:2013 TC:13 AU: Zhang, Chuang;Yan, Yongli;Yao, Jiannian;Zhao, Yong Sheng;
2:36:17 Large-scale, ultra-dense and vertically standing zinc phthalocyanine pi-pi stacks as a hole-transporting layer on an ITO electrode
DOI:10.1039/c2jm35342c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Lu, Zhenhuan;Zhan, Chuanlang;Yu, Xiaowei;He, Weiwei;Jia, Hui;Chen, Lili;Tang, Ailing;Huang, Jianhua;Yao, Jiannian;
2:36:18 Photonic applications of one-dimensional organic single-crystalline nanostructures: optical waveguides and optically pumped lasers
DOI:10.1039/c1jm14721h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:29 AU: Cui, Qiu Hong;Zhao, Yong Sheng;Yao, Jiannian;
2:36:19 Enhancing Long-Range Exciton Guiding in Molecular Nanowires by H-Aggregation Lifetime Engineering
DOI:10.1021/nl1033039 JN:NANO LETTERS PY:2011 TC:43 AU: Chaudhuri, Debangshu;Li, Dongbo;Che, Yanke;Shafran, Eyal;Gerton, Jordan M.;Zang, Ling;Lupton, John M.;
2:36:20 Exciton Polaritons in 1D Organic Nanocrystals
DOI:10.1002/adfm.201102173 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:11 AU: Yan, Yongli;Zhao, Yong Sheng;
2:36:21 Hydrogen Peroxide Vapor Sensing with Organic Core/Sheath Nanowire Optical Waveguides
DOI:10.1002/adma.201200867 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Zheng, Jian Yao;Yan, Yongli;Wang, Xiaopeng;Shi, Wen;Ma, Huimin;Zhao, Yong Sheng;Yao, Jiannian;
2:36:22 Optical Wavelength Filters Based on Photonic Confinement in Semiconductor Nanowire Homojunctions
DOI:10.1002/adma.201303482 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Ye, Jian;Zhang, Chuang;Zou, Chang-Ling;Yan, Yongli;Gu, Jianmin;Zhao, Yong Sheng;Yao, Jiannian;
2:36:23 Growth of Polythiophene/Perylene Tetracarboxydiimide Donor/Acceptor Shish-Kebab Nanostructures by Coupled Crystal Modification
DOI:10.1021/nn3043836 JN:ACS NANO PY:2012 TC:16 AU: Bu, Laju;Pentzer, Emily;Bokel, Felicia A.;Emrick, Todd;Hayward, Ryan C.;
2:36:24 Solvent-Assisted Self-Assembly of Fullerene into Single-Crystal Ultrathin Microribbons as Highly Sensitive UV-Visible Photodetectors
DOI:10.1021/nn402889h JN:ACS NANO PY:2013 TC:18 AU: Wei, Lang;Yao, Jiannian;Fu, Hongbing;
2:36:25 Vertically Aligned Hybrid Core/Shell Semiconductor Nanowires for Photonics Applications
DOI:10.1002/adfm.201301120 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:5 AU: Macias-Montero, Manuel;Nicolas Filippin, A.;Saghi, Zineb;Aparicio, Francisco J.;Barranco, Angel;Espinos, Juan P.;Frutos, Fabian;Gonzalez-Elipe, Agustin R.;Borras, Ana;
2:36:26 White-Light Emitting Microtubes of Mixed Organic Charge-Transfer Complexes
DOI:10.1002/adma.201201493 JN:ADVANCED MATERIALS PY:2012 TC:28 AU: Lei, Yi-Long;Jin, Yue;Zhou, Dong-Ying;Gu, Wei;Shi, Xiao-Bo;Liao, Liang-Sheng;Lee, Shuit-Tong;
2:36:27 Low-Threshold Nanolasers Based on Slab-Nanocrystals of H-Aggregated Organic Semiconductors
DOI:10.1002/adma.201201579 JN:ADVANCED MATERIALS PY:2012 TC:27 AU: Xu, Zhenzhen;Liao, Qing;Shi, Qiang;Zhang, Haoli;Yao, Jiannian;Fu, Hongbing;
2:36:28 Embedded Branch-Like Organic/Metal Nanowire Heterostructures: Liquid-Phase Synthesis, Efficient Photon-Plasmon Coupling, and Optical Signal Manipulation
DOI:10.1002/adma.201203829 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Li, Yong Jun;Yan, Yongli;Zhang, Chuang;Zhao, Yong Sheng;Yao, Jiannian;
2:36:29 Micrometer-Scale Photonic Circuit Components Based on Propagation of Exciton Polaritons in Organic Dye Nanofibers
DOI:10.1002/adma.201100827 JN:ADVANCED MATERIALS PY:2011 TC:20 AU: Takazawa, Ken;Inoue, Jun-ichi;Mitsuishi, Kazutaka;Takamasu, Tadashi;
2:36:30 Incorporating polaritonic effects in semiconductor nanowire waveguide dispersion
DOI:10.1063/1.3479896 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: van Vugt, Lambert K.;Piccione, Brian;Agarwal, Ritesh;
2:36:31 Controlled Morphogenesis of Organic Polyhedral Nanocrystals from Cubes, Cubooctahedrons, to Octahedrons by Manipulating the Growth Kinetics
DOI:10.1021/ja108730u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:28 AU: Kang, Longtian;Fu, Hongbing;Cao, Xinqiang;Shi, Qiang;Yao, Jiannian;
2:36:32 Optical Waveguiding and Lasing Action in Porphyrin Rectangular Microtube with Subwavelength Wall Thicknesses
DOI:10.1021/nn200027x JN:ACS NANO PY:2011 TC:20 AU: Yoon, Seok Min;Lee, Jooran;Je, Jung Ho;Choi, Hee Cheul;Yoon, Minjoong;
2:36:33 Ultracompact Asymmetric MachZehnder Interferometers with High Visibility Constructed from Exciton Polariton Waveguides of Organic Dye Nanofibers
DOI:10.1002/adfm.201202108 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:10 AU: Takazawa, Ken;Inoue, Jun-ichi;Mitsuishi, Kazutaka;Kuroda, Takashi;
2:36:34 Epitaxial Self-assembly of Binary Molecular Components into Branched Nanowire Heterostructures for Photonic Applications
DOI:10.1021/ja410069k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Kong, Qinghua;Liao, Qing;Xu, Zhenzhen;Wang, Xuedong;Yao, Jiannian;Fu, Hongbing;
2:36:35 Tunable Morphology of the Self-Assembled Organic Microcrystals for the Efficient Laser Optical Resonator by Molecular Modulation
DOI:10.1021/ja5088503 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Wang, Xuedong;Li, Hui;Wu, Yishi;Xu, Zhenzhen;Fu, Hongbing;
2:36:36 A Top-down Approach to Fabrication of High Quality Vertical Heterostructure Nanowire Arrays
DOI:10.1021/nl2001132 JN:NANO LETTERS PY:2011 TC:20 AU: Wang, Hua;Sun, Minghua;Ding, Kang;Hill, Martin T.;Ning, Cun-Zheng;
2:36:37 Fabry-Perot modes and optical waveguide effects in individual thiophene/phenylene co-oligomer nanoneedle crystals
DOI:10.1063/1.4813554 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Bando, Kazuki;Takano, Tomohiro;Fujii, Honami;Nakano, Tamiko;Makino, Daisuke;Kumeta, Shohei;Sasaki, Fumio;Hotta, Shu;
2:36:38 Optical Microring Resonators Constructed from Organic Dye Nanofibers and Their Application to Miniaturized Channel Drop/Add Filters
DOI:10.1021/am4011379 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Takazawa, Ken;Inoue, Jun-ichi;Mitsuishi, Kazutaka;
2:36:39 Planar Active Organic Waveguide and Wavelength Filter: Self-Assembled meso-Tetratolylporphyrin Hexagonal Nanosheet
DOI:10.1021/am4039163 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Chandrasekhar, Naisa;Basak, Supratim;Mohiddon, Mahamad Ahamad;Chandrasekar, Rajadurai;
2:36:40 Selective Growth of Dual-Color-Emitting Heterogeneous Microdumbbells Composed of Organic Charge-Transfer Complexes
DOI:10.1021/ja3114278 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Lei, Yi Long;Liao, Liang Sheng;Lee, Shuit Tong;
2:36:41 Facile solution synthesis without surfactant assistant for ultra long Alq3 sub-microwires and their enhanced field emission and waveguide properties
DOI:10.1039/b924459j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: Xu, Gang;Tang, Yong-Bing;Tsang, Chi-Him;Zapien, Juan-Antonio;Lee, Chun-Sing;Wong, Ning-Bew;
2:36:42 Passive optical waveguiding organic rectangular tubes: tube cutting, controlling light propagation distance and multiple optical out-puts
DOI:10.1039/c3tc31576b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Basak, Supratim;Chandrasekar, Rajadurai;
2:36:43 Direct electron beam writing of Bragg gratings in exciton polariton waveguides of organic dye nanofibers
DOI:10.1063/1.3671148 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Takazawa, Ken;Mitsuishi, Kazutaka;Inoue, Jun-ichi;
2:36:44 Perylene crystals: tuning optoelectronic properties by dimensional-controlled synthesis
DOI:10.1039/c4tc01999g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Liao, Qing;Zhang, Haihua;Zhu, Weigang;Hu, Ke;Fu, Hongbing;
2:36:45 An organic nanowire waveguide exciton-polariton sub-microlaser and its photonic application
DOI:10.1039/c3tc32474e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Liao, Qing;Xu, Zhenzhen;Zhong, Xiaolan;Dang, Wei;Shi, Qiang;Zhang, Chao;Weng, Yuxiang;Li, Zhiyuan;Fu, Hongbing;
2:36:46 Exciton-polariton mediated light propagation in anisotropic waveguides
DOI:10.1103/PhysRevB.86.205319 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Takeda, Hiroyuki;Sakoda, Kazuaki;
2:36:47 Vertical Crystallization of C-60 Nanowires by Solvent Vapor Annealing Process
DOI:10.1021/nn403729g JN:ACS NANO PY:2013 TC:6 AU: Kim, Jungah;Park, Chibeom;Park, Ji Eun;Chu, Kwangho;Choi, Hee Cheul;
2:36:48 Crystalline Organic Heterostructures Engineering Based on Vanadyl Phthalocyanine and Rod-Like Conjugated Organic Semiconductors with Selected Central Groups
DOI:10.1002/adfm.201200014 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:4 AU: Huang, Lizhen;Zhu, Feng;Liu, Chengfang;Treske, Uwe;Grobosch, Mandy;Tian, Hongkun;Zhang, Jidong;Geng, Yanhou;Knupfer, Martin;Yan, Donghang;
2:36:49 Remote Biosensing with Polychromatic Optical Waveguide Using Blue Light-Emitting Organic Nanowires Hybridized with Quantum Dots
DOI:10.1002/adfm.201304039 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Cho, Eun Hei;Kim, Bong-Gi;Jun, Sumin;Lee, Jubok;Park, Dong Hyuk;Lee, Kwang-Sup;Kim, Jeongyong;Kim, Jinsang;Joo, Jinsoo;
2:36:50 Strong coupling between excitons in J-aggregates and waveguide modes in thin polymer films
DOI:10.1063/1.3604014 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Ellenbogen, Tal;Steinvurzel, Paul;Crozier, Kenneth B.;
2:36:51 Hole Transparent and Hole Blocking Transport in Single-Crystal-Like Organic Heterojunction: When Rods Hold up Disks
DOI:10.1021/am200512d JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:6 AU: Zhu, Feng;Grobosch, Mandy;Treske, Uwe;Huang, Lizhen;Chen, Weichao;Yang, Jianbing;Yan, Donghang;Knupfer, Martin;
2:36:52 Exciton-polariton emission from organic semiconductor optical waveguides
DOI:10.1103/PhysRevB.84.161304 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Ellenbogen, Tal;Crozier, Kenneth B.;
2:36:53 Light Propagation in High-Spin Organic Microtubes Self-Assembled from Shape Persistent Macrocycles Carrying Oxo-Verdazyl Biradicals
DOI:10.1002/adma.201300540 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Hui, Pramiti;Chandrasekar, Rajadurai;
2:36:54 Local excitation of strongly coupled exciton-surface plasmons polaritons by a single nanoantenna
DOI:10.1063/1.4881717 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Eizner, E.;Ellenbogen, T.;
2:36:55 Electrically pumped polariton lasers
DOI:10.1039/c3tc32427c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wei, Cong;Zhao, Yong Sheng;
2:36:56 Vertical Arrays of Photoluminescent Alq(3) Nanotubes on Flexible Substrates by Vapor Deposition
DOI:10.1080/15421406.2014.944763 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Part, Hun;Noh, Seung Hyun;Yun, Jaung Jae;Han, Tae Hee;
2:36:57 Multiluminescent Hybrid Organic/Inorganic Nanotubular Structures: One-Pot Fabrication of Tricolor (Blue-Red-Purple) Luminescent Parallepipedic Organic Superstructure Grafted with Europium Complexes
DOI:10.1002/adfm.201002270 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:27 AU: Basak, Supratim;Chandrasekar, Rajadurai;
2:36:58 Interfacial energy level bending in a crystalline p/p-type organic heterostructure
DOI:10.1063/1.3592994 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Zhu, Feng;Grobosch, Mandy;Treske, Uwe;Knupfer, Martin;Huang, Lizhen;Ji, Shiliang;Yan, Donghang;
2:36:59 Microsphere-coupled organic waveguides: Preparation, remote excitation of whispering gallery modes and waveguiding property
DOI:10.1063/1.4813917 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Chikkaraddy, Rohit;Dasgupta, Arindam;Gupta, S. Dutta;Kumar, G. V. Pavan;
2:36:60 Stimulus-Responsive Light Coupling and Modulation with Nanofiber Waveguide Junctions
DOI:10.1021/nl2043024 JN:NANO LETTERS PY:2012 TC:7 AU: Yoon, Ilsun;Kim, Kanguk;Baker, Sarah E.;Heineck, Daniel;Esener, Sadik C.;Sirbuly, Donald J.;
2:36:61 Ordered organic-organic multilayer growth
DOI:10.1103/PhysRevB.83.064114 JN:PHYSICAL REVIEW B PY:2011 TC:8 AU: Lunt, Richard R.;Sun, Kai;Kroeger, Michael;Benziger, J. B.;Forrest, Stephen R.;
2:36:62 Plasmons in a superlattice of fullerenes or metallic shells
DOI:10.1103/PhysRevB.90.075431 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Balassis, Antonios;Gumbs, Godfrey;
2:36:63 Modeling anisotropic plasmon excitations in self-assembled fullerenes
DOI:10.1063/1.4878399 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Iurov, Andrii;Gumbs, Godfrey;Gao, Bo;Huang, Danhong;
2:36:64 Energy transfer effect of hybrid organic rubrene nanorod with CdSe/ZnS quantum dots: Application to optical waveguiding modulators
DOI:10.1016/j.synthmet.2014.10.030 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Moon, Woo Sung;Cho, Eun Hei;Lee, Ju Bok;Jeon, Sumin;Kim, Jeongyong;Lee, Kwang-Sup;Joo, Jinsoo;
2:36:65 Investigating the impact of source/drain doping dependent effective masses on the transport characteristics of ballistic Si-nanowire field-effect-transistors
DOI:10.1063/1.4869495 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Chowdhury, Basudev Nag;Chattopadhyay, Sanatan;
2:36:66 Phase separation in ternary charge-transfer-complexes
DOI:10.1007/s00339-012-7469-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:0 AU: Nanova, Diana;Beck, Sebastian;Alt, Milan;Glaser, Tobias;Pucci, Annemarie;Schultheiss, Katrin;Dieterle, Levin;Schroeder, Rasmus R.;Pflaum, Jens;Kowalsky, Wolfgang;Kroeger, Michael;
2:36:67 Designed synthesis and supramolecular architectures of furan-substituted perylene diimide
DOI:10.1016/j.jcis.2013.02.042 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:5 AU: Yu, Yanwen;Li, Yongjun;Qin, Zhihong;Jiang, Runsheng;Liu, Huibiao;Li, Yuliang;
2:37:1 Solution-Processable Organic Single Crystals with Bandlike Transport in Field-Effect Transistors
DOI:10.1002/adma.201002682 JN:ADVANCED MATERIALS PY:2011 TC:129 AU: Liu, Chuan;Minari, Takeo;Lu, Xubing;Kumatani, Akichika;Takimiya, Kazuo;Tsukagoshi, Kazuhito;
2:37:2 Patternable Solution-Crystallized Organic Transistors with High Charge Carrier Mobility
DOI:10.1002/adma.201004387 JN:ADVANCED MATERIALS PY:2011 TC:127 AU: Nakayama, Kengo;Hirose, Yuri;Soeda, Junshi;Yoshizumi, Masahiro;Uemura, Takafumi;Uno, Mayumi;Li, Wanyan;Kang, Myeong Jin;Yamagishi, Masakazu;Okada, Yugo;Miyazaki, Eigo;Nakazawa, Yasuhiro;Nakao, Akiko;Takimiya, Kazuo;Takeya, Jun;
2:37:3 Flexible Low-Voltage Organic Transistors and Circuits Based on a High-Mobility Organic Semiconductor with Good Air Stability
DOI:10.1002/adma.200902740 JN:ADVANCED MATERIALS PY:2010 TC:99 AU: Zschieschang, Ute;Ante, Frederik;Yamamoto, Tatsuya;Takimiya, Kazuo;Kuwabara, Hirokazu;Ikeda, Masaaki;Sekitani, Tsuyoshi;Someya, Takao;Kern, Klaus;Klauk, Hagen;
2:37:4 Dianthra[2,3-b:2 ' 3 '-f]thieno[3,2-b]thiophene (DATT): Synthesis, Characterization, and FET Characteristics of New pi-Extended Heteroarene with Eight Fused Aromatic Rings
DOI:10.1021/ja202377m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:75 AU: Niimi, Kazuki;Shinamura, Shoji;Osaka, Itaru;Miyazaki, Eigo;Takimiya, Kazuo;
2:37:5 Alkylated Dinaphtho[2,3-b:2 ',3 '-f]Thieno[3,2-b] Thiophenes (C-n-DNTTs): Organic Semiconductors for High-Performance Thin-Film Transistors
DOI:10.1002/adma.201001283 JN:ADVANCED MATERIALS PY:2011 TC:102 AU: Kang, Myeong Jin;Doi, Iori;Mori, Hiroki;Miyazaki, Eigo;Takimiya, Kazuo;Ikeda, Masaaki;Kuwabara, Hirokazu;
2:37:6 Solution-Crystallized Organic Field-Effect Transistors with Charge-Acceptor Layers: High-Mobility and Low-Threshold-Voltage Operation in Air
DOI:10.1002/adma.201101027 JN:ADVANCED MATERIALS PY:2011 TC:53 AU: Soeda, Junshi;Hirose, Yuri;Yamagishi, Masakazu;Nakao, Akiko;Uemura, Takafumi;Nakayama, Kengo;Uno, Mayumi;Nakazawa, Yasuhiro;Takimiya, Kazuo;Takeya, Jun;
2:37:7 Flexible low-voltage organic thin-film transistors and circuits based on C-10-DNTT
DOI:10.1039/c1jm14917b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:35 AU: Zschieschang, Ute;Kang, Myeong Jin;Takimiya, Kazuo;Sekitani, Tsuyoshi;Someya, Takao;Canzler, Tobias W.;Werner, Ansgar;Blochwitz-Nimoth, Jan;Klauk, Hagen;
2:37:8 Influence of Thiol Self-Assembled Monolayer Processing on Bottom-Contact Thin-Film Transistors Based on n-Type Organic Semiconductors
DOI:10.1002/adfm.201102312 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:26 AU: Youn, Jangdae;Dholakia, Geetha R.;Huang, Hui;Hennek, Jonnathan W.;Facchetti, Antonio;Marks, Tobin J.;
2:37:9 Contact Resistance and Megahertz Operation of Aggressively Scaled Organic Transistors
DOI:10.1002/smll.201101677 JN:SMALL PY:2012 TC:65 AU: Ante, Frederik;Kaelblein, Daniel;Zaki, Tarek;Zschieschang, Ute;Takimiya, Kazuo;Ikeda, Masaaki;Sekitani, Tsuyoshi;Someya, Takao;Burghartz, Joachim N.;Kern, Klaus;Klauk, Hagen;
2:37:10 Consecutive Thiophene-Annulation Approach to pi-Extended Thienoacene-Based Organic Semiconductors with [1]Benzothieno[3,2-b][1]benzothiophene (BTBT) Substructure
DOI:10.1021/ja406257u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:29 AU: Mori, Takamichi;Nishimura, Takeshi;Yamamoto, Tatsuya;Doi, Iori;Miyazaki, Eigo;Osaka, Itaru;Takimiya, Kazuo;
2:37:11 Thiophene Fused Azacoronenes: Regioselective Synthesis, Self-Organization, Charge Transport and Its Incorporation in Conjugated Polymers
DOI:10.1021/cm5018272 JN:CHEMISTRY OF MATERIALS PY:2014 TC:12 AU: He, Bo;Pun, Andrew B.;Klivansky, Liana M.;McGough, Alexandra M.;Ye, Yifan;Zhu, Junfa;Guo, Jinghua;Teat, Simon J.;Liu, Yi;
2:37:12 Solution-Crystallized Organic Semiconductors with High Carrier Mobility and Air Stability
DOI:10.1002/adma.201202099 JN:ADVANCED MATERIALS PY:2012 TC:16 AU: Dong, Shaohua;Zhang, Hongtao;Yang, Liu;Bai, Meilin;Yao, Yuan;Chen, Hongliang;Gan, Lin;Yang, Tieying;Jiang, Hong;Hou, Shimin;Wan, Lijun;Guo, Xuefeng;
2:37:13 Hexathienocoronenes: Synthesis and Self-Organization
DOI:10.1021/ja3082395 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Chen, Long;Puniredd, Sreenivasa R.;Tan, Yuan-Zhi;Baumgarten, Martin;Zschieschang, Ute;Enkelmann, Volker;Pisula, Wojciech;Feng, Xinliang;Klauk, Hagen;Muellen, Klaus;
2:37:14 Contact Doping and Ultrathin Gate Dielectrics for Nanoscale Organic Thin-Film Transistors
DOI:10.1002/smll.201002254 JN:SMALL PY:2011 TC:41 AU: Ante, Frederik;Kaelblein, Daniel;Zschieschang, Ute;Canzler, Tobias W.;Werner, Ansgar;Takimiya, Kazuo;Ikeda, Masaaki;Sekitani, Tsuyoshi;Someya, Takao;Klauk, Hagen;
2:37:15 Understanding contact behavior in organic thin film transistors
DOI:10.1063/1.3479531 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Wang, S. D.;Yan, Y.;Tsukagoshi, K.;
2:37:16 A comparative study of spin coated and floating film transfer method coated poly (3-hexylthiophene)/poly (3-hexylthiophene)-nanofibers based field effect transistors
DOI:10.1063/1.4894458 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Tiwari, Shashi;Takashima, Wataru;Nagamatsu, S.;Balasubramanian, S. K.;Prakash, Rajiv;
2:37:17 Morphology Optimization for the Fabrication of High Mobility Thin-Film Transistors
DOI:10.1002/adma.201101178 JN:ADVANCED MATERIALS PY:2011 TC:20 AU: Sun, Xiangnan;Zhang, Lei;Di, Chong-an;Wen, Yugeng;Guo, Yunlong;Zhao, Yan;Yu, Gui;Liu, Yunqi;
2:37:18 Scalable Fabrication of Strongly Textured Organic Semiconductor Micropatterns by Capillary Force Lithography
DOI:10.1002/adma.201200524 JN:ADVANCED MATERIALS PY:2012 TC:18 AU: Jo, Pil Sung;Vailionis, Arturas;Park, Young Min;Salleo, Alberto;
2:37:19 High-Mobility, Aligned Crystalline Domains of TIPSPentacene with Metastable Polymorphs Through Lateral Confi nement of Crystal Growth
DOI:10.1002/adma.201302439 JN:ADVANCED MATERIALS PY:2014 TC:24 AU: Giri, Gaurav;Park, Steve;Vosgueritchian, Michael;Shulaker, Max Marcel;Bao, Zhenan;
2:37:20 Performance enhancement of poly(3-hexylthiophene) organic field-effect transistor by inserting poly(methylmethacrylate) buffer layer
DOI:10.1063/1.4798368 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Shi, Wei;Yu, Junsheng;Huang, Wei;Yu, Xinge;Zheng, Yifan;
2:37:21 Synthesis, optical properties and charge transport characteristics of a series of novel thiophene-fused phenazine derivatives
DOI:10.1039/c3tc30346b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Xie, Yongfa;Fujimoto, Takuya;Dalgleish, Simon;Shuku, Yoshiaki;Matsushita, Michio M.;Awaga, Kunio;
2:37:22 Flexible Three-Dimensional Organic Field-Effect Transistors Fabricated by an Imprinting Technique
DOI:10.1002/adma.201201234 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Nakahara, Rie;Uno, Mayumi;Uemura, Takafumi;Takimiya, Kazuo;Takeya, Jun;
2:37:23 Solvent-Free Directed Patterning of a Highly Ordered Liquid Crystalline Organic Semiconductor via Template-Assisted Self-Assembly for Organic Transistors
DOI:10.1002/adma.201302719 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Kim, Aryeon;Jang, Kwang-Suk;Kim, Jinsoo;Won, Jong Chan;Yi, Mi Hye;Kim, Hanim;Yoon, Dong Ki;Shin, Tae Joo;Lee, Myong-Hoon;Ka, Jae-Won;Kim, Yun Ho;
2:37:24 Flexible Low-Voltage Organic Transistors with High Thermal Stability at 250 degrees C
DOI:10.1002/adma.201300941 JN:ADVANCED MATERIALS PY:2013 TC:18 AU: Yokota, Tomoyuki;Kuribara, Kazunori;Tokuhara, Takeyoshi;Zschieschang, Ute;Klauk, Hagen;Takimiya, Kazuo;Sadamitsu, Yuji;Hamada, Masahiro;Sekitani, Tsuyoshi;Someya, Takao;
2:37:25 Patterning solution-processed organic single-crystal transistors with high device performance
DOI:10.1063/1.3608793 JN:AIP ADVANCES PY:2011 TC:21 AU: Li, Yun;Liu, Chuan;Kumatani, Akichika;Darmawan, Peter;Minari, Takeo;Tsukagoshi, Kazuhito;
2:37:26 High-Speed Flexible Organic Field-Effect Transistors with a 3D Structure
DOI:10.1002/adma.201101179 JN:ADVANCED MATERIALS PY:2011 TC:28 AU: Uno, Mayumi;Nakayama, Kengo;Soeda, Junshi;Hirose, Yuri;Miwa, Kazumoto;Uemura, Takafumi;Nakao, Akiko;Takimiya, Kazuo;Takeya, Jun;
2:37:27 Diphenyl Derivatives of Dinaphtho[2,3-b:2 ',3 '-f]thieno[3,2-b]thiophene: Organic Semiconductors for Thermally Stable Thin-Film Transistors
DOI:10.1021/am3026163 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:17 AU: Kang, Myeong Jin;Miyazaki, Eigo;Osaka, Itaru;Takimiya, Kazuo;Nakao, Akiko;
2:37:28 Hysteresis mechanism and control in pentacene organic field-effect transistors with polymer dielectric
DOI:10.1063/1.4807660 JN:AIP ADVANCES PY:2013 TC:6 AU: Huang, Wei;Shi, Wei;Han, Shijiao;Yu, Junsheng;
2:37:29 Benzothienobenzothiophene-Based Conjugated Oligomers as Semiconductors for Stable Organic Thin-Film Transistors
DOI:10.1021/am500598f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Yu, Han;Li, Weili;Tian, Hongkun;Wang, Haibo;Yan, Donghang;Zhang, Jingping;Geng, Yanhou;Wang, Fosong;
2:37:30 Electric-Field-Assisted Position and Orientation Control of Organic Single Crystals
DOI:10.1021/la503286y JN:LANGMUIR PY:2014 TC:0 AU: Kotsuki, Kenji;Obata, Seiji;Saiki, Koichiro;
2:37:31 Organic Single-Crystal Arrays from Solution-Phase Growth Using Micropattern with Nucleation Control Region
DOI:10.1002/adma.201104373 JN:ADVANCED MATERIALS PY:2012 TC:18 AU: Goto, Osamu;Tomiya, Shigetaka;Murakami, Yosuke;Shinozaki, Akira;Toda, Akira;Kasahara, Jiro;Hobara, Daisuke;
2:37:32 Direct formation of organic semiconducting single crystals by solvent vapor annealing on a polymer base film
DOI:10.1039/c2jm15747k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Liu, Chuan;Minari, Takeo;Li, Yun;Kumatani, Akichika;Lee, Michael V.;Pan, Si Hui Athena;Takimiya, Kazuo;Tsukagoshi, Kazuhito;
2:37:33 Selective solution shearing deposition of high performance TIPS-pentacene polymorphs through chemical patterning
DOI:10.1557/jmr.2014.305 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Giri, Gaurav;Miller, Eric;Bao, Zhenan;
2:37:34 Morphological transformation of pyrazine-based acene-type molecules after blending with semiconducting polymers: from fibers to quadrilateral crystals
DOI:10.1039/c3sm00082f JN:SOFT MATTER PY:2013 TC:0 AU: Li, Mingguang;Li, Ying;Liu, Jiangang;Wang, Lixiang;Han, Yanchun;
2:37:35 V-Shaped Organic Semiconductors With Solution Processability, High Mobility, and High Thermal Durability
DOI:10.1002/adma.201302086 JN:ADVANCED MATERIALS PY:2013 TC:27 AU: Okamoto, Toshihiro;Mitsui, Chikahiko;Yamagishi, Masakazu;Nakahara, Katsumasa;Soeda, Junshi;Hirose, Yuri;Miwa, Kazumoto;Sato, Hiroyasu;Yamano, Akihito;Matsushita, Takeshi;Uemura, Takafumi;Takeya, Jun;
2:37:36 High-Performance Solution-Processable N-Shaped Organic Semiconducting Materials with Stabilized Crystal Phase
DOI:10.1002/adma.201400289 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Mitsui, Chikahiko;Okamoto, Toshihiro;Yamagishi, Masakazu;Tsurumi, Junto;Yoshimoto, Kazumi;Nakahara, Katsumasa;Soeda, Junshi;Hirose, Yuri;Sato, Hiroyasu;Yamano, Akihito;Uemura, Takafumi;Takeya, Jun;
2:37:37 High performance organic thin-film transistors based on hexamethylenetetrathiafulvalene lying flat-on-surface with non-layered packing motif
DOI:10.1039/c0jm01154a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Yamada, Toshikazu;Kumai, Reiji;Takahashi, Yukihiro;Hasegawa, Tatsuo;
2:37:38 In situ purification to eliminate the influence of impurities in solution-processed organic crystals for transistor arrays
DOI:10.1039/c2tc00384h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Li, Yun;Liu, Chuan;Lee, Michael V.;Xu, Yong;Wang, Xu;Shi, Yi;Tsukagoshi, Kazuhito;
2:37:39 Effect of solvent vapour annealing on polymer thin films and application in nonlinear optical fields
DOI:10.1039/c4tc00929k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wang, Shiwei;Su, Wanli;Li, Yunhui;Zhang, Rongwei;Wang, Xibin;Zhang, Daming;
2:37:40 2D Self-Assembly of Fused Oligothiophenes: Molecular Control of Morphology
DOI:10.1021/nn3025139 JN:ACS NANO PY:2012 TC:14 AU: Fu, Chaoying;Rosei, Federico;Perepichka, Dmitrii F.;
2:37:41 Split-Gate Organic Field-Effect Transistors for High-Speed Operation
DOI:10.1002/adma.201304976 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Uemura, T.;Matsumoto, T.;Miyake, K.;Uno, M.;Ohnishi, S.;Kato, T.;Katayama, M.;Shinamura, S.;Hamada, M.;Kang, M. -J.;Takimiya, K.;Mitsui, C.;Okamoto, T.;Takeya, J.;
2:37:42 High-power and high-speed organic three-dimensional transistors with submicrometer channels
DOI:10.1063/1.3458867 JN:APPLIED PHYSICS LETTERS PY:2010 TC:15 AU: Uno, M.;Hirose, Y.;Uemura, T.;Takimiya, K.;Nakazawa, Y.;Takeya, J.;
2:37:43 High-performance organic transistors with high-k dielectrics: A comparative study on solution-processed single crystals and vacuum-deposited polycrystalline films of 2,9-didecyl-dinaphtho[2,3-b:2 ',3 '-f]thieno[3,2-b]thiophene
DOI:10.1063/1.4769436 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Ou-Yang, W.;Uemura, T.;Miyake, K.;Onish, S.;Kato, T.;Katayama, M.;Kang, M.;Takimiya, K.;Ikeda, M.;Kuwabara, H.;Hamada, M.;Takeya, J.;
2:37:44 Contact properties of high-mobility, air-stable, low-voltage organic n-channel thin-film transistors based on a naphthalene tetracarboxylic diimide
DOI:10.1063/1.4811127 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Roedel, R.;Letzkus, F.;Zaki, T.;Burghartz, J. N.;Kraft, U.;Zschieschang, U.;Kern, K.;Klauk, H.;
2:37:45 Improved thermal stability in organic FET fabricated with a soluble BTBT derivative
DOI:10.1016/j.jnoncrysol.2012.03.021 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:12 AU: Iino, Hiroaki;Kobori, Takeo;Hanna, Jun-ichi;
2:37:46 Impact of Materials versus Geometric Parameters on the Contact Resistance in Organic Thin-Film Transistors
DOI:10.1002/adfm.201203250 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:8 AU: Gruber, Manfred;Zojer, Egbert;Schuerrer, Ferdinand;Zojer, Karin;
2:37:47 On the Origin of Contact Resistances of Organic Thin Film Transistors
DOI:10.1002/adma.201201311 JN:ADVANCED MATERIALS PY:2012 TC:20 AU: Marinkovic, Marko;Belaineh, Dagmawi;Wagner, Veit;Knipp, Dietmar;
2:37:48 Single-transistor method for the extraction of the contact and channel resistances in organic field-effect transistors
DOI:10.1063/1.4868042 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Torricelli, Fabrizio;Ghittorelli, Matteo;Colalongo, Luigi;Kovacs-Vajna, Zsolt-Miklos;
2:37:49 Growth and Alignment of Thin Film Organic Single Crystals from Dewetting Patterns
DOI:10.1021/nn401679s JN:ACS NANO PY:2013 TC:7 AU: Tisserant, Jean-Nicolas;Wicht, Gaetan;Goebel, Ole F.;Bocek, Eva;Bona, Gian-Luca;Geiger, Thomas;Hany, Roland;Mezzenga, Raffaele;Partel, Stefan;Schmid, Peter;Schweizer, Wolfhard Bernd;Heier, Jakob;
2:37:50 Flexible field-effect transistor arrays with patterned solution-processed organic crystals
DOI:10.1063/1.4807669 JN:AIP ADVANCES PY:2013 TC:3 AU: Li, Yun;Liu, Chuan;Wang, Yu;Yang, Yang;Wang, Xinran;Shi, Yi;Tsukagoshi, Kazuhito;
2:37:51 Contact effects in high performance fully printed p-channel organic thin film transistors
DOI:10.1063/1.3669701 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Valletta, A.;Daami, A.;Benwadih, M.;Coppard, R.;Fortunato, G.;Rapisarda, M.;Torricelli, F.;Mariucci, L.;
2:37:52 Organic single crystal transistor characteristics of single-crystal phase pentacene grown by ionic liquid-assisted vacuum deposition
DOI:10.1063/1.4747148 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Takeyama, Yoko;Ono, Shimpei;Matsumoto, Yuji;
2:37:53 Performance spread reduction in organic field-effect transistors using semiconducting liquid-crystal polymers
DOI:10.1063/1.4820144 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Tetzner, Kornelius;Duffy, Warren;Bock, Karlheinz;
2:37:54 Improving charge injection in high-mobility rubrene crystals: From contact-limited to channel-dominated transistors
DOI:10.1063/1.4873635 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zimmerling, Tino;Batlogg, Bertram;
2:37:55 Large [6,6]-phenyl C-61 butyric acid methyl (PCBM) hexagonal crystals grown by solvent-vapor annealing
DOI:10.1016/j.matchemphys.2014.02.017 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Yang, Yang;Liu, Chuan;Gao, Si;Li, Yun;Wang, Xinran;Wang, Yu;Minari, Takeo;Xu, Yong;Wang, Peng;Zhao, Yi;Tsukagoshi, Kazuhito;Shi, Yi;
2:37:56 [1] Benzothieno[3,2-b][1] benzothiophenes- and dinaphtho[2,3-b: 2 ', 3 '-f] thieno[3,2-b] thiophene-based organic semiconductors for stable, high-performance organic thin-film transistor materials
DOI:10.1016/j.tsf.2013.08.026 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Takimiya, Kazuo;Yamamoto, Tatsuya;Ebata, Hideaki;Izawa, Takafumi;
2:37:57 Fabrication of polymer-based electronic circuits using photolithography
DOI:10.1063/1.3650474 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Zakhidov, Alexander A.;Fong, Hon Hang;DeFranco, John A.;Lee, Jin-Kyun;Taylor, Priscilla G.;Ober, Christopher K.;Malliaras, George G.;He, Mingqian;Kane, Michael G.;
2:37:58 Solution-processed organic micro crystal transistor based on tetraceno[2,3-b] thiophene from a monoketone precursor
DOI:10.1039/c1jm11834j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Watanabe, Motonori;Chao, Ting-Han;Liu, Shun-Wei;Chien, Ching-Ting;Chang, Yuan Jay;Yuan, Chih-Hsien;Huang, Kuan-Chun;Chien, Shu-Hua;Shinmyozu, Teruo;Chow, Tahsin J.;
2:37:59 Tetracene-based field-effect transistors using solution processes
DOI:10.1039/c2jm31134h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Chien, Ching-Ting;Lin, Chih-Chun;Watanabe, Motonori;Lin, Yan-Duo;Chao, Ting-Han;Chiang, Ta-chung;Huang, Xin-Hua;Wen, Yuh-Sheng;Tu, Chih-Hsin;Sun, Chia-Hsing;Chow, Tahsin J.;
2:37:60 Synthesis and structure of alpha-substituted pentathienoacenes
DOI:10.1039/c3tc30144c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Shaw, Charles M.;Zhang, Xinnan;San Miguel, Lidaris;Matzger, Adam J.;Martin, David C.;
2:37:61 Surface Selectively Deposited Organic Single-crystal Transistor Arrays with High Device Performance
DOI:10.1080/15421406.2012.703812 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Li, Yun;Liu, Chuan;Kumatani, Akichika;Darmawan, Peter;Minari, Takeo;Tsukagoshi, Kazuhito;
2:37:62 Nonvolatile memory characteristics of organic thin film transistors using poly(2-hydroxyethyl methacrylate)-based polymer multilayer dielectric
DOI:10.1063/1.3647976 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Chen, Ying-Chih;Su, Yan-Kuin;Yu, Hsin-Chieh;Huang, Chun-Yuan;Huang, Tsung-Syun;
2:37:63 Principle of operation and modeling of source-gated transistors
DOI:10.1063/1.4817502 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Valletta, A.;Mariucci, L.;Rapisarda, M.;Fortunato, G.;
2:37:64 Three-Dimensional Organic Field-Effect Transistors Using Solution-Processed Thin Films of Benzothieno-Benzothiophene Derivatives
DOI:10.1080/15421406.2011.566055 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Li, Wanyan;Uno, Mayumi;Hirose, Yuri;Uemura, Takafumi;Takimiya, Kazuo;Takeya, Jun;
2:38:1 Highly Conductive PEDOT:PSS Electrode with Optimized Solvent and Thermal Post-Treatment for ITO-Free Organic Solar Cells
DOI:10.1002/adfm.201002290 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:327 AU: Kim, Yong Hyun;Sachse, Christoph;Machala, Michael L.;May, Christian;Mueller-Meskamp, Lars;Leo, Karl;
2:38:2 Highly Conductive and Transparent PEDOT:PSS Films with a Fluorosurfactant for Stretchable and Flexible Transparent Electrodes
DOI:10.1002/adfm.201101775 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:174 AU: Vosgueritchian, Michael;Lipomi, Darren J.;Bao, Zhenan;
2:38:3 Solution-Processed Metallic Conducting Polymer Films as Transparent Electrode of Optoelectronic Devices
DOI:10.1002/adma.201104795 JN:ADVANCED MATERIALS PY:2012 TC:156 AU: Xia, Yijie;Sun, Kuan;Ouyang, Jianyong;
2:38:4 PEDOT:PSS films with significantly enhanced conductivities induced by preferential solvation with cosolvents and their application in polymer photovoltaic cells
DOI:10.1039/c0jm04177g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:102 AU: Xia, Yijie;Ouyang, Jianyong;
2:38:5 Spray coated high-conductivity PEDOT:PSS transparent electrodes for stretchable and mechanically-robust organic solar cells
DOI:10.1016/j.solmat.2012.09.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:43 AU: Tait, Jeffrey G.;Worfolk, Brian J.;Maloney, Samuel A.;Hauger, Tate C.;Elias, Anastasia L.;Buriak, Jillian M.;Harris, Kenneth D.;
2:38:6 Highly conductive PEDOT:PSS films prepared through a treatment with zwitterions and their application in polymer photovoltaic cells
DOI:10.1039/c0jm01593h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:63 AU: Xia, Yijie;Zhang, Hongmei;Ouyang, Jianyong;
2:38:7 Significant Conductivity Enhancement of Conductive Poly(3,4-ethylenedioxythiophene): Poly(styrenesulfonate) Films through a Treatment with Organic Carboxylic Acids and Inorganic Acids
DOI:10.1021/am900708x JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:74 AU: Xia, Yijie;Ouyang, Jianyong;
2:38:8 Solution-Processed Poly(3,4-ethylenedioxythiophene) Thin Films as Transparent Conductors: Effect of p-Toluenesulfonic Acid in Dimethyl Sulfoxide
DOI:10.1021/am504150n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Mukherjee, Smita;Singh, Rekha;Gopinathan, Sreelekha;Murugan, Sengottaiyan;Gawali, Suhas;Saha, Biswajit;Biswas, Jayeeta;Lodha, Saurabh;Kumar, Anil;
2:38:9 Effect of molecular weight of additives on the conductivity of PEDOT: PSS and efficiency for ITO-free organic solar cells
DOI:10.1039/c3ta11726j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:35 AU: Mengistie, Desalegn Alemu;Wang, Pen-Cheng;Chu, Chih-Wei;
2:38:10 Significant Different Conductivities of the Two Grades of Poly(3,4-ethylenedioxythiophene):Poly(styrenesulfonate), Clevios P and Clevios PH1000, Arising from Different Molecular Weights
DOI:10.1021/am300881m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:28 AU: Xia, Yijie;Ouyang, Jianyong;
2:38:11 Highly Conductive Poly(3,4-ethylenedioxythiophene):Poly (styrenesulfonate) Films Using 1-Ethyl-3-methylimidazolium Tetracyanoborate Ionic Liquid
DOI:10.1002/adfm.201200225 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:43 AU: Badre, Chantal;Marquant, Ludovic;Alsayed, Ahmed M.;Hough, Lawrence A.;
2:38:12 Highly conductive and uniform graphene oxide modified PEDOT:PSS electrodes for ITO-Free organic light emitting diodes
DOI:10.1039/c4tc00305e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Wu, Xinkai;Liu, Jun;Wu, Dongqing;Zhao, Yanru;Shi, Xindong;Wang, Jing;Huang, Saijun;He, Gufeng;
2:38:13 Improving Electrical Conductivity in Polycarbonate Nanocomposites Using Highly Conductive PEDOT/PSS Coated MWCNTs
DOI:10.1021/am4011622 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:27 AU: Zhou, Jian;Lubineau, Giles;
2:38:14 Highly Conductive PEDOT:PSS Treated with Formic Acid for ITO-Free Polymer Solar Cells
DOI:10.1021/am405024d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:28 AU: Mengistie, Desalegn A.;Ibrahem, Mohammed A.;Wang, Pen-Cheng;Chu, Chih-Wei;
2:38:15 Fabrication of highly transparent and conducting PEDOT:PSS films using a formic acid treatment
DOI:10.1039/c3tc31951b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: McCarthy, Joseph E.;Hanley, Cormac A.;Brennan, Lorcan J.;Lambertini, Vito G.;Gun'ko, Yurii K.;
2:38:16 Mechanical flexibility of transparent PEDOT:PSS electrodes prepared by gravure printing for flexible organic solar cells
DOI:10.1016/j.solmat.2011.07.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:42 AU: Cho, Chung-Ki;Hwang, Woo-Jin;Eun, Kyoungtae;Choa, Sung-Hoon;Na, Seok-In;Kim, Han-Ki;
2:38:17 Performance improvement of polymer solar cells by using a solvent-treated poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) buffer layer
DOI:10.1063/1.3600665 JN:APPLIED PHYSICS LETTERS PY:2011 TC:25 AU: Peng, Bo;Guo, Xia;Cui, Chaohua;Zou, Yingping;Pan, Chunyue;Li, Yongfang;
2:38:18 Solution-Processed PEDOT:PSS Films with Conductivities as Indium Tin Oxide through a Treatment with Mild and Weak Organic Acids
DOI:10.1021/am404113n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:30 AU: Ouyang, Jianyong;
2:38:19 The temperature-dependent microstructure of PEDOT/PSS films: insights from morphological, mechanical and electrical analyses
DOI:10.1039/c4tc01593b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Zhou, Jian;Anjum, Dalaver H.;Chen, Long;Xu, Xuezhu;Ventura, Isaac Aguilar;Jiang, Long;Lubineau, Gilles;
2:38:20 ZnO-Ag-MoO3 transparent composite electrode for ITO-free, PEDOT: PSS-free bulk-heterojunction organic solar cells
DOI:10.1016/j.solmat.2013.07.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:5 AU: Choi, Hyung Woo;Theodore, N. David;Alford, T. L.;
2:38:21 Preparation of PEDOT:PSS thin films doped with graphene and graphene quantum dots
DOI:10.1016/j.synthmet.2014.10.017 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Kepic, Dejan P.;Markovic, Zoran M.;Jovanovic, Svetlana P.;Perusko, Davor B.;Budimir, Milica D.;Holclajtner-Antunovic, Ivanka D.;Pavlovic, Vladimir B.;Markovic, Biljana M. Todorovic;
2:38:22 Quasi-One Dimensional in-Plane Conductivity in Filamentary Films of PEDOT:PSS
DOI:10.1002/adfm.201301174 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:9 AU: van de Ruit, Kevin;Cohen, Racheli Itzhak;Bollen, Dirk;van Mol, Ton;Yerushalmi-Rozen, Rachel;Janssen, Rene A. J.;Kemerink, Martijn;
2:38:23 Highly Conductive PEDOT: PSS Nanofibrils Induced by Solution-Processed Crystallization
DOI:10.1002/adma.201304611 JN:ADVANCED MATERIALS PY:2014 TC:44 AU: Kim, Nara;Kee, Seyoung;Lee, Seoung Ho;Lee, Byoung Hoon;Kahng, Yung Ho;Jo, Yong-Ryun;Kim, Bong-Joong;Lee, Kwanghee;
2:38:24 Improvement in the photovoltaic efficiency of polymer solar cells by treating the poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) buffer layer with co-solvents of hydrophilic organic solvents and hydrophobic 1,2-dichlorobenzene
DOI:10.1016/j.solmat.2011.09.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:23 AU: Sun, Kuan;Xia, Yijie;Ouyang, Jianyong;
2:38:25 Transparent and flexible PEDOT:PSS electrodes passivated by thin IZTO film using plasma-damage free linear facing target sputtering for flexible organic solar cells
DOI:10.1016/j.solmat.2012.10.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Lee, Ju-Hyun;Shin, Hyun-Su;Na, Seok-In;Kim, Han-Ki;
2:38:26 Enhanced Performance of Polymer Solar Cells using PEDOT:PSS Doped with Fe3O4 Magnetic Nanoparticles Aligned by an External Magnetostatic Field as an Anode Buffer Layer
DOI:10.1021/am503041g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Wang, Kai;Yi, Chao;Hu, Xiaowen;Liu, Chang;Sun, Yan;Hou, Jianhui;Li, Yongfang;Zheng, Jie;Chuang, Steven;Karim, Alamgir;Gong, Xiong;
2:38:27 Effect of PEDOT Nanofibril Networks on the Conductivity, Flexibility, and Coatability of PEDOT:PSS Films
DOI:10.1021/am500769k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:15 AU: Oh, Jin Young;Shin, Minkwan;Lee, Jae Bok;Ahn, Jong-Hyun;Baik, Hong Koo;Jeong, Unyong;
2:38:28 Examining the effect of additives and thicknesses of hole transport layer for efficient organic solar cell devices
DOI:10.1007/s13391-013-0013-5 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:12 AU: Ochiai, Shizuyasu;Kumar, Palanisamy;Santhakumar, Kannappan;Shin, Paik-Kyun;
2:38:29 Effects of solvent-treated PEDOT:PSS on organic photovoltaic devices
DOI:10.1016/j.renene.2013.06.042 JN:RENEWABLE ENERGY PY:2014 TC:12 AU: Hu, Ziyang;Zhang, Jianjun;Zhu, Yuejin;
2:38:30 Highly conductive PEDOT/silicate hybrid anode for ITO-free polymer solar cells
DOI:10.1016/j.solmat.2009.11.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:16 AU: Kim, Youn Soo;Oh, Seok Bin;Park, Jong Hyeok;Cho, Mi Suk;Lee, Youngkwan;
2:38:31 Electronic Control over Detachment of a Self-Doped Water-Soluble Conjugated Polyelectrolyte
DOI:10.1021/la500693d JN:LANGMUIR PY:2014 TC:2 AU: Persson, Kristin M.;Gabrielsson, Roger;Sawatdee, Anurak;Nilsson, David;Konradsson, Peter;Berggren, Magnus;
2:38:32 Role of Interchain Coupling in the Metallic State of Conducting Polymers
DOI:10.1103/PhysRevLett.109.106405 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:9 AU: Kim, Nara;Lee, Byoung Hoon;Choi, Doowhan;Kim, Geunjin;Kim, Heejoo;Kim, Jae-Ryoung;Lee, Jongjin;Kahng, Yung Ho;Lee, Kwanghee;
2:38:33 Effect of solution pH value on thermoelectric performance of free-standing PEDOT:PSS films
DOI:10.1016/j.synthmet.2013.09.046 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Kong, Fangfang;Liu, Congcong;Song, Haijun;Xu, Jingkun;Huang, Yao;Zhu, Hongfei;Wang, Jianmin;
2:38:34 The Curious Out-of-Plane Conductivity of PEDOT:PSS
DOI:10.1002/adfm.201301175 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:2 AU: van de Ruit, Kevin;Katsouras, Ilias;Bollen, Dirk;van Mol, Ton;Janssen, Rene A. J.;de Leeuw, Dago M.;Kemerink, Martijn;
2:38:35 Preparation of Water-Free PEDOT Dispersions in the Presence of Reactive Polyisoprene Stabilizers
DOI:10.1021/la502480r JN:LANGMUIR PY:2014 TC:0 AU: Charba, Abdulkarim;Mumtaz, Muhammad;Brochon, Cyril;Cramail, Henri;Hadziioannou, Georges;Cloutet, Eric;
2:38:36 Facile synthesis of poly(3,4-ethylenedioxythiophene) by acid-assisted polycondensation of 5-bromo-2,3-dihydro-thieno[3,4-b][1,4]dioxine
DOI:10.1016/j.synthmet.2013.05.001 JN:SYNTHETIC METALS PY:2013 TC:7 AU: Yin, Yinghui;Li, Zhaoxiang;Jin, Jingpeng;Tusy, Chuong;Xia, Jiangbin;
2:38:37 Effect of Triton X-100 on the double layer capacitance and conductivity of poly(3,4-ethylenedioxythiophene): poly(styrenesulfonate) (PEDOT:PSS) films
DOI:10.1016/j.synthmet.2014.02.005 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Tevi, Tete;St Birch, Shantonio W.;Thomas, Sylvia W.;Takshi, Arash;
2:38:38 Electron transfer at the contact between Al electrode and gold nanoparticles of polymer: Nanoparticle resistive switching devices studied by alternating current impedance spectroscopy
DOI:10.1063/1.4840156 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Ouyang, Jianyong;
2:38:39 Transparency and electrical properties of meshed metal films
DOI:10.1016/j.tsf.2011.01.262 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Hautcoeur, J.;Castel, X.;Colombel, F.;Benzerga, R.;Himdi, M.;Legeay, G.;Motta-Cruz, E.;
2:38:40 In situ synthesis and deposition of conducting PEDOT:PSS nanospheres on ITO-free flexible substrates
DOI:10.1016/j.matlet.2013.11.117 JN:MATERIALS LETTERS PY:2014 TC:3 AU: Han, Yu-Kai;Chang, Mei-Ying;Li, Hsiun-Yu;Ho, Kao-Shen;Hsieh, Tar-Hwa;Huang, Pei-Chen;
2:38:41 Conducting polymer actuators formed on MWCNT and PEDOT-PSS conductive coatings
DOI:10.1016/j.synthmet.2013.03.017 JN:SYNTHETIC METALS PY:2013 TC:11 AU: Kiefer, Rudolf;Temmer, Rauno;Tamm, Tarmo;Travas-Sejdic, Jadranka;Kilmartin, Paul A.;Aabloo, Alvo;
2:38:42 Large Electrically Induced Height and Volume Changes in Poly(3,4-ethylenedioxythiophene)/Poly(styrenesulfonate) Thin Films
DOI:10.1021/cm100452a JN:CHEMISTRY OF MATERIALS PY:2010 TC:4 AU: Charrier, Dimitri S. H.;Janssen, Rene A. J.;Kemerink, Martijn;
2:38:43 Synthesis and Characterization of Polymer-Nanoclay Conductive Nanocomposites
DOI:10.1002/app.31541 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Ahmad, Irfan;Hussain, Manwar;Seo, Keum-Suk;Choa, Yong-Ho;
2:38:44 Comparison of the Microwave Performance of Transparent Wire Monopole Antennas Based on Silver Films
DOI:10.1007/s11664-012-2338-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:1 AU: Hautcoeur, J.;Castel, X.;Colombel, F.;Himdi, M.;Cruz, E. Motta;
2:38:45 Quartz Crystal Microbalance Study of Ionic Strength and pH-Dependent Polymer Conformation and Protein Adsorption/Desorption on PAA, PEO, and Mixed PEO/PAA Brushes
DOI:10.1021/la403891k JN:LANGMUIR PY:2014 TC:7 AU: Delcroix, M. F.;Demoustier-Champagne, S.;Dupont-Gillain, C. C.;
2:39:1 Recent Advances in Organic Transistor Printing Processes
DOI:10.1021/am302796z JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:61 AU: Kang, Boseok;Lee, Wi Hyoung;Cho, Kilwon;
2:39:2 Solution-processed organic transistors based on semiconducting blends
DOI:10.1039/b921674j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:80 AU: Smith, Jeremy;Hamilton, Richard;McCulloch, Iain;Stingelin-Stutzmann, Natalie;Heeney, Martin;Bradley, Donal D. C.;Anthopoulos, Thomas D.;
2:39:3 Solution-Processed Small Molecule-Polymer Blend Organic Thin-Film Transistors with Hole Mobility Greater than 5 cm2/Vs
DOI:10.1002/adma.201200088 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Smith, Jeremy;Zhang, Weimin;Sougrat, Rachid;Zhao, Kui;Li, Ruipeng;Cha, Dongkyu;Amassian, Aram;Heeney, Martin;McCulloch, Iain;Anthopoulos, Thomas D.;
2:39:4 The Influence of Film Morphology in High-Mobility Small-Molecule:Polymer Blend Organic Transistors
DOI:10.1002/adfm.201000427 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:43 AU: Smith, Jeremy;Hamilton, Richard;Qi, Yabing;Kahn, Antoine;Bradley, Donal D. C.;Heeney, Martin;McCulloch, Iain;Anthopoulos, Thomas D.;
2:39:5 Solvent and polymer matrix effects on TIPS-pentacene/polymer blend organic field-effect transistors
DOI:10.1039/c2jm16487f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Hwang, Do Kyung;Fuentes-Hernandez, Canek;Berrigan, John D.;Fang, Yunnan;Kim, Jungbae;Potscavage, William J., Jr.;Cheun, Hyeunseok;Sandhage, Kenneth H.;Kippelen, Bernard;
2:39:6 High Mobility Field-Effect Transistors with Versatile Processing from a Small-Molecule Organic Semiconductor
DOI:10.1002/adma.201205371 JN:ADVANCED MATERIALS PY:2013 TC:36 AU: Mei, Yaochuan;Loth, Marsha A.;Payne, Marcia;Zhang, Weimin;Smith, Jeremy;Day, Cynthia S.;Parkin, Sean R.;Heeney, Martin;McCulloch, Iain;Anthopoulos, Thomas D.;Anthony, John E.;Jurchescu, Oana D.;
2:39:7 Thin-Film Morphology of Inkjet-Printed Single-Droplet Organic Transistors Using Polarized Raman Spectroscopy: Effect of Blending TIPS-Pentacene with Insulating Polymer
DOI:10.1021/nn203397m JN:ACS NANO PY:2011 TC:27 AU: James, David T.;Kjellander, B. K. Charlotte;Smaal, Wiljan T. T.;Gelinck, Gerwin H.;Combe, Craig;McCulloch, Iain;Wilson, Richard;Burroughes, Jeremy H.;Bradley, Donal D. C.;Kim, Ji-Seon;
2:39:8 Wafer-Scale Arrays of Nonvolatile Polymer Memories with Microprinted Semiconducting Small Molecule/Polymer Blends
DOI:10.1021/am402852y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Bae, Insung;Hwang, Sun Kak;Kim, Richard Hahnkee;Kang, Seok Ju;Park, Cheolmin;
2:39:9 Microstructural Control of Charge Transport in Organic Blend Thin-Film Transistors
DOI:10.1002/adfm.201401087 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Hunter, Simon;Chen, Jihua;Anthopoulos, Thomas D.;
2:39:10 Effect of Acene Length on Electronic Properties in 5-, 6-, and 7-Ringed Heteroacenes
DOI:10.1002/adma.201101619 JN:ADVANCED MATERIALS PY:2011 TC:32 AU: Goetz, Katelyn P.;Li, Zhong;Ward, Jeremy W.;Bougher, Cortney;Rivnay, Jonathan;Smith, Jeremy;Conrad, Brad R.;Parkin, Sean R.;Anthopoulos, Thomas D.;Salleo, Alberto;Anthony, John E.;Jurchescu, Oana D.;
2:39:11 Solvent Vapor Annealing in the Molecular Regime Drastically Improves Carrier Transport in Small-Molecule Thin-Film Transistors
DOI:10.1021/am3025195 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:15 AU: Khan, Hadayat Ullah;Li, Ruipeng;Ren, Yi;Chen, Long;Payne, Marcia M.;Bhansali, Unnat S.;Smilgies, Detlef-M;Anthony, John E.;Amassian, Aram;
2:39:12 Enhanced reproducibility of inkjet printed organic thin film transistors based on solution processable polymer-small molecule blends
DOI:10.1039/c0jm01614d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:35 AU: Madec, Marie-Beatrice;Smith, Patrick J.;Malandraki, Andromachi;Wang, Nan;Korvink, Jan G.;Yeates, Stephen G.;
2:39:13 Improved performance in TIPS-pentacene field effect transistors using solvent additives
DOI:10.1039/c3tc30506f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Chae, Gil Jo;Jeong, Seung-Hyeon;Baek, Jeong Hoon;Walker, Bright;Song, Chung Kun;Seo, Jung Hwa;
2:39:14 Tailored Single Crystals of Triisopropylsilylethynyl Pentacene by Selective Contact Evaporation Printing
DOI:10.1002/adma.201100784 JN:ADVANCED MATERIALS PY:2011 TC:24 AU: Bae, Insung;Kang, Seok Ju;Shin, Yu Jin;Park, Youn Jung;Kim, Richard Hahnkee;Mathevet, Fabrice;Park, Cheolmin;
2:39:15 Vibration-Assisted Crystallization Improves Organic/Dielectric Interface in Organic Thin-Film Transistors
DOI:10.1002/adma.201302838 JN:ADVANCED MATERIALS PY:2013 TC:17 AU: Diemer, Peter J.;Lyle, Christopher R.;Mei, Yaochuan;Sutton, Christopher;Payne, Marcia M.;Anthony, John E.;Coropceanu, Veaceslav;Bredas, Jean-Luc;Jurchescu, Oana D.;
2:39:16 Templating and Charge Injection from Copper Electrodes into Solution-Processed Organic Field-Effect Transistors
DOI:10.1021/am400325k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Kim, Chang Hyun;Hlaing, Htay;Carta, Fabio;Bonnassieux, Yvan;Horowitz, Gilles;Kymissis, Ioannis;
2:39:17 Enhanced Performance Consistency in Nanoparticle/TIPS Pentacene-Based Organic Thin Film Transistors
DOI:10.1002/adfm.201002656 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:25 AU: He, Zhengran;Xiao, Kai;Durant, William;Hensley, Dale K.;Anthony, John E.;Hong, Kunlun;Kilbey, S. Michael, II;Chen, Jihua;Li, Dawen;
2:39:18 Inkjet Printing of TIPS-PEN on Soluble Polymer Insulating Films: A Route to High-Performance Thin-Film Transistors
DOI:10.1002/adma.201001697 JN:ADVANCED MATERIALS PY:2010 TC:37 AU: Kjellander, B. K. Charlotte;Smaal, Wiljan T. T.;Anthony, John E.;Gelinck, Gerwin H.;
2:39:19 Tailored interfaces for self-patterning organic thin-film transistors
DOI:10.1039/c2jm33974a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Ward, Jeremy W.;Loth, Marsha A.;Kline, R. Joseph;Coll, Mariona;Ocal, Carmen;Anthony, John E.;Jurchescu, Oana D.;
2:39:20 Structure-function relations in diF-TES-ADT blend organic field effect transistors studied by scanning probe microscopy
DOI:10.1039/c3tc31783h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Naden, Aaron B.;Loos, Joachim;MacLaren, Donald A.;
2:39:21 Late stage crystallization and healing during spin-coating enhance carrier transport in small-molecule organic semiconductors
DOI:10.1039/c4tc00981a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Chou, Kang Wei;Khan, Hadayat Ullah;Niazi, Muhammad R.;Yan, Buyi;Li, Ruipeng;Payne, Marcia M.;Anthony, John E.;Smilgies, Detlef-M.;Amassian, Aram;
2:39:22 Zone-Refinement Effect in Small Molecule-Polymer Blend Semiconductors for Organic Thin-Film Transistors
DOI:10.1021/ja108772q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:18 AU: Chung, Yeon Sook;Shin, Nayool;Kang, Jihoon;Jo, Youngeun;Prabhu, Vivek M.;Satija, Sushil K.;Kline, R. Joseph;DeLongchamp, Dean M.;Toney, Michael F.;Loth, Marsha A.;Purushothaman, Balaji;Anthony, John E.;Yoon, Do Y.;
2:39:23 Rubicene:a molecular fragment of C-70 for use in organic field-effect transistors
DOI:10.1039/c3tc32117g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Lee, Hyunbok;Zhang, Yue;Zhang, Lei;Mirabito, Timothy;Burnett, Edmund K.;Trahan, Stefan;Mohebbi, Ali Reza;Mannsfeld, Stefan C. B.;Wudl, Fred;Briseno, Alejandro L.;
2:39:24 An Inkjet-Printed Field-Effect Transistor for Label-Free Biosensing
DOI:10.1002/adfm.201401180 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Medina-Sanchez, Mariana;Martinez-Domingo, Carme;Ramon, Eloi;Merkoci, Arben;
2:39:25 Rational Design of Organic Semiconductors for Texture Control and Self-Patterning on Halogenated Surfaces
DOI:10.1002/adfm.201400219 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Ward, Jeremy W.;Li, Ruipeng;Obaid, Abdulmalik;Payne, Marcia M.;Smilgies, Detlef-M.;Anthony, John E.;Amassian, Aram;Jurchescu, Oana D.;
2:39:26 Inkjet-printed organic thin film transistors based on TIPS pentacene with insulating polymers
DOI:10.1039/c2tc00360k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:16 AU: Cho, Song Yun;Ko, Jung Min;Lim, Jongsun;Lee, Jun Young;Lee, Changjin;
2:39:27 Inkjet-Printed Single-Droplet Organic Transistors Based on Semiconductor Nanowires Embedded in Insulating Polymers
DOI:10.1002/adfm.201000528 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:39 AU: Lim, Jung Ah;Kim, Joo-Hyun;Qiu, Longzhen;Lee, Wi Hyoung;Lee, Hwa Sung;Kwak, Donghoon;Cho, Kilwon;
2:39:28 Direct Structural Mapping of Organic Field-Effect Transistors Reveals Bottlenecks to Carrier Transport
DOI:10.1002/adma.201201856 JN:ADVANCED MATERIALS PY:2012 TC:24 AU: Li, Ruipeng;Ward, Jeremy W.;Smilgies, Detlef-M.;Payne, Marcia M.;Anthony, John E.;Jurchescu, Oana D.;Amassian, Aram;
2:39:29 Observation of Unusual, Highly Conductive Grain Boundaries in High-Mobility Phase Separated Organic Semiconducting Blend Films Probed by Lateral-Transport Conductive-AFM
DOI:10.1002/adma.201300020 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: Hunter, Simon;Anthopoulos, Thomas D.;
2:39:30 Switching phase separation mode by varying the hydrophobicity of polymer additives in solution-processed semiconducting small-molecule/polymer blends
DOI:10.1063/1.4820588 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: He, Zhengran;Li, Dawen;Hensley, Dale K.;Rondinone, Adam J.;Chen, Jihua;
2:39:31 Controlling the Microstructure of Solution-Processable Small Molecules in Thin-Film Transistors through Substrate Chemistry
DOI:10.1021/cm102834m JN:CHEMISTRY OF MATERIALS PY:2011 TC:26 AU: Kline, R. Joseph;Hudson, Steven D.;Zhang, Xinran;Gundlach, David J.;Moad, Andrew J.;Jurchescu, Oana D.;Jackson, Thomas N.;Subramanian, Sankar;Anthony, John E.;Toney, Michael F.;Richter, Lee J.;
2:39:32 The Influence of the Solvent Evaporation Rate on the Phase Separation and Electrical Performances of Soluble Acene-Polymer Blend Semiconductors
DOI:10.1002/adfm.201101159 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:22 AU: Lee, Wi Hyoung;Kwak, Donghoon;Anthony, John E.;Lee, Hwa Sung;Choi, Hyun Ho;Kim, Do Hwan;Lee, Seung Goo;Cho, Kilwon;
2:39:33 Heterogeneous Nucleation Promotes Carrier Transport in Solution-Processed Organic Field-Effect Transistors
DOI:10.1002/adfm.201201264 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:14 AU: Li, Ruipeng;Khan, Hadayat Ullah;Payne, Marcia M.;Smilgies, Detlef-M.;Anthony, John E.;Amassian, Aram;
2:39:34 Vertically Segregated Structure and Properties of Small Molecule-Polymer Blend Semiconductors for Organic Thin-Film Transistors
DOI:10.1002/adfm.201201389 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:17 AU: Shin, Nayool;Kang, Jihoon;Richter, Lee J.;Prabhu, Vivek M.;Kline, R. Joseph;Fischer, Daniel A.;DeLongchamp, Dean M.;Toney, Michael F.;Satija, Sushil K.;Gundlach, David J.;Purushothaman, Balaji;Anthony, John E.;Yoon, Do Y.;
2:39:35 Molecular doping and tuning threshold voltage in 6,13-bis(triisopropylsilylethynyl) pentacene/polymer blend transistors
DOI:10.1063/1.4892809 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Belasco, James;Mohapatra, Swagat K.;Zhang, Yadong;Barlow, Stephen;Marder, Seth R.;Kahn, Antoine;
2:39:36 Morphology control via dual solvent crystallization for high-mobility functionalized pentacene-blend thin film transistors
DOI:10.1039/c1jm11119a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Lada, Maria;Starink, Marco J.;Carrasco, Miguel;Chen, Lichun;Miskiewicz, Pawel;Brookes, Paul;Obarowska, Margaret;Smith, David C.;
2:39:37 Inkjet Printed Poly(3-hexylthiophene) Thin-Film Transistors: Effect of Self-Assembled Monolayer
DOI:10.1080/15421406.2013.873596 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Chen, Mengjie;Peng, Rui;Xiong, Xianfeng;Chen, Shiqin;Zhang, Guobing;Lu, Hongbo;Wang, Xianghua;Qiu, Longzhen;
2:39:38 Conjugated Polymer-Mediated Polymorphism of a High Performance, Small-Molecule Organic Semiconductor with Tuned Intermolecular Interactions, Enhanced Long-Range Order, and Charge Transport
DOI:10.1021/cm403039y JN:CHEMISTRY OF MATERIALS PY:2013 TC:13 AU: Chen, Jihua;Shao, Ming;Xiao, Kai;He, Zhengran;Li, Dawen;Lokitz, Bradley S.;Hensley, Dale K.;Kilbey, S. Michael, II;Anthony, John E.;Keum, Jong K.;Rondinone, Adam J.;Lee, Wen-Ya;Hong, Sanghyun;Bao, Zhenan;
2:39:39 Self-Organization of Inkjet-Printed Organic Semiconductor Films Prepared in Inkjet-Etched Microwells
DOI:10.1002/adfm.201300936 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:12 AU: Kwak, Donghoon;Lim, Jung Ah;Kang, Boseok;Lee, Wi Hyoung;Cho, Kilwon;
2:39:40 Low-temperature phase transitions in a soluble oligoacene and their effect on device performance and stability
DOI:10.1063/1.4894238 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ward, J. W.;Goetz, K. P.;Obaid, A.;Payne, M. M.;Diemer, P. J.;Day, C. S.;Anthony, J. E.;Jurchescu, O. D.;
2:39:41 Solvent vapor annealing of an insoluble molecular semiconductor
DOI:10.1039/b923375j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Amassian, Aram;Pozdin, Vladimir A.;Li, Ruipeng;Smilgies, Detlef-M.;Malliaras, George G.;
2:39:42 Organic thin-film transistors with a photo-patternable semiconducting polymer blend
DOI:10.1039/c1jm12366a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Qiu, Longzhen;Xu, Qiong;Lee, Wi Hyoung;Wang, Xiaohong;Kang, Boseok;Lv, Guoqiang;Cho, Kilwon;
2:39:43 Improving performance of selective-dewetting patterned organic transistors via semiconductor-dielectric blends
DOI:10.1016/j.synthmet.2014.04.017 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Feng, Xiang;Wang, Ying;Lin, Guangqing;Wang, Xianghua;Wang, Xiaohong;Zhang, Guobing;Lu, Hongbo;Qiu, Longzhen;
2:39:44 In situ study of pentacene interaction with archetypal hybrid contacts: Fluorinated versus alkane thiols on gold
DOI:10.1103/PhysRevB.82.125457 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Jia, Zhang;Lee, Vincent W.;Kymissis, Ioannis;Floreano, Luca;Verdini, Alberto;Cossaro, Albano;Morgante, Alberto;
2:39:45 Understanding Lattice Strain-Controlled Charge Transport in Organic Semiconductors: A Computational Study
DOI:10.1002/adfm.201400261 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Zheng, Xiaoyan;Geng, Hua;Yi, Yuanping;Li, Qikai;Jiang, Yuqian;Wang, Dong;Shuai, Zhigang;
2:39:46 Modified poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) source/drain electrodes for fully printed organic field-effect transistors consisting of a semiconductor blend
DOI:10.1063/1.4819394 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Schmidt, G. C.;Hoeft, D.;Bhuie, M.;Haase, K.;Bellmann, M.;Haidu, F.;Lehmann, D.;Zahn, D. R. T.;Huebler, A. C.;
2:39:47 Utilizing high resolution and reconfigurable patterns in combination with inkjet printing to produce high performance circuits
DOI:10.1063/1.4896547 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Mei, P.;Ng, T. N.;Lujan, R. A.;Schwartz, D. E.;Kor, S.;Krusor, B. S.;Veres, J.;
2:39:48 Micropatterned crystalline organic semiconductors via direct pattern transfer printing with PDMS stamp
DOI:10.1039/c2jm34923j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Lee, Kyunghee;Kim, Joohee;Shin, Kyusoon;Kim, Youn Sang;
2:39:49 The influence of directed pi-pi interactions in solution on the thin film organic semiconductor device properties of small molecule polymer blends
DOI:10.1039/c1sm05842h JN:SOFT MATTER PY:2011 TC:6 AU: Madec, Marie-Beatrice;Butterworth, Sean;Taboada, Pablo;Heenan, Richard;Geoghegan, Mark;Yeates, Stephen G.;
2:39:50 Low-voltage and short-channel pentacene field-effect transistors with top-contact geometry using parylene-C shadow masks
DOI:10.1063/1.3336009 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Chung, Yoonyoung;Murmann, Boris;Selvarasah, Selvapraba;Dokmeci, Mehmet R.;Bao, Zhenan;
2:39:51 Anisotropic charge transport and contact resistance of 6,13-bis(triisopropylsilylethynyl) pentacene field-effect transistors fabricated by a modified flow-coating method
DOI:10.1063/1.3695169 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Sakamoto, Kenji;Ueno, Junichi;Bulgarevich, Kirill;Miki, Kazushi;
2:39:52 Temperature gradient approach to grow large, preferentially oriented 6,13-bis(triisopropylsilylethynyl) pentacene crystals for organic thin film transistors
DOI:10.1116/1.4893438 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:1 AU: Asare-Yeboah, Kyeiwaa;Frazier, Rachel M.;Szulczewski, Greg;Li, Dawen;
2:39:53 Controlling Microstructure of Pentacene Derivatives by Solution Processing: Impact of Structural Anisotropy on Optoelectronic Properties
DOI:10.1021/nn403073d JN:ACS NANO PY:2013 TC:14 AU: James, David T.;Frost, Jarvist M.;Wade, Jessica;Nelson, Jenny;Kim, Ji-Seon;
2:39:54 Unipolar depletion-load organic circuits on flexible substrate by self-organized polymer blending with 6, 13-bis(triisopropylsilylethynyl)pentacene using ink-jet printing
DOI:10.1063/1.3680085 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Kim, Sung Hoon;Hwang, Hye Rim;Kwon, Ho Joong;Jang, Jin;
2:39:55 Formation and Superlattice of Long-Range-Ordered Self-Assembled Monolayers of Pentafluorobenzenethiols on Au(111)
DOI:10.1021/la903952c JN:LANGMUIR PY:2010 TC:27 AU: Kang, Hungu;Lee, Nam-Suk;Ito, Eisuke;Hara, Masahiko;Noh, Jaegeun;
2:39:56 Development of high-performance n-type organic thin-film transistors using a small-molecule polymer blend
DOI:10.1016/j.tsf.2014.01.004 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Amegadze, Paul S. K.;Noh, Yong-Young;
2:39:57 Ultrathin, Organic, Semiconductor/Polymer Blends by Scanning Corona-Discharge Coating for High-Performance Organic Thin-Film Transistors
DOI:10.1002/adfm.201000032 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:7 AU: Jung, Hee Joon;Shin, Yu Jin;Park, Youn Jung;Yoon, Sung Cheol;Choi, Dong Hoon;Park, Cheolmin;
2:39:58 Blending effect of 6,13-bis (triisopropylsilylethynyl) pentacene-graphene composite layers for flexible thin film transistors with a polymer gate dielectric
DOI:10.1088/0957-4484/25/8/085201 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Basu, Sarbani;Adriyanto, Feri;Wang, Yeong-Her;
2:39:59 High Performance Organic Transistors Using Small Molecule Semiconductors and High Permittivity Semiconducting Polymers
DOI:10.1002/adfm.201303336 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: McCall, Keri L.;Rutter, Simon R.;Bone, Elizabeth L.;Forrest, Neil D.;Bissett, James S.;Jones, Julie D. E.;Simms, Michael J.;Page, Aaron J.;Fisher, Raymond;Brown, Beverley A.;Ogier, Simon D.;
2:39:60 High-performance organic thin-film transistors with polymer-blended small-molecular semiconductor films, fabricated using a pre-metered coating process
DOI:10.1039/c2jm16007b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Park, Byoungchoo;Jeon, Hong Goo;Choi, Jinsung;Kim, Y. K.;Lim, Jongsun;Jung, Junyoung;Cho, Song Yun;Lee, Changjin;
2:39:61 MoOx interlayer to enhance performance of pentacene-TFTs with low-cost copper electrodes
DOI:10.1016/j.synthmet.2009.11.008 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Li, Jun;Zhang, Xiao-Wen;Zhang, Liang;Zhang, Hao;Jiang, Xue-Yin;Khizar-ul-Haq;Zhu, Wen-Qing;Zhang, Zhi-Lin;
2:39:62 An Amorphous Polythiophene as a Binder Material for Organic Thin-Film Transistor Channel Applications
DOI:10.1080/15421401003613675 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Lee, Jaemin;Kwon, Jiyoung;Lim, Jongsun;Lee, Changjin;
2:40:1 Solution-Processable Graphene Oxide as an Efficient Hole Transport Layer in Polymer Solar Cells
DOI:10.1021/nn100551j JN:ACS NANO PY:2010 TC:289 AU: Li, Shao-Sian;Tu, Kun-Hua;Lin, Chih-Cheng;Chen, Chun-Wei;Chhowalla, Manish;
2:40:2 Solution-Processable Reduced Graphene Oxide as a Novel Alternative to PEDOT:PSS Hole Transport Layers for Highly Efficient and Stable Polymer Solar Cells
DOI:10.1002/adma.201102207 JN:ADVANCED MATERIALS PY:2011 TC:126 AU: Yun, Jin-Mun;Yeo, Jun-Seok;Kim, Juhwan;Jeong, Hyung-Gu;Kim, Dong-Yu;Noh, Yong-Jin;Kim, Seok-Soon;Ku, Bon-Cheol;Na, Seok-In;
2:40:3 Hole and Electron Extraction Layers Based on Graphene Oxide Derivatives for High-Performance Bulk Heterojunction Solar Cells
DOI:10.1002/adma.201104945 JN:ADVANCED MATERIALS PY:2012 TC:76 AU: Liu, Jun;Xue, Yuhua;Gao, Yunxiang;Yu, Dingshan;Durstock, Michael;Dai, Liming;
2:40:4 Graphene Based Materials: Enhancing Solar Energy Harvesting
DOI:10.1002/aenm.201100119 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:64 AU: Guo, Chun Xian;Guai, Guan Hong;Li, Chang Ming;
2:40:5 Highly Efficient Polymer Light-Emitting Diodes Using Graphene Oxide as a Hole Transport Layer
DOI:10.1021/nn300280q JN:ACS NANO PY:2012 TC:47 AU: Lee, Bo Ram;Kim, Jung-Woo;Kang, Dongwoo;Lee, Dong Wook;Ko, Seo-Jin;Lee, Hyun Jung;Lee, Chang-Lyoul;Kim, Jin Young;Shin, Hyeon Suk;Song, Myoung Hoon;
2:40:6 Surface Doping of Conjugated Polymers by Graphene Oxide and Its Application for Organic Electronic Devices
DOI:10.1002/adma.201100065 JN:ADVANCED MATERIALS PY:2011 TC:89 AU: Gao, Yan;Yip, Hin-Lap;Chen, Kung-Shih;O'Malley, Kevin M.;Acton, Orb;Sun, Ying;Ting, Guy;Chen, Hongzheng;Jen, Alex K. -Y.;
2:40:7 Improved Efficiency and Stability of Polymer Solar Cells Utilizing Two-Dimensional Reduced Graphene Oxide: Graphene Oxide Nanocomposites as Hole-Collection Material
DOI:10.1021/am506326y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Chen, Lei;Du, Donghe;Sun, Kuan;Hou, Jianhui;Ouyang, Jianyong;
2:40:8 Noncovalent Functionalization of Graphene Attaching [6,6]-Phenyl-C61-butyric Acid Methyl Ester (PCBM) and Application as Electron Extraction Layer of Polymer Solar Cells
DOI:10.1021/nn4001963 JN:ACS NANO PY:2013 TC:35 AU: Qu, Shuxuan;Li, Minghua;Xie, Lixin;Huang, Xiao;Yang, Jinguo;Wang, Nan;Yang, Shangfeng;
2:40:9 Significant Vertical Phase Separation in Solvent-Vapor-Annealed Poly(3,4-ethylenedioxythiophene):Poly(styrene sulfonate) Composite Films Leading to Better Conductivity and Work Function for High-Performance Indium Tin Oxide-Free Optoelectronics
DOI:10.1021/am300231v JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:52 AU: Yeo, Jun-Seok;Yun, Jin-Mun;Kim, Dong-Yu;Park, Sungjun;Kim, Seok-Soon;Yoon, Myung-Han;Kim, Tae-Wook;Na, Seok-In;
2:40:10 Anode modification of inverted polymer solar cells using graphene oxide
DOI:10.1063/1.3507388 JN:APPLIED PHYSICS LETTERS PY:2010 TC:41 AU: Gao, Yan;Yip, Hin-Lap;Hau, Steven K.;O'Malley, Kevin M.;Cho, Nam Chul;Chen, Hongzheng;Jen, Alex K. -Y.;
2:40:11 An Approach for an Advanced Anode Interfacial Layer with Electron-Blocking Ability to Achieve High-Efficiency Organic Photovoltaics
DOI:10.1021/am503989u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Yeo, Jun-Seok;Yun, Jin-Mun;Kang, Minji;Khim, Dongyoon;Lee, Seung-Hoon;Kim, Seok-Soon;Na, Seok-In;Kim, Dong-Yu;
2:40:12 Moderately reduced graphene oxide as hole transport layer in polymer solar cells via thermal assisted spray process
DOI:10.1016/j.apsusc.2014.01.061 JN:APPLIED SURFACE SCIENCE PY:2014 TC:6 AU: Jeon, Ye-Jin;Yun, Jin-Mun;Kim, Dong-Yu;Na, Seok-In;Kim, Seok-Soon;
2:40:13 Sulfonic acid-functionalized, reduced graphene oxide as an advanced interfacial material leading to donor polymer-independent high-performance polymer solar cells
DOI:10.1039/c3ta13647g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:12 AU: Yeo, Jun-Seok;Yun, Jin-Mun;Jung, Yen-Sook;Kim, Dong-Yu;Noh, Yong-Jin;Kim, Seok-Soon;Na, Seok-In;
2:40:14 Extension of stability in organic photovoltaic cells using UV/ozone-treated graphene sheets
DOI:10.1016/j.solmat.2012.10.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:19 AU: Kwon, Ki Chang;Dong, Wan Jae;Jung, Gwan Ho;Ham, Juyoung;Lee, Jong-Lam;Kim, Soo Young;
2:40:15 Work-Function-Tunable Chlorinated Graphene Oxide as an Anode Interface Layer in High-Efficiency Polymer Solar Cells
DOI:10.1002/aenm.201400591 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:6 AU: Yang, Dong;Zhou, Lingyu;Yu, Wei;Zhang, Jian;Li, Can;
2:40:16 Effect of solution processed graphene oxide/nickel oxide bi-layer on cell performance of bulk-heterojunction organic photovoltaic
DOI:10.1016/j.solmat.2011.06.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:26 AU: Ryu, Mi Sun;Jang, Jin;
2:40:17 High-performance polymer solar cells with moderately reduced graphene oxide as an efficient hole transporting layer
DOI:10.1016/j.solmat.2012.05.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:36 AU: Jeon, Ye-Jin;Yun, Jin-Mun;Kim, Dong-Yu;Na, Seok-In;Kim, Seok-Soon;
2:40:18 Highly Efficient Polymer-Based Optoelectronic Devices Using PEDOT:PSS and a GO Composite Layer as a Hole Transport Layer
DOI:10.1021/am4051487 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Yu, Jae Choul;Jang, Jeong In;Lee, Bo Ram;Lee, Geon-Woong;Han, Joong Tark;Song, Myoung Hoon;
2:40:19 Effect of fluorine plasma treatment with chemically reduced graphene oxide thin films as hole transport layer in organic solar cells
DOI:10.1016/j.apsusc.2013.09.078 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Yu, Youn-Yeol;Kang, Byung Hyun;Lee, Yang Doo;Lee, Sang Bin;Ju, Byeong-Kwon;
2:40:20 Graphene Oxide Nanoribbon as Hole Extraction Layer to Enhance Efficiency and Stability of Polymer Solar Cells
DOI:10.1002/adma.201302987 JN:ADVANCED MATERIALS PY:2014 TC:19 AU: Liu, Jun;Kim, Gi-Hwan;Xue, Yuhua;Kim, Jin Young;Baek, Jong-Beom;Durstock, Michael;Dai, Liming;
2:40:21 Successive solvent-treated PEDOT:PSS electrodes for flexible ITO-free organic photovoltaics
DOI:10.1016/j.solmat.2013.02.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:20 AU: Yeo, Jun-Seok;Yun, Jin-Mun;Kim, Dong-Yu;Kim, Seok-Soon;Na, Seok-In;
2:40:22 Influence of graphene oxide interlayer on PCE value of polymer solar cells
DOI:10.1016/j.synthmet.2013.03.006 JN:SYNTHETIC METALS PY:2013 TC:11 AU: Chuchmala, Andrzej;Palewicz, Marcin;Sikora, Andrzej;Iwan, Agnieszka;
2:40:23 Anode modification of polymer light-emitting diode using graphene oxide interfacial layer: The role of ultraviolet-ozone treatment
DOI:10.1063/1.4818820 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Jiang, Xiao-Chen;Li, Yan-Qing;Deng, Yan-Hong;Zhuo, Qi-Qi;Lee, Shuit-Tong;Tang, Jian-Xin;
2:40:24 Enhanced performance of polymer solar cells with PSSA-g-PANI/Graphene oxide composite as hole transport layer
DOI:10.1016/j.solmat.2014.08.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Bae, Seunghwan;Lee, Jea Uk;Park, Heung-su;Jung, Eui Hyuk;Jung, Jae Woong;Jo, Won Ho;
2:40:25 Efficient polymer solar cells with a solution-processed gold chloride as an anode interfacial modifier
DOI:10.1063/1.4803039 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Go, Yeong-Jin;Yun, Jin-Mun;Noh, Yong-Jin;Yeo, Jun-Seok;Kim, Seok-Soon;Jung, Chan-Hee;Oh, Seung-Hwan;Yang, Shi-Young;Kim, Dong-Yu;Na, Seok-In;
2:40:26 Facile synthesis of organo-soluble surface-grafted all-single-layer graphene oxide as hole-injecting buffer material in organic light-emitting diodes
DOI:10.1039/c1jm00044f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Zhong, Ze;Dai, Yanfeng;Ma, Dongge;Wang, Zhi Yuan;
2:40:27 Improved homogeneity and surface coverage of graphene oxide layers fabricated by horizontal-dip-coating for solution-processable organic semiconducting devices
DOI:10.1039/c3tc31933d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Jeon, Hong Goo;Huh, Yoon Ho;Yun, Soo Hong;Kim, Ki Woong;Lee, Sun Sook;Lim, Jongsun;An, Ki-Seok;Park, Byoungchoo;
2:40:28 Molecularly Controlled Interfacial Layer Strategy Toward Highly Efficient Simple-Structured Organic Light-Emitting Diodes
DOI:10.1002/adma.201104316 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Han, Tae-Hee;Choi, Mi-Ri;Woo, Seong-Hoon;Min, Sung-Yong;Lee, Chang-Lyoul;Lee, Tae-Woo;
2:40:29 Enhancement of electron mobility and photovoltaic performance based on the P3HT:SPRGO organic photovoltaic
DOI:10.1016/j.synthmet.2013.04.017 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Song, Chaoqun;
2:40:30 Graphene oxide hole transport layers for large area, high efficiency organic solar cells
DOI:10.1063/1.4893787 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Smith, Chris T. G.;Rhodes, Rhys W.;Beliatis, Michail J.;Jayawardena, K. D. G. Imalka;Rozanski, Lynn J.;Mills, Christopher A.;Silva, S. Ravi P.;
2:40:31 Surface modified ZnO nanoparticles: structure, photophysics, and its optoelectronic application
DOI:10.1007/s11051-013-1758-3 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:3 AU: Singh, Punita;Sinha, O. P.;Srivastava, Ritu;Srivastava, A. K.;Thomas, Som V.;Sood, K. N.;Kamalasanan, M. N.;
2:40:32 Non-zero output from a symmetrical organic photovoltaic device
DOI:10.1016/j.synthmet.2014.08.012 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Chen, Sean S.;Zhao, Cindy X.;Mao, Alice Y.;Li, Renee W.;Xu, Gu;
2:40:33 Application of poly(3,4-ethylenedioxythiophene): polystyrenesulfonate in polymer heterojunction solar cells
DOI:10.1007/s10853-013-7147-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Li, Yan;Yue, Gentian;Chen, Xiaoxu;He, Benlin;Chu, Lei;Chen, Haiyan;Wu, Jihuai;Tang, Qunwei;
2:41:1 Outlook and Emerging Semiconducting Materials for Ambipolar Transistors
DOI:10.1002/adma.201304280 JN:ADVANCED MATERIALS PY:2014 TC:36 AU: Bisri, Satria Zulkarnaen;Piliego, Claudia;Gao, Jia;Loi, Maria Antonietta;
2:41:2 The pursuit of electrically-driven organic semiconductor lasers
DOI:10.1039/c3tc32206h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Bisri, Satria Zulkarnaen;Takenobu, Taishi;Iwasa, Yoshihiro;
2:41:3 Perfluoroalkyl-Functionalized Thiazole Thiophene Oligomers as N-Channel Semiconductors in Organic Field-Effect and Light-Emitting Transistors
DOI:10.1021/cm503203w JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Usta, Hakan;Sheets, William Christopher;Denti, Mitchell;Generali, Gianluca;Capelli, Raffaella;Lu, Shaofeng;Yu, Xinge;Muccini, Michele;Facchetti, Antonio;
2:41:4 Highly Efficient Single-Layer Polymer Ambipolar Light-Emitting Field-Effect Transistors
DOI:10.1002/adma.201104602 JN:ADVANCED MATERIALS PY:2012 TC:45 AU: Gwinner, Michael C.;Kabra, Dinesh;Roberts, Matthew;Brenner, Thomas J. K.;Wallikewitz, Bodo H.;McNeill, Christopher R.;Friend, Richard H.;Sirringhaus, Henning;
2:41:5 Solution-Processed Organic Light-Emitting Transistors Incorporating Conjugated Polyelectrolytes
DOI:10.1002/adfm.201100682 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:38 AU: Seo, Jung Hwa;Namdas, Ebinazar B.;Gutacker, Andrea;Heeger, Alan J.;Bazan, Guillermo C.;
2:41:6 Current-Confinement Structure and Extremely High Current Density in Organic Light-Emitting Transistors
DOI:10.1002/adma.201202252 JN:ADVANCED MATERIALS PY:2012 TC:23 AU: Sawabe, Kosuke;Imakawa, Masaki;Nakano, Masaki;Yamao, Takeshi;Hotta, Shu;Iwasa, Yoshihiro;Takenobu, Taishi;
2:41:7 Mapping Charge-Carrier Density Across the p-n Junction in Ambipolar Carbon-Nanotube Networks by Raman Microscopy
DOI:10.1002/adma.201403655 JN:ADVANCED MATERIALS PY:2014 TC:1 AU: Grimm, Stefan B.;Jakubka, Florian;Schiessl, Stefan P.;Gannott, Florentina;Zaumseil, Jana;
2:41:8 Organic single-crystal light-emitting field-effect transistors
DOI:10.1039/c3tc31998a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:14 AU: Hotta, Shu;Yamao, Takeshi;Bisri, Satria Zulkarnaen;Takenobu, Taishi;Iwasa, Yoshihiro;
2:41:9 p-i-n Homojunction in Organic Light-Emitting Transistors
DOI:10.1002/adma.201004572 JN:ADVANCED MATERIALS PY:2011 TC:36 AU: Bisri, Satria Zulkarnaen;Takenobu, Taishi;Sawabe, Kosuke;Tsuda, Satoshi;Yomogidao, Yohei;Yamao, Takeshi;Hotta, Shu;Adachi, Chihaya;Iwasa, Yoshihiro;
2:41:10 Fundamental Limitations for Electroluminescence in Organic Dual-Gate Field-Effect Transistors
DOI:10.1002/adma.201305215 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Roelofs, W. S. Christian;Spijkman, Mark-Jan;Mathijssen, Simon G. J.;Janssen, Rene A. J.;de Leeuw, Dago M.;Kemerink, Martijn;
2:41:11 Ordered Polymer Nanofibers Enhance Output Brightness in Bilayer Light-Emitting Field-Effect Transistors
DOI:10.1021/nn305566u JN:ACS NANO PY:2013 TC:13 AU: Hsu, Ben B. Y.;Seifter, Jason;Takacs, Christopher J.;Zhong, Chengmei;Tseng, Hsin-Rong;Samuel, Ifor D. W.;Namdas, Ebinazar B.;Bazan, Guillermo C.;Fei, Huang;Cao, Yong;Heeger, Alan J.;
2:41:12 Control of Efficiency, Brightness, and Recombination Zone in Light-Emitting Field Effect Transistors
DOI:10.1002/adma.201103513 JN:ADVANCED MATERIALS PY:2012 TC:25 AU: Hsu, Ben B. Y.;Duan, Chunhui;Namdas, Ebinazar B.;Gutacker, Andrea;Yuen, Jonathan D.;Huang, Fei;Cao, Yong;Bazan, Guillermo C.;Samuel, Ifor D. W.;Heeger, Alan J.;
2:41:13 Cyano-Substituted Oligo(p-phenylene vinylene) Single Crystals: A Promising Laser Material
DOI:10.1002/adfm.201100783 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:39 AU: Wang, Huan;Li, Feng;Ravia, Israel;Gao, Bingrong;Li, Yupeng;Medvedev, Vlad;Sun, Hongbo;Tessler, Nir;Ma, Yuguang;
2:41:14 An Organic Luminescent Molecule: What Will Happen When the "Butterflies" Come Together?
DOI:10.1002/adma.201303639 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Zhang, Jibo;Xu, Bin;Chen, Jinlong;Ma, Suqian;Dong, Yujie;Wang, Lijuan;Li, Bao;Ye, Ling;Tian, Wenjing;
2:41:15 High current densities in a highly photoluminescent organic single-crystal light-emitting transistor
DOI:10.1063/1.3466915 JN:APPLIED PHYSICS LETTERS PY:2010 TC:22 AU: Sawabe, Kosuke;Takenobu, Taishi;Bisri, Satria Zulkarnaen;Yamao, Takeshi;Hotta, Shu;Iwasa, Yoshihiro;
2:41:16 Electron transport in rubrene single-crystal transistors
DOI:10.1063/1.3419899 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Bisri, Satria Zulkarnaen;Takenobu, Taishi;Takahashi, Tetsuo;Iwasa, Yoshihiro;
2:41:17 Single crystal biphenyl end-capped furan-incorporated oligomers: influence of unusual packing structure on carrier mobility and luminescence
DOI:10.1039/c3tc30220b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:17 AU: Oniwa, Kazuaki;Kanagasekaran, Thangavel;Jin, Tienan;Akhtaruzzaman, Md.;Yamamoto, Yoshinori;Tamura, Hiroyuki;Hamada, Ikutaro;Shimotani, Hidekazu;Asao, Naoki;Ikeda, Susumu;Tanigaki, Katsumi;
2:41:18 Simultaneous Enhancement of Brightness, Efficiency, and Switching in RGB Organic Light Emitting Transistors
DOI:10.1002/adma.201302649 JN:ADVANCED MATERIALS PY:2013 TC:10 AU: Ullah, Mujeeb;Tandy, Kristen;Yambem, Soniya D.;Aljada, Muhsen;Burn, Paul L.;Meredith, Paul;Namdas, Ebinazar B.;
2:41:19 Conjugated polyelectrolytes for organic light emitting transistors
DOI:10.1063/1.3467856 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Seo, Jung Hwa;Namdas, Ebinazar B.;Gutacker, Andrea;Heeger, Alan J.;Bazan, Guillermo C.;
2:41:20 Molecular Tailoring of New Thieno(bis)imide-Based Semiconductors for Single Layer Ambipolar Light Emitting Transistors
DOI:10.1021/cm303224a JN:CHEMISTRY OF MATERIALS PY:2013 TC:14 AU: Melucci, Manuela;Favaretto, Laura;Zambianchi, Massimo;Durso, Margherita;Gazzano, Massimo;Zanelli, Alberto;Monari, Magda;Lobello, Maria G.;De Angelis, Filippo;Biondo, Viviana;Generali, Gianluca;Troisi, Stefano;Koopman, Wouter;Toffanin, Stefano;Capelli, Raffaella;Muccini, Michele;
2:41:21 The thiophene/phenylene co-oligomers: exotic molecular semiconductors integrating high-performance electronic and optical functionalities
DOI:10.1039/c0jm02290j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:31 AU: Hotta, Shu;Yamao, Takeshi;
2:41:22 Light Emission in the Unipolar Regime of Ambipolar Organic Field-Effect Transistors
DOI:10.1002/adfm.201203568 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:7 AU: Roelofs, W. S. Christian;Adriaans, Willem H.;Janssen, Rene A. J.;Kemerink, Martijn;de Leeuw, Dago M.;
2:41:23 Fabrication and Characterization of Organic Single Crystal-Based Light-Emitting Devices with Improved Contact Between the Metallic Electrodes and Crystal
DOI:10.1002/adfm.201400832 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Ding, Ran;Feng, Jing;Zhang, Xu-Lin;Zhou, Wei;Fang, Hong-Hua;Liu, Yue-Feng;Chen, Qi-Dai;Wang, Hai-Yu;Sun, Hong-Bo;
2:41:24 Split-Gate Organic Field Effect Transistors: Control Over Charge Injection and Transport
DOI:10.1002/adma.201001509 JN:ADVANCED MATERIALS PY:2010 TC:16 AU: Hsu, Ben B. Y.;Namdas, Ebinazar B.;Yuen, Jonathan D.;Cho, Shinuk;Samuel, D. W.;Heeger, Alan J.;
2:41:25 A High Gain and High Charge Carrier Mobility Indenofluorene-Phenanthrene Copolymer for Light Amplification and Organic Lasing
DOI:10.1002/adma.201003797 JN:ADVANCED MATERIALS PY:2011 TC:27 AU: Kim, Hun;Schulte, Niels;Zhou, Gang;Muellen, Klaus;Laquai, Frederic;
2:41:26 Single Crystals of 5,5 '-Bis(4 '-methoxybiphenyl-4-yl)-2,2 '-bithiophene for Organic Laser Media
DOI:10.1002/adma.201202470 JN:ADVANCED MATERIALS PY:2012 TC:27 AU: Mizuno, Hitoshi;Haku, U.;Marutani, Yusuke;Ishizumi, Atsushi;Yanagi, Hisao;Sasaki, Fumio;Hotta, Shu;
2:41:27 All Solution-Processed, Hybrid Light Emitting Field-Effect Transistors
DOI:10.1002/adma.201400938 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Muhieddine, Khalid;Ullah, Mujeeb;Pal, Bhola N.;Burn, Paul;Namdas, Ebinazar B.;
2:41:28 Self-cavity laser oscillations with very low threshold from a symmetric organic crystal waveguide
DOI:10.1063/1.4742734 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Li, Xianjie;Gao, Na;Xu, Yuanxiang;Li, Feng;Ma, Yuguang;
2:41:29 Emission Color Tuning in Ambipolar Organic Single-Crystal Field-Effect Transistors by Dye-Doping
DOI:10.1002/adfm.200902339 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:30 AU: Nakanotani, Hajime;Saito, Masatoshi;Nakamura, Hiroaki;Adachi, Chihaya;
2:41:30 Stimulated Resonance Raman Scattering and Laser Oscillation in Highly Emissive Distyrylbenzene-Based Molecular Crystals
DOI:10.1002/adma.201202525 JN:ADVANCED MATERIALS PY:2012 TC:17 AU: Varghese, Shinto;Yoon, Seong-Jun;Calzado, Eva M.;Casado, Santiago;Boj, Pedro G.;Diaz-Garcia, Maria A.;Resel, Roland;Fischer, Roland;Milian-Medina, Begona;Wannemacher, Reinhold;Park, Soo Young;Gierschner, Johannes;
2:41:31 Green light emission from the edges of organic single-crystal transistors
DOI:10.1063/1.3504690 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Yomogida, Yohei;Takenobu, Taishi;Shimotani, Hidekazu;Sawabe, Kosuke;Bisri, Satria Zulkarnaen;Yamao, Takeshi;Hotta, Shu;Iwasa, Yoshihiro;
2:41:32 Light-Emitting Field-Effect Transistors Consisting of Bilayer-Crystal Organic Semiconductors
DOI:10.1002/adfm.201100474 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:23 AU: Kajiwara, Kentaro;Terasaki, Kohei;Yamao, Takeshi;Hotta, Shu;
2:41:33 Distributed Feedback Lasers Based on Thiophene/Phenylene Co-Oligomer Single Crystals
DOI:10.1002/adfm.201101467 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:28 AU: Fang, Hong-Hua;Ding, Ran;Lu, Shi-Yang;Yang, Jie;Zhang, Xu-Lin;Yang, Rui;Feng, Jing;Chen, Qi-Dai;Song, Jun-Feng;Sun, Hong-Bo;
2:41:34 Current-Injected Spectrally-Narrowed Emissions from an Organic Transistor
DOI:10.1002/adma.201000171 JN:ADVANCED MATERIALS PY:2010 TC:24 AU: Yamao, Takeshi;Sakurai, Yoichi;Terasaki, Kohei;Shimizu, Yasuhiro;Jinnai, Hiroshi;Hotta, Shu;
2:41:35 Optoelectronic Gate Dielectrics for High Brightness and High-Efficiency Light-Emitting Transistors
DOI:10.1002/adma.201004102 JN:ADVANCED MATERIALS PY:2011 TC:13 AU: Namdas, Ebinazar B.;Hsu, Ben B. Y.;Yuen, Jonathan D.;Samuel, Ifor D. W.;Heeger, Alan J.;
2:41:36 Organic light emitting complementary inverters
DOI:10.1063/1.3293293 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Namdas, Ebinazar B.;Samuel, Ifor D. W.;Shukla, Deepak;Meyer, Dianne M.;Sun, Yanming;Hsu, Ben B. Y.;Moses, Daniel;Heeger, Alan J.;
2:41:37 Extraction of the contact resistance from the saturation region of rubrene single-crystal transistors
DOI:10.1063/1.3666236 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Imakawa, Masaki;Sawabe, Kosuke;Yomogida, Yohei;Iwasa, Yoshihiro;Takenobu, Taishi;
2:41:38 Dispersion of the refractive indices of thiophene/phenylene co-oligomer single crystals
DOI:10.1063/1.3634117 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:20 AU: Yamao, Takeshi;Okuda, Yuki;Makino, Yoshitaka;Hotta, Shu;
2:41:39 Properties of polymer light-emitting transistors with Ag-nanowire source/drain electrodes fabricated on polymer substrate
DOI:10.1016/j.tsf.2013.08.021 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Hiraoka, Koichi;Kusumoto, Yusuke;Ikezoe, Ikuya;Kajii, Hirotake;Ohmori, Yutaka;
2:41:40 Light-Emitting Field-Effect Transistors Having Combined Organic Semiconductor and Metal Oxide Layers
DOI:10.1002/adma.201300456 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: Yamada, Keisei;Yamao, Takeshi;Hotta, Shu;
2:41:41 A light emitting transistor based on a hybrid metal oxide-organic semiconductor lateral heterostructure
DOI:10.1063/1.3689758 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Ooi, Zi-En;Foong, Thelese R. B.;Singh, Samarendra P.;Chan, Khai Leok;Dodabalapur, Ananth;
2:41:42 Charge transport in dual-gate organic field-effect transistors
DOI:10.1063/1.3677676 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Brondijk, J. J.;Spijkman, M.;Torricelli, F.;Blom, P. W. M.;de Leeuw, D. M.;
2:41:43 Electronic states of thiophene/phenylene co-oligomers: Extreme-ultra violet excited photoelectron spectroscopy observations and density functional theory calculations
DOI:10.1063/1.4793505 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Kawaguchi, Yoshizo;Sasaki, Fumio;Mochizuki, Hiroyuki;Ishitsuka, Tomoaki;Tomie, Toshihisa;Ootsuka, Teruhisa;Watanabe, Shuji;Shimoi, Yukihiro;Yamao, Takeshi;Hotta, Shu;
2:41:44 Impact of triplet absorption and triplet-singlet annihilation on the dynamics of optically pumped organic solid-state lasers
DOI:10.1103/PhysRevB.81.165206 JN:PHYSICAL REVIEW B PY:2010 TC:14 AU: Lehnhardt, M.;Riedl, T.;Weimann, T.;Kowalsky, W.;
2:41:45 Lasing from Epitaxially Oriented Needle Crystals of a Thiophene/Phenylene Co-Oligomer
DOI:10.1002/adma.201104182 JN:ADVANCED MATERIALS PY:2012 TC:18 AU: Mizuno, Hitoshi;Ohnishi, Itaru;Yanagi, Hisao;Sasaki, Fumio;Hotta, Shu;
2:41:46 Organic light-emitting diodes containing multilayers of organic single crystals
DOI:10.1063/1.3298558 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Nakanotani, Hajime;Adachi, Chihaya;
2:41:47 Facile Access to Extremely Efficient Energy-Transfer Pairs via an Unexpected Reaction of Squaraines with Ketones
DOI:10.1021/ja304082h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:11 AU: Yang, Shuaijun;You, Jingsong;Lan, Jingbo;Gao, Ge;
2:41:48 Interface Functionalities in Multilayer Stack Organic Light Emitting Transistors (OLETs)
DOI:10.1002/adfm.201400877 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Capelli, Raffaella;Dinelli, Franco;Gazzano, Massimo;D'Alpaos, Riccardo;Stefani, Andrea;Generali, Gianluca;Riva, Mauro;Montecchi, Monica;Giglia, Angelo;Pasquali, Luca;
2:41:49 A Color-Tuneable Organic Light-Emitting Transistor
DOI:10.1002/adma.201000980 JN:ADVANCED MATERIALS PY:2010 TC:16 AU: Feldmeier, Eva J.;Schidleja, Martin;Melzer, Christian;von Seggern, Heinz;
2:41:50 Ambipolar behavior of 2,5-diphenyl-1,4-distyrylbenzene based field effect transistors: An experimental and theoretical study
DOI:10.1063/1.3465659 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Wang, Yan;Liu, Dandan;Ikeda, Susumu;Kumashiro, Ryotaro;Nouch, Ryo;Xu, Yuanxiang;Shang, Hui;Ma, Yuguang;Tanigaki, Katsumi;
2:41:51 Enhancement of luminescence intensity in TMPY/perylene co-single crystals
DOI:10.1039/c1jm12977e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Li, Jinpeng;Takaishi, Shinya;Fujinuma, Naohiro;Endo, Katsutoshi;Yamashita, Masahiro;Matsuzaki, Hiroyuki;Okamoto, Hiroshi;Sawabe, Kosuke;Takenobu, Taishi;Iwasa, Yoshihiro;
2:41:52 Crystallization of thiophene/phenylene co-oligomers by dropping of their solutions into poor solvents
DOI:10.1016/j.tsf.2013.08.024 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Mochizuki, Hiroyuki;Sasaki, Fumio;Hotta, Shu;
2:41:53 Monolayer dual gate transistors with a single charge transport layer
DOI:10.1063/1.3379026 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Spijkman, M.;Mathijssen, S. G. J.;Smits, E. C. P.;Kemerink, M.;Blom, P. W. M.;de Leeuw, D. M.;
2:41:54 Vertical cavity surface emitting lasing from cyano-substituted thiophene/phenylene co-oligomer single crystals
DOI:10.1063/1.4885382 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yamashita, Kenichi;Nakahata, Takuya;Hayakawa, Takashi;Sakurai, Yusaku;Yamao, Takeshi;Yanagi, Hisao;Hotta, Shu;
2:41:55 Organic light-emitting diodes based on layered films of thiophene/phenylene co-oligomers
DOI:10.1016/j.jnoncrysol.2011.12.048 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:5 AU: Sengoku, Tomoaki;Yamao, Takeshi;Hotta, Shu;
2:41:56 Spectrally-Narrowed Emissions from Organic Transistors Composed of Layered Crystals Laminated on a Two-Dimensional Diffraction Grating (Spectral Narrowing from Organic Crystal Transistors)
DOI:10.1080/15421406.2012.701108 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:4 AU: Makino, Yoshitaka;Okada, Akinori;Hotta, Shu;Yamao, Takeshi;
2:41:57 Surface-emitting dye-doped polymer laser coupled with stimulated resonant Raman scattering
DOI:10.1063/1.3459967 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Yanagi, Hisao;Miyamoto, Hidetaka;Ishizumi, Atsushi;Tomita, Satoshi;Yamashita, Kenichi;Oe, Kunishige;
2:41:58 Random lasing in low molecular weight organic thin films
DOI:10.1063/1.3619169 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Kena-Cohen, S.;Stavrinou, P. N.;Bradley, D. D. C.;Maier, S. A.;
2:41:59 High mobility solution-processed hybrid light emitting transistors
DOI:10.1063/1.4900933 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Walker, Bright;Ullah, Mujeeb;Chae, Gil Jo;Burn, Paul L.;Cho, Shinuk;Kim, Jin Young;Namdas, Ebinazar B.;Seo, Jung Hwa;
2:41:60 Light-emitting organic field-effect transistors based on highly luminescent single crystals of thiophene/phenylene co-oligomers
DOI:10.1039/c4tc00164h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Komori, Takahiro;Nakanotani, Hajime;Yasuda, Takuma;Adachi, Chihaya;
2:41:61 Effects of film morphology on ambipolar transport in top-gate-type organic field-effect transistors using poly(9,9-dioctylfluorene-co-bithiophene)
DOI:10.1016/j.synthmet.2011.08.003 JN:SYNTHETIC METALS PY:2011 TC:13 AU: Koiwai, Kyohei;Kajii, Hirotake;Ohmori, Yutaka;
2:41:62 Organic and Hybrid Materials for Flexible Electronics
DOI:10.1002/adma.201302873 JN:ADVANCED MATERIALS PY:2013 TC:7 AU: Caironi, Mario;Anthopoulos, Thomas D.;Noh, Yong-Young;Zaumseil, Jana;
2:41:63 Resonant stimulation of Raman scattering from single-crystal thiophene/phenylene co-oligomers
DOI:10.1063/1.4842216 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Yanagi, Hisao;Marutani, Yusuke;Matsuoka, Naoki;Hiramatsu, Toru;Ishizumi, Atsushi;Sasaki, Fumio;Hotta, Shu;
2:41:64 Optimization of thermal treatment of vapor-deposited thiophene/phenylene co-oligomer films
DOI:10.1016/j.jcrysgro.2012.02.024 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:3 AU: Mochizuki, Hiroyuki;Kawaguchi, Yoshizo;Sasaki, Fumio;Chikamatsu, Masayuki;Azumi, Reiko;Hotta, Shu;
2:41:65 Giant organic single-crystals of a thiophene/phenylene co-oligomer toward device applications
DOI:10.1016/j.synthmet.2011.06.026 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Inada, Yuhi;Yamao, Takeshi;Inada, Mari;Itami, Toshiaki;Hotta, Shu;
2:42:1 Molecular Engineering of Blue Fluorescent Molecules Based on Silicon End-Capped Diphenylaminofluorene Derivatives for Efficient Organic Light-Emitting Materials
DOI:10.1002/adfm.200901895 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:63 AU: Lee, Kum Hee;Kang, Lee Kyung;Lee, Jin Yong;Kang, Sunwoo;Jeon, Soon Ok;Yook, Kyoung Soo;Lee, Jun Yeob;Yoon, Seung Soo;
2:42:2 The development of anthracene derivatives for organic light-emitting diodes
DOI:10.1039/c2jm16855c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:50 AU: Huang, Jinhai;Su, Jian-Hua;Tian, He;
2:42:3 Bisanthracene- Based Donor- Acceptor- type Light- Emitting Dopants: Highly Effi cient Deep- Blue Emission in Organic Light- Emitting Devices
DOI:10.1002/adfm.201302907 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:33 AU: Hu, Jian-Yong;Pu, Yong-Jin;Satoh, Fumiya;Kawata, So;Katagiri, Hiroshi;Sasabe, Hisahiro;Kido, Junji;
2:42:4 High efficiency non-dopant blue organic light-emitting diodes based on anthracene-based fluorophores with molecular design of charge transport and red-shifted emission proof
DOI:10.1039/c4tc00876f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Wu, Cheng-Lung;Chang, Che-Hong;Chang, Yung-Ting;Chen, Chin-Ti;Chen, Chao-Tsen;Su, Chi-Jung;
2:42:5 Achieving Highly Efficient Fluorescent Blue Organic Light-Emitting Diodes Through Optimizing Molecular Structures and Device Configuration
DOI:10.1002/adfm.201002165 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:60 AU: Zhen, Chang-Gua;Dai, Yan-Feng;Zeng, Wen-Jin;Ma, Zhun;Chen, Zhi-Kuan;Kieffer, John;
2:42:6 Highly efficient non-doped deep-blue organic light-emitting diodes based on anthracene derivatives
DOI:10.1039/b918739a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:54 AU: Zheng, Cai-Jun;Zhao, Wei-Ming;Wang, Zhi-Qiang;Huang, Da;Ye, Jun;Ou, Xue-Mei;Zhang, Xiao-Hong;Lee, Chun-Sing;Lee, Shuit-Tong;
2:42:7 Core, Shell, and Surface-Optimized Dendrimers for Blue Light-Emitting Diodes
DOI:10.1021/ja109734e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:54 AU: Qin, Tianshi;Wiedemair, Wolfgang;Nau, Sebastian;Trattnig, Roman;Sax, Stefan;Winkler, Stefanie;Vollmer, Ante;Koch, Norbert;Baumgarten, Martin;List, Emil J. W.;Muellen, Klaus;
2:42:8 Efficient deep-blue emitters comprised of an anthracene core and terminal bifunctional groups for nondoped electroluminescence
DOI:10.1039/c1jm10465a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:39 AU: Zhu, Minrong;Wang, Qiang;Gu, Yu;Cao, Xiaosong;Zhong, Cheng;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:42:9 Highly efficient deep-blue organic electroluminescent devices doped with hexaphenylanthracene fluorophores
DOI:10.1039/c1jm10424a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:19 AU: Lin, Sheng-Hsun;Wu, Fang-Iy;Tsai, Hsiu-Yun;Chou, Pei-Yu;Chou, Ho-Hsiu;Cheng, Chien-Hong;Liu, Rai-Shung;
2:42:10 Highly rigid and twisted anthracene derivatives: a strategy for deep blue OLED materials with theoretical limit efficiency
DOI:10.1039/c2jm16056k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:50 AU: Park, Hyuntae;Lee, Jonghee;Kang, Il;Chu, Hye Yong;Lee, Jeong-Ik;Kwon, Soon-Ki;Kim, Yun-Hi;
2:42:11 Efficient deep-blue and white organic light-emitting diodes based on triphenylsilane-substituted anthracene derivatives
DOI:10.1039/c1jm12097b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:35 AU: Lee, Kum Hee;Park, Jeong Keun;Seo, Ji Hoon;Park, Se Won;Kim, Young Sik;Kim, Young Kwan;Yoon, Seung Soo;
2:42:12 Distinct electroluminescent properties of triphenylamine derivatives in blue organic light-emitting devices
DOI:10.1039/c0jm02550j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:35 AU: Lai, Shiu-Lun;Tong, Qing-Xiao;Chan, Mei-Yee;Ng, Tsz-Wai;Lo, Ming-Fai;Lee, Shuit-Tong;Lee, Chun-Sing;
2:42:13 Highly efficient and stable deep-blue emitting anthracene-derived molecular glass for versatile types of non-doped OLED applications
DOI:10.1039/c1jm14482k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:56 AU: Cho, Illhun;Kim, Se Hun;Kim, Jong H.;Park, Sanghyuk;Park, Soo Young;
2:42:14 Bipolar anthracene derivatives containing hole- and electron-transporting moieties for highly efficient blue electroluminescence devices
DOI:10.1039/c0jm03300f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:63 AU: Huang, Jinhai;Su, Jian-Hua;Li, Xin;Lam, Mei-Ki;Fung, Ka-Man;Fan, Hai-Hua;Cheah, Kok-Wai;Chen, Chin H.;Tian, He;
2:42:15 Highly efficient deep-blue emitting organic light emitting diode based on the multifunctional fluorescent molecule comprising covalently bonded carbazole and anthracene moieties
DOI:10.1039/c1jm11111f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:45 AU: Kim, Se Hun;Cho, Illhun;Sim, Mun Ki;Park, Sanghyuk;Park, Soo Young;
2:42:16 Bifunctional oligofluorene-cored carbazole dendrimers as solution-processed blue emitters and hole transporters for electroluminescent devices
DOI:10.1039/c4tc00637b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Moonsin, Preecha;Prachumrak, Narid;Namuangruk, Supawadee;Jungsuttiwong, Siriporn;Keawin, Tinnagon;Sudyoadsuk, Taweesak;Promarak, Vinich;
2:42:17 Efficient Deep-Blue Electroluminescence from an Ambipolar Fluorescent Emitter in a Single-Active-Layer Device
DOI:10.1021/cm103314t JN:CHEMISTRY OF MATERIALS PY:2011 TC:50 AU: Fisher, Alison L.;Linton, Katharine E.;Kamtekar, Kiran T.;Pearson, Christopher;Bryce, Martin R.;Petty, Michael C.;
2:42:18 Asymmetric anthracene-based blue host materials: synthesis and electroluminescence properties of 9-(2-naphthyl)-10-arylanthracenes
DOI:10.1039/c0jm02877k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:30 AU: Wee, Kyung-Ryang;Han, Won-Sik;Kim, Ju-Eun;Kim, Ae-Li;Kwon, Soonnam;Kang, Sang Ook;
2:42:19 Designed Suppression of Aggregation in Polypyrene: Toward High-Performance Blue-Light-Emitting Diodes
DOI:10.1002/adma.200902744 JN:ADVANCED MATERIALS PY:2010 TC:45 AU: Figueira-Duarte, Teresa M.;Del Rosso, Pablo G.;Trattnig, Roman;Sax, Stefan;List, Emil J. W.;Muellen, Klaus;
2:42:20 Spirobifluorene derivative: a pure blue emitter (CIEy approximate to 0.08) with high efficiency and thermal stability
DOI:10.1039/c2jm32512h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Xing, Xing;Xiao, Lixin;Zheng, Lingling;Hu, Shuangyuan;Chen, Zhijian;Qu, Bo;Gong, Qihuang;
2:42:21 Pyrene-functionalized carbazole derivatives as non-doped blue emitters for highly efficient blue organic light-emitting diodes
DOI:10.1039/c3tc30719k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:20 AU: Kotchapradist, Palita;Prachumrak, Narid;Tarsang, Ruangchai;Jungsuttiwong, Siriporn;Keawin, Tinnagon;Sudyoadsuk, Taweesak;Promarak, Vinich;
2:42:22 Synthesis and electroluminescence properties of highly efficient blue fluorescence emitters using dual core chromophores
DOI:10.1039/c2tc00185c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Kim, Beomjin;Park, Youngil;Lee, Jaehyun;Yokoyama, Daisuke;Lee, Ji-Hoon;Kido, Junji;Park, Jongwook;
2:42:23 High-Efficiency Nondoped Deep-Blue-Emitting Organic Electroluminescent Device
DOI:10.1021/cm100100w JN:CHEMISTRY OF MATERIALS PY:2010 TC:39 AU: Tao, Silu;Zhou, Yechun;Lee, Chun-Sing;Zhang, Xiaohong;Lee, Shuit-Tong;
2:42:24 Deep-blue and white organic light-emitting diodes based on novel fluorene-cored derivatives with naphthylanthracene endcaps
DOI:10.1039/c1jm11438g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:29 AU: Zhang, Ting;Liu, Di;Wang, Qian;Wang, Renjie;Ren, Huicai;Li, Jiuyan;
2:42:25 Blue electroluminescent materials based on 2,7-distyrylfluorene for organic light-emitting diodes
DOI:10.1016/j.tsf.2010.02.063 JN:THIN SOLID FILMS PY:2010 TC:14 AU: Lee, Kum Hee;Kang, Lee Kyung;Kwon, Young Soo;Lee, Jin Yong;Kang, Sunwoo;Kim, Gu Young;Seo, Ji Hoon;Kim, Young Kwan;Yoon, Seung Soo;
2:42:26 Highly efficient deep-blue electroluminescence based on the triphenylamine-cored and peripheral blue emitters with segregative HOMO-LUMO characteristics
DOI:10.1039/c1jm14639d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:33 AU: Tang, Shi;Li, Weijun;Shen, Fangzhong;Liu, Dandan;Yang, Bing;Ma, Yuguang;
2:42:27 tert-Butylated spirofluorene derivatives with arylamine groups for highly efficient blue organic light emitting diodes
DOI:10.1039/c2jm14869b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Lee, Kum Hee;Kim, Seul Ong;You, Jae Nam;Kang, Sunwoo;Lee, Jin Yong;Yook, Kyoung Soo;Jeon, Soon Ok;Lee, Jun Yeob;Yoon, Seung Soo;
2:42:28 Novel hole transport materials based on N,N '-disubstituted-dihydrophenazine derivatives for electroluminescent diodes
DOI:10.1039/c4tc01965b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Zheng, Zhiwen;Dong, Qingchen;Gou, Liao;Su, Jian-Hua;Huang, Jinhai;
2:42:29 Synthesis and electroluminescence properties of highly efficient dual core chromophores with side groups for blue emission
DOI:10.1039/c4tc00075g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Lee, Hayoon;Kim, Beomjin;Kim, Seungho;Kim, Joonghan;Lee, Jaehyun;Shin, Hwangyu;Lee, Ji-Hoon;Park, Jongwook;
2:42:30 Stable, Glassy, and Versatile Binaphthalene Derivatives Capable of Efficient Hole Transport, Hosting, and Deep-Blue Light Emission
DOI:10.1002/adfm.201000299 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:33 AU: Wei, Bin;Liu, Ji-Zhong;Zhang, Yong;Zhang, Jian-Hua;Peng, Hua-Nan;Fan, He-Liang;He, Yan-Bo;Gao, Xi-Cun;
2:42:31 Synthesis of Multiaryl-Substituted Pyridine Derivatives and Applications in Non-Doped Deep-Blue OLEDs as Electron-Transporting Layer with High Hole-Blocking Ability
DOI:10.1002/adma.200902430 JN:ADVANCED MATERIALS PY:2010 TC:23 AU: Li, Na;Wang, Pengfei;Lai, Shiu-Lun;Liu, Weimin;Lee, Chun-Sing;Lee, Shuit-Tong;Liu, Zengtao;
2:42:32 Low Turn-on Voltage, High-Power-Efficiency, Solution-Processed Deep-Blue Organic Light-Emitting Diodes Based on Starburst Oligofluorenes with Diphenylamine End-Capper to Enhance the HOMO Level
DOI:10.1021/cm4039522 JN:CHEMISTRY OF MATERIALS PY:2014 TC:19 AU: Liu, Cui;Fu, Qiang;Zou, Yang;Yang, Chuluo;Ma, Dongge;Qin, Jingui;
2:42:33 Robust and highly efficient blue light-emitting hosts based on indene-substituted anthracene
DOI:10.1039/c000092b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:37 AU: Xia, Zhen-Yuan;Zhang, Zhi-Yun;Su, Jian-Hua;Zhang, Qiong;Fung, Ka-Man;Lam, Mei-Ki;Li, King-Fai;Wong, Wai-Yeung;Cheah, Kok-Wai;Tian, He;Chen, Chin H.;
2:42:34 Highly efficient deep-blue organic electroluminescent devices CIEy approximate to 0.08) doped with fluorinated 9,9 '-bianthracene derivatives (fluorophores)
DOI:10.1039/c3tc31743a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Yu, Yue;Wu, Zhaoxin;Li, Zhanfeng;Jiao, Bo;Li, Lu;Ma, Lin;Wang, Dongdong;Zhou, Guijiang;Hou, Xun;
2:42:35 Synthesis of asymmetric biphenyl derivatives for optoelectronic applications
DOI:10.1016/j.optmat.2013.05.027 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Zhu, Cai-Cai;Guo, Kun-Ping;Liu, Wang-Bo;He, Yan-Bo;Li, Zhi-Mei;Gao, Xi-Cun;Deng, Feng-Jie;Wei, Bin;
2:42:36 A highly efficient deep blue fluorescent OLED based on diphenylaminofluorenylstyrene-containing emitting materials
DOI:10.1016/j.synthmet.2010.03.020 JN:SYNTHETIC METALS PY:2010 TC:21 AU: Kim, Seul Ong;Lee, Kum Hee;Kim, Gu Young;Seo, Ji Hoon;Kim, Young Kwan;Yoon, Seung Soo;
2:42:37 Highly efficient non-doped blue organic light emitting devices based on anthracene-pyridine derivatives
DOI:10.1016/j.tsf.2013.09.058 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Haykir, Gulcin;Tekin, Emine;Atalar, Taner;Turksoy, Figen;
2:42:38 Highly efficient blue OLED based on 9-anthracene-spirobenzofluorene derivatives as host materials
DOI:10.1039/c0jm00593b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:23 AU: Gong, Myoung-Seon;Lee, Hyun-Seok;Jeon, Young-Min;
2:42:39 An aromatic imine group enhances the EL efficiency and carrier transport properties of highly efficient blue emitter for OLEDs
DOI:10.1039/c0jm00581a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:26 AU: Park, Youngil;Lee, Ji-Hoon;Jung, Dong Hyun;Liu, Su-Hao;Lin, You-Heng;Chen, Li-Yin;Wu, Chung-Chih;Park, Jongwook;
2:42:40 Fused Alq(3) derivatives: syntheses and photophysical characteristics
DOI:10.1039/c1jm12424b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Heiskanen, Juha P.;Tolkki, Antti E.;Lemmetyinen, Helge J.;Hormi, Osmo E. O.;
2:42:41 Fluorinated 9,9 '-spirobifluorene derivatives as host materials for highly efficient blue organic light-emitting devices
DOI:10.1039/c3tc00466j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Li, Zhanfeng;Jiao, Bo;Wu, Zhaoxin;Liu, Peng;Ma, Lin;Lei, Xiaoli;Wang, Dongdong;Zhou, Guijiang;Hu, Huaiming;Hou, Xun;
2:42:42 Non-Doped Blue OLEDs Based on 9,9 '-Dimethylfluorene Containing 10-Naphthylanthracene Derivatives
DOI:10.1080/15421406.2013.849466 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:3 AU: Na, Eun Jae;Lee, Kum Hee;Kim, Bo Young;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:42:43 Blue Electroluminescence from Eu2+-Doped GaN@SiO2 Nanostructures Tuned to Industrial Standards
DOI:10.1021/cm202139u JN:CHEMISTRY OF MATERIALS PY:2011 TC:8 AU: Gautam, Anurag;van Veggel, Frank C. J. M.;
2:42:44 Efficient Solution-Processed Deep-Blue Organic Light-Emitting Diodes Based on Multibranched Oligofluorenes with a Phosphine Oxide Center
DOI:10.1021/cm401640v JN:CHEMISTRY OF MATERIALS PY:2013 TC:21 AU: Liu, Cui;Li, Yanhu;Li, Yifan;Yang, Chuluo;Wu, Hongbin;Qin, Jingui;Cao, Yong;
2:42:45 Star-shaped hexakis(9,9-dihexyl-9H-fluoren-2-yl)benzene end-capped with carbazole and diphenylamine units: solution-processable, high T-g hole-transporting materials for organic light-emitting devices
DOI:10.1039/c2jm35618j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Zou, Yang;Ye, Tengling;Ma, Dongge;Qin, Jingui;Yang, Chuluo;
2:42:46 Blue light-emitting and hole-transporting materials based on 9,9-bis(4-diphenylaminophenyl)fluorenes for efficient electroluminescent devices
DOI:10.1039/c2jm15480c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Thangthong, A-monrat;Prachumrak, Narid;Tarsang, Ruangchai;Keawin, Tinnagon;Jungsuttiwong, Siriporn;Sudyoadsuk, Taweesak;Promarak, Vinich;
2:42:47 Excimer-emitting single molecules with stacked pi-conjugated groups covalently linked at the 1,8-positions of naphthalene for highly efficient blue and green OLEDs
DOI:10.1039/c3tc30319e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Hu, Jian-Yong;Pu, Yong-Jin;Yamashita, Yusuke;Satoh, Fumiya;Kawata, So;Katagiri, Hiroshi;Sasabe, Hisahiro;Kido, Junji;
2:42:48 Fluorinated 9,9 '-bianthracene derivatives with twisted intramolecular charge-transfer excited states as blue host materials for high-performance fluorescent electroluminescence
DOI:10.1039/c4tc01166j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Yu, Yue;Jiao, Bo;Wu, Zhaoxin;Li, Zhanfeng;Ma, Lin;Zhou, Guijiang;Yu, Wai;So, S. K.;Hou, Xun;
2:42:49 Synthesis and Electroluminescent Properties of Blue-Light-Emitting Arylene Derivatives End-Capped with Thiophene Groups
DOI:10.1080/15421406.2012.708249 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Oh, Suhyun;Lee, Kum Hee;Kim, Seul Ong;Seo, Ji Hoon;Kim, Young Kwan;Yoon, Seung Soo;
2:42:50 New asymmetrical limb structured blue emitting material for OLED [Invited]
DOI:10.1364/OME.4.001051 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:1 AU: Baek, Jang-Yeol;Cheon, Ye Rim;Shin, Hwan-gyu;Park, Jong-Wook;Kim, Yun-Hi;
2:42:51 Synthesis and luminescent properties of blue sextuple-hydrogen-bond self-assembly molecular duplexes bearing 4-phenoxy-1,8-naphthalimide moieties
DOI:10.1016/j.optmat.2012.03.022 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Liu, Jingjing;Li, Yanhu;Wang, Yi;Sun, Huiqin;Lu, Zhiyun;Wu, Hongbin;Peng, Junbiao;Huang, Yan;
2:42:52 Highly efficient blue light-emitting diodes containing spirofluorene derivatives end-capped with triphenylamine/phenylcarbazole
DOI:10.1016/j.synthmet.2011.07.020 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Lee, Kum Hee;Kim, Seul Ong;Yook, Kyoung Soo;Jeon, Soon Ok;Lee, Jun Yeob;Yoon, Seung Soo;
2:42:53 Tuning of HOMO levels of carbazole derivatives: New molecules for blue OLED
DOI:10.1016/j.synthmet.2011.01.001 JN:SYNTHETIC METALS PY:2011 TC:19 AU: Agarwal, Neeraj;Nayak, Pabitra K.;Ali, Farman;Patankar, Meghan P.;Narasimhan, K. L.;Periasamy, N.;
2:42:54 New limb-structured blue light-emitting material comprising an anthracene core with bulky substituents at its 2, 3, 9, and 10-positions
DOI:10.1016/j.synthmet.2014.08.006 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Kim, Ran;Liu, Xianqing;Lee, Sang-Gyeong;Lee, Jonghee;Kim, Yun-Hi;
2:42:55 Synthesis and electroluminescent properties of blue-emitting t-butylated bis(diarylaminoaryl)anthracenes for OLEDs
DOI:10.1016/j.tsf.2010.03.144 JN:THIN SOLID FILMS PY:2010 TC:13 AU: Lee, Kum Hee;You, Jae Nam;Kang, Sunwoo;Lee, Jun Young;Kwon, Hyuk Joo;Kim, Young Kwan;Yoon, Seung Soo;
2:42:56 A Deep-Blue Emitter with Electron Transporting Property to Improve Charge Balance for Organic Light-Emitting Device
DOI:10.1021/am300685b JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:18 AU: Xing, Xing;Zhang, Lipei;Liu, Rui;Li, Suyue;Qu, Bo;Chen, Zhijian;Sun, Wenfang;Xiao, Lixin;Gong, Qihuang;
2:42:57 High performance organic light-emitting diodes based on tetra(methoxy)-containing anthracene derivatives as a hole transport and electron-blocking layer
DOI:10.1039/c0jm01297a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:10 AU: Xia, Zhen-Yuan;Su, Jian-Hua;Wong, Wai-Yeung;Wang, Lei;Cheah, Kok-Wai;Tian, He;Chen, Chin H.;
2:42:58 Benzo[k]fluoranthene-based linear acenes for efficient deep blue organic light-emitting devices
DOI:10.1039/c2jm31198d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Lee, Yu-Hao;Wu, Tsun-Cheng;Liaw, Chao-Wu;Wen, Ten-Chin;Guo, Tzung-Fang;Wu, Yao-Ting;
2:42:59 4-(2-(4 '-(2,2-diphenylvinyl)biphenyl-4-yl)vinyl)-N,N-diphenylaniline Derivatives for Blue Organic Light-Emitting Diodes
DOI:10.1080/15421406.2013.849458 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Kwon, Sung Min;Lee, Kum Hee;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:42:60 Highly Efficient Blue Light-Emitting Diodes Using New Fluorescent Host Materials Based on Naphthalenes
DOI:10.1080/15421406.2010.499317 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:4 AU: Park, Jeong Keun;Lee, Kum Hee;Park, Jung Sun;Seo, Ji Hoon;Kim, Young Kwan;Yoon, Seung Soo;
2:42:61 Highly efficient blue OLEDs based on diphenylaminofluorenylstyrenes end-capped with heterocyclic aromatics
DOI:10.1016/j.materresbull.2012.04.055 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:2 AU: Oh, Suhyun;Lee, Kum Hee;Kim, Young Kwan;Yoon, Seung Soo;
2:42:62 Zwitterionic diaminodicyanoquinodimethanes with enhanced blue-green emission in the solid state
DOI:10.1016/j.optmat.2011.07.033 JN:OPTICAL MATERIALS PY:2011 TC:3 AU: Chandaluri, Ch. G.;Radhakrishnan, T. P.;
2:42:63 Synthesis and properties of novel blue-light-emitting bianthracene-based derivatives
DOI:10.1016/j.optmat.2012.06.021 JN:OPTICAL MATERIALS PY:2012 TC:1 AU: Jiang, Han-Yu;Xu, Mao-Liang;Song, Xin-Chao;Zhou, Rui;Tian, Jie;
2:42:64 Synthesis and characterization of novel 2,5-diphenyl-1,3,4-oxadiazole derivatives of anthracene and its application as electron transporting blue emitters in OLEDs
DOI:10.1016/j.synthmet.2011.02.015 JN:SYNTHETIC METALS PY:2011 TC:15 AU: Reddy, M. Ananth;Mallesham, G.;Thomas, Anup;Srinivas, Kola;Rao, V. Jayathirtha;Bhanuprakash, K.;Giribabu, L.;Grover, Rakhi;Kumar, Arunandan;Kamalasanan, M. N.;Srivastava, Ritu;
2:42:65 Highly efficient and simplified phosphorescence white organic light-emitting diodes based on synthesized deep-blue host and orange emitter
DOI:10.1016/j.tsf.2013.03.113 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Koo, Ja Ryong;Lee, Seok Jae;Hyung, Gun Woo;Kim, Bo Young;Lee, Dong Hyung;Kim, Woo Young;Lee, Kum Hee;Yoon, Seung Soo;Kim, Young Kwan;
2:42:66 Synthesis and Electroluminescent Properties of Blue Fluorescent Triphenylamine Substituted Anthracene Derivatives for OLEDs
DOI:10.1080/15421406.2010.495882 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:7 AU: Lee, Kum Hee;You, Jae Nam;Kwon, Hyuck Joo;Kim, Young Kwan;Yoon, Seung Soo;
2:42:67 Blue Organic Light-Emitting Diodes Containing Anthracene Derivatives With End-Capping Phenyl Group
DOI:10.1080/15421406.2012.689157 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Jang, Heung Soo;Lee, Kum Hee;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:42:68 Blue Organic Light-Emitting Diodes Based on Diarylamino-Substituted Stilbene Derivatives
DOI:10.1080/15421406.2012.689717 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Kwon, Sung Min;Lee, Kum Hee;Kwon, Hyuck Joo;Kim, Young Kwan;Yoon, Seung Soo;
2:42:69 Diphenylaminofluorene-Based Donor-Acceptor Molecules for Blue Light-Emitting Diodes
DOI:10.1080/15421406.2012.689719 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Lee, Kum Hee;Oh, Suhyun;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:42:70 Two Anthracene-Containing Materials for Blue Organic Light-Emitting Diodes
DOI:10.1080/15421406.2014.940793 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Yoon, Seung Soo;Kim, Hye Jeong;Kim, Young Kwan;Lee, Song Eun;Lee, Seok Jae;
2:42:71 Synthesis and electroluminescent properties of anthracene derivatives containing electron-withdrawing oxide moieties
DOI:10.1016/j.materresbull.2014.03.019 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Yoon, Jhin-yeong;Na, Eun Jae;Park, Soo Na;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:42:72 Homeotropic orientation of nematic liquid crystals induced by dissolving polypropyleneimine dendrimer having peripheral mesogens
DOI:10.1364/OME.4.000934 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:4 AU: Haba, Osamu;Hiratsuka, Daigo;Shiraiwa, Takenori;Funakoshi, Nami;Awano, Hiroshi;Koda, Tomonori;Takahashi, Tatsuhiro;Yonetake, Koichiro;Kwak, Musun;Momoi, Yuichi;Kim, Nakwon;Hong, Sangpyo;Kang, Dongwoo;Choi, Youngseok;
2:42:73 Synthesis and electroluminescent properties of blue emitting materials based on arylamine-substituted diphenylvinylbiphenyl derivatives for organic light-emitting diodes
DOI:10.1016/j.tsf.2011.06.054 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Lee, Kum Hee;You, Jae Nam;Won, Jiyeon;Lee, Jin Yong;Seo, Ji Hoon;Kim, Young Kwan;Yoon, Seung Soo;
2:42:74 Efficient blue electroluminescence of silylene-bridged 2-(2-naphthyl)indole
DOI:10.1039/c2jm15173a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Shimizu, Masaki;Mochida, Kenji;Asai, Yuiga;Yamatani, Akinori;Kaki, Rina;Hiyama, Tamejiro;Nagai, Naomi;Yamagishi, Hideo;Furutani, Hiroyuki;
2:42:75 Weak intermolecular interactions promote blue luminescence of protonated 2,2 '-dipyridylamine salts
DOI:10.1039/c4tc01165a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Chernyshev, Alexander N.;Morozov, Dmitry;Mutanen, Jarkko;Kukushkin, Vadim Yu;Groenhof, Gerrit;Haukka, Matti;
2:42:76 Enhancing the blue phosphorescence of iridium complexes with a dicyclometalated phosphite ligand via aza-substitution: a density functional theory investigation
DOI:10.1039/c4tc01100g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Godefroid, Gahungu;Liu Yuqi;Si Yanling;Su Juanjuan;Qu Xiaochun;Shang Xiaohong;Wu Zhijian;
2:42:77 Phase transition characteristics under vacuum of 9,10-di(2-naphthyl)anthracene for organic light-emitting diodes
DOI:10.1116/1.4831935 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:1 AU: Kim, Jin-Tae;Shim, Seob;Shin, Jae-Su;Kang, Sangwoo;Yun, Ju-Young;Kwon, Ohyun;
2:42:78 Highly efficient non-doped organic light emitting diodes (OLEDs) using anthracene derivatives with triphenylsilane unit
DOI:10.1016/j.materresbull.2014.03.021 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:2 AU: Song, Ji Young;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:42:79 Pure exciplex electroluminescence in blended film of small organic molecules
DOI:10.1016/j.synthmet.2010.01.010 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Nayak, Pabitra K.;Agarwal, Neeraj;Periasamy, N.;Patankar, Meghan P.;Narasimhan, K. L.;
2:42:80 Stable amorphous bis(diarylamino)biphenyl derivatives as hole-transporting materials in OLEDs
DOI:10.1007/s13391-013-2195-2 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Li, Zhanfeng;Wu, Zhaoxin;Fu, Wen;Wang, Dongdong;Liu, Peng;Jiao, Bo;Lei, Xiaoli;Zhou, Guijiang;Hao, Yuying;
2:42:81 Luminescent alternating boron quinolate-fluorene copolymers exhibiting high electron mobility
DOI:10.1039/b924729g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: Nagai, Atsushi;Kobayashi, Shigeo;Nagata, Yuuya;Kokado, Kenta;Taka, Hideo;Kita, Hiroshi;Suzuri, Yoshiyuki;Chujo, Yoshiki;
2:42:82 Plasma-enhanced atomic layer deposition of silicon dioxide films using plasma-activated triisopropylsilane as a precursor
DOI:10.1116/1.4871455 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:0 AU: Jeon, Ki-Moon;Shin, Jae-Su;Yun, Ju-Young;Lee, Sang Jun;Kang, Sang-Woo;
2:42:83 Blue-Light-Emitting Bis(diarylamino)stilbene Derivatives: Synthesis, Photophysical Properties, and Highly Efficient OLEDs
DOI:10.1080/15421406.2010.495886 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Kim, Seul Ong;Lee, Kum Hee;Kwon, Hyuck Joo;Kim, Young Kwan;Yoon, Seung Soo;
2:42:84 Synthesis and Electroluminescent Properties of t-Butylated 2-(2-(4-(Diarylamino)styryl)-4H-chromen-4-ylidene)malononitrile Derivatives for OLED
DOI:10.1080/15421406.2011.599771 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Lee, Kum Hee;Hwang, Jin Soo;Park, Min Hye;Kwon, Hyuck Joo;Kim, Young Kwan;Yoon, Seung Soo;
2:42:85 Liquid Crystalline 4 '-(2,3 Dihydroxypropoxy) Diphenyl 4-n-Alcoxy Acids
DOI:10.1080/15421406.2011.609468 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:3 AU: Lopez-Velazquez, Delia;Hernandez-Sosa, Armando R.;Perez, Ernesto;Castillo-Rojas, Susana;
2:42:86 Synthesis and Characterization of Violet Light Emitting Polymer based on Fluorene and Dimethylsilane
DOI:10.1080/07315171.2013.803405 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Bae, Dong-Soo;Lee, Dong-Hyun;Eim, Don-Eon;Hu, Seung-Eun;Jung, Shihaw;Kim, Ran;Hwang, Jaeyoung;Kim, Yun-Hi;
2:42:87 A Comparative Study on the Optical Properties of Single-Layered White OLED Based on Multi-Host, Dopant System
DOI:10.1080/15421406.2014.932245 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kim, Seungho;Kim, Beomjin;Lee, Jaehyun;Park, Jongwook;
2:42:88 Characteristics of blue organic light emitting diodes with different thick emitting layers
DOI:10.1016/j.optmat.2014.02.005 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Li, Chong;Tsuboi, Taiju;Huang, Wei;
2:42:89 Thermally stable fluorescent blue organic light-emitting diodes using spirobifluorene based anthracene host materials with different substitution position
DOI:10.1016/j.synthmet.2010.03.006 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Jang, Sang Eok;Joo, Chu Woong;Yook, Kyoung Soo;Kim, Joon-Woo;Lee, Chil-Won;Lee, Jun Yeob;
2:42:90 Alternating pyrene-fluorene linear copolymers: Influence of non-conjugated and conjugated pyrene on thermal and optoelectronic properties
DOI:10.1016/j.synthmet.2013.04.015 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Tang, Chao;Xu, Hui;Liu, Feng;Liu, Xu-Dong;Lai, Wen-Yong;Wang, Xu-Liang;Huang, Wei;
2:42:91 Highly color-stable and efficient hybrid white organic light-emitting devices by compensating a recombination zone shift in a single host layer
DOI:10.1016/j.synthmet.2014.01.014 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Kim, Kang-Hee;Seo, Yu-Seok;Moon, Dae-Gyu;
2:42:92 Hole transport materials with high glass transition temperatures for highly stable organic light-emitting diodes
DOI:10.1016/j.tsf.2012.07.130 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Kwak, Jeonghun;Lyu, Yi-Yeol;Noh, Seunguk;Lee, Hyunkoo;Park, Myeongjin;Choi, Bonggoo;Char, Kookheon;Lee, Changhee;
2:42:93 Synthesis and electroluminescent properties of blue-emitting t-butylatedbis(diarylaminoaryl)anthracenes for OLEDs (vol 518, pg 6253, 2010)
DOI:10.1016/j.tsf.2010.12.178 JN:THIN SOLID FILMS PY:2012 TC:0 AU: Lee, Kum Hee;You, Jae Nam;Kang, Sunwoo;Lee, Jin Yong;Kwon, Hyuk Joo;Kim, Young Kwan;Yoon, Seung Soo;
2:42:94 t-Butyl group-substituted triphenylamine-containing orange-red fluorescent emitters for organic light-emitting diodes
DOI:10.1016/j.tsf.2012.02.003 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Lee, Kum Hee;Kim, Chi Sik;Kim, Young Kwan;Yoon, Seung Soo;
2:43:1 Exciton Fission and Charge Generation via Triplet Excitons in Pentacene/C-60 Bilayers
DOI:10.1021/ja1042462 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:97 AU: Rao, Akshay;Wilson, Mark W. B.;Hodgkiss, Justin M.;Albert-Seifried, Sebastian;Baessler, Heinz;Friend, Richard H.;
2:43:2 Singlet Exciton Fission-Sensitized Infrared Quantum Dot Solar Cells
DOI:10.1021/nl204297u JN:NANO LETTERS PY:2012 TC:77 AU: Ehrler, Bruno;Wilson, Mark W. B.;Rao, Akshay;Friend, Richard H.;Greenham, Neil C.;
2:43:3 Ultrafast Dynamics of Exciton Fission in Polycrystalline Pentacene
DOI:10.1021/ja201688h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:81 AU: Wilson, Mark W. B.;Rao, Akshay;Clark, Jenny;Kumar, R. Sai Santosh;Brida, Daniele;Cerullo, Giulio;Friend, Richard H.;
2:43:4 Efficient Singlet Fission Discovered in a Disordered Acene Film
DOI:10.1021/ja300504t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:56 AU: Roberts, Sean T.;McAnally, R. Eric;Mastron, Joseph N.;Webber, David H.;Whited, Matthew T.;Brutchey, Richard L.;Thompson, Mark E.;Bradforth, Stephen E.;
2:43:5 Competition between Singlet Fission and Charge Separation in Solution-Processed Blend Films of 6,13-Bis(triisopropylsilylethynyl)pentacene with Sterically-Encumbered Perylene-3,4:9,10-bis(dicarboximide)s
DOI:10.1021/ja2080482 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:59 AU: Ramanan, Charusheela;Smeigh, Amanda L.;Anthony, John E.;Marks, Tobin J.;Wasielewski, Michael R.;
2:43:6 Singlet Exciton Fission in Polycrystalline Thin Films of a Slip-Stacked Perylenediimide
DOI:10.1021/ja4053174 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:23 AU: Eaton, Samuel W.;Shoer, Leah E.;Karlen, Steven D.;Dyar, Scott M.;Margulies, Eric A.;Veldkamp, Brad S.;Ramanan, Charusheela;Hartzler, Daniel A.;Savikhin, Sergei;Marks, Tobin J.;Wasielewski, Michael R.;
2:43:7 Nonadiabatic Dynamics of Charge Transfer and Singlet Fission at the Pentacene/C-60 Interface
DOI:10.1021/ja411800n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:14 AU: Akimov, Alexey V.;Prezhdo, Oleg V.;
2:43:8 Quantum Beats in Crystalline Tetracene Delayed Fluorescence Due to Triplet Pair Coherences Produced by Direct Singlet Fission
DOI:10.1021/ja301683w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:37 AU: Burdett, Jonathan J.;Bardeen, Christopher J.;
2:43:9 Singlet Exciton Fission in Nanostructured Organic Solar Cells
DOI:10.1021/nl104202j JN:NANO LETTERS PY:2011 TC:72 AU: Jadhav, Priya J.;Mohanty, Aseema;Sussman, Jason;Lee, Jiye;Baldo, Marc A.;
2:43:10 Triplet Exciton Dissociation in Singlet Exciton Fission Photovoltaics
DOI:10.1002/adma.201202397 JN:ADVANCED MATERIALS PY:2012 TC:43 AU: Jadhav, Priya J.;Brown, Patrick R.;Thompson, Nicholas;Wunsch, Benjamin;Mohanty, Aseema;Yost, Shane R.;Hontz, Eric;Van Voorhis, Troy;Bawendi, Moungi G.;Bulovic, Vladimir;Baldo, Marc A.;
2:43:11 Photophysics of pentacene thin films: The role of exciton fission and heating effects
DOI:10.1103/PhysRevB.84.195411 JN:PHYSICAL REVIEW B PY:2011 TC:27 AU: Rao, Akshay;Wilson, Mark W. B.;Albert-Seifried, Sebastian;Di Pietro, Riccardo;Friend, Richard H.;
2:43:12 Temperature-Independent Singlet Exciton Fission in Tetracene
DOI:10.1021/ja408854u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: Wilson, Mark W. B.;Rao, Akshay;Johnson, Kerr;Gelinas, Simon;di Pietro, Riccardo;Clark, Jenny;Friend, Richard H.;
2:43:13 Seeking Small Molecules for Singlet Fission: A Heteroatom Substitution Strategy
DOI:10.1021/ja505275m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:3 AU: Zeng, Tao;Ananth, Nandini;Hoffmann, Roald;
2:43:14 Triplet Dynamics in Pentacene Crystals: Applications to Fission-Sensitized Photovoltaics
DOI:10.1002/adma.201302427 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Poletayev, Andrey D.;Clark, Jenny;Wilson, Mark W. B.;Rao, Akshay;Makino, Yoshitaka;Hotta, Shu;Friend, Richard H.;
2:43:15 Mechanism for Singlet Fission in Pentacene and Tetracene: From Single Exciton to Two Triplets
DOI:10.1021/ja208431r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:86 AU: Zimmerman, Paul M.;Bell, Franziska;Casanova, David;Head-Gordon, Martin;
2:43:16 High Triplet Yield from Singlet Fission in a Thin Film of 1,3-Diphenylisobenzofuran
DOI:10.1021/ja104123r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:64 AU: Johnson, Justin C.;Nozik, Arthur J.;Michl, Josef;
2:43:17 Enhanced external quantum efficiency in an organic photovoltaic cell via singlet fission exciton sensitizer
DOI:10.1063/1.4752445 JN:APPLIED PHYSICS LETTERS PY:2012 TC:18 AU: Reusswig, P. D.;Congreve, D. N.;Thompson, N. J.;Baldo, M. A.;
2:43:18 Activated Singlet Exciton Fission in a Semiconducting Polymer
DOI:10.1021/ja405427j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Musser, Andrew J.;Al-Hashimi, Mohammed;Maiuri, Margherita;Brida, Daniele;Heeney, Martin;Cerullo, Giulio;Friend, Richard H.;Clark, Jenny;
2:43:19 Excitonic processes in molecular crystalline materials
DOI:10.1557/mrs.2012.312 JN:MRS BULLETIN PY:2013 TC:10 AU: Bardeen, Christopher J.;
2:43:20 Hybrid pentacene/a-silicon solar cells utilizing multiple carrier generation via singlet exciton fission
DOI:10.1063/1.4757612 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Ehrler, Bruno;Musselman, Kevin P.;Boehm, Marcus L.;Friend, Richard H.;Greenham, Neil C.;
2:43:21 Mechanism of Singlet Fission in Thin Films of 1,3-Diphenylisobenzofuran
DOI:10.1021/ja501337b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:7 AU: Schrauben, Joel N.;Ryerson, Joseph L.;Michl, Josef;Johnson, Justin C.;
2:43:22 Impact of Molecular Packing on Electronic Polarization in Organic Crystals: The Case of Pentacene vs TIPS-Pentacene
DOI:10.1021/ja501725s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:7 AU: Ryno, Sean M.;Risko, Chad;Bredas, Jean-Luc;
2:43:23 High-Yield Singlet Fission in a Zeaxanthin Aggregate Observed by Picosecond Resonance Raman Spectroscopy
DOI:10.1021/ja102851m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:52 AU: Wang, Chen;Tauber, Michael J.;
2:43:24 Harvesting Singlet Fission for Solar Energy Conversion: One- versus Two-Electron Transfer from the Quantum Mechanical Superposition
DOI:10.1021/ja306271y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:22 AU: Chan, Wai-Lun;Tritsch, John R.;Zhu, X. -Y.;
2:43:25 Search for a Small Chromophore with Efficient Singlet Fission: Biradicaloid Heterocycles
DOI:10.1021/ja3063327 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Akdag, Akin;Havlas, Zdenek;Michl, Josef;
2:43:26 Charge-Transfer Excitations Steer the Davydov Splitting and Mediate Singlet Exciton Fission in Pentacene
DOI:10.1103/PhysRevLett.110.226402 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:25 AU: Beljonne, D.;Yamagata, H.;Bredas, J. L.;Spano, F. C.;Olivier, Y.;
2:43:27 Solution-Processable Singlet Fission Photovoltaic Devices
DOI:10.1021/nl5036050a JN:NANO LETTERS PY:2015 TC:2 AU: Yang, Le;Tabachnyk, Maxim;Bayliss, Sam L.;Boehm, Marcus L.;Broch, Katharina;Greenham, Neil C.;Friend, Richard H.;Ehrler, Bruno;
2:43:28 Triplet diffusion in singlet exciton fission sensitized pentacene solar cells
DOI:10.1063/1.4824420 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Tabachnyk, Maxim;Ehrler, Bruno;Bayliss, Sam;Friend, Richard H.;Greenham, Neil C.;
2:43:29 Interpretation of the Ultrafast Photoinduced Processes in Pentacene Thin Films
DOI:10.1021/ja909166s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:28 AU: Kuhlman, Thomas S.;Kongsted, Jacob;Mikkelsen, Kurt V.;Moller, Klaus B.;Solling, Theis I.;
2:43:30 Geminate and Nongeminate Recombination of Triplet Excitons Formed by Singlet Fission
DOI:10.1103/PhysRevLett.112.238701 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Bayliss, Sam L.;Chepelianskii, Alexei D.;Sepe, Alessandro;Walker, Brian J.;Ehrler, Bruno;Bruzek, Matthew J.;Anthony, John E.;Greenham, Neil C.;
2:43:31 Slow light enhanced singlet exciton fission solar cells with a 126% yield of electrons per photon
DOI:10.1063/1.4858176 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Thompson, Nicholas J.;Congreve, Daniel N.;Goldberg, David;Menon, Vinod M.;Baldo, Marc A.;
2:43:32 Resonant energy transfer of triplet excitons from pentacene to PbSe nanocrystals
DOI:10.1038/NMAT4093 JN:NATURE MATERIALS PY:2014 TC:14 AU: Tabachnyk, Maxim;Ehrler, Bruno;Gelinas, Simon;Boehm, Marcus L.;Walker, Brian J.;Musselman, Kevin P.;Greenham, Neil C.;Friend, Richard H.;Rao, Akshay;
2:43:33 Energy harvesting of non-emissive triplet excitons in tetracene by emissive PbS nanocrystals
DOI:10.1038/NMAT4097 JN:NATURE MATERIALS PY:2014 TC:12 AU: Thompson, Nicholas J.;Wilson, Mark W. B.;Congreve, Daniel N.;Brown, Patrick R.;Scherer, Jennifer M.;Bischof, Thomas S.;Wu, Mengfei;Geva, Nadav;Welborn, Matthew;Van Voorhis, Troy;Bulovic, Vladimir;Bawendi, Moungi G.;Baldo, Marc A.;
2:43:34 Nanoscopic mechanisms of singlet fission in amorphous molecular solid
DOI:10.1063/1.4795138 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Mou, Weiwei;Hattori, Shinnosuke;Rajak, Pankaj;Shimojo, Fuyuki;Nakano, Aiichiro;
2:43:35 The Low-Lying Electronic States of Pentacene and Their Roles in Singlet Fission
DOI:10.1021/ja500887a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Zeng, Tao;Hoffmann, Roald;Ananth, Nandini;
2:43:36 Enhanced Triplet Formation in Polycrystalline Tetracene Films by Femtosecond Optical-Pulse Shaping
DOI:10.1103/PhysRevLett.105.257403 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:27 AU: Grumstrup, Erik M.;Johnson, Justin C.;Damrauer, Niels H.;
2:43:37 Ultrafast dissociation of triplets in pentacene induced by an electric field
DOI:10.1103/PhysRevB.90.075310 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Kandada, Ajay Ram Srimath;Petrozza, Annamaria;Lanzani, Guglielmo;
2:43:38 Absence of Singlet Fission and Carrier Multiplication in a Model Conjugated Polymer: Tracking the Triplet Population through Phosphorescence
DOI:10.1021/ja2102289 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Bange, Sebastian;Scherf, Ullrich;Lupton, John M.;
2:43:39 Different Rates of Singlet Fission in Monoclinic versus Orthorhombic Crystal Forms of Diphenylhexatriene
DOI:10.1021/ja409266s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:10 AU: Dillon, Robert J.;Piland, Geoffrey B.;Bardeen, Christopher J.;
2:43:40 Nanostructured Singlet Fission Photovoltaics Subject to Triplet-Charge Annihilation
DOI:10.1002/adma.201304588 JN:ADVANCED MATERIALS PY:2014 TC:10 AU: Thompson, Nicholas J.;Hontz, Eric;Congreve, Daniel N.;Bahlke, Matthias E.;Reineke, Sebastian;Van Voorhis, Troy;Baldo, Marc A.;
2:43:41 Energy Flow Dynamics within Cofacial and Slip-Stacked Perylene-3,4-dicarboximide Dimer Models of pi-Aggregates
DOI:10.1021/ja507653p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Lindquist, Rebecca J.;Lefler, Kelly M.;Brown, Kristen E.;Dyar, Scott M.;Margulies, Eric A.;Young, Ryan M.;Wasielewski, Michael R.;
2:43:42 Multiphonon Relaxation Slows Singlet Fission in Crystalline Hexacene
DOI:10.1021/ja503980c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Busby, Erik;Berkelbach, Timothy C.;Kumar, Bharat;Chernikov, Alexey;Zhong, Yu;Hlaing, Htay;Zhu, X. -Y.;Heinz, Tony F.;Hybertsen, Mark S.;Sfeir, Matthew Y.;Reichman, David R.;Nuckolls, Colin;Yaffe, Omer;
2:43:43 Singlet Exciton Fission in a Hexacene Derivative
DOI:10.1002/adma.201203982 JN:ADVANCED MATERIALS PY:2013 TC:16 AU: Lee, Jiye;Bruzek, Matthew J.;Thompson, Nicholas J.;Sfeir, Matthew Y.;Anthony, John E.;Baldo, Marc A.;
2:43:44 Observation of Frenkel and charge transfer excitons in pentacene single crystals using spectroscopic generalized ellipsometry
DOI:10.1063/1.4811758 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Qi, Dongchen;Su, Haibin;Bastjan, M.;Jurchescu, O. D.;Palstra, T. M.;Wee, Andrew T. S.;Ruebhausen, M.;Rusydi, A.;
2:43:45 Singlet fission efficiency in tetracene-based organic solar cells
DOI:10.1063/1.4876600 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Wu, Tony C.;Thompson, Nicholas J.;Congreve, Daniel N.;Hontz, Eric;Yost, Shane R.;Van Voorhis, Troy;Baldo, Marc A.;
2:43:46 Synthesis and Optical Properties of Phenylene-Containing Oligoacenes
DOI:10.1021/ja3043883 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Parkhurst, Rebecca R.;Swager, Timothy M.;
2:43:47 Polarized superradiance from delocalized exciton transitions in tetracene single crystals
DOI:10.1103/PhysRevB.81.033306 JN:PHYSICAL REVIEW B PY:2010 TC:17 AU: Camposeo, A.;Polo, M.;Tavazzi, S.;Silvestri, L.;Spearman, P.;Cingolani, R.;Pisignano, D.;
2:43:48 Is Dipole Moment a Valid Descriptor of Excited State's Charge-Transfer Character?
DOI:10.1021/ja407379h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Petelenz, Piotr;Pac, Barbara;
2:43:49 TRIPLET EXCITONS Bringing dark states to light
DOI:10.1038/nmat4112 JN:NATURE MATERIALS PY:2014 TC:0 AU: Bardeen, Christopher J.;
2:43:50 Electroabsorption spectra of PbSe nanocrystal quantum dots
DOI:10.1063/1.3583450 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Liu, Xiaoming;Iimori, Toshifumi;Ohshima, Ruriko;Nakabayashi, Takakazu;Ohta, Nobuhiro;
2:43:51 Large Pentacene and Fullerene Crystals Having a Well-Defined Polygon
DOI:10.1080/15421406.2013.808126 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Yamao, Takeshi;Nakagawa, Takao;Ogino, Keniji;Noguchi, Norihiro;Hotta, Shu;
2:43:52 Ultrafast optical studies of ordered poly(3-thienylene-vinylene) films
DOI:10.1103/PhysRevB.85.235201 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Olejnik, E.;Pandit, B.;Basel, T.;Lafalce, E.;Sheng, C. -X.;Zhang, C.;Jiang, X.;Vardeny, Z. V.;
2:43:53 Developing perylene diimide based acceptor polymers for organic photovoltaics
DOI:10.1016/j.synthmet.2011.03.009 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Liang, Ziqi;Cormier, Russell A.;Nardes, Alexandre M.;Gregg, Brian A.;
2:44:1 The Impact of Molecular Orientation on the Photovoltaic Properties of a Phthalocyanine/Fullerene Heterojunction
DOI:10.1002/adfm.201200512 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:102 AU: Rand, Barry P.;Cheyns, David;Vasseur, Karolien;Giebink, Noel C.;Mothy, Sebastien;Yi, Yuanping;Coropceanu, Veaceslav;Beljonne, David;Cornil, Jerome;Bredas, Jean-Luc;Genoe, Jan;
2:44:2 Relationship between Crystalline Order and Exciton Diffusion Length in Molecular Organic Semiconductors
DOI:10.1002/adma.200902827 JN:ADVANCED MATERIALS PY:2010 TC:113 AU: Lunt, Richard R.;Benziger, Jay B.;Forrest, Stephen R.;
2:44:3 Organic-Organic Heterojunction Interfaces: Effect of Molecular Orientation
DOI:10.1002/adfm.201000902 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:88 AU: Chen, Wei;Qi, Dong-Chen;Huang, Han;Gao, Xingyu;Wee, Andrew T. S.;
2:44:4 Glancing Angle Deposition of Copper Iodide Nanocrystals for Efficient Organic Photovoltaics
DOI:10.1021/nl301709x JN:NANO LETTERS PY:2012 TC:30 AU: Zhou, Ying;Taima, Tetsuya;Miyadera, Tetsuhiko;Yamanari, Toshihiro;Kitamura, Michinori;Nakatsu, Kazuhiro;Yoshida, Yuji;
2:44:5 Controlling the Texture and Crystallinity of Evaporated Lead Phthalocyanine Thin Films for Near-Infrared Sensitive Solar Cells
DOI:10.1021/am401933d JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:12 AU: Vasseur, Karolien;Broch, Katharina;Ayzner, Alexander L.;Rand, Barry P.;Cheyns, David;Frank, Christian;Schreiber, Frank;Toney, Michael F.;Froyen, Ludo;Heremans, Paul;
2:44:6 Efficient Organic Solar Cells Using a High-Quality Crystalline Thin Film as a Donor Layer
DOI:10.1002/adma.200903023 JN:ADVANCED MATERIALS PY:2010 TC:52 AU: Yu, Bo;Huang, Lizhen;Wang, Haibo;Yan, Donghang;
2:44:7 Organic solar cells with remarkable enhanced efficiency by using a CuI buffer to control the molecular orientation and modify the anode
DOI:10.1063/1.3483159 JN:APPLIED PHYSICS LETTERS PY:2010 TC:52 AU: Cheng, Chuan Hui;Wang, Jin;Du, Guo Tong;Shi, Shao Hua;Du, Zhi Jie;Fan, Zhao Qi;Bian, Ji Ming;Wang, Min Shuai;
2:44:8 High efficiency and high photo-stability zinc-phthalocyanine based planar heterojunction solar cells with a double interfacial layer
DOI:10.1063/1.4748123 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Kim, Tae-Min;Kim, Ji Whan;Shim, Hyun-Sub;Kim, Jang-Joo;
2:44:9 Phase separation of co-evaporated ZnPc:C-60 blend film for highly efficient organic photovoltaics
DOI:10.1063/1.4726118 JN:APPLIED PHYSICS LETTERS PY:2012 TC:18 AU: Zhou, Ying;Taima, Tetsuya;Miyadera, Tetsuhiko;Yamanari, Toshihiro;Kitamura, Michinori;Nakatsu, Kazuhiro;Yoshida, Yuji;
2:44:10 Structural influences on charge carrier dynamics for small-molecule organic photovoltaics
DOI:10.1063/1.4887076 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Wang, Zhiping;Miyadera, Tetsuhiko;Saeki, Akinori;Zhou, Ying;Seki, Shu;Shibata, Yosei;Yamanari, Toshihiro;Matsubara, Koji;Yoshida, Yuji;
2:44:11 Enhancement of near-infrared absorption with high fill factor in lead phthalocyanine-based organic solar cells
DOI:10.1039/c2jm30417a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Shim, Hyun-Sub;Kim, Hyo Jung;Kim, Ji Whan;Kim, Sei-Yong;Jeong, Won-Ik;Kim, Tae-Min;Kim, Jang-Joo;
2:44:12 Efficient Zinc Phthalocyanine/C-60 Heterojunction Photovoltaic Devices Employing Tetracene Anode Interfacial Layers
DOI:10.1021/am500472m JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Fleetham, Tyler B.;Mudrick, John P.;Cao, Weiran;Klimes, Kody;Xue, Jiangeng;Li, Jian;
2:44:13 MoO3/CuI hybrid buffer layer for the optimization of organic solar cells based on a donor-acceptor triphenylamine
DOI:10.1016/j.solmat.2012.12.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:19 AU: Bernede, Jean Christian;Cattin, Linda;Makha, Mohammed;Jeux, Victorien;Leriche, Philippe;Roncali, Jean;Froger, Vincent;Morsli, Mustapha;Addou, Mohammed;
2:44:14 Co-evaporant Induced Crystalline Donor: Acceptor Blends in Organic Solar Cells
DOI:10.1002/adma.201101305 JN:ADVANCED MATERIALS PY:2011 TC:22 AU: Kaji, Toshihiko;Zhang, Minlu;Nakao, Satoru;Iketaki, Kai;Yokoyama, Kazuya;Tang, Ching W.;Hiramoto, Masahiro;
2:44:15 Effect of blend layer morphology on performance of ZnPc: C-60-based photovoltaic cells
DOI:10.1063/1.3493177 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Zeng, Wenjin;Yong, Kian Soon;Kam, Zhi Ming;Zhu, Furong;Li, Yuning;
2:44:16 Ternplating Effects in Molecular Growth of Blended Films for Efficient Small-Molecule Photovoltaics
DOI:10.1021/am405740c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Wang, Zhiping;Miyadera, Tetsuhiko;Yamanari, Toshihiro;Yoshida, Yuji;
2:44:17 The epitaxial growth of lead phthalocyanine on copper halogen compounds as the origin of templating effects
DOI:10.1039/c4ta00332b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Kim, Tae-Min;Kim, Hyo Jung;Shim, Hyun-Sub;Choi, Min-Soo;Kim, Ji Whan;Kim, Jang-Joo;
2:44:18 Multilayer Epitaxial Growth of Lead Phthalocyanine and C-70 Using CuBr as a Templating Layer for Enhancing the Efficiency of Organic Photovoltaic Cells
DOI:10.1021/am405946m JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Kim, Tae-Min;Shim, Hyun-Sub;Choi, Min-Soo;Kim, Hyo Jung;Kim, Jang-Joo;
2:44:19 CuI interlayers in lead phthalocyanine thin films enhance near-infrared light absorption
DOI:10.1063/1.4730604 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Kim, Hyo Jung;Shim, Hyun-Sub;Kim, Ji Whan;Lee, Hyun Hwi;Kim, Jang-Joo;
2:44:20 Structural Evolution of Evaporated Lead Phthalocyanine Thin Films for Near-Infrared Sensitive Solar Cells
DOI:10.1021/cm102329v JN:CHEMISTRY OF MATERIALS PY:2011 TC:32 AU: Vasseur, Karolien;Rand, Barry P.;Cheyns, David;Froyen, Ludo;Heremans, Paul;
2:44:21 Zinc phthalocyanine - Influence of substrate temperature, film thickness, and kind of substrate on the morphology
DOI:10.1016/j.tsf.2011.01.356 JN:THIN SOLID FILMS PY:2011 TC:31 AU: Schuenemann, C.;Elschner, C.;Levin, A. A.;Levichkova, M.;Leo, K.;Riede, M.;
2:44:22 Thermal annealing-induced vertical phase separation of copper phthalocyanine: Fullerene bulk heterojunction in organic photovoltaic cells
DOI:10.1063/1.3483761 JN:APPLIED PHYSICS LETTERS PY:2010 TC:22 AU: Wei, H. X.;Li, J.;Xu, Z. Q.;Cai, Y.;Tang, J. X.;Li, Y. Q.;
2:44:23 Invited paper: Nanostructures of a mixed donor and acceptor layer in organic photovoltaics
DOI:10.1007/s13391-011-0602-0 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:11 AU: Kim, Hyo Jung;Kim, Ji Whan;Kim, Jang-Joo;
2:44:24 Efficient organic photovoltaic cells with vertically ordered bulk heterojunctions
DOI:10.1088/0957-4484/24/48/484006 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Yu, Bo;Wang, Haibo;Yan, Donghang;
2:44:25 Formation of Bulk Heterojunctions by Alternative Thermal Deposition and Its Structure Analysis for High Efficiency Small Molecular Organic Photovoltaics
DOI:10.1002/adfm.201002601 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:24 AU: Kim, Ji Whan;Kim, Hyo Jung;Lee, Hyun Hwi;Kim, Taemin;Kim, Jang-Joo;
2:44:26 Vertical orientation of copper phthalocyanine in organic solar cells using a small molecular weight organic templating layer
DOI:10.1063/1.3621837 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Yook, Kyoung Soo;Chin, Byung Doo;Lee, Jun Yeob;Lassiter, Brian E.;Forrest, Stephen R.;
2:44:27 External quantum efficiency enhancement in organic photovoltaic devices employing dual organic anode interfacial layers
DOI:10.1063/1.4818525 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Fleetham, Tyler;O'Brien, Barry;Mudrick, John P.;Xue, Jiangeng;Li, Jian;
2:44:28 A morphology control layer of a pyrene dimer enhances the efficiency in small molecule organic photovoltaic cells
DOI:10.1039/c3tc31719f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Kawata, So;Pu, Yong-Jin;Ohashi, Chika;Nakayama, Ken-ichi;Hong, Ziruo;Kido, Junji;
2:44:29 Microcrystalline Organic Thin-Film Solar Cells
DOI:10.1002/adma.201301643 JN:ADVANCED MATERIALS PY:2013 TC:14 AU: Verreet, Bregt;Heremans, Paul;Stesmans, Andre;Rand, Barry P.;
2:44:30 Surface dependent thermal evolution of the nanostructures in ultra-thin copper(II) phthalocyanine films
DOI:10.1039/c2jm16224e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Kim, Hyo Jung;Lee, Hyun Hwi;Kim, Ji Whan;Jang, Junhyuk;Kim, Jang-Joo;
2:44:31 Efficient broad-spectrum parallel tandem organic solar cells based on the highly crystalline chloroaluminum phthalocyanine films as the planar layer
DOI:10.1063/1.3697397 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Chen, Weichao;Qiao, Xiaolan;Yang, Jianbing;Yu, Bo;Yan, Donghang;
2:44:32 Enhancement of device performance of organic solar cells by an interfacial perylene derivative layer
DOI:10.1021/am100039m JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:17 AU: Kim, Inho;Haverinen, Hanna M.;Li, Jian;Jabbour, Ghassan E.;
2:44:33 Simultaneous enhancement of charge transport and exciton diffusion in single-crystal-like organic semiconductors
DOI:10.1063/1.3692106 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Yang, Jianbing;Zhu, Feng;Yu, Bo;Wang, Haibo;Yan, Donghang;
2:44:34 Copper Phthalocyanine on Hydrogenated and Bare Diamond (001)-2 x 1: Influence of Interfacial Interactions on Molecular Orientations
DOI:10.1021/la901204x JN:LANGMUIR PY:2010 TC:15 AU: Qi, Dongchen;Sun, Jiatao;Gao, Xingyu;Wang, Li;Chen, Shi;Loh, Kian Ping;Wee, Andrew T. S.;
2:44:35 Initial Growth Mode, Nanostructure, and Molecular Stacking of a ZnPc:C60 Bulk Heterojunction
DOI:10.1002/adfm.201200778 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:6 AU: Kim, Hyo Jung;Kim, Ji Whan;Lee, Hyun Hwi;Lee, Byeongdu;Kim, Jang-Joo;
2:44:36 Enhanced power conversion efficiency of p-i-n type organic solar cells by employing a p-layer of palladium phthalocyanine
DOI:10.1063/1.3507387 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Kim, Inho;Haverinen, Hanna M.;Li, Jian;Jabbour, Ghassan E.;
2:44:37 Controlling templating effects at the organic/inorganic interface using (111) oriented copper iodide
DOI:10.1039/c4tc00759j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Rochford, L. A.;Keeble, D. S.;Holmes, O. J.;Clarkson, G. J.;Jones, T. S.;
2:44:38 Temperature and interfacial buffer layer effects on the nanostructure in a copper(II) phthalocyanine: Fullerene bulk heterojunction
DOI:10.1016/j.materresbull.2014.04.048 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Lee, Hyun Hwi;Kim, Ji Whan;Kim, Jang-Joo;Kim, Hyo Jung;
2:44:39 Near infrared light driven organic p-i-n solar cells incorporating phthalocyanine J-aggregate
DOI:10.1063/1.3534804 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Hiramoto, Masahiro;Kitada, Keitaro;Iketaki, Kai;Kaji, Toshihiko;
2:44:40 Structural modifications of zinc phthalocyanine thin films for organic photovoltaic applications
DOI:10.1063/1.4721409 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Zhou, Ying;Taima, Tetsuya;Miyadera, Tetsuhiko;Yamanari, Toshihiro;Yoshida, Yuji;
2:44:41 Effect of MoO3 as an interlayer on the performance of organic solar cells based on ZnPc and C-60
DOI:10.1016/j.synthmet.2011.10.014 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Zeng, Wenjin;Yong, Kian Soon;Kam, Zhi Ming;Chen, Zhi-kuan;Li, Yuning;
2:44:42 Probing the effect of relative molecular orientation on the photovoltaic device performance of an organic bilayer heterojunction using soft x-ray spectroscopies
DOI:10.1063/1.4731197 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Cho, S. W.;DeMasi, A.;Preston, A. R. H.;Smith, K. E.;Piper, L. F. J.;Chauhan, K. V.;Jones, T. S.;
2:44:43 Effect of Molecular Packing on Corannulene-Based Materials Electroluminescence
DOI:10.1021/ja2040688 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:24 AU: Zoppi, Laura;Martin-Samos, Layla;Baldridge, Kim K.;
2:44:44 Thiophene/Phenylene Co-Oligomers as Novel Photovoltaic Materials
DOI:10.1080/15421406.2014.931777 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Iwamoto, Naoki;Nakamura, Masashi;Ohga, Kenji;Yamao, Takeshi;Hotta, Shu;
2:44:45 Exciton dynamics at the heteromolecular interface between N,N '-dioctyl-3,4,9,10-perylenedicarboximide and quaterrylene, studied using time-resolved photoluminescence
DOI:10.1063/1.4880495 JN:AIP ADVANCES PY:2014 TC:0 AU: Hiroshiba, Nobuya;Morimoto, Kenta;Hayakawa, Ryoma;Wakayama, Yutaka;Mori, Tatsuo;Matsuishi, Kiyoto;
2:44:46 Effect of Co-evaporant Induced Crystallization on Needle Growth of Phthalocyanine Thin Films
DOI:10.1080/15421406.2013.804376 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Kaji, Toshihiko;Nakao, Satoru;Hiramoto, Masahiro;
2:44:47 Probing the effect of relative molecular orientation on the photovoltaic device performance of an organic bilayer heterojunction using soft x-ray spectroscopies (vol 100, 263302, 2012)
DOI:10.1063/1.4737215 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Cho, S. W.;DeMasi, A.;Preston, A. R. H.;Smith, K. E.;Piper, L. F. J.;Chauhan, K. V.;Jones, T. S.;
2:44:48 Structure and Electrical Studies on Nanostructured ZnTe Thin Films
DOI:10.1007/s13391-012-2159-y JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:4 AU: Soundararajan, Devaraj;Lim, Youngjoo;Chun, Myong-Pyo;Kim, Ki Hyeon;
2:44:49 Enhanced open-circuit voltage in organic photovoltaic cells with partially chlorinated zinc phthalocyanine
DOI:10.1007/s10853-013-7525-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:6 AU: Fleetham, Tyler B.;Bakkan, Nathan;Mudrick, John P.;Myers, Jason D.;Cassidy, Vincent D.;Cui, Jingbiao;Xue, Jiangeng;Li, Jian;
2:45:1 Long-Term Thermal Stability of High-Efficiency Polymer Solar Cells Based on Photocrosslinkable Donor-Acceptor Conjugated Polymers
DOI:10.1002/adma.201004743 JN:ADVANCED MATERIALS PY:2011 TC:62 AU: Griffini, Gianmarco;Douglas, Jessica D.;Piliego, Claudia;Holcombe, Thomas W.;Turri, Stefano;Frechet, Jean M. J.;Mynar, Justin L.;
2:45:2 Degradation and stability of polymer-based solar cells
DOI:10.1039/c2jm33645f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:40 AU: Lee, Jea Uk;Jung, Jae Woong;Jo, Jea Woong;Jo, Won Ho;
2:45:3 Solvent-Resistant Organic Transistors and Thermally Stable Organic Photovoltaics Based on Cross-linkable Conjugated Polymers
DOI:10.1021/cm203058p JN:CHEMISTRY OF MATERIALS PY:2012 TC:51 AU: Kim, Hyeong Jun;Han, A-Reum;Cho, Chul-Hee;Kang, Hyunbum;Cho, Han-Hee;Lee, Moo Yeol;Frechet, Jean M. J.;Oh, Joon Hak;Kim, Bumjoon J.;
2:45:4 Morphological Stabilization by In Situ Polymerization of Fullerene Derivatives Leading to Efficient, Thermally Stable Organic Photovoltaics
DOI:10.1002/adfm.201002502 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:69 AU: Cheng, Yen-Ju;Hsieh, Chao-Hsiang;Li, Pei-Jung;Hsu, Chain-Shu;
2:45:5 Architectural Engineering of Rod-Coil Compatibilizers for Producing Mechanically and Thermally Stable Polymer Solar Cells
DOI:10.1021/nn503823z JN:ACS NANO PY:2014 TC:7 AU: Kim, Hyeong Jun;Kim, Jae-Han;Ryu, Ji-Ho;Kim, Youngkwon;Kang, Hyunbum;Lee, Won Bo;Kim, Taek-Soo;Kim, Bumjoon J.;
2:45:6 A New Supramolecular Route for Using Rod-Coil Block Copolymers in Photovoltaic Applications
DOI:10.1002/adma.200902645 JN:ADVANCED MATERIALS PY:2010 TC:87 AU: Sary, Nicolas;Richard, Fanny;Brochon, Cyril;Leclerc, Nicolas;Leveque, Patrick;Audinot, Jean-Nicolas;Berson, Solenn;Heiser, Thomas;Hadziioannou, Georges;Mezzenga, Raffaele;
2:45:7 Synthesis of C(60)-end capped P3HT and its application for high performance of P3HT/PCBM bulk heterojunction solar cells
DOI:10.1039/b923752f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:61 AU: Lee, Jea Uk;Jung, Jae Woong;Emrick, Todd;Russell, Thomas P.;Jo, Won Ho;
2:45:8 Cooperative Assembly of Hydrogen-Bonded Diblock Copolythiophene/Fullerene Blends for Photovoltaic Devices with Well-Defined Morphologies and Enhanced Stability
DOI:10.1021/cm203706h JN:CHEMISTRY OF MATERIALS PY:2012 TC:48 AU: Lin, Ying;Lim, Jung Ah;Wei, Qingshuo;Mannsfeld, Stefan C. B.;Briseno, Alejandro L.;Watkins, James J.;
2:45:9 Photovoltaic performance enhancement of P3HT/PCBM solar cells driven by incorporation of conjugated liquid crystalline rod-coil block copolymers
DOI:10.1039/c4tc00066h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Yuan, Kai;Chen, Lie;Chen, Yiwang;
2:45:10 High-Performance Field-Effect Transistors Based on Polystyrene-b-Poly(3-hexylthiophene) Diblock Copolymers
DOI:10.1021/nn2007964 JN:ACS NANO PY:2011 TC:4 AU: Yui, Xiang;Xiao, Kai;Chen, Jihua;Lavrik, Nickolay V.;Hong, Kunlun;Sumpter, Bobby G.;Geohegan, David B.;
2:45:11 Fullerene Nucleating Agents: A Route Towards Thermally Stable Photovoltaic Blends
DOI:10.1002/aenm.201301437 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:11 AU: Lindqvist, Camilla;Bergqvist, Jonas;Feng, Ching-Chiao;Gustafsson, Stefan;Backe, Olof;Treat, Neil D.;Bounioux, Celine;Henriksson, Patrik;Kroon, Renee;Wang, Ergang;Sanz-Velasco, Anke;Kristiansen, Per Magnus;Stingelin, Natalie;Olsson, Eva;Inganas, Olle;Andersson, Mats R.;Muller, Christian;
2:45:12 Improved thermal stability of bulk heterojunctions based on side-chain functionalized poly(3-alkylthiophene) copolymers and PCBM
DOI:10.1016/j.solmat.2012.12.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:24 AU: Bertho, Sabine;Campo, Bert;Piersimoni, Fortunato;Spoltore, Donato;D'Haen, Jan;Lutsen, Laurence;Maes, Wouter;Vanderzande, Dirk;Manca, Jean;
2:45:13 Cross-linkable azido C-60-fullerene derivatives for efficient thermal stabilization of polymer bulk-heterojunction solar cells
DOI:10.1039/c4tc01178c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Diacon, Aurel;Derue, Lionel;Lecourtier, Clemence;Dautel, Olivier;Wantz, Guillaume;Hudhomme, Pietrick;
2:45:14 Morphology control of a polythiophene-fullerene bulk heterojunction for enhancement of the high-temperature stability of solar cell performance by a new donor-acceptor diblock copolymer
DOI:10.1088/0957-4484/21/10/105201 JN:NANOTECHNOLOGY PY:2010 TC:45 AU: Lee, Jea Uk;Jung, Jae Woong;Emrick, Todd;Russell, Thomas P.;Jo, Won Ho;
2:45:15 Thermal Stabilisation of Polymer-Fullerene Bulk Heterojunction Morphology for Effi cient Photovoltaic Solar Cells
DOI:10.1002/adma.201401062 JN:ADVANCED MATERIALS PY:2014 TC:13 AU: Derue, Lionel;Dautel, Olivier;Tournebize, Aurelien;Drees, Martin;Pan, Hualong;Berthumeyrie, Sebastien;Pavageau, Bertrand;Cloutet, Eric;Chambon, Sylvain;Hirsch, Lionel;Rivaton, Agnes;Hudhomme, Pietrick;Facchetti, Antonio;Wantz, Guillaume;
2:45:16 Toward Stabilization of Domains in Polymer Bulk Heterojunction Films
DOI:10.1021/cm1018184 JN:CHEMISTRY OF MATERIALS PY:2010 TC:39 AU: Gholamkhass, Bobak;Holdcroft, Steven;
2:45:17 Influence of selenophene-thiophene phase separation on solar cell performance
DOI:10.1039/c3ta14101b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:7 AU: Gao, Dong;Hollinger, Jon;Jahnke, Ashlee A.;Seferos, Dwight S.;
2:45:18 Comparative studies of photochemical cross-linking methods for stabilizing the bulk hetero-junction morphology in polymer solar cells
DOI:10.1039/c2jm34284g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Carle, Jon Eggert;Andreasen, Birgitta;Tromholt, Thomas;Madsen, Morten V.;Norrman, Kion;Jorgensen, Mikkel;Krebs, Frederik C.;
2:45:19 Charge-carrier relaxation dynamics of poly(3-hexylthiophene)-coated gold hybrid nanoparticles
DOI:10.1016/j.polymer.2014.08.069 JN:POLYMER PY:2014 TC:0 AU: Lee, Dongki;Jang, Du-Jeon;
2:45:20 Small-Molecule Thiophene-C-60 Dyads As Compatibilizers in Inverted Polymer Solar Cells
DOI:10.1021/cm102126a JN:CHEMISTRY OF MATERIALS PY:2010 TC:36 AU: Kim, Jong Bok;Allen, Kathryn;Oh, Soong Ju;Lee, Stephanie;Toney, Michael F.;Kim, Youn Sang;Kagan, Cherie R.;Nuckolls, Colin;Loo, Yueh-Lin;
2:45:21 Block Copolymer as a Nanostructuring Agent for High-Efficiency and Annealing-Free Bulk Heterojunction Organic Solar Cells
DOI:10.1002/adma.201104461 JN:ADVANCED MATERIALS PY:2012 TC:35 AU: Renaud, Cedric;Mougnier, Sebastien-Jun;Pavlopoulou, Eleni;Brochon, Cyril;Fleury, Guillaume;Deribew, Dargie;Portale, Giuseppe;Cloutet, Eric;Chambon, Sylvain;Vignau, Laurence;Hadziioannou, Georges;
2:45:22 Self Encapsulated Poly(3-hexylthiophene)-poly(fluorinated alkyl methacrylate) Rod-Coil Block Copolymers with High Field Effect Mobilities on Bare SiO2
DOI:10.1002/adfm.201102431 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:20 AU: Liu, Junying;Haynes, Dahlia;Balliet, Courtney;Zhang, Rui;Kowalewski, Tomasz;McCullough, Richard D.;
2:45:23 A versatile approach for creating hybrid semiconducting polymer-fullerene architectures for organic electronics
DOI:10.1039/c4ta00741g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Kakogianni, Sofia;Kourkouli, Souzana N.;Andreopoulou, Aikaterini K.;Kallitsis, Joannis K.;
2:45:24 Self-Assembly of Diblock Polythiophenes with Discotic Liquid Crystals on Side Chains for the Formation of a Highly Ordered Nanowire Morphology
DOI:10.1021/am402031v JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Chen, Xun;Chen, Lie;Yao, Kai;Chen, Yiwang;
2:45:25 Organic photovoltaics based on a crosslinkable PCPDTBT analogue; synthesis, morphological studies, solar cell performance and enhanced lifetime
DOI:10.1039/c3ta11002h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:8 AU: Waters, Huw;Kettle, Jeff;Chang, Shu-Wei;Su, Chun-Jen;Wu, Wei-Ru;Jeng, U. -Ser;Tsai, Ya-Ching;Horie, Masaki;
2:45:26 Fullerene bisadduct as an effective phase-separation inhibitor in preparing poly(3-hexylthiophene)-[6,6]-phenyl-C-61-butyric acid methyl ester blends with highly stable morphology
DOI:10.1039/c2jm32444j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Liu, Hung-Wei;Chang, Deng-Yang;Chiu, Wen-Yen;Rwei, Syang-Peng;Wang, Leeyih;
2:45:27 Enhancement of power conversion efficiency and long-term stability of P3HT/PCBM solar cells using C-60 derivatives with thiophene units as surfactants
DOI:10.1016/j.solmat.2011.07.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:23 AU: Lai, Yi-Cang;Higashihara, Tomoya;Hsu, Jung-Ching;Ueda, Mitsuru;Chen, Wen-Chang;
2:45:28 Stabilization of PCBM domains in bulk heterojunctions using polystyrene-tethered fullerene
DOI:10.1016/j.solmat.2013.07.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Moore, Joshua A.;Ali, Shariq;Berry, Brian C.;
2:45:29 Efficiency enhancement of P3HT/PCBM bulk heterojunction solar cells by attaching zinc phthalocyanine to the chain-end of P3HT
DOI:10.1039/c1jm11563d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:19 AU: Lee, Jea Uk;Do Kim, Young;Jo, Jea Woong;Kim, Jae Pil;Jo, Won Ho;
2:45:30 Cooperative Assembly of Pyrene-Functionalized Donor/Acceptor Blend for Ordered Nanomorphology by Intermolecular Noncovalent pi-pi Interactions
DOI:10.1021/am501831z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Chen, Lie;Peng, Siwan;Chen, Yiwang;
2:45:31 A semiconducting liquid crystalline block copolymer containing regioregular poly-(3-hexylthiophene) and nematic poly(n-hexyl isocyanate) and its application in bulk heterojunction solar cells
DOI:10.1039/c4ta02852j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Bhatt, Mahesh P.;Du, Jia;Rainbolt, Elizabeth A.;Pathiranage, Taniya M. S. K.;Huang, Peishen;Reuther, James F.;Novak, Bruce M.;Biewer, Michael C.;Stefan, Mihaela C.;
2:45:32 Synthesis and morphology of new asymmetric star polymers of poly[4-(9,9-dihexylfloren-2-yl)styrene]-block-poly(2-vinylpyridine) and their non-volatile memory device applications
DOI:10.1039/c1sm05792h JN:SOFT MATTER PY:2011 TC:4 AU: Hsu, Jung-Ching;Li, Chaoxu;Sugiyama, Kenji;Mezzenga, Raffaele;Hirao, Akira;Chen, Wen-Chang;
2:45:33 Lamello-Columnar Mesophase Formation in a Side-Chain Liquid Crystal pi-Conjugated Polymer Architecture
DOI:10.1021/cm2014187 JN:CHEMISTRY OF MATERIALS PY:2011 TC:23 AU: Tahar-Djebbar, Ibtissam;Nekelson, Fabien;Heinrich, Benoit;Donnio, Bertrand;Guillon, Daniel;Kreher, David;Mathevet, Fabrice;Attias, Andre-Jean;
2:45:34 Thermally stable organic bulk heterojunction photovoltaic cells incorporating an amorphous fullerene derivative as an electron acceptor
DOI:10.1016/j.solmat.2010.08.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Kim, Seul-Ong;Chung, Dae Sung;Cha, Hyojung;Jang, Jae Wan;Kim, Yun-Hi;Kang, Jae-Wook;Jeong, Yong-Soo;Park, Chan Eon;Kwon, Soon-Ki;
2:45:35 Self-Assembly of Supramolecular Fullerene Ribbons via Hydrogen-Bonding Interactions and Their Impact on Fullerene Electronic Interactions and Charge Carrier Mobility
DOI:10.1021/ja104750t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:37 AU: Chu, Cheng-Che;Raffy, Guillaume;Ray, Debdas;Del Guerzo, Andre;Kauffmann, Brice;Wantz, Guillaume;Hirsch, Lionel;Bassani, Dario M.;
2:45:36 Dendrite growth in annealed polymer blends for use in bulk heterojunction solar cells
DOI:10.1063/1.3652858 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Akogwu, Onobu;Akande, Wali;Tong, Tiffany;Soboyejo, Wole;
2:45:37 Simulation of the influence of the absorption window for stacked and monolithic organic tandem solar cells
DOI:10.1016/j.solmat.2010.02.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:3 AU: Minnaert, Ben;Burgelman, Marc;De Vos, Alexis;Veelaert, Peter;
2:46:1 S-shaped current-voltage characteristics of organic solar devices
DOI:10.1103/PhysRevB.82.115306 JN:PHYSICAL REVIEW B PY:2010 TC:109 AU: Wagenpfahl, A.;Rauh, D.;Binder, M.;Deibel, C.;Dyakonov, V.;
2:46:2 Influence of Hole-Transport Layers and Donor Materials on Open-Circuit Voltage and Shape of I-V Curves of Organic Solar Cells
DOI:10.1002/adfm.201002669 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:131 AU: Tress, Wolfgang;Leo, Karl;Riede, Moritz;
2:46:3 Imbalanced mobilities causing S-shaped IV curves in planar heterojunction organic solar cells
DOI:10.1063/1.3553764 JN:APPLIED PHYSICS LETTERS PY:2011 TC:65 AU: Tress, Wolfgang;Petrich, Annette;Hummert, Markus;Hein, Moritz;Leo, Karl;Riede, Moritz;
2:46:4 Fill factor in organic solar cells
DOI:10.1016/j.solmat.2008.06.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:82 AU: Gupta, Dhritiman;Mukhopadhyay, Sabyasachi;Narayan, K. S.;
2:46:5 Identification of different origins for s-shaped current voltage characteristics in planar heterojunction organic solar cells
DOI:10.1063/1.3692050 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:38 AU: Wagner, Julia;Gruber, Mark;Wilke, Andreas;Tanaka, Yuya;Topczak, Katharina;Steindamm, Andreas;Hoermann, Ulrich;Opitz, Andreas;Nakayama, Yasuo;Ishii, Hisao;Pflaum, Jens;Koch, Norbert;Bruetting, Wolfgang;
2:46:6 Limits of open circuit voltage in organic photovoltaic devices
DOI:10.1063/1.3360336 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: Lo, M. F.;Ng, T. W.;Liu, T. Z.;Roy, V. A. L.;Lai, S. L.;Fung, M. K.;Lee, C. S.;Lee, S. T.;
2:46:7 Identifying the Impact of Surface Recombination at Electrodes in Organic Solar Cells by Means of Electroluminescence and Modeling
DOI:10.1002/aenm.201400081 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:8 AU: Reinhardt, Jens;Grein, Maria;Buehler, Christian;Schubert, Martin;Wuerfel, Uli;
2:46:8 Stabilizing cations in the backbones of conjugated polymers
DOI:10.1039/c3tc32204a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Voortman, Thomas P.;de Gier, Hilde D.;Havenith, Remco W. A.;Chiechi, Ryan C.;
2:46:9 Investigation of Driving Forces for Charge Extraction in Organic Solar Cells: Transient Photocurrent Measurements on Solar Cells Showing S-Shaped Current-Voltage Characteristics
DOI:10.1002/aenm.201200931 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:30 AU: Tress, Wolfgang;Corvers, Steef;Leo, Karl;Riede, Moritz;
2:46:10 Work-function tuneable and aqueous solution-processed Cs2CO3 for high-performance polymer solar cells
DOI:10.1039/c4ta01441c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Xu, Mei-Feng;Liao, Ying-Jie;Zu, Feng-Shuo;Liang, Jian;Yuan, Da-Xing;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:46:11 Efficient all polymer solar cells from layer-evolved processing of a bilayer inverted structure
DOI:10.1039/c3tc31945h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Yao, Kai;Intemann, Jeremy J.;Yip, Hin-Lap;Liang, Po-Wei;Chang, Chih-Yu;Zang, Yue;Li, Zhong'an;Chen, Yiwang;Jen, Alex K. -Y.;
2:46:12 Mobility and fill factor correlation in geminate recombination limited solar cells
DOI:10.1063/1.3609079 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:32 AU: Andersson, L. Mattias;Mueller, Christian;Badada, Bekele H.;Zhang, Fengling;Wuerful, Uli;Inganas, Olle;
2:46:13 Fill factor enhancement of organic solar cells based on a wide bandgap phosphorescent material and C-60
DOI:10.1016/j.tsf.2012.07.022 JN:THIN SOLID FILMS PY:2012 TC:8 AU: Yu, Junsheng;Zang, Yue;Li, Haiqiang;Huang, Jiang;
2:46:14 Open-circuit voltage dependency on hole-extraction layers in planar heterojunction organic solar cells
DOI:10.1063/1.3610962 JN:APPLIED PHYSICS LETTERS PY:2011 TC:29 AU: Kulshreshtha, Chandramouli;Choi, Jin Woo;Kim, Jeong-Kyu;Jeon, Woo Sik;Suh, Min Chul;Park, Yougsup;Kwon, Jang Hyuk;
2:46:15 A dynamic Monte Carlo study of anomalous current voltage behaviour in organic solar cells
DOI:10.1063/1.4903530 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Feron, K.;Zhou, X.;Belcher, W. J.;Fell, C. J.;Dastoor, P. C.;
2:46:16 A low-temperature processed environment-friendly full-organic carrier collection layer for polymer solar cells
DOI:10.1063/1.4892831 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Shi, Ai-Li;Li, Yan-Qing;Jiang, Xiao-Chen;Ma, Zhong-Sheng;Wang, Qian-Kun;Guo, Zhen-Yu;Zhang, Dan-Dan;Lee, Shuit-Tong;Tang, Jian-Xin;
2:46:17 Simple experimental test to distinguish extraction and injection barriers at the electrodes of (organic) solar cells with S-shaped current-voltage characteristics
DOI:10.1016/j.solmat.2013.07.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:18 AU: Tress, Wolfgang;Inganas, Olle;
2:46:18 Improvement in the open-circuit voltage of an organic photovoltaic device through selection of a suitable and low-lying highest occupied molecular orbital for the electron donor layer
DOI:10.1557/jmr.2013.125 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:4 AU: Liu, Shun-Wei;Lin, Chun-Feng;
2:46:19 Identifying the Nature of Charge Recombination in Organic Solar Cells from Charge-Transfer State Electroluminescence
DOI:10.1002/aenm.201200009 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:32 AU: Wetzelaer, Gert-Jan A. H.;Kuik, Martijn;Blom, Paul W. M.;
2:46:20 Effect of crystallinity in small molecular weight organic heterojunction solar cells
DOI:10.1039/c4tc00183d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Saeki, Hiroyuki;Kurimoto, Omi;Nakaoka, Haruka;Misaki, Masahiro;Kuzuhara, Daiki;Yamada, Hiroko;Ishida, Kenji;Ueda, Yasukiyo;
2:46:21 Air-processed inverted organic solar cells utilizing a 2-aminoethanol-stabilized ZnO nanoparticle electron transport layer that requires no thermal annealing
DOI:10.1039/c4ta04595e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:2 AU: Jeon, Il;Ryan, James W.;Nakazaki, Tafu;Yeo, Kee Sheng;Negishi, Yuichi;Matsuo, Yutaka;
2:46:22 Investigating the origin of S-shaped photocurrent-voltage characteristics of polymer:fullerene bulk-heterojunction organic solar cells
DOI:10.1063/1.4869661 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Huh, Yoon Ho;Park, Byoungchoo;Hwang, Inchan;
2:46:23 Open-circuit voltage and efficiency improvement of subphthalocyanine-based organic photovoltaic device through deposition rate control
DOI:10.1016/j.solmat.2012.04.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:18 AU: Lin, Chi-Feng;Liu, Shun-Wei;Lee, Chih-Chien;Hunag, Jia-Cing;Su, Wei-Cheng;Chiu, Tien-Lung;Chen, Chin-Ti;Lee, Jiun-Haw;
2:46:24 Effect of the highest occupied molecular orbital energy level offset on organic heterojunction photovoltaic cells
DOI:10.1063/1.3491214 JN:APPLIED PHYSICS LETTERS PY:2010 TC:22 AU: Zhang, Minlu;Wang, Hui;Tang, C. W.;
2:46:25 Can morphology tailoring improve the open circuit voltage of organic solar cells?
DOI:10.1063/1.3672221 JN:APPLIED PHYSICS LETTERS PY:2012 TC:14 AU: Ray, Biswajit;Lundstrom, Mark S.;Alam, Muhammad A.;
2:46:26 Determination of Quasi-Fermi Levels across Illuminated Organic Donor/Acceptor Heterojunctions by Kelvin Probe Force Microscopy
DOI:10.1021/ja2034574 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Ellison, David J.;Kim, Jung Yong;Stevens, Derek M.;Frisbie, C. Daniel;
2:46:27 A New Exciton Blocking Material for Organic Solar Cell Applications
DOI:10.1080/15421406.2013.851366 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Kim, Gyeong Woo;Lampande, Raju;Kwon, Jang Hyuk;
2:46:28 Evolution with annealing of solar cell parameters modeling the S-shape of the current-voltage characteristic
DOI:10.1016/j.solmat.2012.04.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: del Pozo, G.;Romero, B.;Arredondo, B.;
2:46:29 Hole-transport limited S-shaped I-V curves in planar heterojunction organic photovoltaic cells
DOI:10.1063/1.3664406 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Zhang, Minlu;Wang, Hui;Tang, C. W.;
2:46:30 High Mobility Hole Extraction Material for Organic Solar Cell Application
DOI:10.1080/15421406.2012.690989 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Kim, Gyeong Woo;Jeon, Woo Sik;Son, Young Hoon;Kwon, Jang Hyuk;Jung, Sung-Hyun;
2:46:31 Measurement of contact voltage drop and resistance in organic solar cells
DOI:10.1063/1.4772203 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Williams, Evan L.;Ooi, Zien;Sonar, Prashant;Dodabalapur, Ananth;
2:46:32 Understanding S-shaped current-voltage characteristics of organic solar cells: Direct measurement of potential distributions by scanning Kelvin probe
DOI:10.1063/1.4846615 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Saive, Rebecca;Mueller, Christian;Schinke, Janusz;Lovrincic, Robert;Kowalsky, Wolfgang;
2:46:33 Understanding the origin of the S-curve in conjugated polymer/fullerene photovoltaics from drift-diffusion simulations
DOI:10.1063/1.4817396 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Finck, B. Y.;Schwartz, B. J.;
2:46:34 Effect of light illumination and temperature on P3HT films, n-type Si, and ITO
DOI:10.1016/j.apsusc.2013.11.085 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Scudiero, Louis;Shen, Yang;Gupta, Mool C.;
2:46:35 Asymptotic and numerical prediction of current-voltage curves for an organic bilayer solar cell under varying illumination and comparison to the Shockley equivalent circuit
DOI:10.1063/1.4820567 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Foster, J. M.;Kirkpatrick, J.;Richardson, G.;
2:46:36 A Comparative Study of the V-OC in CuPc and SubPc Organic Solar Cells
DOI:10.1080/15421406.2013.850947 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Kulshreshtha, Chandramouli;Kim, Gyeong Woo;Pode, Ramchandra;Kwon, Jang Hyuk;
2:46:37 Response to "Comment on 'Open-circuit voltage dependency on hole-extraction layers in planar heterojunction organic solar cells'" [Appl. Phys. Lett. 100, 266101 (2012)]
DOI:10.1063/1.4729769 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Kulshreshtha, Chandramouli;Choi, Jin Woo;Kim, Jeong-kyu;Jeon, Woosik;Suh, Min Chul;Park, Yougsup;Kwon, Jang Hyuk;
2:46:38 Comment on "Open-circuit voltage dependency on hole-extraction layers in planar heterojunction organic solar cells" [Appl. Phys. Lett. 99, 023308 (2011)]
DOI:10.1063/1.4729768 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Lin, Yow-Jon;
2:46:39 Thermal Annealing Effect of Subphthalocyanine (SubPc) Donor Material in Organic Solar Cells
DOI:10.1080/15421406.2012.690976 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Son, Young Hoon;Kim, Gyeong Woo;Jeon, Woo Sik;Pode, Ramchandra;Kwon, Jang Hyuk;
2:46:40 Photoelectron spectroscopy and atomic force microscopy study of 1,2-dicyano-methanofullerene C-60(CN)(2) thin film for photovoltaic applications
DOI:10.1016/j.solmat.2010.12.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:2 AU: Koppolu, Vaishali Rao;Gupta, Mool C.;Scudiero, Louis;
2:46:41 Determination of surface recombination velocities of organic monolayers on silicon through Kelvin probe
DOI:10.1063/1.4818768 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Alderman, Nicholas;Ibrahim, Mohd Adib;Danos, Lefteris;Grossel, Martin C.;Markvart, Tom;
2:47:1 Large-scale patterned multi-layer graphene films as transparent conducting electrodes for GaN light-emitting diodes
DOI:10.1088/0957-4484/21/17/175201 JN:NANOTECHNOLOGY PY:2010 TC:125 AU: Jo, Gunho;Choe, Minhyeok;Cho, Chu-Young;Kim, Jin Ho;Park, Woojin;Lee, Sangchul;Hong, Woong-Ki;Kim, Tae-Wook;Park, Seong-Ju;Hong, Byung Hee;Kahng, Yung Ho;Lee, Takhee;
2:47:2 Vertical Pillar-Superlattice Array and Graphene Hybrid Light Emitting Diodes
DOI:10.1021/nl100648y JN:NANO LETTERS PY:2010 TC:76 AU: Lee, Jung Min;Choung, Jae Woong;Yi, Jaeseok;Lee, Dong Hyun;Samal, Monica;Yi, Dong Kee;Lee, Chul-Ho;Yi, Gyu-Chul;Paik, Ungyu;Rogers, John A.;Park, Won Il;
2:47:3 Work-function-tuned multilayer graphene as current spreading electrode in blue light-emitting diodes
DOI:10.1063/1.3675631 JN:APPLIED PHYSICS LETTERS PY:2012 TC:27 AU: Chandramohan, S.;Kang, Ji Hye;Katharria, Y. S.;Han, Nam;Beak, Yun Seon;Ko, Kang Bok;Park, Jong Bae;Kim, Hyun Kyu;Suh, Eun-Kyung;Hong, Chang-Hee;
2:47:4 Large-area transparent conductive few-layer graphene electrode in GaN-based ultra-violet light-emitting diodes
DOI:10.1063/1.3644496 JN:APPLIED PHYSICS LETTERS PY:2011 TC:39 AU: Kim, Byung-Jae;Lee, Chongmin;Jung, Younghun;Baik, Kwang Hyeon;Mastro, Michael A.;Hite, Jennifer K.;Eddy, Charles R., Jr.;Kim, Jihyun;
2:47:5 Impact of Inter layer Processing Conditions on the Performance of GaN Light-Emitting Diode with Specific NiOx/Graphene Electrode
DOI:10.1021/am3026079 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:18 AU: Chandramohan, S.;Kang, Ji Hye;Ryu, Beo Deul;Yang, Jong Han;Kim, Seongjun;Kim, Hynsoo;Park, Jong Bae;Kim, Taek Yong;Cho, Byung Jin;Suh, Eun-Kyung;Hong, Chang-Hee;
2:47:6 Au nanoparticle-decorated graphene electrodes for GaN-based optoelectronic devices
DOI:10.1063/1.4737637 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Choe, Minhyeok;Cho, Chu-Young;Shim, Jae-Phil;Park, Woojin;Lim, Sung Kwan;Hong, Woong-Ki;Lee, Byoung Hun;Lee, Dong-Seon;Park, Seong-Ju;Lee, Takhee;
2:47:7 Graphene network on indium tin oxide nanodot nodes for transparent and current spreading electrode in InGaN/GaN light emitting diode
DOI:10.1063/1.3601462 JN:APPLIED PHYSICS LETTERS PY:2011 TC:23 AU: Seo, Tae Hoon;Lee, Kang Jea;Oh, Tae Su;Lee, Yong Seok;Jeong, Hyun;Park, Ah Hyun;Kim, Hun;Choi, Young Ran;Suh, Eun-Kyung;Cuong, Tran Viet;Pham, Viet Hung;Chung, Jin Suk;Kim, Eui Jung;
2:47:8 Metal/graphene sheets as p-type transparent conducting electrodes in GaN light emitting diodes
DOI:10.1063/1.3595941 JN:APPLIED PHYSICS LETTERS PY:2011 TC:28 AU: Lee, Jung Min;Jeong, Hae Yong;Choi, Kyoung Jin;Il Park, Won;
2:47:9 Work function engineering of single layer graphene by irradiation-induced defects
DOI:10.1063/1.4826642 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Kim, Jong-Hun;Hwang, Jin Heui;Suh, Joonki;Tongay, Sefaattin;Kwon, Sangku;Hwang, C. C.;Wu, Junqiao;Park, Jeong Young;
2:47:10 Graphene transparent electrode for enhanced optical power and thermal stability in GaN light-emitting diodes
DOI:10.1088/0957-4484/24/7/075202 JN:NANOTECHNOLOGY PY:2013 TC:13 AU: Youn, Doo-Hyeb;Yu, Young-Jun;Choi, HongKyw;Kim, Suck-Hwan;Choi, Sung-Yool;Choi, Choon-Gi;
2:47:11 Reduction of graphene damages during the fabrication of InGaN/GaN light emitting diodes with graphene electrodes
DOI:10.1088/0957-4484/23/42/425302 JN:NANOTECHNOLOGY PY:2012 TC:7 AU: Joo, Kisu;Jerng, Sahng-Kyoon;Kim, Yong Seung;Kim, Bumho;Moon, Seunghyun;Moon, Daeyoung;Lee, Gun-Do;Song, Yoon-Kyu;Chun, Seung-Hyun;Yoon, Euijoon;
2:47:12 A self-assembled Ag nanoparticle agglomeration process on graphene for enhanced light output in GaN-based LEDs
DOI:10.1088/0957-4484/23/25/255201 JN:NANOTECHNOLOGY PY:2012 TC:14 AU: Shim, Jae-Phil;Kim, DoHyung;Choe, Minhyeok;Lee, Takhee;Park, Seong-Ju;Lee, Dong-Seon;
2:47:13 Annealed InGaN green light-emitting diodes with graphene transparent conductive electrodes
DOI:10.1063/1.4723813 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:18 AU: Zhang, Yiyun;Wang, Liancheng;Li, Xiao;Yi, Xiaoyan;Zhang, Ning;Li, Jing;Zhu, Hongwei;Wang, Guohong;
2:47:14 Performance evaluation of GaN light-emitting diodes using transferred graphene as current spreading layer
DOI:10.1063/1.4863640 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Chandramohan, S.;Ko, Kang Bok;Yang, Jong Han;Ryu, Beo Deul;Katharria, Y. S.;Kim, Taek Yong;Cho, Byung Jin;Hong, Chang-Hee;
2:47:15 Highly transparent and conducting graphene-embedded ZnO films with enhanced photoluminescence fabricated by aerosol synthesis
DOI:10.1088/0957-4484/25/8/085701 JN:NANOTECHNOLOGY PY:2014 TC:4 AU: Kwon, Bob Jin;Kim, Jong-Young;Choi, Soon-Mok;An, Sung Jin;
2:47:16 Graphene-Based Optically Transparent Electrodes for Spectroelectrochemistry in the UV-Vis Region
DOI:10.1002/smll.200901448 JN:SMALL PY:2010 TC:45 AU: Weber, Constans M.;Eisele, Doerthe M.;Rabe, Juergen P.;Liang, Yanyu;Feng, Xinliang;Zhi, Linjie;Muellen, Klaus;Lyon, Jennifer L.;Williams, Ryan;Bout, David A. Vanden;Stevenson, Keith J.;
2:47:17 Graphene-silver nanowire hybrid structure as a transparent and current spreading electrode in ultraviolet light emitting diodes
DOI:10.1063/1.4817256 JN:APPLIED PHYSICS LETTERS PY:2013 TC:11 AU: Seo, Tae Hoon;Kim, Bo Kyoung;Shin, GangU;Lee, Changhyup;Kim, Myung Jong;Kim, Hyunsoo;Suh, Eun-Kyung;
2:47:18 Thin Ni film on graphene current spreading layer for GaN-based blue and ultra-violet light-emitting diodes
DOI:10.1063/1.4802800 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Shim, Jae-Phil;Seo, Tae Hoon;Min, Jung-Hong;Kang, Chang Mo;Suh, Eun-Kyung;Lee, Dong-Seon;
2:47:19 ZnO nanorods-graphene hybrid structures for enhanced current spreading and light extraction in GaN-based light emitting diodes
DOI:10.1063/1.3683484 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Lee, Jung Min;Yi, Jaeseok;Lee, Won Woo;Jeong, Hae Yong;Jung, Taeil;Kim, Youngchae;Park, Won Il;
2:47:20 GaN nanorod light emitting diodes with suspended graphene transparent electrodes grown by rapid chemical vapor deposition
DOI:10.1063/1.4836375 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Xu, Kun;Xu, Chen;Xie, Yiyang;Deng, Jun;Zhu, Yanxu;Guo, Weiling;Mao, Mingming;Xun, Meng;Chen, Maoxing;Zheng, Lei;Sun, Jie;
2:47:21 Partially sandwiched graphene as transparent conductive layer for InGaN-based vertical light emitting diodes
DOI:10.1063/1.4742892 JN:APPLIED PHYSICS LETTERS PY:2012 TC:14 AU: Wang, Liancheng;Zhang, Yiyun;Li, Xiao;Liu, Zhiqiang;Guo, Enqing;Yi, Xiaoyan;Wang, Junxi;Zhu, Hongwei;Wang, Guohong;
2:47:22 Three-dimensional graphene foam-based transparent conductive electrodes in GaN-based blue light-emitting diodes
DOI:10.1063/1.4801763 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Kim, Byung-Jae;Yang, Gwangseok;Park, Min Joo;Kwak, Joon Seop;Baik, Kwang Hyeon;Kim, Donghwan;Kim, Jihyun;
2:47:23 Free-standing semipolar III-nitride quantum well structures grown on chemical vapor deposited graphene layers
DOI:10.1063/1.4827539 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Gupta, Priti;Rahman, A. A.;Hatui, Nirupam;Parmar, Jayesh B.;Chalke, Bhagyashree A.;Bapat, Rudheer D.;Purandare, S. C.;Deshmukh, Mandar M.;Bhattacharya, Arnab;
2:47:24 The fabrication of GaN-based nanorod light-emitting diodes with multilayer graphene transparent electrodes
DOI:10.1063/1.4811224 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Li, Zhi;Kang, Junjie;Zhang, Yiyun;Liu, Zhiqiang;Wang, Liancheng;Lee, Xiao;Li, Xiao;Yi, Xiaoyan;Zhu, Hongwei;Wang, Guohong;
2:47:25 Near-ultraviolet light-emitting diodes with transparent conducting layer of gold-doped multi-layer graphene
DOI:10.1063/1.4795502 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Cho, Chu-Young;Choe, Minhyeok;Lee, Sang-Jun;Hong, Sang-Hyun;Lee, Takhee;Lim, Wantae;Kim, Sung-Tae;Park, Seong-Ju;
2:47:26 Enhanced performance of GaN-based light-emitting diodes with graphene/Ag nanowires hybrid films
DOI:10.1063/1.4803647 JN:AIP ADVANCES PY:2013 TC:9 AU: Li, Zhi;Kang, Junjie;Liu, Zhiqiang;Du, Chengxiao;Lee, Xiao;Li, Xiao;Wang, Liancheng;Yi, Xiaoyan;Zhu, Hongwei;Wang, Guohong;
2:47:27 Graphene transparent electrodes grown by rapid chemical vapor deposition with ultrathin indium tin oxide contact layers for GaN light emitting diodes
DOI:10.1063/1.4802798 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Xu Kun;Xu Chen;Deng Jun;Zhu Yanxu;Guo Weiling;Mao Mingming;Zheng Lei;Sun Jie;
2:47:28 Flexible cadmium telluride thin films grown on electron-beam-irradiated graphene/thin glass substrates
DOI:10.1063/1.4893744 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Seo, Won-Oh;Koo, Yong Hwan;Kim, Byungnam;Lee, Byung Cheol;Kim, Donghwan;Kim, Jihyun;
2:47:29 Chemical bath deposition of cadmium sulfide on graphene-coated flexible glass substrate
DOI:10.1063/1.4869850 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Seo, Won-Oh;Jung, Younghun;Kim, Jiwan;Kim, Donghwan;Kim, Jihyun;
2:47:30 Enhancement of light output power in ultraviolet light emitting diodes using graphene film on self-assembled Au nanocluster by agglomeration process
DOI:10.1063/1.4836835 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Seo, Tae Hoon;Shin, GangU;Kim, Bo Kyoung;Choi, Chel-Jong;Lee, Changhyup;Kim, Myung Jong;Suh, Eun-Kyung;
2:47:31 High-quality GaN films grown on chemical vapor-deposited graphene films
DOI:10.1038/am.2012.45 JN:NPG ASIA MATERIALS PY:2012 TC:16 AU: Chung, Kunook;Park, Suk In;Baek, Hyeonjun;Chung, Jin-Seok;Yi, Gyu-Chul;
2:47:32 The effect of thermal annealing of graphene under ammonia atmosphere on its electrical properties and contact to p-GaN
DOI:10.1016/j.tsf.2013.03.065 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Kim, Sungeun;Lee, Jung Min;Lee, Dong Hyun;Park, Won Il;
2:47:33 A Universal Method of Producing Transparent Electrodes Using Wide- Bandgap Materials
DOI:10.1002/adfm.201301697 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Kim, Hee-Dong;An, Ho-Myoung;Kim, Kyoung Heon;Kim, Su Jin;Kim, Chi Sun;Cho, Jaehee;Schubert, E. Fred;Kim, Tae Geun;
2:47:34 Buried graphene electrodes on GaN-based ultra-violet light-emitting diodes
DOI:10.1063/1.4733981 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Kim, Byung-Jae;Lee, Chongmin;Mastro, Michael A.;Hite, Jennifer K.;Eddy, Charles R., Jr.;Ren, Fan;Pearton, Stephen J.;Kim, Jihyun;
2:47:35 Transparent actuator made with few layer graphene electrode and dielectric elastomer, for variable focus lens
DOI:10.1063/1.4812982 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Hwang, Taeseon;Kwon, Hyeok-Yong;Oh, Joon-Suk;Hong, Jung-Pyo;Hong, Seung-Chul;Lee, Youngkwan;Choi, Hyouk Ryeol;Kim, Kwang Jin;Bhuiya, Mainul Hossain;Nam, Jae-Do;
2:47:36 Microstructural defects in GaN thin films grown on chemically vapor-deposited graphene layers
DOI:10.1063/1.4790385 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Yoo, Hyobin;Chung, Kunook;Park, Suk In;Kim, Miyoung;Yi, Gyu-Chul;
2:47:37 Improved photovoltaic effects in InGaN-based multiple quantum well solar cell with graphene on indium tin oxide nanodot nodes for transparent and current spreading electrode
DOI:10.1063/1.4789502 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Seo, Tae Hoon;Shim, Jae-Phil;Chae, Seung Jin;Shin, GangU;Kim, Bo Kyoung;Lee, Dong-Seon;Lee, Young Hee;Suh, Eun-Kyung;
2:47:38 MOVPE growth of semipolar III-nitride semiconductors on CVD graphene
DOI:10.1016/j.jcrysgro.2013.03.020 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:12 AU: Gupta, Priti;Rahman, A. A.;Hatui, Nirupam;Gokhale, M. R.;Deshmukh, Mandar M.;Bhattacharya, Arnab;
2:47:39 Large-area suspended graphene on GaN nanopillars
DOI:10.1116/1.3654042 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:4 AU: Lee, Chongmin;Kim, Byung-Jae;Ren, Fan;Pearton, S. J.;Kim, Jihyun;
2:47:40 Microstructures of GaN Thin Films Grown on Graphene Layers
DOI:10.1002/adma.201103829 JN:ADVANCED MATERIALS PY:2012 TC:17 AU: Yoo, Hyobin;Chung, Kunook;Choi, Yong Seok;Kang, Chan Soon;Oh, Kyu Hwan;Kim, Miyoung;Yi, Gyu-Chul;
2:47:41 Graphene as transparent and current spreading electrode in silicon solar cell
DOI:10.1063/1.4901913 JN:AIP ADVANCES PY:2014 TC:0 AU: Behura, Sanjay K.;Mahala, Pramila;Nayak, Sasmita;Jani, Omkar;
2:47:42 Growth of CdTe thin films on graphene by close-spaced sublimation method
DOI:10.1063/1.4841775 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Jung, Younghun;Yang, Gwangseok;Chun, Seungju;Kim, Donghwan;Kim, Jihyun;
2:47:43 Highly oriented, free-standing, superconducting NbN films growth on chemical vapor deposited graphene
DOI:10.1063/1.4875356 JN:APL MATERIALS PY:2014 TC:1 AU: Saraswat, Garima;Gupta, Priti;Bhattacharya, Arnab;Raychaudhuri, Pratap;
2:47:44 Microstructures of GaN Thin Films Grown on Graphene Layers (vol 24, pg 515, 2012)
DOI:10.1002/adma.201290079 JN:ADVANCED MATERIALS PY:2012 TC:0 AU: Yoo, Hyobin;Chung, Kunook;Choi, Yong Seok;Kang, Chan Soon;Oh, Kyu Hwan;Kim, Miyoung;Yi, Gyu-Chul;
2:47:45 Current on/off ratio enhancement through the electrical burning process in ambient with/without oxygen for the generation of high-performance aligned single-walled carbon nanotube field effect transistors
DOI:10.1063/1.3504689 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Kim, Sunkook;Park, In Su;Kwon, Hyuk-Jun;Chang, Woo-Jin;Lee, Sang Woo;
2:48:1 Formation of Nanopatterned Polymer Blends in Photovoltaic Devices
DOI:10.1021/nl904098m JN:NANO LETTERS PY:2010 TC:125 AU: He, Ximin;Gao, Feng;Tu, Guoli;Hasko, David;Huettner, Sven;Steiner, Ullrich;Greenham, Neil C.;Friend, Richard H.;Huck, Wilhelm T. S.;
2:48:2 Poly(3-hexylthiophene) Nanorods with Aligned Chain Orientation for Organic Photovoltaics
DOI:10.1002/adfm.200901760 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:123 AU: Kim, Jong Soo;Park, Yunmin;Lee, Dong Yun;Lee, Ji Hwang;Park, Jong Hwan;Kim, Jin Kon;Cho, Kilwon;
2:48:3 Nanoimprinted Polymer Solar Cell
DOI:10.1021/nn3001388 JN:ACS NANO PY:2012 TC:64 AU: Yang, Yi;Mielczarek, Kamil;Aryal, Mukti;Zakhidov, Anvar;Hu, Walter;
2:48:4 Top-down meets bottom-up: organized donor-acceptor heterojunctions for organic solar cells
DOI:10.1039/c2jm33756h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Wang, Mingfeng;Wudl, Fred;
2:48:5 P3HT Nanopillars for Organic Photovoltaic Devices Nanoimprinted by AAO Templates
DOI:10.1021/nn2043548 JN:ACS NANO PY:2012 TC:60 AU: Chen, Dian;Zhao, Wei;Russell, Thomas P.;
2:48:6 Nanoimprint-Induced Molecular Orientation in Semiconducting Polymer Nanostructures
DOI:10.1021/nn202515z JN:ACS NANO PY:2011 TC:53 AU: Hlaing, Htay;Lu, Xinhui;Hofmann, Tommy;Yager, Kevin G.;Black, Charles T.;Ocko, Benjamin M.;
2:48:7 Formation of Well-Ordered Heterojunctions in Polymer: PCBM Photovoltaic Devices
DOI:10.1002/adfm.201000573 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:48 AU: He, Ximin;Gao, Feng;Tu, Guoli;Hasko, David G.;Huettner, Sven;Greenham, Neil C.;Steiner, Ullrich;Friend, Richard H.;Huck, Wilhelm T. S.;
2:48:8 Organic photovoltaics: principles and techniques for nanometre scale characterization
DOI:10.1088/0957-4484/21/49/492001 JN:NANOTECHNOLOGY PY:2010 TC:40 AU: Nicholson, Patrick G.;Castro, Fernando A.;
2:48:9 Direct Patterning of Conductive Polymer Domains for Photovoltaic Devices
DOI:10.1021/am3008328 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:8 AU: Moungthai, Suchanun;Mahadevapuram, Nikhila;Ruchhoeft, Paul;Stein, Gila E.;
2:48:10 Nanostructured interfaces in polymer solar cells
DOI:10.1063/1.3458809 JN:APPLIED PHYSICS LETTERS PY:2010 TC:33 AU: Wiedemann, W.;Sims, L.;Abdellah, A.;Exner, A.;Meier, R.;Musselman, K. P.;MacManus-Driscoll, J. L.;Mueller-Buschbaum, P.;Scarpa, G.;Lugli, P.;Schmidt-Mende, L.;
2:48:11 Observation of orientation-dependent photovoltaic behaviors in aligned organic nanowires
DOI:10.1063/1.4817299 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Oh, Joon Hak;Wong, Lydia Helena;Yu, Hojeong;Park, Young Jun;Kim, Jong Min;Bao, Zhenan;
2:48:12 Intrinsic and Extrinsic Parameters for Controlling the Growth of Organic Single-Crystalline Nanopillars in Photovoltaics
DOI:10.1021/nl501933q JN:NANO LETTERS PY:2014 TC:6 AU: Zhang, Yue;Diao, Ying;Lee, Hyunbok;Mirabito, Timothy J.;Johnson, Richard W.;Puodziukynaite, Egle;John, Jacob;Carter, Kenneth R.;Emrick, Todd;Mannsfed, Stefan C. B.;Briseno, Alejandro L.;
2:48:13 Controlled nanostructuring of CuPc thin films via glancing angle deposition for idealized organic photovoltaic architectures
DOI:10.1039/c0jm03026k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Van Dijken, J. G.;Fleischauer, M. D.;Brett, M. J.;
2:48:14 Formation of Organic Crystalline Nanopillar Arrays and Their Application to Organic Photovoltaic Cells
DOI:10.1021/am100915s JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:26 AU: Hirade, Masaya;Nakanotani, Hajime;Yahiro, Masayuki;Adachi, Chihaya;
2:48:15 Fabrication and characterization of high-density arrays of P3HT nanopillars on ITO/glass substrates
DOI:10.1016/j.solmat.2010.03.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:24 AU: Santos, Abel;Formentin, Pilar;Pallares, Josep;Ferre-Borrull, Josep;Marsal, Lluis F.;
2:48:16 Efficient Low Bandgap Polymer Solar Cell with Ordered Heterojunction Defined by Nanoimprint Lithography
DOI:10.1021/am505303a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Yang, Yi;Mielczarek, Kamil;Zakhidov, Anvar;Hu, Walter;
2:48:17 Nanostructured donor/acceptor interfaces in photovoltaic cells using columnar-grain films of a cross-linked poly(fluorene-alt-bithiophene)
DOI:10.1039/c1jm10195a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:19 AU: Farinhas, Joana;Ferreira, Quirina;Di Paolo, Roberto E.;Alcacer, Luis;Morgado, Jorge;Charas, Ana;
2:48:18 Nanoimprint of dehydrated PEDOT:PSS for organic photovoltaics
DOI:10.1088/0957-4484/22/48/485301 JN:NANOTECHNOLOGY PY:2011 TC:17 AU: Yang, Y.;Lee, K.;Mielczarek, K.;Hu, W.;Zakhidov, A.;
2:48:19 Poly(3-hexylthiophene) nanowires in porous alumina: internal structure under confinement
DOI:10.1039/c3sm52378k JN:SOFT MATTER PY:2014 TC:3 AU: Martin, Jaime;Campoy-Quiles, Mariano;Nogales, Aurora;Garriga, Miquel;Alonso, M. Isabel;Goni, Alejandro R.;Martin-Gonzalez, Marisol;
2:48:20 Nanostructuring discotic molecules on ITO support
DOI:10.1088/0957-4484/22/5/055303 JN:NANOTECHNOLOGY PY:2011 TC:8 AU: Hesse, H. C.;Lembke, D.;Doessel, L.;Feng, X.;Muellen, K.;Schmidt-Mende, L.;
2:48:21 Optimum design of ordered bulk heterojunction organic photovoltaics
DOI:10.1016/j.solmat.2011.06.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Kim, Jungwon;Kim, Kangmin;Ko, Seung Hwan;Kim, Woochul;
2:48:22 Optimization of Hybrid Organic-Inorganic Interdigitated Photovoltaic Device Structure Using a 2D Diffusion Model
DOI:10.1021/nn200197f JN:ACS NANO PY:2011 TC:5 AU: Krali, Emiljana;Curry, Richard J.;
2:48:23 Nanowires and nanotubes from pi-conjugated organic materials fabricated by template wetting
DOI:10.1007/s00339-014-8226-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Bordo, Kirill;Schiek, Manuela;Rubahn, Horst-Gunter;
2:48:24 Enhanced charge collection in confined bulk heterojunction organic solar cells
DOI:10.1063/1.3651509 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Allen, Jonathan E.;Yager, Kevin G.;Hlaing, Htay;Nam, Chang-Yong;Ocko, Benjamin M.;Black, Charles T.;
2:48:25 Improved Power Conversion Efficiency in Bulk Heterojunction Organic Solar Cells with Radial Electron Contacts
DOI:10.1021/nn2031963 JN:ACS NANO PY:2011 TC:12 AU: Allen, Jonathan E.;Black, Charles T.;
2:48:26 Nanostructured Hybrid Solar Cells: Dependence of the Open Circuit Voltage on the Interfacial Composition
DOI:10.1002/adma.201001967 JN:ADVANCED MATERIALS PY:2010 TC:16 AU: Treat, Neil D.;Campos, Luis M.;Dimitriou, Michael D.;Ma, Biwu;Chabinyc, Michael L.;Hawker, Craig J.;
2:48:27 Organic solar cells based on nanoporous P3HT obtained from self-assembled P3HT:PS templates
DOI:10.1039/c2jm32639f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Vohra, Varun;Campoy-Quiles, Mariano;Garriga, Miquel;Murata, Hideyuki;
2:48:28 Solvent-Assisted Soft Nanoimprint Lithography for Structured Bilayer Heterojunction Organic Solar Cells
DOI:10.1021/la201809g JN:LANGMUIR PY:2011 TC:23 AU: Park, Jin Young;Hendricks, Nicholas R.;Carter, Kenneth R.;
2:48:29 Two-dimensional finite-element modeling of periodical interdigitated full organic solar cells
DOI:10.1063/1.4788819 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Granero, P.;Balderrama, V. S.;Ferre-Borrull, J.;Pallares, J.;Marsal, L. F.;
2:48:30 Nanostructured Surfaces Frustrate Polymer Semiconductor Molecular Orientation
DOI:10.1021/nn4060539 JN:ACS NANO PY:2014 TC:5 AU: Johnston, Danvers E.;Yager, Kevin G.;Hlaing, Htay;Lu, Xinhui;Ocko, Benjamin M.;Black, Charles T.;
2:48:31 Magnetic-field-induced enhancement of crystallinity and field-effect mobilities in phthalocyanine thin films
DOI:10.1063/1.4816244 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Tabata, Kenichi;Sasaki, Takayuki;Yamamoto, Yohei;
2:48:32 p-n junction organic photovoltaics fabricated by all solution processing
DOI:10.1016/j.synthmet.2011.10.022 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Zhang, Xin;Liao, Kang-Shyang;Yambem, Soniya D.;Alley, Nigel J.;Curran, Seamus A.;
2:48:33 Control of molecular orientation and morphology in organic bilayer solar cells: Copper phthalocyanine on gold nanodots
DOI:10.1016/j.tsf.2014.03.090 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Sasaki, Takayuki;Tabata, Kenichi;Tsukagoshi, Kazuhito;Beckel, Andreas;Lorke, Axel;Yamamoto, Yohei;
2:48:34 Growth of Highly Oriented Deuterium Crystals in Silicon Nanochannels
DOI:10.1103/PhysRevLett.110.065505 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:3 AU: Hofmann, T.;Kumar, P.;Enderle, M.;Wallacher, D.;
2:48:35 Quasi-ordered P3HT nanopillar-nanocap structures with controlled size
DOI:10.1016/j.matlet.2009.11.020 JN:MATERIALS LETTERS PY:2010 TC:10 AU: Santos, A.;Formentin, P.;Pallares, J.;Ferre-Borrull, J.;Marsal, L. F.;
2:48:36 Nanoporous anodic alumina obtained without protective oxide layer by hard anodization
DOI:10.1016/j.matlet.2011.09.101 JN:MATERIALS LETTERS PY:2012 TC:8 AU: Santos, A.;Formentin, P.;Ferre-Borrull, J.;Pallares, J.;Marsal, L. F.;
2:48:37 Unravelling the effect of strand orientation on exciton migration in conjugated polymers
DOI:10.1016/j.commatsci.2013.03.032 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2013 TC:4 AU: Correia, H. M. G.;Barbosa, H. M. C.;Marques, L.;Ramos, M. M. D.;
2:48:38 Understanding the Metal-Directed Growth of Single-Crystal M-TCNQF(4) Organic Nanowires with Time-Resolved, in Situ X-ray Diffraction and First-Principles Theoretical Studies
DOI:10.1021/ja301456p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Xiao, Kai;Yoon, Mina;Rondinone, Adam J.;Payzant, Edward A.;Geohegan, David B.;
2:48:39 Nanostructured poly(3-hexylthiophene-2,5-diy1) films with tunable dimensions through self-assembly with polystyrene
DOI:10.1016/j.polymer.2014.03.030 JN:POLYMER PY:2014 TC:2 AU: Vohra, Varun;Notoya, Osamu;Huang, Tong;Yamaguchi, Masayuki;Murata, Hideyuki;
2:48:40 Zigzag and Helical AlN Layer Prepared by Glancing Angle Deposition and Its Application as a Buffer Layer in a GaN-Based Light-Emitting Diode
DOI:10.1155/2012/409123 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:2 AU: Chen, Lung-Chien;Tien, Ching-Ho;Liu Xuguang;Xu Bingshe;
2:48:41 Formation of nanostructured donor/acceptor interfaces and their application to organic photovoltaic cells
DOI:10.1016/j.tsf.2012.08.008 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Nakata, Manabu;Kawano, Kenji;Yasumatsu, Mao;Yahiro, Masayuki;Adachi, Chihaya;
2:48:42 Nanoimprinted P3HT/C-60 solar cells optimized by oblique deposition of C-60
DOI:10.1116/1.3517513 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:3 AU: Yang, Yi;Aryal, Mukti;Mielczarek, Kamil;Hu, Walter;Zakhidov, Anvar;
2:48:43 Spatial coherence in electron-beam patterning
DOI:10.1116/1.3490407 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:4 AU: Perera, Ginusha M.;Stein, Gila E.;Liddle, J. Alexander;
2:48:44 Selective edge lithography for fabricating imprint molds with mixed scale patterns
DOI:10.1116/1.4827814 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:0 AU: Noma, Hayato;Kawata, Hiroaki;Yasuda, Masaaki;Hirai, Yoshihiko;Sakamoto, Junji;
2:48:45 Solar harvest
DOI:10.1088/0957-4484/21/49/490201 JN:NANOTECHNOLOGY PY:2010 TC:0 AU: Demming, Anna;
2:48:46 Lithographically defined uniform worm-shaped polymeric nanoparticles (vol 21, 095301, 2010)
DOI:10.1088/0957-4484/21/10/109802 JN:NANOTECHNOLOGY PY:2010 TC:1 AU: Tao, J. L.;Zhao, X. M.;Gao, J. M.;Hu, W.;
2:48:47 p-n junction organic photovoltaics fabricated by all solution processing (vol 161, pg 2798, 2012)
DOI:10.1016/j.synthmet.2012.06.004 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Zhang, Xin;Liao, Kang-Shyang;Yambem, Soniya D.;Alley, Nigel J.;Curran, Seamus A.;
2:49:1 Efficient Single-Layer Polymer Light-Emitting Diodes
DOI:10.1002/adma.201000317 JN:ADVANCED MATERIALS PY:2010 TC:114 AU: Kabra, Dinesh;Lu, Li Ping;Song, Myoung Hoon;Snaith, Henry J.;Friend, Richard H.;
2:49:2 Hybrid Organic-Inorganic Light-Emitting Diodes
DOI:10.1002/adma.201004324 JN:ADVANCED MATERIALS PY:2011 TC:91 AU: Sessolo, Michele;Bolink, Henk J.;
2:49:3 Selective Electron- or Hole-Transport Enhancement in Bulk-Heterojunction Organic Solar Cells with N- or B-Doped Carbon Nanotubes
DOI:10.1002/adma.201003296 JN:ADVANCED MATERIALS PY:2011 TC:79 AU: Lee, Ju Min;Park, Ji Sun;Lee, Sun Hwa;Kim, Hoyeon;Yoo, Seunghyup;Kim, Sang Ouk;
2:49:4 A ZnO/N-doped carbon nanotube nanocomposite charge transport layer for high performance optoelectronics
DOI:10.1039/c2jm30710c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Park, Ji Sun;Lee, Ju Min;Hwang, Sun Kak;Lee, Sun Hwa;Lee, Hyun-Jung;Lee, Bo Ram;Park, Hyung Il;Kim, Ji-Seon;Yoo, Seunghyup;Song, Myoung Hoon;Kim, Sang Ouk;
2:49:5 Efficient hybrid organic-inorganic light emitting diodes with self-assembled dipole molecule deposited metal oxides
DOI:10.1063/1.3453759 JN:APPLIED PHYSICS LETTERS PY:2010 TC:45 AU: Park, Ji Sun;Lee, Bo Ram;Lee, Ju Min;Kim, Ji-Seon;Kim, Sang Ouk;Song, Myoung Hoon;
2:49:6 Surface modification of metal oxide using ionic liquid molecules in hybrid organic-inorganic optoelectronic devices
DOI:10.1039/c0jm03688a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:34 AU: Lee, Bo Ram;Choi, Hyosung;SunPark, Ji;Lee, Hyun Jung;Kim, Sang Ouk;Kim, Jin Young;Song, Myoung Hoon;
2:49:7 Ionically Assisted Charge Injection in Hybrid Organic-Inorganic Light-Emitting Diodes
DOI:10.1021/am1005018 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:25 AU: Bolink, Henk J.;Brine, Hicham;Coronado, Eugenio;Sessolo, Michele;
2:49:8 Improved electron injection in poly(9,9 '-dioctylfluorene)-co-benzothiodiazole via cesium carbonate by means of coannealing
DOI:10.1063/1.3564903 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Vaynzof, Yana;Kabra, Dinesh;Chua, Lay Lay;Friend, Richard H.;
2:49:9 A facile solution-processed alumina film as an efficient electron-injection layer for inverted organic light-emitting diodes
DOI:10.1039/c3tc32020k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Peng, Jun;Wang, Xinxin;Liu, Jie;Huang, Xiaodong;Xiao, Jing;Wang, Sui-Dong;Wang, Hai-Qiao;Ma, Wanli;
2:49:10 Barium Hydroxide as an Interlayer Between Zinc Oxide and a Luminescent Conjugated Polymer for Light-Emitting Diodes
DOI:10.1002/adfm.201200850 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:32 AU: Lu, Li Ping;Kabra, Dinesh;Friend, Richard H.;
2:49:11 Phosphorescent Hybrid Organic-Inorganic Light-Emitting Diodes
DOI:10.1002/adma.200904018 JN:ADVANCED MATERIALS PY:2010 TC:27 AU: Bolink, Henk J.;Brine, Hicham;Coronado, Eugenio;Sessolo, Michele;
2:49:12 High performance polymer light-emitting diodes with N-type metal oxide/conjugated polyelectrolyte hybrid charge transport layers
DOI:10.1063/1.3653962 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Park, Ji Sun;Lee, Bo Ram;Jeong, Eunjae;Lee, Hyun-Jung;Lee, Ju Min;Kim, Ji-Seon;Kim, Jin Young;Woo, Han Young;Kim, Sang Ouk;Song, Myoung Hoon;
2:49:13 Charge-Carrier Balance and Color Purity in Polyfluorene Polymer Blends for Blue Light-Emitting Diodes
DOI:10.1002/adfm.201101892 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:25 AU: Lu, Li-Ping;Kabra, Dinesh;Johnson, Kerr;Friend, Richard H.;
2:49:14 Highly efficient polymer light-emitting diodes using graphene oxide-modified flexible single-walled carbon nanotube electrodes
DOI:10.1039/c2jm34700h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Lee, Bo Ram;Kim, Jun Suk;Nam, Yun Seok;Jeong, Hee Jin;Jeong, Seung Yol;Lee, Geon-Woong;Han, Joong Tark;Song, Myoung Hoon;
2:49:15 Improved Efficiency of Inverted Organic Light-Emitting Diodes Using Tin Dioxide Nanoparticles as an Electron Injection Layer
DOI:10.1021/am302787y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:13 AU: Lee, Hyunkoo;Kang, Chan-Mo;Park, Myeongjin;Kwak, Jeonghun;Lee, Changhee;
2:49:16 Hybrid organic-inorganic light emitting diodes: effect of the metal oxide
DOI:10.1039/b927408a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:30 AU: Bolink, H. J.;Brine, H.;Coronado, E.;Sessolo, M.;
2:49:17 Zinc oxide nanocrystals as electron injecting building blocks for plastic light sources
DOI:10.1039/c2jm15584b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Sessolo, Michele;Bolink, Henk J.;Brine, Hicham;Prima-Garcia, Helena;Tena-Zaera, Ramon;
2:49:18 High efficiency solution processed inverted white organic light emitting diodes with a cross-linkable amino-functionalized polyfluorene as a cathode interlayer
DOI:10.1039/c3tc32022g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Zhang, Kai;Zhong, Chengmei;Liu, Shengjian;Liang, Ai-Hui;Dong, Sheng;Huang, Fei;
2:49:19 Solution-Processed Inorganic-Organic Hybrid Electron Injection Layer for Polymer Light-Emitting Devices
DOI:10.1021/am301732m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:11 AU: Chiba, Takayuki;Pu, Yong-Jin;Hirasawa, Masakatsu;Masuhara, Akito;Sasabe, Hisahiro;Kido, Junji;
2:49:20 Solution-processed organic light-emitting devices with two polymer light-emitting units connected in series by a charge-generation layer
DOI:10.1039/c2jm35344j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Chiba, Takayuki;Pu, Yong-Jin;Sasabe, Hisahiro;Kido, Junji;Yang, Yang;
2:49:21 Highly Efficient Red-Emitting Hybrid Polymer Light-Emitting Diodes via Forster Resonance Energy Transfer Based on Homogeneous Polymer Blends with the Same Polyfluorene Backbone
DOI:10.1021/am401090m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Lee, Bo Ram;Lee, Wonho;Thanh Luan Nguyen;Park, Ji Sun;Kim, Ji-Seon;Kim, Jin Young;Woo, Han Young;Song, Myoung Hoon;
2:49:22 Towards low-temperature preparation of air-stable hybrid light-emitting diodes
DOI:10.1039/c0jm03636f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: William Ryan, James;Palomares, Emilio;Martinez-Ferrero, Eugenia;
2:49:23 Polyethylene Imine as an Ideal Interlayer for Highly Efficient Inverted Polymer Light-Emitting Diodes
DOI:10.1002/adfm.201304163 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:22 AU: Kim, Young-Hoon;Han, Tae-Hee;Cho, Himchan;Min, Sung-Yong;Lee, Chang-Lyoul;Lee, Tae-Woo;
2:49:24 Synthesis and evaluation of a PVDF-PT3MA-Zn2SiO4:Mn hybrid polymeric composite for optical device applications
DOI:10.1039/c3tc32116a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Gomes, Alex Linardi;Lang, Rossano;Armelin, Elaine;Aleman, Carlos;de Carvalho Campos, Joao Sinezio;
2:49:25 Improvement of electron injection in inverted bottom-emission blue phosphorescent organic light emitting diodes using zinc oxide nanoparticles
DOI:10.1063/1.3400224 JN:APPLIED PHYSICS LETTERS PY:2010 TC:26 AU: Lee, Hyunkoo;Park, Insun;Kwak, Jeonghun;Yoon, Do Y.;Lee, Changhee;
2:49:26 Tailored 3D Interface for Efficiency Improvement in Encapsulation-Free Hybrid Light-Emitting Diodes
DOI:10.1021/am200746d JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:2 AU: Martinez-Ferrero, Eugenia;Forneli, Amparo;Boissiere, Cedric;Grosso, David;Sanchez, Clement;Palomares, Emilio;
2:49:27 Impact of preparation condition of ZnO electron transport layer on performance of hybrid organic-inorganic light-emitting diodes
DOI:10.1063/1.4866993 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Huang, Chun-Yuan;Yang, Chih-Chiang;Yu, Hsin-Chieh;Chen, Ying-Chih;
2:49:28 Combination effect of polar solvent treatment on ZnO and polyfluorene-based polymer blends for highly efficient blue-based hybrid organic-inorganic polymer light-emitting diodes
DOI:10.1039/c4tc01726a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Lee, Seungjin;Lee, Bo Ram;Kim, Ji-Seon;Song, Myoung Hoon;
2:49:29 Work function engineering of ZnO electrodes by using p-type and n-type doped carbon nanotubes
DOI:10.1088/0957-4484/24/48/484013 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Urbina, Antonio;Park, Ji Sun;Lee, Ju Min;Kim, Sang Ouk;Kim, Ji-Seon;
2:49:30 Solution processed polymer light-emitting diodes utilizing a ZnO/organic ionic interlayer with Al cathode
DOI:10.1063/1.3526308 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Youn, Hongseok;Yang, Minyang;
2:49:31 Efficient electron injection layer based on thermo-cleavable materials for inverted bottom-emission polymer light emitting diodes
DOI:10.1039/c2jm16061g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Ye, Tengling;Zhu, Minrong;Chen, Jiangshan;Fu, Qiang;Zhao, Fangchao;Shi, Changsheng;Hu, Yue;Ma, Dongge;Yang, Chuluo;
2:49:32 Improvement in power conversion efficiency by blending of poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) into poly(3-hexylthiophene):phenyl-C-61-butyric acid methyl ester active layer
DOI:10.1063/1.4723571 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Lee, Myounghee;Kim, Yoojin;Lee, Sunae;An, Jongdeok;Im, Chan;
2:49:33 Understanding the role of ultra-thin polymeric interlayers in improving efficiency of polymer light emitting diodes
DOI:10.1063/1.4879455 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Bailey, Jim;Wright, Edward N.;Wang, Xuhua;Walker, Alison B.;Bradley, Donal D. C.;Kim, Ji-Seon;
2:49:34 Homogeneous ZnO nanostructure arrays on GaAs substrates by two-step chemical bath synthesis
DOI:10.1007/s11051-012-0866-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:3 AU: Huang, Chun-Yuan;Wu, Tzung-Han;Cheng, Chiao-Yang;Su, Yan-Kuin;
2:49:35 Lithium hydroxide doped tris(8-hydroxyquinoline) aluminum as an effective interfacial layer in inverted bottom-emission organic light-emitting diodes
DOI:10.1016/j.tsf.2014.05.025 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Kao, Po-Ching;Lu, Chia-Wen;Lin, Jie-Han;Lin, Yeh-Kai;
2:49:36 Boron-Mediated Nanotube Morphologies
DOI:10.1021/nn301770b JN:ACS NANO PY:2012 TC:6 AU: Nicholls, Rebecca J.;Aslam, Zabeada;Sarahan, Michael C.;Koos, Antal;Yates, Jonathan R.;Nellist, Peter D.;Grobert, Nicole;
2:49:37 Structural and optical property studies on indium doped ZnO nanostructures for solution based organic-inorganic hybrid p-n junctions
DOI:10.1016/j.jcis.2014.05.045 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:3 AU: Kumar, G. Mohan;Park, Jinsub;
2:49:38 Micro- and nanopatterned polymethylmethacrylate layers on plastic poly(ethylene terephthalate) substrates by modified roller-reversal imprint process
DOI:10.1116/1.3474984 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:1 AU: Cheng, Chiao-Yang;Hong, Franklin Chau-Nan;Huang, Chun-Yuan;
2:49:39 Through-Bond Energy Transfer Cassettes: Pyrene-Bisindolylmaleimide Dyads with Large Pseudo-Stokes Shifts
DOI:10.1080/15421406.2014.940800 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Li, Xiaochuan;Son, Young-A;
2:49:40 Luminescence mechanisms of organic/inorganic hybrid organic light-emitting devices fabricated utilizing a Zn2SiO4:Mn color-conversion layer
DOI:10.1016/j.tsf.2010.01.055 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Choo, D. C.;Ahn, S. D.;Jung, H. S.;Kim, T. W.;Lee, J. Y.;Park, J. H.;Kwon, M. S.;
2:50:1 The Potential of Molecular Self-Assembled Monolayers in Organic Electronic Devices
DOI:10.1002/adma.201100337 JN:ADVANCED MATERIALS PY:2011 TC:61 AU: Halik, Marcus;Hirsch, Andreas;
2:50:2 Mixed Self-Assembled Monolayer Gate Dielectrics for Continuous Threshold Voltage Control in Organic Transistors and Circuits
DOI:10.1002/adma.201001502 JN:ADVANCED MATERIALS PY:2010 TC:69 AU: Zschieschang, Ute;Ante, Frederik;Schloerholz, Matthias;Schmidt, Maike;Kern, Klaus;Klauk, Hagen;
2:50:3 Controlling Electric Dipoles in Nanodielectrics and Its Applications for Enabling Air-Stable n-Channel Organic Transistors
DOI:10.1021/nl104087u JN:NANO LETTERS PY:2011 TC:41 AU: Chung, Yoonyoung;Verploegen, Eric;Vailionis, Arturas;Sun, Yun;Nishi, Yoshio;Murmann, Boris;Bao, Zhenan;
2:50:4 Concept of a Molecular Charge Storage Dielectric Layer for Organic Thin-Film Memory Transistors
DOI:10.1002/adma.201000030 JN:ADVANCED MATERIALS PY:2010 TC:54 AU: Burkhardt, Martin;Jedaa, Abdesselam;Novak, Michael;Ebel, Alexander;Voitchovsky, Kislon;Stellacci, Francesco;Hirsch, Andreas;Halik, Marcus;
2:50:5 Low-Voltage p- and n-Type Organic Self-Assembled Monolayer Field Effect Transistors
DOI:10.1021/nl103200r JN:NANO LETTERS PY:2011 TC:50 AU: Novak, Michael;Ebel, Alexander;Meyer-Friedrichsen, Timo;Jedaa, Abdesselam;Vieweg, Benito F.;Yang, Guang;Voitchovsky, Kislon;Stellacci, Francesco;Spiecker, Erdmann;Hitsch, Andreas;Halik, Marcus;
2:50:6 Region-Selective Self-Assembly of Functionalized Carbon Allotropes from Solution
DOI:10.1021/nn405488n JN:ACS NANO PY:2013 TC:8 AU: Wang, Zhenxing;Mohammadzadeh, Saeideh;Schmaltz, Thomas;Kirschner, Johannes;Khassanov, Artoem;Eigler, Siegfried;Mundloch, Udo;Backes, Claudia;Steinrueck, Hans-Georg;Magerl, Andreas;Hauke, Frank;Hirsch, Andreas;Halik, Marcus;
2:50:7 Tuning the Molecular Order of C-60 Functionalized Phosphonic Acid Monolayers
DOI:10.1021/la203916h JN:LANGMUIR PY:2011 TC:26 AU: Rumpel, Armin;Novak, Michael;Walter, Johannes;Braunschweig, Bjoern;Halik, Marcus;Peukert, Wolfgang;
2:50:8 A 4 V Operation, Flexible Braille Display Using Organic Transistors, Carbon Nanotube Actuators, and Organic Static Random-Access Memory
DOI:10.1002/adfm.201101050 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:43 AU: Fukuda, Kenjiro;Sekitani, Tsuyoshi;Zschieschang, Ute;Klauk, Hagen;Kuribara, Kazunori;Yokota, Tomoyuki;Sugino, Takushi;Asaka, Kinji;Ikeda, Masaaki;Kuwabara, Hirokazu;Yamamoto, Tatsuya;Takimiya, Kazuo;Fukushima, Takanori;Aida, Takuzo;Takamiya, Makoto;Sakurai, Takayasu;Someya, Takao;
2:50:9 Phosphonate- and Carboxylate-Based Self-Assembled Monolayers for Organic Devices: A Theoretical Study of Surface Binding on Aluminum Oxide with Experimental Support
DOI:10.1021/am4008374 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:18 AU: Bauer, Thilo;Schmaltz, Thomas;Lenz, Thomas;Halik, Marcus;Meyer, Bernd;Clark, Timothy;
2:50:10 The Relationship between Threshold Voltage and Dipolar Character of Self-Assembled Monolayers in Organic Thin-Film Transistors
DOI:10.1021/ja303807u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:23 AU: Salinas, Michael;Jaeger, Christof M.;Amin, Atefeh Y.;Dral, Pavlo O.;Meyer-Friedrichsen, Timo;Hirsch, Andreas;Clark, Timothy;Halik, Marcus;
2:50:11 Mixed self-assembled monolayer of molecules with dipolar and acceptor character-Influence on hysteresis and threshold voltage in organic thin-film transistors
DOI:10.1063/1.3682301 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Jedaa, Abdesselam;Salinas, Michael;Jaeger, Christof M.;Clark, Timothy;Ebel, Alexander;Hirsch, Andreas;Halik, Marcus;
2:50:12 Improving the Charge Transport in Self-Assembled Monolayer Field-Effect Transistors: From Theory to Devices
DOI:10.1021/ja401320n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:10 AU: Jaeger, Christof M.;Schmaltz, Thomas;Novak, Michael;Khassanov, Artoem;Vorobiev, Alexei;Hennemann, Matthias;Krause, Andreas;Dietrich, Hanno;Zahn, Dirk;Hirsch, Andreas;Halik, Marcus;Clark, Timothy;
2:50:13 Smoothly Tunable Surface Properties of Aluminum Oxide Core-Shell Nanoparticles By A Mixed-Ligand Approach
DOI:10.1021/am501155r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Portilla, Luis;Halik, Marcus;
2:50:14 Interface Engineering in High-Performance Low-Voltage Organic Thin-Film Transistors Based on 2,7-Dialkyl-[1]benzothieno[3,2-b][1]benzothiophenes
DOI:10.1021/la203041x JN:LANGMUIR PY:2011 TC:14 AU: Amin, Atefeh Y.;Reuter, Knud;Meyer-Friedrichsen, Timo;Halik, Marcus;
2:50:15 Self-Assembled Monolayer Exchange Reactions as a Tool for Channel Interface Engineering in Low-Voltage Organic Thin-Film Transistors
DOI:10.1021/la3027978 JN:LANGMUIR PY:2012 TC:14 AU: Lenz, Thomas;Schmaltz, Thomas;Novak, Michael;Halik, Marcus;
2:50:16 Influence of self-assembled monolayer dielectrics on the morphology and performance of alpha, omega-dihexylquaterthiophene in thin film transistors
DOI:10.1063/1.3560454 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Novak, Michael;Schmaltz, Thomas;Faber, Hendrik;Halik, Marcus;
2:50:17 N-Type Self-Assembled Monolayer Field-Effect Transistors and Complementary Inverters
DOI:10.1002/adfm.201202888 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:14 AU: Ringk, Andreas;Li, Xiaoran;Gholamrezaie, Fatemeh;Smits, Edsger C. P.;Neuhold, Alfred;Moser, Armin;Van der Marel, Cees;Gelinck, Gerwin H.;Resel, Roland;de Leeuw, Dago M.;Strohriegl, Peter;
2:50:18 Designed Organophosphonate Self-Assembled Monolayers Enhance Device Performance of Pentacene-Based Organic Thin-Film Transistors
DOI:10.1002/adma.201001310 JN:ADVANCED MATERIALS PY:2010 TC:26 AU: Liao, Kung-Ching;Ismail, Ahmad G.;Kreplak, Laurent;Schwartz, Jeffrey;Hill, Ian G.;
2:50:19 Low-Voltage Self-Assembled Monolayer Field-Effect Transistors on Flexible Substrates
DOI:10.1002/adma.201301176 JN:ADVANCED MATERIALS PY:2013 TC:17 AU: Schmaltz, Thomas;Amin, Atefeh Y.;Khassanov, Artoem;Meyer-Friedrichsen, Timo;Steinrueck, Hans-Georg;Magerl, Andreas;Segura, Juan Jose;Voitchovsky, Kislon;Stellacci, Francesco;Halik, Marcus;
2:50:20 High performance unipolar inverters by utilizing organic field-effect transistors with ultraviolet/ozone treated polystyrene dielectric
DOI:10.1063/1.4895121 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Huang, Wei;Yu, Xinge;Fan, Huidong;Yu, Junsheng;
2:50:21 Multiscale Modeling of the Electrostatic Impact of Self-Assembled Mono layers used as Gate Dielectric Treatment in Organic Thin-Film Transistors
DOI:10.1021/am503873f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Mityashin, Alexander;Roscioni, Otello Maria;Muccioli, Luca;Zannoni, Claudio;Geskin, Victor;Cornil, Jerome;Janssen, Dimitri;Steudel, Soeren;Genoe, Jan;Heremans, Paul;
2:50:22 Comparative Interface Metrics for Metal-Free Monolayer-Based Dye-Sensitized Solar Cells
DOI:10.1021/am301907z JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:4 AU: Liao, Kung-Ching;Anwar, Hafeez;Hill, Ian G.;Vertelov, Grigory K.;Schwartz, Jeffrey;
2:50:23 Oligothiophene-based monolayer field-effect transistors prepared by Langmuir-Blodgett technique
DOI:10.1063/1.4816839 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Sizov, Alexey S.;Agina, Elena V.;Gholamrezaie, Fatemeh;Bruevich, Vladimir V.;Borshchev, Oleg V.;Paraschuk, Dmitry Yu.;de Leeuw, Dago M.;Ponomarenko, Sergey A.;
2:50:24 Indentation and Self-Healing Mechanisms of a Self-Assembled Monolayer-A Combined Experimental and Modeling Study
DOI:10.1021/ja5048076 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Meltzer, Christian;Paul, Jonas;Dietrich, Hanno;Jaeger, Christof M.;Clark, Timothy;Zahn, Dirk;Braunschweig, Bjoern;Peukert, Wolfgang;
2:50:25 Fluoroalkylphosphonic acid self-assembled monolayer gate dielectrics for threshold-voltage control in low-voltage organic thin-film transistors
DOI:10.1039/c0jm01292k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Kraft, Ulrike;Zschieschang, Ute;Ante, Frederik;Kaelblein, Daniel;Kamella, Claudia;Amsharov, Konstantin;Jansen, Martin;Kern, Klaus;Weber, Edwin;Klauk, Hagen;
2:50:26 Organic Thin-Film Transistors: The Passivation of the Dielectric-Pentacene Interface by Dipolar Self-Assembled Monolayers
DOI:10.1021/la102060u JN:LANGMUIR PY:2010 TC:0 AU: Fletschli, Franziska D.;Suarez, Stephane;Schaer, Michel;Zuppiroli, Libero;
2:50:27 Thermal stability of organic thin-film transistors with self-assembled monolayer dielectrics
DOI:10.1063/1.3299017 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Fukuda, Kenjiro;Yokota, Tomoyuki;Kuribara, Kazunori;Sekitani, Tsuyoshi;Zschieschang, Ute;Klauk, Hagen;Someya, Takao;
2:50:28 Control of threshold voltage in low-voltage organic complementary inverter circuits with floating gate structures
DOI:10.1063/1.3589967 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Yokota, Tomoyuki;Nakagawa, Takashi;Sekitani, Tsuyoshi;Noguchi, Yoshiaki;Fukuda, Kenjiro;Zschieschang, Ute;Klauk, Hagen;Takeuchi, Ken;Takamiya, Makoto;Sakurai, Takayasu;Someya, Takao;
2:50:29 Engineering the metal gate electrode for controlling the threshold voltage of organic transistors
DOI:10.1063/1.4739511 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Chung, Yoonyoung;Johnson, Olasupo;Deal, Michael;Nishi, Yoshio;Murmann, Boris;Bao, Zhenan;
2:50:30 Organophosphonates as model system for studying electronic transport through monolayers on SiO2/Si surfaces
DOI:10.1063/1.4811441 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Bora, A.;Pathak, A.;Liao, K. -C.;Vexler, M. I.;Kuligk, A.;Cattani-Scholz, A.;Meinerzhagen, B.;Abstreiter, G.;Schwartz, J.;Tornow, M.;
2:50:31 Photoactive self-assembled monolayers for optically switchable organic thin-film transistors
DOI:10.1063/1.4804595 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Salinas, Michael;Halik, Marcus;
2:50:32 Molecular Architecture: Construction of Self-Assembled Organophosphonate Duplexes and Their Electrochemical Characterization
DOI:10.1021/la301610a JN:LANGMUIR PY:2012 TC:7 AU: Cattani-Scholz, Anna;Liao, Kung-Ching;Bora, Achyut;Pathak, Anshuma;Hundschell, Christian;Nickel, Bert;Schwartz, Jeffrey;Abstreiter, Gerhard;Tornow, Marc;
2:50:33 Nanoscale Structure of Si/SiO2/Organics Interfaces
DOI:10.1021/nn5056223 JN:ACS NANO PY:2014 TC:2 AU: Steinrueck, Hans-Georg;Schiener, Andreas;Schindler, Torben;Will, Johannes;Magerl, Andreas;Konovalov, Oleg;Li Destri, Giovanni;Seeck, Oliver H.;Mezger, Markus;Haddad, Julia;Deutsch, Moshe;Checco, Antonio;Ocko, Benjamin M.;
2:50:34 Self-Assembled Mono layers Made of 6-(5-((6-((5-hexylthiophen-2yl)ethyny1)-9,10-bis(phenylethynyl)anthracen -2-yl)ethynyl)thiophen-2-yl)hexyl 3-(Triethoxysily1)Propylcarbamate for Ultrathin Film Transistors
DOI:10.1021/la3020942 JN:LANGMUIR PY:2012 TC:3 AU: Heo, Dong Uk;Lee, Joo Bin;Han, Yoon Deok;Joo, Jinsoo;Lee, Hosuk;Lee, Hosun;Choi, Dong Hoon;
2:50:35 Ordered Semiconducting Self-Assembled Monolayers on Polymeric Surfaces Utilized in Organic Integrated Circuits
DOI:10.1021/nl9032268 JN:NANO LETTERS PY:2010 TC:17 AU: Gholamrezaie, Fatemeh;Mathijssen, Simon G. J.;Smits, Edsger C. P.;Geuns, Tom C. T.;van Hal, Paul A.;Ponomarenko, Sergei A.;Flesch, Heinz-Georg;Resel, Roland;Cantatore, Eugenio;Blom, Paul W. M.;de Leeuw, Dago M.;
2:50:36 Pseudorotational Epitaxy of Self-Assembled Octadecyltrichlorosilane Monolayers on Sapphire (0001)
DOI:10.1103/PhysRevLett.113.156101 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Steinrueck, H. -G.;Magerl, A.;Deutsch, M.;Ocko, B. M.;
2:50:37 Easily Processable Highly Ordered Langmuir-Blodgett Films of Quaterthiophene Disiloxane Dimer for Mono layer Organic Field-Effect Transistors
DOI:10.1021/la504037b JN:LANGMUIR PY:2014 TC:0 AU: Sizov, Alexey S.;Anisimov, Daniil S.;Agina, Elena V.;Borshchey, Oleg V.;Bakirov, Artem V.;Shcherbina, Maxim A.;Grigorian, Souren;Bruevich, Vladimir V.;Chvalun, Sergei N.;Paraschuk, Dmitry Yu.;Ponomarenko, Sergei A.;
2:50:38 Rectification Behavior of PATP Self-Assembled on ZnO Microrod Arrays
DOI:10.1021/am400349w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Fang, Shengjiang;Xu, Chunxiang;Jin, Zhulin;Sheng, Fengyu;Shi, Zengliang;Wang, Yueyue;Zhu, Gangyi;
2:50:39 Trichlorosilanes as Anchoring Groups for Phenylene-Thiophene Molecular Monolayer Field Effect Transistors
DOI:10.1002/adfm.201401392 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Parry, Adam V. S.;Lu, Kexin;Tate, Daniel J.;Urasinska-Wojcik, Barbara;Caras-Quintero, Dolores;Majewski, Leszek A.;Turner, Michael L.;
2:50:40 Formation of Self-Assembled Organosilicon-Functionalized Quinquethiophene Monolayers by Fast Processing Techniques
DOI:10.1021/la303324j JN:LANGMUIR PY:2012 TC:6 AU: Agina, Elena V.;Usov, Ivan A.;Borshchev, Oleg V.;Wang, Jingbo;Mourran, Ahmed;Shcherbina, Maxim A.;Bakirov, Artem V.;Grigorian, Souren;Moeller, Martin;Chvalun, Sergei N.;Ponomarenko, Sergei A.;
2:50:41 Synthesis of thieno[3,2-b]thiophene derived conjugated oligomers for field-effect transistors applications
DOI:10.1039/b920112b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:22 AU: Tang, Weihua;Singh, Samarendra P.;Ong, Kok Haw;Chen, Zhi-Kuan;
2:50:42 Energy dispersive X-ray reflectivity applied to the study of thermal stability of self-assembled organic multilayers: Results on phosphonic acids
DOI:10.1016/j.synthmet.2011.09.010 JN:SYNTHETIC METALS PY:2012 TC:3 AU: de Pauli, Muriel;Perez, Carlos A.;Prado, Mariana C.;Araujo, Douglas H. C.;Neves, Bernardo R. A.;Malachias, Angelo;
2:50:43 Application of Bucky Gel in Fabrication of a Low-Voltage Rapid Microvalve for Flow Regulation
DOI:10.1021/am400106q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Ghamsari, Ali K.;Zegeye, Ephraim;Jin, Yoonyoung;Woldesenbet, Eyassu;
2:50:44 Monolayer Study by VSFS: In Situ Response to Compression and Shear in a Contact
DOI:10.1021/la4042474 JN:LANGMUIR PY:2014 TC:1 AU: Ghalgaoui, Ahmed;Shimizu, Ryosuke;Hosseinpour, Saman;Alvarez-Asencio, Ruben;McKee, Clayton;Johnson, C. Magnus;Rutland, Mark W.;
2:51:1 Charge generation layers comprising transition metal-oxide/organic interfaces: Electronic structure and charge generation mechanism
DOI:10.1063/1.3427430 JN:APPLIED PHYSICS LETTERS PY:2010 TC:76 AU: Meyer, J.;Kroeger, M.;Hamwi, S.;Gnam, F.;Riedl, T.;Kowalsky, W.;Kahn, A.;
2:51:2 The Role of Transition Metal Oxides in Charge-Generation Layers for Stacked Organic Light-Emitting Diodes
DOI:10.1002/adfm.201000301 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:76 AU: Hamwi, Sami;Meyer, Jens;Kroeger, Michael;Winkler, Thomas;Witte, Marco;Riedl, Thomas;Kahn, Antoine;Kowalsky, Wolfgang;
2:51:3 Electronic structures of MoO3-based charge generation layer for tandem organic light-emitting diodes
DOI:10.1063/1.3479477 JN:APPLIED PHYSICS LETTERS PY:2010 TC:41 AU: Bao, Q. Y.;Yang, J. P.;Li, Y. Q.;Tang, J. X.;
2:51:4 Highly Efficient p-i-n and Tandem Organic Light-Emitting Devices Using an Air-Stable and Low-Temperature-Evaporable Metal Azide as an n-Dopant
DOI:10.1002/adfm.201000137 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:61 AU: Yook, Kyoung Soo;Jeon, Soon Ok;Min, Sung-Yong;Lee, Jun Yeob;Yang, Ha-Jin;Noh, Taeyong;Kang, Sung-Kee;Lee, Tae-Woo;
2:51:5 Electric-Field-Assisted Charge Generation and Separation Process in Transition Metal Oxide-Based Interconnectors for Tandem Organic Light-Emitting Diodes
DOI:10.1002/adfm.201102136 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:45 AU: Yang, Jin-Peng;Xiao, Yan;Deng, Yan-Hong;Duhm, Steffen;Ueno, Nobuo;Lee, Shuit-Tong;Li, Yan-Qing;Tang, Jian-Xin;
2:51:6 Organic semiconductor heterojunctions as charge generation layers and their application in tandem organic light-emitting diodes for high power efficiency
DOI:10.1039/2jm32246c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Chen, Yonghua;Ma, Dongge;
2:51:7 Mechanism of Cs2CO3 as an n-type dopant in organic electron-transport film
DOI:10.1063/1.3567526 JN:APPLIED PHYSICS LETTERS PY:2011 TC:30 AU: Cai, Y.;Wei, H. X.;Li, J.;Bao, Q. Y.;Zhao, X.;Lee, S. T.;Li, Y. Q.;Tang, J. X.;
2:51:8 Analysis of metal-oxide-based charge generation layers used in stacked organic light-emitting diodes
DOI:10.1063/1.3275050 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:40 AU: Qi, Xiangfei;Li, Ning;Forrest, Stephen R.;
2:51:9 The Mechanism of Charge Generation in Charge-Generation Units Composed of p-Doped Hole-Transporting Layer/HATCN/n-Doped Electron-Transporting Layers
DOI:10.1002/adfm.201102212 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:26 AU: Lee, Sunghun;Lee, Jeong-Hwan;Lee, Jae-Hyun;Kim, Jang-Joo;
2:51:10 Near-Infrared Electric Power Generation Through Sub-Energy-Gap Absorption in an Organic-Inorganic Composite
DOI:10.1002/adfm.201200058 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:12 AU: Ng, Tsz-Wai;Lo, Ming-Fai;Yang, Qing-Dan;Fung, Man-Keung;Lee, Chun-Sing;
2:51:11 High power efficiency tandem organic light-emitting diodes based on bulk heterojunction organic bipolar charge generation layer
DOI:10.1063/1.3599557 JN:APPLIED PHYSICS LETTERS PY:2011 TC:33 AU: Chen, Yonghua;Chen, Jiangshan;Ma, Dongge;Yan, Donghang;Wang, Lixiang;Zhu, Furong;
2:51:12 Improved electron injection and transport by use of baking soda as a low-cost, air-stable, n-dopant for solution-processed phosphorescent organic light-emitting diodes
DOI:10.1063/1.4811087 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Earmme, Taeshik;Jenekhe, Samson A.;
2:51:13 Efficiency enhancement utilizing hybrid charge generation layer in tandem organic light-emitting diodes
DOI:10.1063/1.4732505 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Xiao, J.;Wang, X. X.;Zhu, H.;Gao, X.;Yang, Z. H.;Zhang, X. H.;Wang, S. D.;
2:51:14 Charge-Transfer Complexes and Their Role in Exciplex Emission and Near-Infrared Photovoltaics
DOI:10.1002/adma.201400563 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Ng, Tsz-Wai;Lo, Ming-Fai;Fung, Man-Keung;Zhang, Wen-Jun;Lee, Chun-Sing;
2:51:15 The influence of charge injection from intermediate connectors on the performance of tandem organic light-emitting devices
DOI:10.1063/1.4904189 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zhou, Dong-Ying;Siboni, Hossein Zamani;Wang, Qi;Liao, Liang-Sheng;Aziz, Hany;
2:51:16 Formation of charge-transfer-complex in organic: metal oxides systems
DOI:10.1063/1.4802923 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Wu, S. P.;Kang, Y.;Liu, T. L.;Jin, Z. H.;Jiang, N.;Lu, Z. H.;
2:51:17 Efficiency enhancement of organic photovoltaic devices using a Sm:Al compound electrode
DOI:10.1063/1.4793414 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Yang, Bin-Bin;Zhang, Dan-Dan;Lee, Shuit-Tong;Li, Yan-Qing;Tang, Jian-Xin;
2:51:18 Interface studies of intermediate connectors and their roles in tandem OLEDs
DOI:10.1039/b921699e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:22 AU: Tang, Jian-Xin;Fung, Man-Keung;Lee, Chun-Sing;Lee, Shuit-Tong;
2:51:19 Correlation between the electronic structures of transition metal oxide-based intermediate connectors and the device performance of tandem organic light-emitting devices
DOI:10.1039/c1jm12515j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Bao, Qin-Ye;Yang, Jin-Peng;Xiao, Yan;Deng, Yan-Hong;Lee, Shuit-Tong;Li, Yan-Qing;Tang, Jian-Xin;
2:51:20 Highly efficient tandem white organic light-emitting diodes based upon C-60/NaT4 organic heterojunction as charge generation layer
DOI:10.1039/c2jm30557g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Chen, Yonghua;Tian, Hongkun;Chen, Jiangshan;Geng, Yanhou;Yan, Donghang;Wang, Lixiang;Ma, Dongge;
2:51:21 The role of charge generation layers in the operational stability of tandem organic light-emitting diodes
DOI:10.1039/c3tc32023e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Deng, Yan-Hong;Ou, Qing-Dong;Wang, Qian-Kun;Wei, Huai-Xin;Li, Yan-Qing;Lee, Shuit-Tong;Tang, Jian-Xin;
2:51:22 Carrier behavior in special multilayer device composed of different transition metal oxide-based intermediate connectors
DOI:10.1063/1.4881156 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Deng, Yan-Hong;Chen, Xiang-Yu;Ou, Qing-Dong;Wang, Qian-Kun;Jiang, Xiao-Cheng;Zhang, Dan-Dan;Li, Yan-Qing;
2:51:23 Tandem white phosphorescent organic light-emitting diodes based on interface-modified C-60/pentacene organic heterojunction as charge generation layer
DOI:10.1063/1.3628317 JN:APPLIED PHYSICS LETTERS PY:2011 TC:23 AU: Chen, Yonghua;Chen, Jiangshan;Ma, Dongge;Yan, Donghang;Wang, Lixiang;
2:51:24 Observation of hole hopping via dopant in MoOx-doped organic semiconductors: Mechanism analysis and application for high performance organic light-emitting devices
DOI:10.1063/1.3428374 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:23 AU: Qiao, Xianfeng;Chen, Jiangshan;Li, Xinglin;Ma, Dongge;
2:51:25 Highly stable charge generation layers using caesium phosphate as n-dopants and inserting interlayers
DOI:10.1063/1.4720064 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:11 AU: Diez, Carola;Reusch, Thilo C. G.;Lang, Erwin;Dobbertin, Thomas;Bruetting, Wolfgang;
2:51:26 Aligned energy-level design for decreasing operation voltage of tandem white organic light-emitting diodes
DOI:10.1016/j.tsf.2013.08.084 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Chang, Chih-Hao;Wu, Zih-Jyun;Liang, Yi-Hu;Chang, Yu-Shuo;Chiu, Chuan-Hao;Tai, Cheng-Wei;Chang, Hsin-Hua;
2:51:27 Silver nanoparticle facilitated charge generation in tandem organic light-emitting devices
DOI:10.1063/1.4807664 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Yan, Fei;Chen, Rui;Sun, H. D.;Sun, Xiao Wei;
2:51:28 Efficient tandem organic light-emitting device based on photovoltaic-type connector with positive cycle
DOI:10.1063/1.4773591 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Liu, Huihui;Yan, Fei;Wang, Hua;Miao, Yanqin;Du, Xiaogang;Jing, Shu;Gao, Zhixiang;Chen, Liuqing;Hao, Yuying;Xu, Bingshe;
2:51:29 Highly stable and efficient tandem organic light-emitting devices with intermediate connectors using lithium amide as n-type dopant
DOI:10.1063/1.4894096 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Zhou, Dong-Ying;Zu, Feng-Shuo;Zhang, Ying-Jie;Shi, Xiao-Bo;Aziz, Hany;Liao, Liang-Sheng;
2:51:30 Organic heterojunctions as a charge generation layer in tandem organic light-emitting diodes: the effect of interfacial energy level and charge carrier mobility
DOI:10.1039/c1jm12499d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:16 AU: Chen, Yonghua;Tian, Hongkun;Geng, Yanhou;Chen, Jiangshan;Ma, Dongge;Yan, Donghang;Wang, Lixiang;
2:51:31 Impact of compound doping on hole and electron balance in p-i-n organic light-emitting diodes
DOI:10.1063/1.4826982 JN:AIP ADVANCES PY:2013 TC:1 AU: Wang, Xin-Xin;Xiao, Jing;Gao, Xu;Zhang, Xiao-Hong;Wang, Sui-Dong;
2:51:32 Effect of organic bulk heterojunction as charge generation layer on the performance of tandem organic light-emitting diodes
DOI:10.1063/1.3644970 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Chen, Yonghua;Chen, Jiangshan;Ma, Dongge;Yan, Donghang;Wang, Lixiang;
2:51:33 A novel intermediate connector with improved charge generation and separation for large-area tandem white organic lighting devices
DOI:10.1039/c4tc02082k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Ding, Lei;Sun, Yan-Qiu;Chen, Hua;Zu, Feng-Shuo;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:51:34 The role of cesium carbonate on the electron injection and transport enhancement in organic layer by admittance spectroscopy
DOI:10.1063/1.4766174 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Zhao, Jin;Cai, Yong;Yang, Jin-Peng;Wei, Huai-Xin;Deng, Yan-Hong;Li, Yan-Qing;Lee, Shuit-Tong;Tang, Jian-Xin;
2:51:35 The metal interlayer in the charge generation layer of tandem organic light-emitting diodes
DOI:10.1063/1.4825326 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Lee, Yu-Hao;Lin, Ming-Wei;Wen, Ten-Chin;Guo, Tzung-Fang;
2:51:36 Optical simulation and optimization of weak-microcavity tandem white organic light-emitting diodes
DOI:10.1063/1.4897365 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Yue, Shouzhen;Guo, Runda;Wu, YuKun;Yan, Pingrui;Zhang, Shiming;Zhang, Zhensong;Qu, Dalong;Zhao, Yi;
2:51:37 Enhancement of efficiencies for tandem green phosphorescent organic light-emitting devices with a p-type charge generation layer
DOI:10.1016/j.materresbull.2014.04.045 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Yoo, Byung Soo;Jeon, Young Pyo;Lee, Dae Uk;Kim, Tae Whan;
2:51:38 Direct evidence of n-type doping in organic light-emitting devices: N free Cs doping from CsN3
DOI:10.1063/1.4718017 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Lee, Jeihyun;Lee, Hyunbok;Jeon, Pyungeun;Jeong, Kwangho;Kim, Tae Gun;Kim, Jeong Won;Yi, Yeonjin;
2:51:39 Strong interfacial dipole formation with thermal evaporation of lithium cobalt oxide for efficient electron injections
DOI:10.1063/1.4789394 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Lee, Hyunbok;Park, Soohyung;Lee, Jeihyun;Lee, Younjoo;Shin, Dongguen;Jeong, Kwangho;Yi, Yeonjin;
2:51:40 C-60/N,N '-bis(1-naphthyl)-N,N '-diphenyl-1,1 '-biphenyl-4,4 '-diamine:MoO3 as the interconnection layer for high efficient tandem blue fluorescent organic light-emitting diodes
DOI:10.1063/1.4811551 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Wu, Xiaoming;Bi, Wentao;Hua, Yulin;Sun, Jin'e;Xiao, Zhihui;Wang, Li;Yin, Shougen;
2:51:41 Color-stable and efficient tandem white organic light-emitting devices using a LiF n-doping layer and a MoOx p-doping layer as charge generating unit
DOI:10.1016/j.tsf.2013.07.024 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Chen, Yu;Wu, Qingyang;Zhang, Zhensong;Yue, Shouzhen;Guo, Runda;Wang, Peng;Wu, Mingzhu;Gou, Changhua;Zhao, Yi;Liu, Shiyong;
2:51:42 Efficiency enhancement of tandem organic light-emitting devices by a combined charge generation layer and organic n-type bis(ethylenedithio)-tetrathiafulvalene-doped electron transport layer
DOI:10.1016/j.tsf.2014.09.012 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Cho, Jin Taek;Kim, Dae Hun;Koh, Eun Im;Kim, Tae Whan;
2:51:43 Sign Control of Magnetoresistance Through Chemically Engineered Interfaces
DOI:10.1002/adma.201401283 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Ciudad, David;Gobbi, Marco;Kinane, Christy J.;Eich, Marius;Moodera, Jagadeesh S.;Hueso, Luis E.;
2:51:44 Fluorinated Copper(I) Carboxylates as Advanced Tunable p-Dopants for Organic Light-Emitting Diodes
DOI:10.1002/adma.201303252 JN:ADVANCED MATERIALS PY:2014 TC:1 AU: Schmid, Guenter;Wemken, Jan Hauke;Maltenberger, Anna;Diez, Carola;Jaeger, Arndt;Dobbertin, Thomas;Hietsoi, Oleksandr;Dubceac, Cristina;Petrukhina, Marina A.;
2:51:45 Comment on "Formation of charge-transfer-complex in organic: metal oxides systems" [Appl. Phys. Lett. 102, 163304 (2013)]
DOI:10.1063/1.4826947 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Glaser, Tobias;Pucci, Annemarie;
2:51:46 Response to "Comment on 'Formation of charge-transfer-complex in organic: metal oxides systems'" [Appl. Phys. Lett. 103, 186101 (2013)]
DOI:10.1063/1.4826948 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Wu, S. P.;Kang, Y.;Liu, T. L.;Jin, Z. H.;Jiang, N.;Lu, Z. H.;
2:51:47 Lithium Hydride Doped Intermediate Connector for High-Efficiency and Long-Term Stable Tandem Organic Light-Emitting Diodes
DOI:10.1021/am5051108 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Ding, Lei;Tang, Xun;Xu, Mei-Feng;Shi, Xiao-Bo;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:51:48 Low-cost caesium phosphate as n-dopant for organic light-emitting diodes
DOI:10.1063/1.3699008 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Wemken, Jan Hauke;Krause, Ralf;Mikolajick, Thomas;Schmid, Guenter;
2:51:49 C-60/N,N '-bis(1-naphthyl)-N,N '-diphenyl-1,1 '-biphenyl-4,4 '-diamine:MoO3 as the interconnection layer for high efficient tandem blue fluorescent organic light-emitting diodes (vol 102, 243302, 2013)
DOI:10.1063/1.4816343 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Wu, Xiaoming;Bi, Wentao;Hua, Yulin;Sun, Jin'e;Xiao, Zhihui;Wang, Li;Yin, Shougen;
2:51:50 Enhancement of Luminance Efficiency in Green Organic Light-Emitting Devices Utilizing a Cesium Nitrate/Lithium Quinolate Electron Injection Layer
DOI:10.1080/15421406.2011.600134 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Hwang, J. H.;Lee, K. S.;Choo, D. C.;Kim, T. W.;
2:51:51 Organic light-emitting devices with an n-type bis(ethylenedithio)-tetrathiafulvalene-doped 4,7-diphenyl-1,10-phenanthroline electron transport layer operating at low voltage
DOI:10.1016/j.tsf.2011.12.011 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Lee, K. S.;Kim, D. H.;Lee, D. U.;Kim, T. W.;
2:51:52 Enhanced bulk conductivity and bipolar transport in mixtures of MoOx and organic hole transport materials
DOI:10.1016/j.tsf.2013.03.048 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Tian, Baolin;Ban, Dayan;Aziz, Hany;
2:52:1 Band-Like Electron Transport in Organic Transistors and Implication of the Molecular Structure for Performance Optimization
DOI:10.1002/adma.201103960 JN:ADVANCED MATERIALS PY:2012 TC:77 AU: Minder, Nikolas A.;Ono, Shimpei;Chen, Zhihua;Facchetti, Antonio;Morpurgo, Alberto F.;
2:52:2 Highest-Occupied-Molecular-Orbital Band Dispersion of Rubrene Single Crystals as Observed by Angle-Resolved Ultraviolet Photoelectron Spectroscopy
DOI:10.1103/PhysRevLett.104.156401 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:64 AU: Machida, Shin-ichi;Nakayama, Yasuo;Duhm, Steffen;Xin, Qian;Funakoshi, Akihiro;Ogawa, Naoki;Kera, Satoshi;Ueno, Nobuo;Ishii, Hisao;
2:52:3 Band Dispersion and Electronic Lifetimes in Crystalline Organic Semiconductors
DOI:10.1103/PhysRevLett.106.166403 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:22 AU: Ciuchi, S.;Fratini, S.;
2:52:4 Peierls and Holstein carrier-phonon coupling in crystalline rubrene
DOI:10.1103/PhysRevB.82.035208 JN:PHYSICAL REVIEW B PY:2010 TC:33 AU: Girlando, Alberto;Grisanti, Luca;Masino, Matteo;Bilotti, Ivano;Brillante, Aldo;Della Valle, Raffaele G.;Venuti, Elisabetta;
2:52:5 Free-electron-like Hall effect in high-mobility organic thin-film transistors
DOI:10.1103/PhysRevB.81.161306 JN:PHYSICAL REVIEW B PY:2010 TC:21 AU: Yamagishi, M.;Soeda, J.;Uemura, T.;Okada, Y.;Takatsuki, Y.;Nishikawa, T.;Nakazawa, Y.;Doi, I.;Takimiya, K.;Takeya, J.;
2:52:6 Hall-Effect Measurements Probing the Degree of Charge-Carrier Delocalization in Solution-Processed Crystalline Molecular Semiconductors
DOI:10.1103/PhysRevLett.107.066601 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:21 AU: Chang, Jui-Fen;Sakanoue, Tomo;Olivier, Yoann;Uemura, Takafumi;Dufourg-Madec, Marie-Beatrice;Yeates, Stephen G.;Cornil, Jerome;Takeya, Jun;Troisi, Alessandro;Sirringhaus, Henning;
2:52:7 Electron-Phonon Coupling in Crystalline Pentacene Films
DOI:10.1103/PhysRevLett.104.047601 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:25 AU: Hatch, Richard C.;Huber, David L.;Hochst, Hartmut;
2:52:8 Charge transport and Hall effect in rubrene single-crystal transistors under high pressure
DOI:10.1103/PhysRevB.84.245308 JN:PHYSICAL REVIEW B PY:2011 TC:15 AU: Okada, Y.;Sakai, K.;Uemura, T.;Nakazawa, Y.;Takeya, J.;
2:52:9 Effects of electron coupling to intramolecular and intermolecular vibrational modes on the transport properties of single-crystal organic semiconductors
DOI:10.1103/PhysRevB.84.014303 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Perroni, C. A.;Ramaglia, V. Marigliano;Cataudella, V.;
2:52:10 Transport properties and optical conductivity of the adiabatic Su-Schrieffer-Heeger model: A showcase study for rubrene-based field effect transistors
DOI:10.1103/PhysRevB.83.165203 JN:PHYSICAL REVIEW B PY:2011 TC:17 AU: Cataudella, V.;De Filippis, G.;Perroni, C. A.;
2:52:11 Molecular Fingerprints in the Electronic Properties of Crystalline Organic Semiconductors: From Experiment to Theory
DOI:10.1103/PhysRevLett.108.256401 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:11 AU: Ciuchi, S.;Hatch, R. C.;Hoechst, H.;Faber, C.;Blase, X.;Fratini, S.;
2:52:12 Polaron transport in organic crystals: Temperature tuning of disorder effects
DOI:10.1103/PhysRevB.84.180302 JN:PHYSICAL REVIEW B PY:2011 TC:8 AU: Ortmann, Frank;Roche, Stephan;
2:52:13 Electron-Phonon Coupling in Crystalline Organic Semiconductors: Microscopic Evidence for Nonpolaronic Charge Carriers
DOI:10.1103/PhysRevLett.109.126407 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:7 AU: Vukmirovic, Nenad;Bruder, C.;Stojanovic, Vladimir M.;
2:52:14 Unusual Thermoelectric Behavior Indicating a Hopping to Bandlike Transport Transition in Pentacene
DOI:10.1103/PhysRevLett.109.016601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:19 AU: Germs, W. Chr;Guo, K.;Janssen, R. A. J.;Kemerink, M.;
2:52:15 Hopping and trapping mechanisms in organic field-effect transistors
DOI:10.1103/PhysRevB.81.045313 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Konezny, S. J.;Bussac, M. N.;Zuppiroli, L.;
2:52:16 Wave-packet approach to transport properties of carrier coupled with intermolecular and intramolecular vibrations of organic semiconductors
DOI:10.1103/PhysRevB.85.245206 JN:PHYSICAL REVIEW B PY:2012 TC:10 AU: Ishii, Hiroyuki;Honma, Keisuke;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:17 Temperature dependence of the Hall effect in pentacene field-effect transistors: Possibility of charge decoherence induced by molecular fluctuations
DOI:10.1103/PhysRevB.85.035313 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Uemura, T.;Yamagishi, M.;Soeda, J.;Takatsuki, Y.;Okada, Y.;Nakazawa, Y.;Takeya, J.;
2:52:18 Transition Between Band and Hopping Transport in Polymer Field-Effect Transistors
DOI:10.1002/adma.201403767 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Yamashita, Yu;Tsurumi, Junto;Hinkel, Felix;Okada, Yugo;Soeda, Junshi;Zajaczkowski, Wojciech;Baumgarten, Martin;Pisula, Wojciech;Matsui, Hiroyuki;Muellen, Klaus;Takeya, Jun;
2:52:19 Interaction of Charge Carriers with Lattice Vibrations in Oligoacene Crystals from Naphthalene to Pentacene
DOI:10.1021/ja1040732 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:35 AU: Sanchez-Carrera, Roel S.;Paramonov, Pavel;Day, Graeme M.;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:52:20 Intrinsic charge transport in single crystals of organic molecular semiconductors: A theoretical perspective
DOI:10.1557/mrs.2012.313 JN:MRS BULLETIN PY:2013 TC:13 AU: Coropceanu, Veaceslav;Li, Yuan;Yi, Yuanping;Zhu, Lingyun;Bredas, Jean-Luc;
2:52:21 Electronic transport within a quasi-two-dimensional model for rubrene single-crystal field effect transistors
DOI:10.1103/PhysRevB.84.245204 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Gargiulo, F.;Perroni, C. A.;Ramaglia, V. Marigliano;Cataudella, V.;
2:52:22 First-principles calculations of anisotropic charge-carrier mobilities in organic semiconductor crystals
DOI:10.1103/PhysRevB.83.155208 JN:PHYSICAL REVIEW B PY:2011 TC:23 AU: Stehr, V.;Pfister, J.;Fink, R. F.;Engels, B.;Deibel, C.;
2:52:23 Charge Reorganization Energy and Small Polaron Binding Energy of Rubrene Thin Films by Ultraviolet Photoelectron Spectroscopy
DOI:10.1002/adma.201103262 JN:ADVANCED MATERIALS PY:2012 TC:20 AU: Duhm, Steffen;Xin, Qian;Hosoumi, Shunsuke;Fukagawa, Hirohiko;Sato, Kazushi;Ueno, Nobuo;Kera, Satoshi;
2:52:24 Tailoring the Molecular Structure to Suppress Extrinsic Disorder in Organic Transistors
DOI:10.1002/adma.201304130 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Minder, Nikolas A.;Lu, Shaofeng;Fratini, Simone;Ciuchi, Sergio;Facchetti, Antonio;Morpurgo, Alberto F.;
2:52:25 Carrier dynamics of rubrene single-crystals revealed by transient broadband terahertz spectroscopy
DOI:10.1063/1.4897530 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Uchida, Yada R.;Sekine, H.;Terashige, T.;Tao, S.;Matsui, Y.;Kida, N.;Fratini, S.;Ciuchi, S.;Okada, Y.;Uemura, T.;Takeya, J.;Okamoto, H.;
2:52:26 Spectral, optical, and transport properties of the adiabatic anisotropic Holstein model: Application to slightly doped organic semiconductors
DOI:10.1103/PhysRevB.83.245107 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Perroni, C. A.;Nocera, A.;Ramaglia, V. Marigliano;Cataudella, V.;
2:52:27 Transient localization in crystalline organic semiconductors
DOI:10.1103/PhysRevB.83.081202 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Ciuchi, S.;Fratini, S.;Mayou, D.;
2:52:28 Symmetry effects on nonlocal electron-phonon coupling in organic semiconductors
DOI:10.1103/PhysRevB.85.245201 JN:PHYSICAL REVIEW B PY:2012 TC:10 AU: Li, Yuan;Yi, Yuanping;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:52:29 HOMO band dispersion of crystalline rubrene: Effects of self-energy corrections within the GW approximation
DOI:10.1103/PhysRevB.88.115438 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Yanagisawa, Susumu;Morikawa, Yoshitada;Schindlmayr, Arno;
2:52:30 Progress in organic single-crystal field-effect transistors
DOI:10.1557/mrs.2012.311 JN:MRS BULLETIN PY:2013 TC:11 AU: Lezama, Ignacio Gutierrez;Morpurgo, Alberto F.;
2:52:31 Roles of intramolecular and intermolecular electron-phonon coupling on the formation and transport of large polarons in organic semiconductors
DOI:10.1103/PhysRevB.86.035208 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Tamura, Hiroyuki;Tsukada, Masaru;Ishii, Hiroyuki;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:32 Interplay between electron-phonon coupling and disorder strength on the transport properties of organic semiconductors
DOI:10.1103/PhysRevB.85.155205 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: Perroni, C. A.;Cataudella, V.;
2:52:33 Influence of strong electron-phonon coupling and dynamic lattice disorder on the Hall effect in organic crystals
DOI:10.1103/PhysRevB.87.155305 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Tamura, Hiroyuki;Tsukada, Masaru;Ishii, Hiroyuki;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:34 Phenomenological model for charge dynamics and optical response of disordered systems: Application to organic semiconductors
DOI:10.1103/PhysRevB.89.235201 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Fratini, S.;Ciuchi, S.;Mayou, D.;
2:52:35 Band structure measurement of organic single crystal with angle-resolved photoemission
DOI:10.1063/1.3446849 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Ding, Huanjun;Reese, Colin;Maekinen, Antti J.;Bao, Zhenan;Gao, Yongli;
2:52:36 Inelastic Transport in Vibrating Disordered Carbon Nanotubes: Scattering Times and Temperature-Dependent Decoherence Effects
DOI:10.1103/PhysRevLett.104.116801 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:11 AU: Ishii, Hiroyuki;Roche, Stephan;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:37 Order-N electron transport calculations from ballistic to diffusive regimes by a time-dependent wave-packet diffusion method: Application to transport properties of carbon nanotubes
DOI:10.1103/PhysRevB.82.085435 JN:PHYSICAL REVIEW B PY:2010 TC:12 AU: Ishii, Hiroyuki;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:38 Hall conductivity calculations by the time-dependent wave-packet diffusion method
DOI:10.1103/PhysRevB.83.233403 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Ishii, Hiroyuki;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:39 Strong anisotropy of momentum-relaxation time induced by intermolecular vibrations of single-crystal organic semiconductors
DOI:10.1103/PhysRevB.88.205208 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Ishii, Hiroyuki;Kobayashi, Nobuhiko;Hirose, Kenji;
2:52:40 Interface polaron formation in organic field-effect transistors
DOI:10.1103/PhysRevB.82.205306 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: De Filippis, G.;Cataudella, V.;Fratini, S.;Ciuchi, S.;
2:52:41 Electronic transport and quantum localization effects in organic semiconductors
DOI:10.1103/PhysRevB.86.245201 JN:PHYSICAL REVIEW B PY:2012 TC:50 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;Decomposition kinetics of Fe-Cr solid solutions during thermal aging;PHYSICAL REVIEW B;86;22;224109;10.1103/PhysRevB.86.224109;DEC 17 2012;2012;The decomposition of Fe-Cr solid solutions during thermal aging is;modeled by atomistic kinetic Monte Carlo simulations, using a rigid;lattice approximation with pair interactions that depend on the local;composition and temperature. The pair interactions are fitted on ab;initio calculations of mixing energies and vacancy migration barriers at;0 K. The entropic contributions to the mixing of Fe-Cr alloys and to the;vacancy formation and migration free energies are taken into account.;The model reproduces the change in sign of the mixing energy with the;alloy composition and gives realistic thermodynamic and kinetic;properties, including an asymmetrical miscibility gap at low temperature;and diffusion coefficients in good agreement with available experimental;data. Simulations of short-range ordering and alpha-alpha' decomposition;are performed at 773 and 813 K for Cr concentrations between 10% and;50%. They are compared with experimental kinetics based on;three-dimensional atom probe and neutron scattering measurements. The;possible effect of magnetic properties on diffusion in the alpha and;alpha' phases, and therefore on the decomposition kinetics, is;emphasized. DOI: 10.1103/PhysRevB.86.224109;soisson, frederic/B-2917-2009; Lujan Center, LANL/G-4896-2012;soisson, frederic/0000-0001-6435-6119;;6;0;0;0;6;1098-0121;WOS:000312364700001;;;J;Moon, Eun-Gook;Xu, Cenke;Exotic continuous quantum phase transition between Z(2) topological spin;liquid and Neel order;PHYSICAL REVIEW B;86;21;214414;10.1103/PhysRevB.86.214414;DEC 17 2012;2012;Recent numerical simulations with different techniques have all;suggested the existence of a continuous quantum phase transition between;the Z(2) topological spin-liquid phase and a conventional Neel order.;Motivated by this numerical progress, we propose a candidate theory for;such Z(2)-Neel transition. We first argue on general grounds that, for a;SU(2)-invariant system, this transition can not be interpreted as the;condensation of spinons in the Z(2) spin-liquid phase. Then, we propose;that such Z(2)-Neel transition is driven by proliferating the bound;state of the bosonic spinon and vison excitation of the Z(2) spin;liquid, i.e., the so-called (e, m)-type excitation. Universal critical;exponents associated with this exotic transition are computed using 1/N;expansion. This theory predicts that at the Z(2)-Neel transition, there;is an emergent quasi-long-range power-law correlation of columnar;valence bond solid order parameter.;6;0;0;0;6;1098-0121;WOS:000312364200003;;;J;Moskvin, A. S.;Gippius, A. A.;Tkachev, A. V.;Mahajan, A. V.;Chakrabarty, T.;Presniakov, I. A.;Sobolev, A. V.;Demazeau, G.;Direct evidence of non-Zhang-Rice Cu3+ centers in La2Li0.5Cu0.5O4;PHYSICAL REVIEW B;86;24;241107;10.1103/PhysRevB.86.241107;DEC 17 2012;2012;A well-isolated Zhang-Rice (ZR) singlet as a ground state of the Cu3+;center in hole-doped cuprates is a leading paradigm in modern theories;of high-temperature superconductivity. However, a dramatic temperature;evolution of the Li-6,Li-7 NMR signal in La2Li0.5Cu0.5O4, a system with;a regular lattice of well-isolated Cu3+ centers, reveals significant;magnetic fluctuations and suggests a quasidegeneracy to be a generic;property of their ground state at variance with the simple ZR model. We;argue for a competition of the ZR state with nearby states formed by a;"doped" hole occupying purely oxygen nonbonding a(2g)(pi) and e(u)(pi);orbitals rather than a conventional b(1g)(d(x2-y2))Cu 3d-O 2p hybrid.;The temperature variation of the Li-6,Li-7 NMR line shape and;spin-lattice relaxation rate point to a gradual slowing down of some;magnetic order parameter's fluctuations without distinct signatures of a;phase transition down to T = 2 K. This behavior agrees with a stripelike;ferrodistortive fluctuating Ammm order in a two-dimensional structure of;the (CuLi)O-2 planes accompanied by unconventional oxygen orbital;antiferromagnetic fluctuations. DOI: 10.1103/PhysRevB.86.241107;Gippius, Andrey/D-1139-2010; Sobolev, Alexey/C-3832-2009;Sobolev, Alexey/0000-0002-8085-5425;0;0;0;0;0;1098-0121;WOS:000312365800002;;;J;Nguyen, P. D.;Kepaptsoglou, D. M.;Erni, R.;Ramasse, Q. M.;Olsen, A.;Quantum confinement of volume plasmons and interband transitions in;germanium nanocrystals;PHYSICAL REVIEW B;86;24;245316;10.1103/PhysRevB.86.245316;DEC 17 2012;2012;The plasmonic properties of individual quantum-sized Ge nanocrystals;(NCs) were observed and systematically analyzed by aberration-corrected;scanning transmission electron microscopy (STEM) and electron energy;loss spectroscopy (EELS). For this purpose, Ge NCs embedded in an SiO2;matrix with controllable size, density, and structure were fabricated;using magnetron sputtering. The size dependence of the Ge plasmon;energies in the size range of 5-9 nm is shown to be well depicted by the;so-called medium quantum confinement (QC) model, with an effective mass;of 0.57m(0) (contrary to expectations of a stronger quantum effect). In;the very low-loss region of the EEL spectra, an apparent blue shift of;the E-2 interband transition peak up to 2 eV and a strong reduction in;the oscillator strength were measured for the NCs in the size range of;4-6 nm. It indicates for this smaller size range a transition to a QC;regime where the band structure and the density of states are modified;dramatically. These trends are explained by a combination of low-loss;and core-loss EELS results, which show that the Ge NCs are surrounded;uniformly by nearly stoichiometric SiO2. This local chemistry is shown;to provide an infinite potential barrier and to confine electrons and;holes in the spherically shaped Ge NCs. In addition to pure QC effects;in the Ge NCs, the SiO2 matrix thus plays an important role in the;strength of the observed QC and interband transitions. DOI:;10.1103/PhysRevB.86.245316;2;0;0;0;2;1098-0121;WOS:000312365800010;;;J;Roedl, Claudia;Bechstedt, Friedhelm;Optical and energy-loss spectra of the antiferromagnetic transition;metal oxides MnO, FeO, CoO, and NiO including quasiparticle and;excitonic effects;PHYSICAL REVIEW B;86;23;235122;10.1103/PhysRevB.86.235122;DEC 17 2012;2012;We calculate the frequency-dependent dielectric function for the series;of antiferromagnetic transition metal oxides (TMOs) from MnO to NiO;using many-body perturbation theory. Quasiparticle, excitonic, and;local-field effects are taken into account by solving the Bethe-Salpeter;equation in the framework of collinear spin polarization. The optical;spectra are based on electronic structures which have been obtained;using density-functional theory with a hybrid functional containing;screened exchange (HSE03) and a subsequent quasiparticle calculation in;the GW approximation to describe exchange and correlation effects;adequately. These sophisticated quasiparticle band structures are mapped;to electronic structures resulting from the computationally less;expensive GGA + U + Delta scheme that includes an on-site interaction U;and a scissors shift Delta and allows us to calculate the large number;of electronic states that is necessary to construct the Bethe-Salpeter;Hamiltonian. For an accurate description of the optical spectra, an;appropriate treatment of the strong electron-hole attraction is;mandatory to obtain agreement with the experimentally observed;absorption-peak positions. The itinerant s and p states as well as the;localized transition metal 3d states have to be considered on an equal;footing. We find that a purely atomic picture is not suitable to;understand the optical absorption spectra of the TMOs. Reflectivity;spectra, absorption coefficients, and loss functions at vanishing;momentum transfer are computed in a wide spectral range and discussed in;light of the available experimental data. DOI:;10.1103/PhysRevB.86.235122;8;1;0;0;8;1098-0121;WOS:000312365200002;;;J;Schlickeiser, F.;Atxitia, U.;Wienholdt, S.;Hinzke, D.;Chubykalo-Fesenko, O.;Nowak, U.;Temperature dependence of the frequencies and effective damping;parameters of ferrimagnetic resonance;PHYSICAL REVIEW B;86;21;214416;10.1103/PhysRevB.86.214416;DEC 17 2012;2012;Recent experiments on all-optical switching in GdFeCo and CoGd have;raised the question about the importance of the angular momentum or the;magnetization compensation point for ultrafast magnetization dynamics.;We investigate the dynamics of ferrimagnets by means of computer;simulations as well as analytically. The results from atomistic modeling;are explained by a theory based on the two-sublattice;Landau-Lifshitz-Bloch equation. Similarly to the experimental results;and unlike predictions based on the macroscopic Landau-Lifshitz;equation, we find an increase in the effective damping at temperatures;approaching the Curie temperature. Further results for the temperature;dependence of the frequencies and effective damping parameters of the;normal modes represent an improvement of former approximated solutions,;building a better basis for comparison to recent experiments.;Atxitia, Unai/A-8870-2010;4;0;0;0;4;1098-0121;WOS:000312364200005;;;J;Smith, R. F.;Minich, R. W.;Rudd, R. E.;Eggert, J. H.;Bolme, C. A.;Brygoo, S. L.;Jones, A. M.;Collins, G. W.;Orientation and rate dependence in high strain-rate compression of;single-crystal silicon;PHYSICAL REVIEW B;86;24;245204;10.1103/PhysRevB.86.245204;DEC 17 2012;2012;High strain-rate ((epsilon)over dot similar to 10(6)-10(9) s(-1));compression of single crystal Si reveals strong orientation- and;rate-dependent precursor stresses. At these high compression rates, the;peak elastic stress, sigma(E_Peak), for Si [100], [110], and [111];exceeds twice the Hugoniot elastic limit. Near the loading surface, the;rate at which Si evolves from uniaxial compression to a;three-dimensional relaxed state is exponentially dependent on;sigma(E_Peak) and independent of initial crystal orientation. At later;times, the high elastic wave speed results in a temporal decoupling of;the elastic precursor from the main inelastic wave. A rapid;high-(epsilon)over dot increase in the measured elastic stress at the;onset of inelastic deformation is consistent with a transition from;dislocation flow mediated by thermal activation to a phonon drag regime.;DOI: 10.1103/PhysRevB.86.245204;3;0;0;0;3;1098-0121;WOS:000312365800006;;;J;Svensson, S. P.;Sarney, W. L.;Hier, H.;Lin, Y.;Wang, D.;Donetsky, D.;Shterengas, L.;Kipshidze, G.;Belenky, G.;Band gap of InAs1-xSbx with native lattice constant;PHYSICAL REVIEW B;86;24;245205;10.1103/PhysRevB.86.245205;DEC 17 2012;2012;The band gap energy of the alloy InAsSb has been studied as a function;of composition with special emphasis on minimization of strain-induced;artifacts. The films were grown by molecular beam epitaxy on GaSb;substrates with compositionally graded buffer layers that were designed;to produce strain-free films. The compositions were precisely determined;by high-resolution x-ray diffraction. Evidence for weak, long-range,;group-V ordering was detected in materials exhibiting residual strain;and relaxation. In contrast, unstrained films having the nondistorted;cubic form showed no evidence of group-V ordering. The photoluminescence;(PL) peak positions therefore corresponds to the inherent band gap of;unstrained, unrelaxed, InAsSb. PL peaks were recorded for compositions;up to 46% Sb, reaching a peak wavelength of 10.3 mu m, observed under;low excitation at T = 13 K. The alloy band gap energies determined from;PL maxima are described with a bowing parameter of 0.87 eV, which is;significantly larger than measured for InAsSb in earlier work. The;sufficiently large bowing parameter and the ability to grow the alloys;without ordering allows direct band gap InAsSb to be a candidate;material for low-temperature long-wavelength infrared detector;applications. DOI: 10.1103/PhysRevB.86.245205;8;0;0;0;8;1098-0121;WOS:000312365800007;;;J;Thirupathaiah, S.;Evtushinsky, D. V.;Maletz, J.;Zabolotnyy, V. B.;Kordyuk, A. A.;Kim, T. K.;Wurmehl, S.;Roslova, M.;Morozov, I.;Buechner, B.;Borisenko, S. V.;Weak-coupling superconductivity in electron-doped NaFe0.95Co0.05As;revealed by ARPES;PHYSICAL REVIEW B;86;21;214508;10.1103/PhysRevB.86.214508;DEC 17 2012;2012;We report a systematic study on the electronic structure and;superconducting (SC) gaps in electron-doped NaFe0.95Co0.05As;superconductor using angle-resolved photoemission spectroscopy. Holelike;Fermi sheets are at the zone center and electronlike Fermi sheets are at;the zone corner, and are mainly contributed by xz and yz orbital;characters. Our results reveal a Delta/KBTc in the range of 1.8-2.1,;suggesting a weak-coupling superconductivity in these compounds. Gap;closing above the transition temperature (T-c) shows the absence of;pseudogaps. Gap evolution with temperature follows the BCS gap equation;near the Gamma, Z, and M high symmetry points. Furthermore, an almost;isotropic superconductivity along the k(z) direction in the momentum;space is observed by varying the excitation energies.;Wurmehl, Sabine/A-5872-2009; Morozov, Igor/C-4329-2011; Borisenko, Sergey/G-6743-2012; Roslova, Maria/F-7352-2013;Borisenko, Sergey/0000-0002-5046-4829;;6;0;0;0;6;1098-0121;WOS:000312364200007;;;J;Tsuda, Kenji;Sano, Rikiya;Tanaka, Michiyoshi;Nanoscale local structures of rhombohedral symmetry in the orthorhombic;and tetragonal phases of BaTiO3 studied by convergent-beam electron;diffraction;PHYSICAL REVIEW B;86;21;214106;10.1103/PhysRevB.86.214106;DEC 17 2012;2012;The symmetries of the rhombohedral, orthorhombic, and tetragonal phases;of barium titanate (BaTiO3) are investigated using convergent-beam;electron diffraction. Nanometer-sized local structures with rhombohedral;symmetry are observed in both the orthorhombic and tetragonal phases.;This indicates that an order-disorder character exists in phase;transformations of BaTiO3. The nanostructures in these phases are;discussed in terms of an order-disorder model with off-centered Ti in;the < 111 > directions.;6;0;0;0;6;1098-0121;WOS:000312364200001;;;J;Ulstrup, Soren;Frederiksen, Thomas;Brandbyge, Mads;Nonequilibrium electron-vibration coupling and conductance fluctuations;in a C-60 junction;PHYSICAL REVIEW B;86;24;245417;10.1103/PhysRevB.86.245417;DEC 17 2012;2012;We investigate chemical bond formation and conductance in a molecular;C-60 junction under finite bias voltage using first-principles;calculations based on density functional theory and nonequilibrium;Green's functions (DFT-NEGF). At the point of contact formation we;identify a remarkably strong coupling between the C-60 motion and the;molecular electronic structure. This is only seen for positive sample;bias, although the conductance itself is not strongly polarity;dependent. The nonequilibrium effect is traced back to a sudden shift in;the position of the voltage drop with a small C-60 displacement.;Combined with a vibrational heating mechanism we construct a model from;our results that explain the polarity-dependent two-level conductance;fluctuations observed in recent scanning tunneling microscopy (STM);experiments [N. Neel et al., Nano Lett. 11, 3593 (2011)]. These findings;highlight the significance of nonequilibrium effects in chemical bond;formation/breaking and in electron-vibration coupling in molecular;electronics. DOI: 10.1103/PhysRevB.86.245417;Frederiksen, Thomas/D-3545-2011; Brandbyge, Mads/C-6095-2008; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Frederiksen, Thomas/0000-0001-7523-7641;;4;0;0;0;4;1098-0121;WOS:000312365800012;;;J;Urdaniz, M. C.;Barral, M. A.;Llois, A. M.;Magnetic exchange coupling in 3d-transition-metal atomic chains adsorbed;on Cu2N/Cu(001);PHYSICAL REVIEW B;86;24;245416;10.1103/PhysRevB.86.245416;DEC 17 2012;2012;Covalent substrates can give rise to a variety of magnetic interaction;mechanisms among adsorbed transition-metal atoms building atomic;nanostructures. We show this by calculating the ground state magnetic;configuration of monoatomic 3d chains deposited on a monolayer of Cu2N;grown on Cu(001) as a function of d filling and of adsorption sites of;these nanostructures. DOI: 10.1103/PhysRevB.86.245416;1;0;0;0;1;1098-0121;WOS:000312365800011;;;J;Vaz, Eduardo;Kyriakidis, Jordan;Resonant regimes in the Fock-space coherence of multilevel quantum dots;PHYSICAL REVIEW B;86;23;235310;10.1103/PhysRevB.86.235310;DEC 17 2012;2012;The coherence between quantum states with different particle numbers-the;Fock-space coherence-qualitatively differs from the more common;Hilbert-space coherence between states with equal particle numbers. For;a quantum dot with multiple channels available for transport, we find;the conditions for decoupling the dynamics of the Fock-space coherence;from both the Hilbert-space coherence as well as the population;dynamics. We further find specific energy and coupling regimes where a;long-lived resonance in the Fock-space coherence of the system is;realized, even where no resonances are found either in the populations;or Hilbert-space coherence. Numerical calculations show this resonance;remains robust in the presence of both boson-mediated relaxation and;transport through the quantum dot. DOI: 10.1103/PhysRevB.86.235310;1;0;0;0;1;1098-0121;WOS:000312365200009;;;J;Ward, D. K.;Zhou, X. W.;Wong, B. M.;Doty, F. P.;Zimmerman, J. A.;Analytical bond-order potential for the Cd-Zn-Te ternary system;PHYSICAL REVIEW B;86;24;245203;10.1103/PhysRevB.86.245203;DEC 17 2012;2012;Cd-Zn-Te ternary alloyed semiconductor compounds are key materials in;radiation detection and photovoltaic applications. Currently,;crystalline defects such as dislocations limit the performance of these;materials. Atomistic simulations are a powerful method for exploring;crystalline defects at a resolution unattainable by experimental;techniques. To enable accurate atomistic simulations of defects in the;Cd-Zn-Te systems, we develop a full Cd-Zn-Te ternary bond-order;potential. This Cd-Zn-Te potential has numerous unique advantages over;other potential formulations: (1) It is analytically derived from;quantum mechanical theories and is therefore more likely to be;transferable to environments that are not explicitly tested. (2) A;variety of elemental and compound configurations (with coordination;varying from 1 to 12) including small clusters, bulk lattices, defects,;and surfaces are explicitly considered during parameterization. As a;result, the potential captures structural and property trends close to;those seen in experiments and quantum mechanical calculations and;provides a good description of melting temperature, defect;characteristics, and surface reconstructions. (3) Most importantly, this;potential is validated to correctly predict the crystalline growth of;the ground-state structures for Cd, Zn, Te elements as well as CdTe,;ZnTe, and Cd1-xZnxTe compounds during highly challenging molecular;dynamics vapor deposition simulations. DOI: 10.1103/PhysRevB.86.245203;Wong, Bryan/B-1663-2009;Wong, Bryan/0000-0002-3477-8043;7;0;0;0;7;1098-0121;WOS:000312365800005;;;J;Williams, M. E.;Sims, H.;Mazumdar, D.;Butler, W. H.;Effects of 3d and 4d transition metal substitutional impurities on the;electronic properties of CrO2;PHYSICAL REVIEW B;86;23;235124;10.1103/PhysRevB.86.235124;DEC 17 2012;2012;We present first-principles-based density functional theory calculations;of the electronic and magnetic structure of CrO2 with 3d and 4d;substitutional impurities. We find that the half-metallicity of CrO2;remains intact for the ground state of all of the calculated;substitutions. We also observe two periodic trends as a function of the;number of valence electrons: if the substituted atom has six or fewer;valence electrons, the number of down spin electrons associated with the;impurity ion is zero, resulting in ferromagnetic alignment of the;impurity magnetic moment with the magnetization of the CrO2 host. For;substituent atoms with eight to ten valence electrons (with the;exception of Ni), the number of down-spin electrons contributed by the;impurity ion remains fixed at three as the number contributed to the;majority increases from one to three resulting in antiferromagnetic;alignment between impurity moment and host magnetization. In impurities;with seven valence electrons, the zero down-spin and threse down-spin;configurations are very close in energy. At 11 valence electrons, the;energy is minimized when the substituent ion contributes five down-spin;electrons. The moments on the 4d impurities, particularly Nb and Mo,;tend to be delocalized compared with those of the 3ds. DOI:;10.1103/PhysRevB.86.235124;0;0;0;0;0;1098-0121;WOS:000312365200004;;;J;Yan, Xin-Zhong;Ting, C. S.;Possible broken inversion and time-reversal symmetry state of electrons;in bilayer graphene;PHYSICAL REVIEW B;86;23;235126;10.1103/PhysRevB.86.235126;DEC 17 2012;2012;With the two-band continuum model, we study the broken inversion and;time-reversal symmetry state of electrons with finite-range repulsive;interactions in bilayer graphene. In the state, there are overlapped;loop currents in each layer. With the analytical solution to the;mean-field Hamiltonian, we obtain the electronic spectra. The ground;state is gapped. In the presence of the magnetic field B, the energy gap;grows with increasing B, in excellent agreement with the experimental;observation. Such an energy-gap behavior originates from the;disappearance of a Landau level of n = 0 and 1 states. The present;result resolves explicitly the puzzle of the gap dependence of B. DOI:;10.1103/PhysRevB.86.235126;6;0;0;0;6;1098-0121;WOS:000312365200006;;;J;Yin, Z. P.;Haule, K.;Kotliar, G.;Fractional power-law behavior and its origin in iron-chalcogenide and;ruthenate superconductors: Insights from first-principles calculations;(vol 86, 195141, 2012);PHYSICAL REVIEW B;86;23;239904;10.1103/PhysRevB.86.239904;DEC 17 2012;2012;2;0;0;0;2;1098-0121;WOS:000312365200014;;;J;Zhigadlo, N. D.;Weyeneth, S.;Katrych, S.;Moll, P. J. W.;Rogacki, K.;Bosma, S.;Puzniak, R.;Karpinski, J.;Batlogg, B.;High-pressure flux growth, structural, and superconducting properties of;LnFeAsO (Ln = Pr, Nd, Sm) single crystals;PHYSICAL REVIEW B;86;21;214509;10.1103/PhysRevB.86.214509;DEC 17 2012;2012;Single crystals of the LnFeAsO (Ln1111, Ln = Pr, Nd, and Sm) family with;lateral dimensions up to 1 mm were grown from NaAs and KAs flux at high;pressure. The crystals are of good structural quality and become;superconducting when O is partially substituted by F (PrFeAsO1-xFx and;NdFeAsO1-xFx) or when Fe is substituted by Co (SmFe1-xCoxAsO). From;magnetization measurements, we estimate the temperature dependence and;anisotropy of the upper critical field and the critical current density;of underdoped PrFeAsO0.7F0.3 crystal with T-c approximate to 25 K.;Single crystals of SmFe1-xCoxAsO with maximal T-c up to 16.3 K for x;approximate to 0.08 were grown. From transport and magnetic;measurements, we estimate the critical fields and their anisotropy and;find these superconducting properties to be quite comparable to the ones;in SmFeAsO1-xFx with a much higher T-c approximate to 50 K. The;magnetically measured critical current densities are as high as 10(9);A/m(2) at 2 K up to 7 T, with indication of the usual fishtail effect.;The upper critical field estimated from resistivity measurements is;anisotropic with slopes of similar to - 8.7 T/K (H parallel to ab plane);and similar to - 1.7 T/K (H parallel to c axis). This anisotropy;(similar to 5) is similar to that in other Ln1111 crystals with various;higher T-c's.;Puzniak, Roman/N-1643-2013;Puzniak, Roman/0000-0001-5636-5541;7;0;0;0;7;1098-0121;WOS:000312364200008;;;J;Zhu, Guobao;Yang, Shengyuan A.;Fang, Cheng;Liu, W. M.;Yao, Yugui;Theory of orbital magnetization in disordered systems;PHYSICAL REVIEW B;86;21;214415;10.1103/PhysRevB.86.214415;DEC 17 2012;2012;We present a general formula of the orbital magnetization of disordered;systems based on the Keldysh Green's function theory in the;gauge-covariant Wigner space. In our approach, the gauge invariance of;physical quantities is ensured from the very beginning, and the vertex;corrections are easily included. Our formula applies not only for;insulators but also for metallic systems where the quasiparticle;behavior is usually strongly modified by the disorder scattering. In the;absence of disorders, our formula recovers the previous results obtained;from the semiclassical theory and the perturbation theory. As an;application, we calculate the orbital magnetization of a weakly;disordered two-dimensional electron gas with Rashba spin-orbit coupling.;We find that for the short-range disorder scattering, its major effect;is to the shifting of the distribution of orbital magnetization;corresponding to the quasiparticle energy renormalization.;Yao, Yugui/A-8411-2012; Yang, Shengyuan/L-2848-2014;6;0;1;0;7;1098-0121;WOS:000312364200004;;;J;Zhukov, E. A.;Yugov, O. A.;Yugova, I. A.;Yakovlev, D. R.;Karczewski, G.;Wojtowicz, T.;Kossut, J.;Bayer, M.;Resonant spin amplification of resident electrons in CdTe/(Cd,Mg)Te;quantum wells subject to tilted magnetic fields;PHYSICAL REVIEW B;86;24;245314;10.1103/PhysRevB.86.245314;DEC 17 2012;2012;Electron spin coherence in CdTe/(Cd,Mg)Te quantum wells is studied;experimentally and theoretically in tilted external magnetic fields;generated by a superconducting vector magnet. The long-lived spin;coherence is measured by pump-probe Kerr rotation in the resonant spin;amplification (RSA) regime. The shape of RSA signals is very sensitive;to weak magnetic field components deviating from the Voigt or Faraday;geometries. DOI: 10.1103/PhysRevB.86.245314;Yugova, Irina/F-6823-2011;Yugova, Irina/0000-0003-0020-3679;3;0;0;0;3;1098-0121;WOS:000312365800008;;;J;Adelstein, Nicole;Mun, B. Simon;Ray, Hannah L.;Ross, Philip N., Jr.;Neaton, Jeffrey B.;De Jonghe, Lutgard C.;Structure and electronic properties of cerium orthophosphate: Theory and;experiment (vol 83, 205104, 2011);PHYSICAL REVIEW B;86;23;239903;10.1103/PhysRevB.86.239903;DEC 14 2012;2012;Mun, Bongjin /G-1701-2013;0;0;0;0;0;1098-0121;WOS:000312365100009;;;J;Bagchi, Debarshee;Mohanty, P. K.;Thermally driven classical Heisenberg model in one dimension;PHYSICAL REVIEW B;86;21;214302;10.1103/PhysRevB.86.214302;DEC 14 2012;2012;We study thermal transport in a classical one-dimensional Heisenberg;model employing a discrete-time odd-even precessional update scheme.;This dynamics equilibrates a spin chain for any arbitrary temperature;and finite value of the integration time step Delta t. We rigorously;show that in presence of driving, the system attains local thermal;equilibrium, which is a strict requirement of Fourier law. In the;thermodynamic limit, heat current for such a system obeys Fourier law;for all temperatures, as has been recently shown [A. V. Savin, G. P.;Tsironis, and X. Zotos, Phys. Rev. B 72, 140402(R) (2005)]. Finite;systems, however, show an apparent ballistic transport which crosses;over to a diffusive one as the system size is increased. We provide;exact results for current and energy profiles in zero- and;infinite-temperature limits. DOI: 10.1103/PhysRevB.86.214302;3;0;0;0;3;1098-0121;WOS:000312364100001;;;J;Barasinski, A.;Kamieniarz, G.;Drzewinski, A.;Magnetization-based assessment of correlation energy in canted;single-chain magnets;PHYSICAL REVIEW B;86;21;214412;10.1103/PhysRevB.86.214412;DEC 14 2012;2012;We demonstrate numerically that for the strongly anisotropic;homometallic S = 2 canted single-chain magnet described by the quantum;antiferromagnetic Heisenberg model, the correlation energy and exchange;coupling constant can be directly estimated from the;in-field-magnetization profile found along the properly selected;crystallographic direction. In the parameter space defined by the;spherical angles (phi, theta) determining the axes orientation, four;regions are identified with different sequences of the characteristic;field-dependent magnetization profiles representing the;antiferromagnetic, metamagnetic, and weak ferromagnetic type behavior.;These sequences provide a criterion for the applicability of the;anisotropic quantum Heisenberg model to a given experimental system. Our;analysis shows that the correlation energy decreases linearly with field;and vanishes for a given value H-cr, which defines a special coordinates;in the metamagnetic profile relevant for the zero-field correlation;energy and magnetic coupling. For the single-chain magnet formed by the;strongly anisotropic manganese(III) acetate meso-tetraphenylporphyrin;complexes coupled to the phenylphosphinate ligands, the experimental;metamagnetic-type magnetization curve in the c direction yields an;accurate estimate of the values of correlation energy Delta(xi)/k(B) =;7.93 K and exchange coupling J/k(B) = 1.20 K. DOI:;10.1103/PhysRevB.86.214412;1;0;0;0;1;1098-0121;WOS:000312364100004;;;J;Brinzari, T. V.;Chen, P.;Tung, L. -C.;Kim, Y.;Smirnov, D.;Singleton, J.;Miller, Joel. S.;Musfeldt, J. L.;Magnetoelastic coupling in [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] molecule-based;magnet;PHYSICAL REVIEW B;86;21;214411;10.1103/PhysRevB.86.214411;DEC 14 2012;2012;Infrared and Raman vibrational spectroscopies were employed to explore;the lattice dynamics of [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] through the;field- and temperature-driven magnetic transitions. The high field work;reveals systematic changes in the C equivalent to N stretching mode and;Cr-containing phonons as the system is driven away from the;antiferromagnetic state. The magnetic intersublattice coalescence;transition at B-c similar or equal to 0.08 T, on the contrary, is purely;magnetic and takes place with no lattice involvement. The variable;temperature spectroscopy affirms overall [Cr(CN)(6)](3-) flexibility;along with stronger intermolecular interactions at low temperature.;Based on a displacement pattern analysis, we discuss the local lattice;distortions in terms of an adaptable chromium environment. These;findings provide deeper understanding of spin-lattice coupling in;[Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] and may be useful in the development of;technologically important molecule-based magnets. DOI:;10.1103/PhysRevB.86.214411;4;2;0;0;4;1098-0121;WOS:000312364100003;;;J;Chan, Tzu-Liang;Capacitance of metallic and semiconducting nanowires examined by;first-principles calculations;PHYSICAL REVIEW B;86;24;245414;10.1103/PhysRevB.86.245414;DEC 14 2012;2012;The capacitance of Al < 110 > and P-doped Si < 110 > nanowires a few;nanometers in diameter are examined by first-principles calculations.;During charging, the metallic nanowire expels the charge to its surface,;and its capacitance stays relatively constant. For the semiconducting;nanowire, depletion of conduction electrons can lead to an increase in;the work function, which results in a drop in the capacitance when;charged beyond a threshold. This study is made possible by developing a;formalism for total energy calculations of charged periodic systems with;a specific electrostatic boundary condition. DOI:;10.1103/PhysRevB.86.245414;1;0;0;0;1;1098-0121;WOS:000312365400006;;;J;Dias, R. G.;del Rio, Lidia;Goltsev, A. V.;Interplay between potential and spin-flip scattering in systems with;depleted density of states;PHYSICAL REVIEW B;86;23;235120;10.1103/PhysRevB.86.235120;DEC 14 2012;2012;We study the behavior of a magnetic impurity in systems with a depleted;density of states by use of the spin-1/2 single-impurity Anderson model;and the equation of motion approach. We calculate the impurity spectral;function and study the role of potential and spin-flip scattering. We;show that in these systems, if the hybridization is larger than a;critical value, a narrow virtual bound resonance emerges. The resonance;peak appears much below the Fermi energy and is dominated by the;contribution of potential scattering of conduction electrons by the;magnetic impurity while spin-flip scattering only gives a nonsingular;temperature-dependent contribution to this peak. These results are in;contrast to behavior of impurities in normal metals where it is;spin-flip scattering that is responsible for the Kondo peak near the;Fermi level while potential scattering gives a nonsignificant;renormalization of the exchange coupling. We also show that the virtual;bound resonance leads to a strong renormalization of the effective;exchange coupling between conduction and impurity spins. The narrow;virtual bound resonance can be observed in graphene with magnetic;impurities where its spectral weight and position is strongly influenced;by the van Hove singularity. DOI: 10.1103/PhysRevB.86.235120;Universidade Aveiro, Departamento Fisica/E-4128-2013; Dias, Ricardo/J-6007-2013;Dias, Ricardo/0000-0002-5128-5531;0;0;0;0;0;1098-0121;WOS:000312365100001;;;J;Ganeshan, Sriram;Abanov, Alexander G.;Averin, Dmitri V.;Fractional quantum Hall interferometers in a strong tunneling regime:;The role of compactness in edge fields;PHYSICAL REVIEW B;86;23;235309;10.1103/PhysRevB.86.235309;DEC 14 2012;2012;We consider multiple-point tunneling in the interferometers formed;between edges of electron liquids with, in general, different filling;factors in the regime of the fractional quantum Hall effect (FQHE). We;derive an effective matrix Caldeira-Leggett model for the multiple;tunneling contacts connecting the chiral single-mode FQHE edges. It is;shown that the compactness of the Wen-Frohlich chiral boson fields;describing the FQHE edge modes plays a crucial role in eliminating the;spurious nonlocality of the electron transport properties of the FQHE;interferometers arising in the regime of strong tunneling. DOI:;10.1103/PhysRevB.86.235309;0;0;0;0;0;1098-0121;WOS:000312365100004;;;J;Giannazzo, F.;Deretzis, I.;La Magna, A.;Roccaforte, F.;Yakimova, R.;Electronic transport at monolayer-bilayer junctions in epitaxial;graphene on SiC;PHYSICAL REVIEW B;86;23;235422;10.1103/PhysRevB.86.235422;DEC 14 2012;2012;Two-dimensional maps of the electronic conductance in epitaxial graphene;grown on SiC were obtained by calibrated conductive atomic force;microscopy. The correlation between morphological and electrical maps;revealed the local conductance degradation in epitaxial graphene over;the SiC substrate steps or at the junction between monolayer (1L) and;bilayer (2L) graphene regions. The effect of steps strongly depends on;the charge transfer phenomena between the step sidewall and graphene,;whereas the resistance increase at the 1L/2L junction is a purely;quantum-mechanical effect independent on the interaction with the;substrate. First-principles transport calculations indicate that the;weak wave-function coupling between the 1L pi/pi* bands with the;respective first bands of the 2L region gives rise to a strong;suppression of the conductance for energies within +/- 0.48 eV from the;Dirac point. Conductance degradation at 1L/2L junctions is therefore a;general issue for large area graphene with a certain fraction of;inhomogeneities in the layer number, including graphene grown by;chemical vapor deposition on metals. DOI: 10.1103/PhysRevB.86.235422;Materials, Semiconductor/I-6323-2013;11;0;0;0;11;1098-0121;WOS:000312365100005;;;J;Hintzsche, L. E.;Fang, C. M.;Watts, T.;Marsman, M.;Jordan, G.;Lamers, M. W. P. E.;Weeber, A. W.;Kresse, G.;Density functional theory study of the structural and electronic;properties of amorphous silicon nitrides: Si3N4-x:H;PHYSICAL REVIEW B;86;23;235204;10.1103/PhysRevB.86.235204;DEC 14 2012;2012;We present ab initio density functional theory studies for;stoichiometric as well as nonstoichiometric amorphous silicon nitride,;varying the stoichiometry between Si3N4.5 and Si3N3. Stoichiometric;amorphous Si3N4 possesses the same local structure as crystalline Si3N4,;with Si being fourfold coordinated and N being threefold coordinated.;Only few Si-Si and N-N bonds and other defects are found in;stoichiometric silicon nitride, and the electronic properties are very;similar to the crystalline bulk. In over-stoichiometric Si3N4+x, the;additional N results in N-N bonds, whereas in under-stoichiometric;Si3N4-x the number of homopolar Si-Si bonds increases with decreasing N;content. Analysis of the structure factor and the local coordination of;the Si atoms indicates a slight tendency towards Si clustering, although;at the investigated stoichiometries, phase separation is not observed.;In the electronic properties, the conduction-band minimum is dominated;by Si states, whereas the valence-band maximum is made up by lone pair N;states. Towards Si rich samples, the character of the valence-band;maximum becomes dominated by Si states corresponding to Si-Si bonding;linear combinations. Adding small amounts of hydrogen, as typically used;in passivating layers of photovoltaic devices, has essentially no impact;on the overall structural and electronic properties. DOI:;10.1103/PhysRevB.86.235204;Fang, Chang Ming/E-9213-2013;3;0;0;0;3;1098-0121;WOS:000312365100002;;;J;Joung, Daeha;Khondaker, Saiful I.;Efros-Shklovskii variable-range hopping in reduced graphene oxide sheets;of varying carbon sp(2) fraction;PHYSICAL REVIEW B;86;23;235423;10.1103/PhysRevB.86.235423;DEC 14 2012;2012;We investigate the low-temperature electron transport properties of;chemically reduced graphene oxide (RGO) sheets with different carbon;sp(2) fractions of 55% to 80%. We show that in the low-bias (Ohmic);regime, the temperature (T) dependent resistance (R) of all the devices;follow Efros-Shklovskii variable range hopping (ES-VRH) R similar to;exp[(T-ES/T)(1/2)] with T-ES decreasing from 3.1 x 10(4) to 0.42 x 10(4);K and electron localization length increasing from 0.46 to 3.21 nm with;increasing sp(2) fraction. From our data, we predict that for the;temperature range used in our study, Mott-VRH may not be observed even;at 100% sp(2) fraction samples due to residual topological defects and;structural disorders. From the localization length, we calculate a;band-gap variation of our RGO from 1.43 to 0.21 eV with increasing sp(2);fraction from 55 to 80%, which agrees remarkably well with theoretical;predictions. We also show that, in the high bias non-Ohmic regime at low;temperature, the hopping is field driven and the data follow R similar;to exp[(E0/E)(1/2)] providing further evidence of ES-VRH. DOI:;10.1103/PhysRevB.86.235423;14;0;0;0;14;1098-0121;WOS:000312365100006;;;J;Kim, Se-Heon;Homyk, Andrew;Walavalkar, Sameer;Scherer, Axel;High-Q impurity photon states bounded by a photonic band pseudogap in an;optically thick photonic crystal slab;PHYSICAL REVIEW B;86;24;245114;10.1103/PhysRevB.86.245114;DEC 14 2012;2012;We show that, taking a two-dimensional photonic crystal slab system as;an example, surprisingly high quality factors (Q) over 10(5) are;achievable, even in the absence of a rigorous photonic band gap. We find;that the density of in-plane Bloch modes can be controlled by creating;additional photon feedback from a finite-size photonic-crystal boundary;that serves as a low-Q resonator. This mechanism enables significant;reduction in the coupling strength between the bound state and the;extended Bloch modes by more than a factor of 40. DOI:;10.1103/PhysRevB.86.245114;Walavalkar, Sameer/B-3196-2013; Kim, Se-Heon/C-5498-2008;Walavalkar, Sameer/0000-0002-7628-9600;;2;0;0;0;2;1098-0121;WOS:000312365400001;;;J;Kravets, A. F.;Timoshevskii, A. N.;Yanchitsky, B. Z.;Bergmann, M. A.;Buhler, J.;Andersson, S.;Korenivski, V.;Temperature-controlled interlayer exchange coupling in strong/weak;ferromagnetic multilayers: A thermomagnetic Curie switch;PHYSICAL REVIEW B;86;21;214413;10.1103/PhysRevB.86.214413;DEC 14 2012;2012;We investigate interlayer exchange coupling based on driving a;strong/weak/strong ferromagnetic trilayer through the Curie point of the;weakly ferromagnetic spacer, with exchange coupling between the strongly;ferromagnetic outer layers that can be switched on and off, or varied;continuously in magnitude by controlling the temperature of the;material. We use Ni-Cu alloys of varied composition as the spacer;material and model the effects of proximity-induced magnetism and the;interlayer exchange coupling through the spacer from first principles,;taking into account not only thermal spin disorder but also the;dependence of the atomic moment of Ni on the nearest-neighbor;concentration of the nonmagnetic Cu. We propose and demonstrate a;gradient-composition spacer, with a lower Ni concentration at the;interfaces, for greatly improved effective-exchange uniformity and;significantly improved thermomagnetic switching in the structure. The;reported multilayer materials can form the base for a variety of;magnetic devices, such as sensors, oscillators, and memory elements;based on thermomagnetic Curie switching. DOI: 10.1103/PhysRevB.86.214413;Korenivski, Vladislav/N-7355-2014;Korenivski, Vladislav/0000-0003-2339-1692;4;0;0;0;4;1098-0121;WOS:000312364100005;;;J;Little, C. E.;Anufriev, R.;Iorsh, I.;Kaliteevski, M. A.;Abram, R. A.;Brand, S.;Tamm plasmon polaritons in multilayered cylindrical structures;PHYSICAL REVIEW B;86;23;235425;10.1103/PhysRevB.86.235425;DEC 14 2012;2012;It is shown that cylindrical Bragg reflector structures with either a;metal core, a metal cladding, or both can support Tamm plasmon;polaritons (TPPs) that can propagate axially along the interface between;the metallic layer and the adjacent dielectric. A transfer matrix;formalism for cylindrical multilayered structures is used in association;with cavity phase matching considerations to design structures that;support Tamm plasmon polaritons at specified frequencies, and to explore;the field distributions and the dispersion relations of the excitations.;The cylindrical TPPs can exist in both the TE and TM polarizations for;the special cases of modes with either azimuthal isotropy or zero axial;propagation constant and also as hybrid cylindrical modes when neither;of those conditions applies. In the cases considered the TPPs have low;effective masses and low group velocities. Also, when there is both;metallic core and cladding, near degenerate modes localized at each;metallic interface can couple to produce symmetric and antisymmetric;combinations whose frequency difference is in the terahertz regime. DOI:;10.1103/PhysRevB.86.235425;Brand, Stuart/A-1658-2009;Brand, Stuart/0000-0002-1757-5017;3;0;0;0;3;1098-0121;WOS:000312365100008;;;J;Machida, Manabu;Iitaka, Toshiaki;Miyashita, Seiji;ESR intensity and the Dzyaloshinsky-Moriya interaction of the nanoscale;molecular magnet V-15;PHYSICAL REVIEW B;86;22;224412;10.1103/PhysRevB.86.224412;DEC 14 2012;2012;The intensity of electron spin resonance (ESR) of the nanoscale;molecular magnet V-15 is studied. We calculate the temperature;dependence of the intensity at temperatures from high to low. In;particular, we find that the low-temperature ESR intensity is;significantly affected by the Dzyaloshinsky-Moriya interaction. DOI:;10.1103/PhysRevB.86.224412;1;0;0;0;1;1098-0121;WOS:000312364500003;;;J;Meinert, Markus;Friedrich, Christoph;Reiss, Guenter;Bluegel, Stefan;GW study of the half-metallic Heusler compounds Co2MnSi and Co2FeSi;PHYSICAL REVIEW B;86;24;245115;10.1103/PhysRevB.86.245115;DEC 14 2012;2012;Quasiparticle spectra of potentially half-metallic Co2MnSi and Co2FeSi;Heusler compounds have been calculated within the one-shot GW;approximation in an all-electron framework without adjustable;parameters. For Co2FeSi the many-body corrections are crucial: a;pseudogap opens and good agreement of the magnetic moment with;experiment is obtained. Otherwise, however, the changes with respect to;the density-functional-theory starting point are moderate. For both;cases we find that photoemission and x-ray absorption spectra are well;described by the calculations. By comparison with the GW density of;states, we conclude that the Kohn-Sham eigenvalue spectrum provides a;reasonable approximation for the quasiparticle spectrum of the Heusler;compounds considered in this work. DOI: 10.1103/PhysRevB.86.245115;Reiss, Gunter/A-3423-2010; Meinert, Markus/E-8794-2011; Blugel, Stefan/J-8323-2013; Friedrich, Christoph/L-5029-2013;Reiss, Gunter/0000-0002-0918-5940; Blugel, Stefan/0000-0001-9987-4733;;Friedrich, Christoph/0000-0002-3315-7536;7;1;0;0;7;1098-0121;WOS:000312365400002;;;J;Misiorny, Maciej;Weymann, Ireneusz;Barnas, Jozef;Underscreened Kondo effect in S=1 magnetic quantum dots: Exchange,;anisotropy, and temperature effects;PHYSICAL REVIEW B;86;24;245415;10.1103/PhysRevB.86.245415;DEC 14 2012;2012;We present a theoretical analysis of the effects of uniaxial magnetic;anisotropy and contact-induced exchange field on the underscreened Kondo;effect in S = 1 magnetic quantum dots coupled to ferromagnetic leads.;First, by using the second-order perturbation theory we show that the;coupling to spin-polarized electrode results in an effective exchange;field B-eff and an effective magnetic anisotropy D-eff. Second, we;confirm these findings by using the numerical renormalization group;method, which is employed to study the dependence of the quantum-dot;spectral functions, as well as quantum-dot spin, on various parameters;of the system. We show that the underscreened Kondo effect is generally;suppressed due to the presence of effective exchange field and can be;restored by tuning the anisotropy constant, when vertical bar D-eff;vertical bar = |B-eff vertical bar. The Kondo effect can also be;restored by sweeping an external magnetic field, and the restoration;occurs twice in a single sweep. From the distance between the restored;Kondo resonances one can extract the information about both the exchange;field and the effective anisotropy. Finally, we calculate the;temperature dependence of linear conductance for the parameters where;the Kondo effect is restored and show that the restored Kondo resonances;display a universal scaling of S = 1/2 Kondo effect. DOI:;10.1103/PhysRevB.86.245415;3;0;0;0;3;1098-0121;WOS:000312365400007;;;J;Monette, Gabriel;Nateghi, Nima;Masut, Remo A.;Francoeur, Sebastien;Menard, David;Plasmonic enhancement of the magneto-optical response of MnP;nanoclusters embedded in GaP epilayers;PHYSICAL REVIEW B;86;24;245312;10.1103/PhysRevB.86.245312;DEC 14 2012;2012;We report on the magneto-optical activity of MnP nanoclusters embedded;in GaP epilayers and MnP thin film as a function of temperature,;magnetic field, and wavelength in the near infrared and visible. The;measured Faraday rotation originates from the ferromagnetic;magnetization of the metallic MnP phase and exhibits a hysteretic;behavior as a function of an externally applied magnetic field closely;matching that of the magnetization. The Faraday rotation spectrum of MnP;shows a magnetoplasmonic resonance whose energy depends on the MnP;filling factor and surrounding matrix permittivity. At resonance, the;measured rotary power for the epilayer systems increases by a factor of;2 compared to that of the MnP film in terms of degrees of rotation per;MnP thickness for an applied magnetic field of 410 mT. We propose an;effective medium model, which qualitatively reproduces the Faraday;rotation and the magnetocircular dichroism spectra, quantitatively;determines the spectral shift induced by variations in the MnP volume;fraction, and demonstrates the influence of the shape and orientation;distributions of ellipsoidal MnP nanoclusters on the magneto-optical;activity and absorption spectra. DOI: 10.1103/PhysRevB.86.245312;Menard, David/A-6862-2010; Francoeur, Sebastien/E-6614-2011; Masut, Remo/I-3727-2014;Menard, David/0000-0003-2207-3422;;2;0;0;0;2;1098-0121;WOS:000312365400003;;;J;Morgan, Steven W.;Oganesyan, Vadim;Boutis, Gregory S.;Multispin correlations and pseudothermalization of the transient density;matrix in solid-state NMR: Free induction decay and magic echo;PHYSICAL REVIEW B;86;21;214410;10.1103/PhysRevB.86.214410;DEC 14 2012;2012;Quantum unitary evolution typically leads to thermalization of generic;interacting many-body systems. There are very few known general methods;for reversing this process, and we focus on the magic echo, a;radio-frequency pulse sequence known to approximately "rewind" the time;evolution of dipolar coupled homonuclear spin systems in a large;magnetic field. By combining analytic, numerical, and experimental;results, we systematically investigate factors leading to the;degradation of magic echoes, as observed in reduced revival of mean;transverse magnetization. Going beyond the conventional analysis based;on mean magnetization, we use a phase-encoding technique to measure the;growth of spin correlations in the density matrix at different points in;time following magic echoes of varied durations and compare the results;to those obtained during a free induction decay. While considerable;differences are documented at short times, the long-time behavior of the;density matrix appears to be remarkably universal among the types of;initial states considered: simple low-order multispin correlations are;observed to decay exponentially at the same rate, seeding the onset of;increasingly complex high-order correlations. This manifestly athermal;process is constrained by conservation of the second moment of the;spectrum of the density matrix and proceeds indefinitely, assuming;unitary dynamics. DOI: 10.1103/PhysRevB.86.214410;3;0;0;0;3;1098-0121;WOS:000312364100002;;;J;Sung, N. H.;Roh, C. J.;Kim, K. S.;Cho, B. K.;Possible multigap superconductivity and magnetism in single crystals of;superconducting La2Pt3Ge5 and Pr2Pt3Ge5;PHYSICAL REVIEW B;86;22;224507;10.1103/PhysRevB.86.224507;DEC 14 2012;2012;We herein describe our investigation of the superconducting and magnetic;properties of the rare-earth ternary germanide intermetallic compounds;La2Pt3Ge5 and Pr2Pt3Ge5. Single crystals of La2Pt3Ge5 and Pr2Pt3Ge5 were;synthesized using the high-temperature metal flux method. Both types of;crystal formed in a U2Co3Si5-type orthorhombic structure (space group;Ibam). La2Pt3Ge5 showed the onset of superconducting phase transition at;T-c = 8.1 K, which, to the best of our knowledge, is the highest Tc of;all the R2M3X5 (R = rare-earth elements, M = transition metal, and X =;s-p metal) superconductors, and from the specific heat data, it was;found to have multigap superconductivity. Pr2Pt3Ge5 showed both a;superconducting phase transition at T-c = 7.8 K and two;antiferromagnetic transitions at T-N1 = 3.5 K and T-N2 = 4.2 K, which;indicates the coexistence of superconductivity and magnetism. However,;the correlation between the superconductivity and the magnetism was too;weak to be observed. In its normal state, Pr2Pt3Ge5 revealed strong;magnetic anisotropy, probably due to the crystalline electric field;effect. DOI: 10.1103/PhysRevB.86.224507;1;0;0;0;1;1098-0121;WOS:000312364500004;;;J;Suzuki, Takafumi;Sato, Masahiro;Gapless edge states and their stability in two-dimensional quantum;magnets;PHYSICAL REVIEW B;86;22;224411;10.1103/PhysRevB.86.224411;DEC 14 2012;2012;We study the nature of edge states in extrinsically and spontaneously;dimerized states of two-dimensional spin-1/2 antiferromagnets, by;performing quantum Monte Carlo simulation. We show that a gapless edge;mode emerges in the wide region of the dimerized phases, and the;critical exponent of spin correlators along the edge deviates from the;value of Tomonaga-Luttinger liquid (TLL) universality in large but;finite systems at low temperatures. We also demonstrate that the gapless;nature at edges is stable against several perturbations such as external;magnetic field, easy-plane XXZ anisotropy, Dzyaloshinskii-Moriya;interaction, and further-neighbor exchange interactions. The edge states;exhibit non-TLL behavior, depending strongly on model parameters and;kinds of perturbations. Possible ways of detecting these edge states are;discussed. Properties of edge states we show in this paper could also be;used as reference points to study other edge states of more exotic;gapped magnetic phases such as spin liquids. DOI:;10.1103/PhysRevB.86.224411;0;0;0;0;0;1098-0121;WOS:000312364500002;;;J;Tian, H. Y.;Chan, K. S.;Wang, J.;Efficient spin injection in graphene using electron optics;PHYSICAL REVIEW B;86;24;245413;10.1103/PhysRevB.86.245413;DEC 14 2012;2012;We investigate theoretically spin injection efficiency from the;ferromagnetic graphene to normal graphene (FG/NG) based on electron;optics, where the magnetization in the FG is assumed from the magnetic;proximity effect. Based on a graphene lattice model, we demonstrated;that one spin-species electron flow from a point source could be nearly;suppressed through the FG-NG interface, when the total internal;reflection effect occurs with the help of an additional barrier masking;the Klein tunneling, while the opposite spin-species electron flow could;even be collimated due to the negative refraction under suitable;parameters. Not only at the focusing point is the efficient spin;injection achieved, but in the whole NG region the spin injection;efficiency can also be maintained at a high level. It is also shown that;the nonideal FG-NG interface could reduce the spin injection efficiency;since the electron optics phenomena are weakened owing to the;interfacial backscattering. Our findings may shed light on making;graphene-based spin devices in the spintronics field. DOI:;10.1103/PhysRevB.86.245413;3;0;2;0;3;1098-0121;WOS:000312365400005;;;J;Vasko, F. T.;Mitin, V. V.;Ryzhii, V.;Otsuji, T.;Interplay of intra- and interband absorption in a disordered graphene;PHYSICAL REVIEW B;86;23;235424;10.1103/PhysRevB.86.235424;DEC 14 2012;2012;The absorption of heavily doped graphene in the terahertz and;midinfrared spectral regions is considered, taking into account both the;elastic scattering due to finite-range disorder and the variations of;concentration due to long-range disorder. The interplay between intra-;and interband transitions is analyzed for the high-frequency regime of;response, near the Pauli blocking threshold. The gate voltage and;temperature dependencies of the absorption efficiency are calculated. It;is demonstrated that for typical parameters, the smearing of the;interband absorption edge is determined by a partly screened;contribution to long-range disorder while the intraband absorption is;determined by finite-range scattering. The latter yields the spectral;dependencies which deviate from those following from the Drude formula.;The obtained dependencies are in agreement with recent experimental;results. The comparison of the results of our calculations with the;experimental data provides a possibility to extract the disorder;characteristics. DOI: 10.1103/PhysRevB.86.235424;10;0;0;0;10;1098-0121;WOS:000312365100007;;;J;Violante, C.;Conte, A. Mosca;Bechstedt, F.;Pulci, O.;Geometric, electronic, and optical properties of the Si(111)2x1 surface:;Positive and negative buckling;PHYSICAL REVIEW B;86;24;245313;10.1103/PhysRevB.86.245313;DEC 14 2012;2012;The Si(111)2x1 is among the most investigated surfaces. Nonetheless,;several issues are still not understood. Its reconstruction is well;explained in terms of the Pandey model with a slight buckling (tilting);of the topmost atoms; two different isomers of the surface,;conventionally named positive and negative buckling, exist. Usually,;scanning tunneling microscopy (STM) experiments identify the positive;buckling isomer as the stable reconstruction at room temperature.;However, at low temperatures and for high n doping of the substrate,;recent scanning tunneling spectroscopy (STS) measurements found the;coexistence of positive and negative buckling on the Si(111) 2x1;surface. In this work, state-of-the-art ab initio methods, based on;density functional theory and on many-body perturbation theory, have;been used to obtain structural, electronic, and optical properties of;Si(111) 2x1 positive and negative buckling. The theoretical reflectance;anisotropy spectra (RAS), with the inclusion of the excitonic effects,;can provide a way to deepen the understanding of the coexistence of the;isomers. DOI: 10.1103/PhysRevB.86.245313;5;0;0;0;5;1098-0121;WOS:000312365400004;;;J;Yuge, Tatsuro;Sagawa, Takahiro;Sugita, Ayumu;Hayakawa, Hisao;Geometrical pumping in quantum transport: Quantum master equation;approach;PHYSICAL REVIEW B;86;23;235308;10.1103/PhysRevB.86.235308;DEC 14 2012;2012;For an open quantum system, we investigate the pumped current induced by;a slow modulation of control parameters on the basis of the quantum;master equation and full counting statistics. We find that the average;and the cumulant generating function of the pumped quantity are;characterized by the geometrical Berry-phase-like quantities in the;parameter space, which is associated with the generator of the master;equation. From our formulation, we can discuss the geometrical pumping;under the control of the chemical potentials and temperatures of;reservoirs. We demonstrate the formulation by spinless electrons in;coupled quantum dots. We show that the geometrical pumping is prohibited;for the case of noninteracting electrons if we modulate only;temperatures and chemical potentials of reservoirs, while the;geometrical pumping occurs in the presence of an interaction between;electrons. DOI: 10.1103/PhysRevB.86.235308;5;0;0;0;5;1098-0121;WOS:000312365100003;;;J;Zhang, Yanning;Wang, Hui;Wu, Ruqian;First-principles determination of the rhombohedral magnetostriction of;Fe100-xAlx and Fe100-xGax alloys;PHYSICAL REVIEW B;86;22;224410;10.1103/PhysRevB.86.224410;DEC 14 2012;2012;Through systematic density functional calculations using the full;potential linearized augmented plane-wave (FLAPW) method, the;rhombohedral magnetostriction (lambda(111)) of Fe100-xAlx and Fe100-xGax;alloys are studied for x up to 25. Theoretical calculations;satisfactorily reproduce the main features of experimental;lambda(111)(x) curves, except for dilute alloys with x < 5. Detailed;analyses on electronic and structural properties indicate the importance;of availability and symmetry of dangling bonds for the sign change of;lambda(111) around x = 16. In addition, the impurity induced local;distortion might be a possible reason for the disagreement between;theory and experiment for lambda(111) of the bulk bcc Fe. DOI:;10.1103/PhysRevB.86.224410;ZHANG, YANNING/A-3316-2013; Wu, Ruqian/C-1395-2013;0;0;0;0;0;1098-0121;WOS:000312364500001;;;J;Al Attar, Hameed A.;Monkman, Andrew P.;Controlled energy transfer between isolated donor-acceptor molecules;intercalated in thermally self-ensemble two-dimensional hydrogen bonding;cages;PHYSICAL REVIEW B;86;23;235420;10.1103/PhysRevB.86.235420;DEC 13 2012;2012;Thermally assembled hydrogen bonding cages which are neither size nor;guest specific have been developed using a poly (vinyl alcohol) (PVA);host. A water-soluble conjugated polymer;poly(2,5-bis(3-sulfonatopropoxy)-1,4-phenylene, disodium;salt-alt-1,4-phenylene) (PPP-OPSO3) as a donor and;tris(2,2-bipyridyl)-ruthenium(II) [Ru(bpy)(3)(2+)] as an acceptor have;been isolated and trapped in such a PVA matrix network. This is a unique;system that shows negligible exciton diffusion and the donor and;acceptor predominantly interact by a direct single step excitation;transfer process (DSSET). Singlet and triplet exciton quenching have;been studied. Time-resolved fluorescence lifetime measurement at;different acceptor concentrations has enabled us to determine the;dimensionality of the energy-transfer process within the PVA scaffold.;Our results reveal that the PVA hydrogen bonding network effectively;isolates the donor-acceptor molecules in a two-dimensional layer;structure (lamella) leading to the condition where a precise control of;the energy and charge transfer is possible.;Monkman, Andy/B-1521-2013;Monkman, Andy/0000-0002-0784-8640;0;0;0;0;0;1098-0121;WOS:000312291900005;;;J;Anzenberg, Eitan;Perkinson, Joy C.;Madi, Charbel S.;Aziz, Michael J.;Ludwig, Karl F., Jr.;Nanoscale surface pattern formation kinetics on germanium irradiated by;Kr+ ions;PHYSICAL REVIEW B;86;24;10.1103/PhysRevB.86.245412;DEC 13 2012;2012;Nanoscale surface topography evolution on Ge surfaces irradiated by 1;keV Kr+ ions is examined in both directions perpendicular and parallel;to the projection of the ion beam on the surface. Grazing incidence;small angle x-ray scattering is used to measure in situ the evolution of;surface morphology via the linear dispersion relation. A transition from;smoothing (stability) to pattern-forming instability is observed at a;critical ion incidence angle of approximately 62 degrees with respect to;the surface normal. The linear theory quadratic coefficients which;determine the surface stability/instability are determined as a function;of bombardment angle. The Ge surface evolution during Kr+ irradiation is;qualitatively similar to that observed for Ar+ irradiation of Si.;However, in contrast to the case of Si under Ar+ irradiation, the;critical angle separating stability and instability for Ge under Kr+;irradiation cannot be quantitatively reproduced by the simple;Carter-Vishnyakov mass redistribution model. DOI:;10.1103/PhysRevB.86.245412;5;0;0;0;5;1098-0121;WOS:000312292600006;;;J;Arnardottir, K. B.;Kyriienko, O.;Shelykh, I. A.;Hall effect for indirect excitons in an inhomogeneous magnetic field;PHYSICAL REVIEW B;86;24;245311;10.1103/PhysRevB.86.245311;DEC 13 2012;2012;We study the effect of an inhomogeneous out-of-plane magnetic field on;the behavior of two-dimensional (2D) spatially indirect excitons. Due to;the difference of the magnetic field acting on electrons and holes, the;total Lorentz force affecting the center of mass motion of an indirect;exciton appears. Consequently, an indirect exciton acquires an effective;charge proportional to the gradient of the magnetic field. The;appearance of the Lorentz force causes the Hall effect for neutral;bosons, which can be detected by measurement of the spatially;inhomogeneous blueshift of the photoluminescence using a counterflow;experiment. DOI: 10.1103/PhysRevB.86.245311;Kyriienko, Oleksandr/M-5163-2014;Kyriienko, Oleksandr/0000-0002-6259-6570;2;0;0;0;2;1098-0121;WOS:000312292600004;;;J;Baek, S. -H.;Loew, T.;Hinkov, V.;Lin, C. T.;Keimer, B.;Buechner, B.;Grafe, H. -J.;Evidence of a critical hole concentration in underdoped YBa2Cu3Oy single;crystals revealed by Cu-63 NMR;PHYSICAL REVIEW B;86;22;220504;10.1103/PhysRevB.86.220504;DEC 13 2012;2012;We report a Cu-63 NMR investigation in detwinned YBa2Cu3Oy single;crystals, focusing on the highly underdoped regime (y = 6.35-6.6).;Measurements of both the spectra and the spin-lattice relaxation rates;of Cu-63 uncover the emergence of static order at a well-defined onset;temperature T-0 with an as yet unknown order parameter. While T-0 is;rapidly suppressed with increasing hole doping concentration p, the spin;pseudogap was identified only near and above the doping content at which;T-0 -> 0. Our data indicate the presence of a critical hole doping p(c);similar to 0.1, which may control both the static order at p < p(c) and;the spin pseudogap at p > p(c). DOI: 10.1103/PhysRevB.86.220504;Baek, Seung-Ho/F-4733-2011;Baek, Seung-Ho/0000-0002-0059-8255;6;1;0;0;6;1098-0121;WOS:000312291200001;;;J;Bieri, Samuel;Serbyn, Maksym;Senthil, T.;Lee, Patrick A.;Paired chiral spin liquid with a Fermi surface in S=1 model on the;triangular lattice;PHYSICAL REVIEW B;86;22;224409;10.1103/PhysRevB.86.224409;DEC 13 2012;2012;Motivated by recent experiments on Ba3NiSb2O9, we investigate possible;quantum spin liquid ground states for spin S = 1 Heisenberg models on;the triangular lattice. We use variational Monte Carlo techniques to;calculate the energies of microscopic spin liquid wave functions where;spin is represented by three flavors of fermionic spinon operators.;These energies are compared with the energies of various competing;three-sublattice ordered states. Our approach shows that the;antiferromagnetic Heisenberg model with biquadratic term and single-ion;anisotropy does not have a low-temperature spin liquid phase. However,;for an SU(3)-invariant model with sufficiently strong ring-exchange;terms, we find a paired chiral quantum spin liquid with a Fermi surface;of deconfined spinons that is stable against all types of ordering;patterns we considered. We discuss the physics of this exotic spin;liquid state in relation to the recent experiment and suggest new ways;to test this scenario. DOI: 10.1103/PhysRevB.86.224409;Bieri, Samuel/L-1045-2013;11;0;0;0;11;1098-0121;WOS:000312291200002;;;J;Busch, M.;Seifert, J.;Meyer, E.;Winter, H.;Evidence for longitudinal coherence in fast atom diffraction;PHYSICAL REVIEW B;86;24;241402;10.1103/PhysRevB.86.241402;DEC 13 2012;2012;Angular distributions for grazing scattering of keV H atoms from an;Al2O3(11 (2) over bar0) surface were recorded. These distributions;reveal defined diffraction patterns which can be understood in terms of;quantum scattering from well-ordered surfaces. From the observation of;so-called Laue circles, we conclude a high degree of longitudinal;coherence for fast atom diffraction at surfaces which allows one to;resolve periodicity intervals of several 100 angstrom. We demonstrate;this feature in scattering experiments from the reconstructed (12 x 4);phase of an Al2O3(11 (2) over bar0) surface obtained after annealing at;temperatures of about 2000 K. DOI: 10.1103/PhysRevB.86.241402;4;0;0;0;4;1098-0121;WOS:000312292600002;;;J;Chen, Chien-Chun;Jiang, Huaidong;Rong, Lu;Salha, Sara;Xu, Rui;Mason, Thomas G.;Miao, Jianwei;Reply to "Comment on 'Three-dimensional imaging of a phase object from a;single sample orientation using an optical laser'";PHYSICAL REVIEW B;86;22;226102;10.1103/PhysRevB.86.226102;DEC 13 2012;2012;In a technical comment to our paper [Phys. Rev. B 84, 224104 (2011)],;Wei and Liu criticized our work without providing theoretical,;numerical, or experimental evidence. Furthermore, we believe they;misinterpreted our matrix rank analysis of ankylography and their;statements about our experiment are inaccurate. Below is our detailed;point-by-point response to their criticisms. DOI:;10.1103/PhysRevB.86.226102;Rong, Lu/L-6195-2014;Rong, Lu/0000-0003-4614-6411;0;0;0;0;0;1098-0121;WOS:000312291200004;;;J;Dubail, J.;Read, N.;Rezayi, E. H.;Edge-state inner products and real-space entanglement spectrum of trial;quantum Hall states;PHYSICAL REVIEW B;86;24;245310;10.1103/PhysRevB.86.245310;DEC 13 2012;2012;We consider the trial wave functions for the fractional quantum Hall;effect that are given by conformal blocks, and construct their;associated edge excited states in full generality. The inner products;between these edge states are computed in the thermodynamic limit,;assuming generalized screening (i.e., short-range correlations only);inside the quantum Hall droplet and using the language of boundary;conformal field theory (boundary CFT). These inner products take;universal values in this limit: they are equal to the corresponding;inner products in the bulk two-dimensional chiral CFT which underlies;the trial wave function. This is a bulk/edge correspondence; it shows;the equality between equal-time correlators along the edge and the;correlators of the bulk CFT up to a Wick rotation. This approach is then;used to analyze the entanglement spectrum of the ground state obtained;with a bipartition A boolean OR B in real space. Starting from our;universal result for inner products in the thermodynamic limit, we;tackle corrections to scaling using standard field-theoretic and;renormalization- group arguments. We prove that generalized screening;implies that the entanglement Hamiltonian H-E = -ln rho(A) is;isospectral to an operator that is local along the cut between A and B.;We also show that a similar analysis can be carried out for particle;partition. We discuss the close analogy between the formalism of trial;wave functions given by conformal blocks and tensor product states, for;which results analogous to ours have appeared recently. Finally, the;edge theory and entanglement spectrum of p(x) +/- ip(y) paired;superfluids are treated in a similar fashion in the Appendixes. DOI:;10.1103/PhysRevB.86.245310;Read, Nicholas/J-6030-2012;14;0;0;0;14;1098-0121;WOS:000312292600003;;;J;He, Jiangang;Franchini, Cesare;Screened hybrid functional applied to 3d(0)-> 3d(8) transition-metal;perovskites LaMO3 (M = Sc-Cu): Influence of the exchange mixing;parameter on the structural, electronic, and magnetic properties;PHYSICAL REVIEW B;86;23;235117;10.1103/PhysRevB.86.235117;DEC 13 2012;2012;We assess the performance of the Heyd-Scuseria-Ernzerhof (HSE) screened;hybrid density functional scheme applied to the perovskite family LaMO3;(M = Sc-Cu) and discuss the role of the mixing parameter alpha [which;determines the fraction of exact Hartree-Fock exchange included in the;density functional theory (DFT) exchange-correlation functional] on the;structural, electronic, and magnetic properties. The physical complexity;of this class of compounds, manifested by the largely varying electronic;characters (band/Mott-Hubbard/charge-transfer insulators and metals),;magnetic orderings, structural distortions (cooperative Jahn-Teller-type;instabilities), as well as by the strong competition between;localization/delocalization effects associated with the gradual filling;of the t(2g) and e(g) orbitals, symbolize a critical and challenging;case for theory. Our results indicate that HSE is able to provide a;consistent picture of the complex physical scenario encountered across;the LaMO3 series and significantly improve the standard DFT description.;The only exceptions are the correlated paramagnetic metals LaNiO3 and;LaCuO3, which are found to be treated better within DFT. By fitting the;ground-state properties with respect to alpha, we have constructed a set;of "optimum" values of alpha from LaScO3 to LaCuO3: it is found that the;optimum mixing parameter decreases with increasing filling of the d;manifold (LaScO3: 0.25; LaTiO3 and LaVO3: 0.10-0.15; LaCrO3, LaMnO3, and;LaFeO3: 0.15; LaCoO3: 0.05; LaNiO3 and LaCuO3: 0). This trend can be;nicely correlated with the modulation of the screening and dielectric;properties across the LaMO3 series, thus providing a physical;justification to the empirical fitting procedure. Finally, we show that;by using this set of optimum mixing parameter, HSE predict dielectric;constants in very good agreement with the experimental ones.;17;1;1;0;17;1098-0121;WOS:000312291900002;;;J;Imura, Ken-Ichiro;Yoshimura, Yukinori;Takane, Yositake;Fukui, Takahiro;Spherical topological insulator;PHYSICAL REVIEW B;86;23;235119;10.1103/PhysRevB.86.235119;DEC 13 2012;2012;The electronic spectrum on the spherical surface of a topological;insulator reflects an active property of the helical surface state that;stems from a constraint on its spin on a curved surface. The induced;spin connection can be interpreted as an effective vector potential;associated with a fictitious magnetic monopole induced at the center of;the sphere. The strength of the induced magnetic monopole is found to be;g = +/-2 pi, being the smallest finite (absolute) value compatible with;the Dirac quantization condition. We have established an explicit;correspondence between the bulk Hamiltonian and the effective Dirac;operator on the curved spherical surface. An explicit construction of;the surface spinor wave functions implies a rich spin texture possibly;realized on the surface of topological insulator nanoparticles. The;electronic spectrum inferred by the obtained effective surface Dirac;theory, confirmed also by the bulk tight-binding calculation, suggests a;specific photoabsorption/emission spectrum of such nanoparticles.;Imura, Ken/D-6633-2013;6;0;0;0;6;1098-0121;WOS:000312291900004;;;J;Kamburov, D.;Shayegan, M.;Winkler, R.;Pfeiffer, L. N.;West, K. W.;Baldwin, K. W.;Anisotropic Fermi contour of (001) GaAs holes in parallel magnetic;fields;PHYSICAL REVIEW B;86;24;241302;10.1103/PhysRevB.86.241302;DEC 13 2012;2012;We report a severe, spin-dependent, Fermi contour anisotropy induced by;parallel magnetic field in a high-mobility (001) GaAs two-dimensional;hole system. Employing commensurability oscillations created by a;unidirectional, surface-strain-induced, periodic potential modulation,;we directly probe the anisotropy of the two spin subband Fermi contours.;Their areas are obtained from the Fourier transform of the Shubnikov-de;Haas oscillations. Our findings are in semiquantitative agreement with;the results of parameter-free calculations of the energy bands. DOI:;10.1103/PhysRevB.86.241302;5;0;0;0;5;1098-0121;WOS:000312292600001;;;J;Kourtis, Stefanos;Venderbos, Joern W. F.;Daghofer, Maria;Fractional Chern insulator on a triangular lattice of strongly;correlated t(2g) electrons;PHYSICAL REVIEW B;86;23;235118;10.1103/PhysRevB.86.235118;DEC 13 2012;2012;We discuss the low-energy limit of three-orbital Kondo-lattice and;Hubbard models describing t(2g) orbitals on a triangular lattice near;half-filling. We analyze how very flat single-particle bands with;nontrivial topological character, a Chern number C = +/-1, arise both in;the limit of infinite on-site interactions as well as in more realistic;regimes. Exact diagonalization is then used to investigate an effective;one-orbital spinless-fermion model at fractional fillings including;nearest-neighbor interaction V; it reveals signatures of fractional;Chern insulator (FCI) states for several filling fractions. In addition;to indications based on energies, e. g., flux insertion and fractional;statistics of quasiholes, Chern numbers are obtained. It is shown that;FCI states are robust against disorder in the underlying magnetic;texture that defines the topological character of the band. We also;investigate competition between a FCI state and a charge density wave;(CDW) and discuss the effects of particle-hole asymmetry and;Fermi-surface nesting. FCI states turn out to be rather robust and do;not require very flat bands, but can also arise when filling or an;absence of Fermi-surface nesting disfavor the competing CDW.;Nevertheless, very flat bands allow FCI states to be induced by weaker;interactions than those needed for more dispersive bands.;Daghofer, Maria/C-5762-2008;Daghofer, Maria/0000-0001-9434-8937;10;0;0;0;10;1098-0121;WOS:000312291900003;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;23;230001;10.1103/PhysRevB.86.230001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312291900001;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;21;210001;10.1103/PhysRevB.86.210001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700001;;;J;Ochoa, H.;Castro Neto, A. H.;Fal'ko, V. I.;Guinea, F.;Spin-orbit coupling assisted by flexural phonons in graphene;PHYSICAL REVIEW B;86;24;245411;10.1103/PhysRevB.86.245411;DEC 13 2012;2012;We analyze the couplings between spins and phonons in graphene. We;present a complete analysis of the possible couplings between spins and;flexural, out-of-plane, vibrations. From tight-binding models, we obtain;analytical and numerical estimates of their strength. We show that;dynamical effects, induced by quantum and thermal fluctuations,;significantly enhance the spin-orbit gap. DOI:;10.1103/PhysRevB.86.245411;Guinea, Francisco/A-7122-2008; Castro Neto, Antonio/C-8363-2014;Guinea, Francisco/0000-0001-5915-5427; Castro Neto,;Antonio/0000-0003-0613-4010;9;1;0;0;9;1098-0121;WOS:000312292600005;;;J;Suewattana, Malliga;Singh, David J.;Limpijumnong, Sukit;Crystal structure and cation off-centering in Bi(Mg1/2Ti1/2)O-3 (vol 86,;064105, 2012);PHYSICAL REVIEW B;86;21;219903;10.1103/PhysRevB.86.219903;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700002;;;J;Wei, Haiqing;Liu, Shiyuan;Comment on "Three-dimensional imaging of a phase object from a single;sample orientation using an optical laser";PHYSICAL REVIEW B;86;22;226101;10.1103/PhysRevB.86.226101;DEC 13 2012;2012;A recent article by Chen et al. [Phys. Rev. B 84, 224104 (2011)];purports a "matrix rank analysis" and an optical experiment in support;of the three-dimensional (3D) imaging technique called "ankylography.";However, the mathematical analysis does not appear to be conclusive, and;the one used in the experiment is more a 3D-supported scattering object;of actually 2D complexity than a 3D-distributed scattering object of;truly 3D complexity. Consequently, the article provides little support;to the "ankylography" technique. DOI: 10.1103/PhysRevB.86.226101;Liu, Shiyuan/H-1463-2012;Liu, Shiyuan/0000-0002-0756-1439;1;0;0;0;1;1098-0121;WOS:000312291200003;;;J;Bobes, Omar;Zhang, Kun;Hofsaess, Hans;Ion beam induced surface patterns due to mass redistribution and;curvature-dependent sputtering;PHYSICAL REVIEW B;86;23;235414;10.1103/PhysRevB.86.235414;DEC 12 2012;2012;Recently it was reported that ion-induced mass redistribution would;solely determine nano pattern formation on ion-irradiated surfaces. We;investigate the pattern formation on amorphous carbon thin films;irradiated with Xe ions of energies between 200 eV and 10 keV. Sputter;yield as well as number of displacements within the collision cascade;vary strongly as function of ion energy and allow us to investigate the;contributions of curvature-dependent erosion according to the;Bradley-Harper model as well as mass redistribution according to the;Carter-Vishnyakov model. We find parallel ripple orientations for an ion;incidence angle of 60 degrees and for all energies. A transition to;perpendicular pattern orientation or a rather flat surface occurs around;80 degrees for energies between 1 keV and 10 keV. Our results are;compared with calculations based on both models. For the calculations we;extract the shape and size of Sigmund's energy ellipsoid (parameters a,;sigma, mu), the angle-dependent sputter yield, and the mean mass;redistribution distance from the Monte Carlo simulations with program;SDTrimSP. The calculated curvature coefficients S-x and S-y describing;the height evolution of the surface show that mass redistribution is;dominant for parallel pattern formation in the whole energy regime.;Furthermore, the angle where the parallel pattern orientation starts to;disappear is related to curvature-dependent sputtering. In addition, we;investigate the case of Pt erosion with 200 eV Ne ions, where mass;redistribution vanishes. In this case, we observe perpendicular ripple;orientation in accordance with curvature-dependent sputtering and the;predictions of the Bradley-Harper model.;10;0;0;0;10;1098-0121;WOS:000312291600004;;;J;Bradlyn, Barry;Goldstein, Moshe;Read, N.;Kubo formulas for viscosity: Hall viscosity, Ward identities, and the;relation with conductivity;PHYSICAL REVIEW B;86;24;245309;10.1103/PhysRevB.86.245309;DEC 12 2012;2012;Motivated by recent work on Hall viscosity, we derive from first;principles the Kubo formulas for the stress-stress response function at;zero wave vector that can be used to define the full complex;frequency-dependent viscosity tensor, both with and without a uniform;magnetic field. The formulas in the existing literature are frequently;incomplete, incorrect, or lack a derivation; in particular, Hall;viscosity is overlooked. Our approach begins from the response to a;uniform external strain field, which is an active time-dependent;coordinate transformation in d space dimensions. These transformations;form the group GL(d, R) of invertible matrices, and the infinitesimal;generators are called strain generators. These enable us to express the;Kubo formula in different ways, related by Ward identities; some of;these make contact with the adiabatic transport approach. The importance;of retaining contact terms, analogous to the diamagnetic term in the;familiar Kubo formula for conductivity, is emphasized. For;Galilean-invariant systems, we derive a relation between the stress;response tensor and the conductivity tensor that is valid at all;frequencies and in both the presence and absence of a magnetic field. In;the presence of a magnetic field and at low frequency, this yields a;relation between the Hall viscosity, the q(2) part of the Hall;conductivity, the inverse compressibility (suitably defined), and the;diverging part of the shear viscosity (if any); this relation;generalizes a result found recently by others. We show that the correct;value of the Hall viscosity at zero frequency can be obtained (at least;in the absence of low-frequency bulk and shear viscosity) by assuming;that there is an orbital spin per particle that couples to a perturbing;electromagnetic field as a magnetization per particle. We study several;examples as checks on our formulation. We also present formulas for the;stress response that directly generalize the Berry (adiabatic) curvature;expressions for zero-frequency Hall conductivity or viscosity to the;full tensors at all frequencies. DOI: 10.1103/PhysRevB.86.245309;Read, Nicholas/J-6030-2012;21;0;0;0;21;1098-0121;WOS:000312292400010;;;J;Calvo, Hernan L.;Classen, Laura;Splettstoesser, Janine;Wegewijs, Maarten R.;Interaction-induced charge and spin pumping through a quantum dot at;finite bias;PHYSICAL REVIEW B;86;24;245308;10.1103/PhysRevB.86.245308;DEC 12 2012;2012;We investigate charge and spin transport through an adiabatically;driven, strongly interacting quantum dot weakly coupled to two metallic;contacts with finite bias voltage. Within a kinetic equation approach,;we identify coefficients of response to the time-dependent external;driving and relate these to the concepts of charge and spin emissivities;previously discussed within the time-dependent scattering matrix;approach. Expressed in terms of auxiliary vector fields, the response;coefficients allow for a straightforward analysis of recently predicted;interaction-induced pumping under periodic modulation of the gate and;bias voltage [Reckermann et al., Phys. Rev. Lett. 104, 226803 (2010)].;We perform a detailed study of this effect and the related adiabatic;Coulomb blockade spectroscopy, and, in particular, extend it to spin;pumping. Analytic formulas for the pumped charge and spin in the regimes;of small and large driving amplitude are provided for arbitrary bias. In;the absence of a magnetic field, we obtain a striking, simple relation;between the pumped charge at zero bias and at bias equal to the Coulomb;charging energy. At finite magnetic field, there is a possibility to;have interaction-induced pure spin pumping at this finite bias value,;and generally, additional features appear in the pumped charge. For;large-amplitude adiabatic driving, the magnitude of both the pumped;charge and spin at the various resonances saturates at values which are;independent of the specific shape of the pumping cycle. Each of these;values provides an independent, quantitative measure of the junction;asymmetry. DOI: 10.1103/PhysRevB.86.245308;Calvo, Hernan/D-9825-2011; Wegewijs, Maarten/A-3512-2012; Splettstoesser, Janine/B-4003-2012;Wegewijs, Maarten/0000-0002-2972-3822;;6;0;1;0;6;1098-0121;WOS:000312292400009;;;J;Drummond, David;Pryadko, Leonid P.;Shtengel, Kirill;Suppression of hyperfine dephasing by spatial exchange of double quantum;dots;PHYSICAL REVIEW B;86;24;245307;10.1103/PhysRevB.86.245307;DEC 12 2012;2012;We examine the logical qubit system of a pair of electron spins in;double quantum dots. Each electron experiences a different hyperfine;interaction with the local nuclei of the lattice, leading to a relative;phase difference, and thus decoherence. Methods such as nuclei;polarization, state narrowing, and spin-echo pulses have been proposed;to delay decoherence. Instead we propose to suppress hyperfine dephasing;by the adiabatic rotation of the dots in real space, leading to the same;average hyperfine interaction. We show that the additional effects due;to the motion in the presence of spin-orbit coupling are still smaller;than the hyperfine interaction, and result in an infidelity below 10(-4);after ten decoupling cycles. We discuss a possible experimental setup;and physical constraints for this proposal. DOI:;10.1103/PhysRevB.86.245307;0;0;0;0;0;1098-0121;WOS:000312292400008;;;J;Estienne, B.;Regnault, N.;Bernevig, B. A.;D-algebra structure of topological insulators;PHYSICAL REVIEW B;86;24;241104;10.1103/PhysRevB.86.241104;DEC 12 2012;2012;In the quantum Hall effect, the density operators at different wave;vectors generally do not commute and give rise to the Girvin-MacDonald-;Plazmann (GMP) algebra, with important consequences such as ground-state;center-of-mass degeneracy at fractional filling fraction, and;W1+infinity symmetry of the filled Landau levels. We show that the;natural generalization of the GMP algebra to higher-dimensional;topological insulators involves the concept of a D commutator. For;insulators in even-dimensional space, the D commutator is isotropic and;closes, and its structure factors are proportional to the D/2 Chern;number. In odd dimensions, the algebra is not isotropic, contains the;weak topological insulator index (layers of the topological insulator in;one fewer dimension), and does not contain the Chern-Simons theta form.;This algebraic structure paves the way towards the identification of;fractional topological insulators through the counting of their;excitations. The possible relation to D-dimensional volume-preserving;diffeomorphisms and parallel transport of extended objects is also;discussed. DOI: 10.1103/PhysRevB.86.241104;7;0;0;0;7;1098-0121;WOS:000312292400001;;;J;Gingrich, E. C.;Quarterman, P.;Wang, Yixing;Loloee, R.;Pratt, W. P., Jr.;Birge, Norman O.;Spin-triplet supercurrent in Co/Ni multilayer Josephson junctions with;perpendicular anisotropy;PHYSICAL REVIEW B;86;22;224506;10.1103/PhysRevB.86.224506;DEC 12 2012;2012;We have measured spin-triplet supercurrent in Josephson junctions of the;form S/F'/F/F'/S, where S is superconducting Nb, F' is a thin Ni layer;with in-plane magnetization, and F is a Ni/[Co/Ni](n) multilayer with;out-of-plane magnetization. The supercurrent in these junctions decays;very slowly with F-layer thickness and is much larger than in similar;junctions not containing the two F' layers. Those two features are the;characteristic signatures of spin-triplet supercurrent, which is;maximized by the orthogonality of the magnetizations in the F and F';layers. Magnetic measurements confirm the out-of-plane anisotropy of the;Co/Ni multilayers. These samples have their critical current optimized;in the as-prepared state, which will be useful for future applications.;DOI: 10.1103/PhysRevB.86.224506;7;1;0;0;7;1098-0121;WOS:000312291100001;;;J;Golub, Anatoly;Grosfeld, Eytan;Charge resistance in a Majorana RC circuit;PHYSICAL REVIEW B;86;24;241105;10.1103/PhysRevB.86.241105;DEC 12 2012;2012;We investigate the dynamical charge response in a "Majorana Coulomb box";realized by two Majorana bound states hosted at the ends of a mesoscopic;topological superconductor. One side of the wire is coupled to a normal;lead and low frequency gate voltage is applied to the system. There is;no dc current; the system can be considered as an RC quantum circuit. We;calculate the effective capacitance and charge relaxation resistance.;The latter is in agreement with the Korringa-Shiba formula where,;however, the charge relaxation resistance is equal to h/2e(2). This;value corresponds to the strong Coulomb blockade limit described by a;resonant model formulated by Fu [Phys. Rev. Lett. 104, 056402 (2010)].;We also performed direct calculations using the latter model and defined;its parameters by direct comparison with our perturbation theory;results. DOI: 10.1103/PhysRevB.86.241105;4;1;0;0;4;1098-0121;WOS:000312292400002;;;J;Guenter, T.;Rubano, A.;Paparo, D.;Lilienblum, M.;Marrucci, L.;Granozio, F. Miletto;di Uccio, U. Scotti;Jany, R.;Richter, C.;Mannhart, J.;Fiebig, M.;Spatial inhomogeneities at the LaAlO3/SrTiO3 interface: Evidence from;second harmonic generation;PHYSICAL REVIEW B;86;23;235418;10.1103/PhysRevB.86.235418;DEC 12 2012;2012;Phase-sensitive, spatially resolved optical second-harmonic-generation;experiments were performed on LaAlO3/SrTiO3 heterostructures. Lateral;inhomogeneities on a length scale of approximate to 30 mu m are found;when a one-unit-cell-thick epitaxial monolayer of LaAlO3 is grown on;TiO2-terminated SrTiO3 single crystals. The inhomogeneity is absent in;samples with LaAlO3 layers of more than one unit cell. The results are;discussed in the framework of electronic, oxidic, and chemical;inhomogeneities.;Marrucci, Lorenzo/A-4331-2012; Richter, Christoph/A-6172-2013;Marrucci, Lorenzo/0000-0002-1154-8966; Richter,;Christoph/0000-0002-6591-1118;7;0;0;0;7;1098-0121;WOS:000312291600008;;;J;Huang, Zhoushen;Arovas, Daniel P.;Entanglement spectrum and Wannier center flow of the Hofstadter problem;PHYSICAL REVIEW B;86;24;245109;10.1103/PhysRevB.86.245109;DEC 12 2012;2012;We examine the quantum entanglement spectra and Wannier functions of the;square lattice Hofstadter model. Consistent with previous work on;entanglement spectra of topological band structures, we find that the;entanglement levels exhibit a spectral flow similar to that of the full;system's energy spectrum. While the energy spectra are continuous, with;cylindrical boundary conditions the entanglement spectra exhibit;discontinuities associated with the passage of an energy edge state;through the Fermi level. We show how the entanglement spectrum can be;understood by examining the band projectors of the full system and their;behavior under adiabatic pumping. In so doing we make connections with;the original work by Thouless, Kohmoto, Nightingale, and den Nijs (TKNN);[Phys. Rev. Lett. 49, 405 (1982)] on topological two-dimensional band;structures and their Chern numbers. Finally, we consider Wannier states;and their adiabatic flows and draw connections to the entanglement;properties. DOI: 10.1103/PhysRevB.86.245109;5;0;0;0;5;1098-0121;WOS:000312292400003;;;J;Humeniuk, Stephan;Roscilde, Tommaso;Quantum Monte Carlo calculation of entanglement Renyi entropies for;generic quantum systems;PHYSICAL REVIEW B;86;23;235116;10.1103/PhysRevB.86.235116;DEC 12 2012;2012;We present a general scheme for the calculation of the Renyi entropy of;a subsystem in quantum many-body models that can be efficiently;simulated via quantum Monte Carlo. When the simulation is performed at;very low temperature, the above approach delivers the entanglement Renyi;entropy of the subsystem, and it allows us to explore the crossover to;the thermal Renyi entropy as the temperature is increased. We implement;this scheme explicitly within the stochastic series expansion as well as;within path-integral Monte Carlo, and apply it to quantum spin and;quantum rotor models. In the case of quantum spins, we show that;relevant models in two dimensions with reduced symmetry (XX model or;hard-core bosons, transverse-field Ising model at the quantum critical;point) exhibit an area law for the scaling of the entanglement entropy.;23;0;0;0;23;1098-0121;WOS:000312291600002;;;J;Jacobs, Th;Katterwe, S. O.;Motzkau, H.;Rydh, A.;Maljuk, A.;Helm, T.;Putzke, C.;Kampert, E.;Kartsovnik, M. V.;Krasnov, V. M.;Electron-tunneling measurements of low-T-c single-layer;Bi2+xSr2-yCuO6+delta: Evidence for a scaling disparity between;superconducting and pseudogap states;PHYSICAL REVIEW B;86;21;214506;10.1103/PhysRevB.86.214506;DEC 12 2012;2012;We experimentally study intrinsic tunneling and high magnetic field (up;to 65 T) transport characteristics of the single-layer cuprate;Bi2+xSr2-yCuO6+delta, with a very low superconducting critical;temperature T-c less than or similar to 4 K. It is observed that the;superconducting gap, the collective bosonic mode energy, the upper;critical field, and the fluctuation temperature range are scaling down;with T-c, while the corresponding pseudogap characteristics remain the;same as in high-T-c cuprates with 20 to 30 times higher T-c. The;observed disparity of the superconducting and pseudogap scales clearly;reveals their different origins. DOI: 10.1103/PhysRevB.86.214506;Kartsovnik, Mark/E-3598-2013; Rydh, Andreas/A-7068-2012;Kartsovnik, Mark/0000-0002-3011-0169; Rydh, Andreas/0000-0001-6641-4861;4;1;0;0;4;1098-0121;WOS:000312290600002;;;J;Klinovaja, Jelena;Ferreira, Gerson J.;Loss, Daniel;Helical states in curved bilayer graphene;PHYSICAL REVIEW B;86;23;235416;10.1103/PhysRevB.86.235416;DEC 12 2012;2012;We study spin effects of quantum wires formed in bilayer graphene by;electrostatic confinement. With a proper choice of the confinement;direction, we show that in the presence of magnetic field, spin orbit;interaction induced by curvature, and intervalley scattering, bound;states emerge that are helical. The localization length of these helical;states can be modulated by the gate voltage which enables the control of;the tunnel coupling between two parallel wires. Allowing for proximity;effect via an s-wave superconductor, we show that the helical modes give;rise to Majorana fermions in bilayer graphene.;J. Ferreira, Gerson/K-1948-2013; Klinovaja, Jelena/L-2510-2013; Loss, Daniel/A-3721-2008;J. Ferreira, Gerson/0000-0002-4933-3119; Loss,;Daniel/0000-0001-5176-3073;17;0;0;0;17;1098-0121;WOS:000312291600006;;;J;Lee, Wei-Cheng;Phillips, Philip W.;Non-Fermi liquid due to orbital fluctuations in iron pnictide;superconductors;PHYSICAL REVIEW B;86;24;245113;10.1103/PhysRevB.86.245113;DEC 12 2012;2012;We study the influence of quantum fluctuations on the electron;self-energy in the normal state of iron pnictide superconductors using a;five-orbital tight-binding model with generalized Hubbard on-site;interactions. Within a one-loop treatment, we find that an overdamped;collective mode develops at low frequency in channels associated with;quasi-one-dimensional d(xz) and d(yz) bands. When the critical point for;the C-4-symmetry-broken phase (structural phase transition) is;approached, the overdamped collective modes soften, and acquire;increased spectral weight, resulting in non-Fermi-liquid behavior at the;Fermi surface characterized by a frequency dependence of the imaginary;part of the electron self-energy of the form. omega(lambda), 0 < lambda;< 1. We argue that this non-Fermi-liquid behavior is responsible for the;recently observed zero-bias enhancement in the tunneling signal in;point-contact spectroscopy. A key experimental test of this proposal is;the absence of non-Fermi-liquid behavior in the hole-doped materials.;Our result suggests that quantum criticality plays an important role in;understanding the normal-state properties of iron pnictide;superconductors. DOI: 10.1103/PhysRevB.86.245113;11;0;0;0;11;1098-0121;WOS:000312292400007;;;J;McKenna, Keith P.;Blumberger, Jochen;Crossover from incoherent to coherent electron tunneling between defects;in MgO;PHYSICAL REVIEW B;86;24;245110;10.1103/PhysRevB.86.245110;DEC 12 2012;2012;Long-range electron tunneling is a fundamental process that is critical;to the performance of oxide materials in microelectronics, energy;generation, and photocatalysis, but extremely challenging to probe;experimentally. Here we devise a computational approach that allows one;to probe the mechanism and calculate the rate of electron transfer (ET);in such materials from first principles. Application to ET between;defects in MgO reveals that the activation energy for ET depends;strongly on defect separation, an effect not usually taken into account;in semiempirical models of ET processes in oxides. Importantly, for;distances below a critical defect separation (6 angstrom), the nature of;ET changes from incoherent to coherent tunneling, suggesting that;existing empirical models require essential modifications. These;calculations extend first-principles modeling of ET in oxides to the;regime of long-range incoherent transport, an outstanding problem;important for modeling many processes of technological relevance. DOI:;10.1103/PhysRevB.86.245110;Blumberger, Jochen/L-5949-2013; McKenna, Keith/A-5084-2010;6;1;0;0;6;1098-0121;WOS:000312292400004;;;J;Mol, L. A. S.;Pereira, A. R.;Moura-Melo, W. A.;Extending spin ice concepts to another geometry: The artificial;triangular spin ice (vol 85, 184410, 2012);PHYSICAL REVIEW B;86;21;219902;10.1103/PhysRevB.86.219902;DEC 12 2012;2012;Mol, Lucas/D-9575-2013;Mol, Lucas/0000-0002-5001-0499;0;0;0;0;0;1098-0121;WOS:000312290600003;;;J;Palotas, Krisztian;Mandi, Gabor;Szunyogh, Laszlo;Orbital-dependent electron tunneling within the atom superposition;approach: Theory and application to W(110);PHYSICAL REVIEW B;86;23;235415;10.1103/PhysRevB.86.235415;DEC 12 2012;2012;We introduce an orbital-dependent electron tunneling model and implement;it within the atom superposition approach for simulating scanning;tunneling microscopy (STM) and spectroscopy (STS). Applying our method,;we analyze the convergence and the orbital contributions to the;tunneling current and the corrugation of constant-current STM images;above the W(110) surface. In accordance with a previous study [Heinze et;al., Phys. Rev. B 58, 16432 (1998)], we find atomic contrast reversal;depending on the bias voltage. Additionally, we analyze this effect;depending on the tip-sample distance using different tip models and find;two qualitatively different behaviors based on the tip orbital;composition. As an explanation, we highlight the role of the real-space;shape of the orbitals involved in the tunneling. STM images calculated;by our model agree well with those obtained using Tersoff and Hamann's;and Bardeen's approaches. The computational efficiency of our model is;remarkable as the k-point samplings of the surface and tip Brillouin;zones do not affect the computation time, in contrast to the Bardeen;method.;Palotas, Krisztian/C-5338-2009;5;0;0;0;5;1098-0121;WOS:000312291600005;;;J;Rodrigues, J. N. B.;Peres, N. M. R.;Lopes dos Santos, J. M. B.;Scattering by linear defects in graphene: A continuum approach;PHYSICAL REVIEW B;86;21;214206;10.1103/PhysRevB.86.214206;DEC 12 2012;2012;We study the low-energy electronic transport across periodic extended;defects in graphene. In the continuum low-energy limit, such defects act;as infinitessimally thin stripes separating two regions where the Dirac;Hamiltonian governs the low-energy phenomena. The behavior of these;systems is defined by the boundary condition imposed by the defect on;the massless Dirac fermions. We demonstrate how this low-energy boundary;condition can be computed from the tight-binding model of the defect;line. For simplicity we consider defect lines oriented along the zigzag;direction, which requires the consideration of only one copy of the;Dirac equation. Three defect lines of this kind are studied and shown to;be mappable between them: the pentagon-only, the zz(558), and the;zz(5757) defect lines. In addition, in this same limit, we calculate the;conductance across such defect lines with size L and find it to be;proportional to k(F)L at low temperatures. DOI:;10.1103/PhysRevB.86.214206;6;0;0;0;6;1098-0121;WOS:000312290600001;;;J;Saloriutta, Karri;Uppstu, Andreas;Harju, Ari;Puska, Martti J.;Ab initio transport fingerprints for resonant scattering in graphene;PHYSICAL REVIEW B;86;23;235417;10.1103/PhysRevB.86.235417;DEC 12 2012;2012;We have recently shown that by using a scaling approach for randomly;distributed topological defects in graphene, reliable estimates for;transmission properties of macroscopic samples can be calculated based;even on single-defect calculations [A. Uppstu et al., Phys. Rev. B 85,;041401 (2012)]. We now extend this approach of energy-dependent;scattering cross sections to the case of adsorbates on graphene by;studying hydrogen and carbon adatoms as well as epoxide and hydroxyl;groups. We show that a qualitative understanding of resonant scattering;can be gained through density functional theory results for a;single-defect system, providing a transmission "fingerprint";characterizing each adsorbate type. This information can be used to;reliably predict the elastic mean free path for moderate defect;densities directly using ab initio methods. We present tight-binding;parameters for carbon and epoxide adsorbates, obtained to match the;density-functional theory based scattering cross sections.;Puska, Martti/E-7362-2012; Harju, Ari/C-2828-2009;Harju, Ari/0000-0002-2233-2896;4;0;0;0;4;1098-0121;WOS:000312291600007;;;J;Schuster, R.;Pyon, S.;Knupfer, M.;Azuma, M.;Takano, M.;Takagi, H.;Buechner, B.;Angle-dependent spectral weight transfer and evidence of a;symmetry-broken in-plane charge response in Ca1.9Na0.1CuO2Cl2;PHYSICAL REVIEW B;86;24;245112;10.1103/PhysRevB.86.245112;DEC 12 2012;2012;We report about the energy and momentum dependent charge response in;Ca1.9Na0.1CuO2Cl2 employing electron energy-loss spectroscopy. Along the;diagonal of the Brillouin zone (BZ) we find a plasmon peak-indicating;the presence of metallic states in this momentum region-which emerges as;a consequence of substantial spectral-weight transfer from excitations;across the charge-transfer (CT) gap and is the two-particle;manifestation of the small Fermi pocket or arc observed with;photoemission in this part of the BZ. In contrast, the spectrum along;the [100] direction is almost entirely dominated by CT excitations,;reminiscent of the insulating parent compound. We argue that the;observed polarization dependent shape of the spectrum is suggestive of a;breaking of the underlying tetragonal lattice symmetry, possibly due to;fluctuating nematic order in the charge channel. In addition we find the;plasmon bandwidth to be suppressed compared to optimally doped cuprates.;DOI: 10.1103/PhysRevB.86.245112;Takagi, Hidenori/B-2935-2010; PYON, Sunseng/B-2618-2011; Azuma, Masaki/C-2945-2009;0;0;0;0;0;1098-0121;WOS:000312292400006;;;J;Swingle, Brian;Experimental signatures of three-dimensional fractional topological;insulators;PHYSICAL REVIEW B;86;24;245111;10.1103/PhysRevB.86.245111;DEC 12 2012;2012;In this paper we explore experimental signatures of fractional;topological insulators in three dimensions. These are states of matter;with a fully gapped bulk that host exotic gapless surface states and;fractionally charged quasiparticles. They are partially characterized by;a nontrivial magneto-electric response while preserving time reversal.;We describe how these phases appear in a variety of probes including;photoemmission, tunneling, and quantum oscillations. We also discuss the;effects of doping and proximate superconductivity. We argue that despite;our current theoretical inability to predict materials where such phases;will be realized, they should be relatively easy to detect;experimentally. DOI:10.1103/PhysRevB.86.245111;0;0;0;0;0;1098-0121;WOS:000312292400005;;;J;Thomas, Mark;Romito, Alessandro;Decoherence effects on weak value measurements in double quantum dots;PHYSICAL REVIEW B;86;23;235419;10.1103/PhysRevB.86.235419;DEC 12 2012;2012;We study the effect of decoherence on a weak value measurement in a;paradigm system consisting of a double quantum dot continuously measured;by a quantum point contact. Fluctuations of the parameters controlling;the dot state induce decoherence. We find that, for measurements longer;than the decoherence time, weak values are always reduced within the;range of the eigenvalues of the measured observable. For measurements at;shorter time scales, the measured weak value strongly depends on the;interplay between the decoherence dynamics of the system and the;detector backaction. In particular, depending on the postselected state;and the strength of the decoherence, a more frequent classical readout;of the detector might lead to an enhancement of weak values.;Romito, Alessandro/L-3564-2013;Romito, Alessandro/0000-0003-3082-6279;1;0;0;0;1;1098-0121;WOS:000312291600009;;;J;Witczak-Krempa, William;Sachdev, Subir;Quasinormal modes of quantum criticality;PHYSICAL REVIEW B;86;23;235115;10.1103/PhysRevB.86.235115;DEC 12 2012;2012;We study charge transport of quantum critical points described by;conformal field theories in 2 + 1 space-time dimensions. The transport;is described by an effective field theory on an asymptotically anti-de;Sitter space-time, expanded to fourth order in spatial and temporal;gradients. The presence of a horizon at nonzero temperatures implies;that this theory has quasinormal modes with complex frequencies. The;quasinormal modes determine the poles and zeros of the conductivity in;the complex frequency plane, and so fully determine its behavior on the;real frequency axis, at frequencies both smaller and larger than the;absolute temperature. We describe the role of particle-vortex or S;duality on the conductivity, specifically how it maps poles to zeros and;vice versa. These analyses motivate two sum rules obeyed by the quantum;critical conductivity: the holographic computations are the first to;satisfy both sum rules, while earlier Boltzmann-theory computations;satisfy only one of them. Finally, we compare our results with the;analytic structure of the O(N) model in the large-N limit, and other;CFTs.;Sachdev, Subir/A-8781-2013;Sachdev, Subir/0000-0002-2432-7070;13;0;0;0;13;1098-0121;WOS:000312291600001;;;J;Zielke, Robert;Braunecker, Bernd;Loss, Daniel;Cotunneling in the v=5/2 fractional quantum Hall regime;PHYSICAL REVIEW B;86;23;235307;10.1103/PhysRevB.86.235307;DEC 12 2012;2012;We show that cotunneling in the 5/2 fractional quantum Hall regime;allows us to test the Moore-Read wave function, proposed for this;regime, and to probe the nature of the fractional charge carriers. We;calculate the cotunneling current for electrons that tunnel between two;quantum Hall edge states via a quantum dot and for quasiparticles with;fractional charges e/4 and e/2 that tunnel via an antidot. While;electron cotunneling is strongly suppressed, the quasiparticle tunneling;shows signatures characteristic of the Moore-Read state. For comparison,;we also consider cotunneling between Laughlin states, and find that;electron transport between Moore-Read states and between Laughlin states;at filling factor 1/3 have identical voltage dependences.;Loss, Daniel/A-3721-2008;Loss, Daniel/0000-0001-5176-3073;0;0;0;0;0;1098-0121;WOS:000312291600003;;;J;de Andres, P. L.;Guinea, F.;Katsnelson, M. I.;Density functional theory analysis of flexural modes, elastic constants,;and corrugations in strained graphene;PHYSICAL REVIEW B;86;24;245409;10.1103/PhysRevB.86.245409;DEC 11 2012;2012;Ab initio density functional theory has been used to analyze flexural;modes, elastic constants, and atomic corrugations on single-and bi-layer;graphene. Frequencies of flexural modes are sensitive to compressive;stress; its variation under stress can be related to the anomalous;thermal expansion via a simple model based in classical elasticity;theory [P. L. de Andres, F. Guinea, and M. I. Katsnelson, Phys. Rev. B;86, 144103 (2012)]. Under compression, flexural modes are responsible;for a long-wavelength rippling with a large amplitude and a marked;anharmonic behavior. This is compared with corrugations created by;thermal fluctuations and the adsorption of a light impurity (hydrogen).;Typical values for the later are in the sub-Angstrom regime, while;maximum corrugations associated to bending modes quickly increase up to;a few Angstroms under a compressive stress, due to the intrinsic;instability of flexural modes. DOI: 10.1103/PhysRevB.86.245409;Katsnelson, Mikhail/D-4359-2012; Guinea, Francisco/A-7122-2008; de Andres, Pedro/B-2043-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Guinea, Francisco/0000-0001-5915-5427;;8;1;0;0;8;1098-0121;WOS:000312292100004;;;J;Glaessl, M.;Axt, V. M.;Polarization dependence of phonon influences in exciton-biexciton;quantum dot systems;PHYSICAL REVIEW B;86;24;245306;10.1103/PhysRevB.86.245306;DEC 11 2012;2012;We report on a strong dependence of the phonon-induced damping of Rabi;dynamics in an optically driven exciton-biexciton quantum dot system on;the polarization of the exciting pulse. While for a fixed pulse;intensity the damping is maximal for linearly polarized excitation, it;decreases with increasing ellipticity of the polarization. This finding;is most remarkable considering that the carrier-phonon coupling is spin;independent. In addition to simulations based on a numerically exact;real-time path-integral approach, we present an analysis within a;weak-coupling theory that allows for analytical expressions for the;pertinent damping rates. We demonstrate that an efficient coupling to;the biexciton state is of central importance for the reported;polarization dependencies. Further, we discuss influences of various;system parameters and show that, for finite biexciton binding energies,;Rabi scenarios differ qualitatively from the widely studied two-level;dynamics. DOI: 10.1103/PhysRevB.86.245306;2;0;0;0;2;1098-0121;WOS:000312292100003;;;J;Ishioka, J.;Fujii, T.;Katono, K.;Ichimura, K.;Kurosawa, T.;Oda, M.;Tanda, S.;Reply to "Comment on 'Charge-parity symmetry observed through Friedel;oscillations in chiral charge-density waves' ";PHYSICAL REVIEW B;86;24;247102;10.1103/PhysRevB.86.247102;DEC 11 2012;2012;We are responding to the Comment by J. Wezel on our paper. This study;was developed from our previous work [Ishioka et al., Phys. Rev. Lett.;105, 176401 (2010)]. In the PRL paper, H-CDW was defined as a new;parameter for expressing CDW chirality for the first time. In his;Comment, he claims that H-CDW is ill defined. He also claims that the;initial phase phi of the CDW wave function is a more appropriate;parameter for expressing chiral CDW, despite our early introduction of;phi to explain the experimental data described in the PRL paper.;However, we conclude that H-CDW can distinguish the CDW chirality by its;sign. Moreover, by considering different H-CDW signs, we had succeeded;in demonstrating the difference of the spatial distributions of CDWs as;shown in Fig. 4 of the PRB paper [Phys. Rev. B 84, 245125 (2011)]. In;our Reply, we discuss the validity of H-CDW. We show that his argument;regarding the identification of the CDW with the opposite sign of q is;wrong, since the logic is inapplicable to a wave function with a nonzero;phi. We also discuss the applicability of H-CDW to two- or;three-dimensional CDWs in transition metal dichalcogenides. DOI:;10.1103/PhysRevB.86.247102;0;0;0;0;0;1098-0121;WOS:000312292100007;;;J;Kallos, Efthymios;Chremmos, Ioannis;Yannopapas, Vassilios;Resonance properties of optical all-dielectric metamaterials using;two-dimensional multipole expansion;PHYSICAL REVIEW B;86;24;245108;10.1103/PhysRevB.86.245108;DEC 11 2012;2012;We examine the electromagnetic response of metamaterial unit elements;consisting of dielectric rods embedded in a nonmagnetic background;medium. We establish a theoretical framework in which the response is;described through the electric and magnetic multipole moments that are;simultaneously generated via the polarization currents that are excited;upon the incidence of plane waves. The corresponding dipole and;quadrupole polarizabilities are then calculated as a function of the Mie;scattering coefficients, and their resonances are mapped for the case of;dielectric cylindrical rods as a function of the geometry and the;material parameters used. The results provide critical insight into the;anisotropic response of two-dimensional rod-type metamaterials and can;be used as a unified methodology in the calculation of exotic effective;electromagnetic parameters involved in phenomena such as optical;magnetism. DOI: 10.1103/PhysRevB.86.245108;5;0;0;0;5;1098-0121;WOS:000312292100001;;;J;Lim, Linda Y.;Lany, Stephan;Chang, Young Jun;Rotenberg, Eli;Zunger, Alex;Toney, Michael F.;Angle-resolved photoemission and quasiparticle calculation of ZnO: The;need for d band shift in oxide semiconductors;PHYSICAL REVIEW B;86;23;235113;10.1103/PhysRevB.86.235113;DEC 11 2012;2012;ZnO is a prototypical semiconductor with occupied d(10) bands that;interact with the anion p states and is thus challenging for electronic;structure theories. Within the context of these theories, incomplete;cancellation of the self-interaction energy results in a Zn d band that;is too high in energy, resulting in upwards repulsion of the valence;band maximum (VBM) states, and an unphysical reduction of the band gap.;Methods such as GW should significantly reduce the self-interaction;error, and in order to evaluate such calculations, we measured;high-resolution and resonant angle-resolved photoemission spectroscopy;(ARPES) and compared these to several electronic structure calculations.;We find that, in a standard GW calculation, the d bands remain too high;in energy by more than 1 eV irrespective of the Hamiltonian used for;generating the input wave functions, causing a slight underestimation of;the band gap due to the p-d repulsion. We show that a good agreement;with the ARPES data over the full valence band spectrum is obtained,;when the Zn-d band energy is shifted down by applying an on-site;potential V-d for Zn-d states during the GW calculations to match the;measured d band position. The magnitude of the GW quasiparticle energy;shift relative to the initial density functional calculation is of;importance for the prediction of charged defect formation energies,;band-offsets, and ionization potentials. DOI: 10.1103/PhysRevB.86.235113;Zunger, Alex/A-6733-2013; Lim, Ying Wen Linda/A-8608-2012; Rotenberg, Eli/B-3700-2009; Chang, Young Jun/N-3440-2014;Rotenberg, Eli/0000-0002-3979-8844; Chang, Young Jun/0000-0001-5538-0643;15;0;0;0;15;1098-0121;WOS:000312291700002;;;J;Liu, Tao;Lee, Kenneth E.;Wang, Qi Jie;Microscopic density matrix model for optical gain of terahertz quantum;cascade lasers: Many-body, nonparabolicity, and resonant tunneling;effects;PHYSICAL REVIEW B;86;23;235306;10.1103/PhysRevB.86.235306;DEC 11 2012;2012;Intersubband semiconductor-Bloch equations are investigated by;incorporating many-body Coulomb interaction, nonparabolicity, and;coherence of resonant tunneling transport in a quantitative way based on;the density matrix theory. The calculations demonstrate the importance;of these parameters on optical properties, especially the optical gain;spectrum, of terahertz (THz) quantum cascade lasers (QCLs). The results;show that the lasing frequency at gain peak calculated by the proposed;microscopic density matrix model is closer to the experimentally;measured result, compared with that calculated by the existing;macroscopic density matrix model. Specifically, both the many-body;interaction and nonparabolicity effects red-shift the gain spectrum and;reduce the gain peak. In addition, as the injection-coupling strength;increases, the gain peak value is enhanced and the spectrum is slightly;broadened, while an increase of the extraction-coupling strength reduces;the gain peak value and broadens the gain spectrum. The dependence of;optical gain of THz QCLs on device parameters such as external;electrical bias, dephasing rate, doping density, and temperature is also;systematically studied in details. This model provides a more;comprehensive picture of the optical properties of THz QCLs from a;microscopic point of view and potentially enables a more accurate and;faster prediction and calculation of the device performance, e. g., gain;spectra, current-voltage characteristics, optical output powers, and;nonlinear amplitude-phase coupling. DOI: 10.1103/PhysRevB.86.235306;Wang, Qi Jie/E-6987-2010;5;0;0;0;5;1098-0121;WOS:000312291700004;;;J;Pedersen, Jesper Goor;Gunst, Tue;Markussen, Troels;Pedersen, Thomas Garm;Graphene antidot lattice waveguides;PHYSICAL REVIEW B;86;24;245410;10.1103/PhysRevB.86.245410;DEC 11 2012;2012;We introduce graphene antidot lattice waveguides: nanostructured;graphene where a region of pristine graphene is sandwiched between;regions of graphene antidot lattices. The band gaps in the surrounding;antidot lattices enable localized states to emerge in the central;waveguide region. We model the waveguides via a position-dependent mass;term in the Dirac approximation of graphene and arrive at analytical;results for the dispersion relation and spinor eigenstates of the;localized waveguide modes. To include atomistic details we also use a;tight-binding model, which is in excellent agreement with the analytical;results. The waveguides resemble graphene nanoribbons, but without the;particular properties of ribbons that emerge due to the details of the;edge. We show that electrons can be guided through kinks without;additional resistance and that transport through the waveguides is;robust against structural disorder. DOI: 10.1103/PhysRevB.86.245410;Goor Pedersen, Jesper/C-3965-2008; Gunst, Tue/C-6575-2013; Markussen, Troels/B-7800-2012;Goor Pedersen, Jesper/0000-0002-8411-240X; Gunst,;Tue/0000-0002-3000-5940; Markussen, Troels/0000-0003-1192-4025;9;0;0;0;9;1098-0121;WOS:000312292100005;;;J;Ramos, J. G. G. S.;Barbosa, A. L. R.;Bazeia, D.;Hussein, M. S.;Lewenkopf, C. H.;Generalized correlation functions for conductance fluctuations and the;mesoscopic spin Hall effect;PHYSICAL REVIEW B;86;23;235112;10.1103/PhysRevB.86.235112;DEC 11 2012;2012;We study the spin Hall conductance fluctuations in ballistic mesoscopic;systems. We obtain universal expressions for the spin and charge current;fluctuations, cast in terms of current-current autocorrelation;functions. We show that the latter are conveniently parametrized as;deformed Lorentzian shape lines, functions of an external applied;magnetic field and the Fermi energy. We find that the charge current;fluctuations show quite unique statistical features at the;symplectic-unitary crossover regime. Our findings are based on an;evaluation of the generalized transmission coefficients correlation;functions within the stub model and are amenable to experimental test.;DOI: 10.1103/PhysRevB.86.235112;1, INCT/G-5846-2013; Informacao quantica, Inct/H-9493-2013; Lewenkopf, Caio/A-1791-2014;Lewenkopf, Caio/0000-0002-2053-2798;1;0;0;0;1;1098-0121;WOS:000312291700001;;;J;Ruth, Marcel;Meier, Cedrik;Scaling coefficient for three-dimensional grain coalescence of ZnO on;Si(111);PHYSICAL REVIEW B;86;22;224108;10.1103/PhysRevB.86.224108;DEC 11 2012;2012;Grain-rotation-induced coalescence is a well-known growth mechanism of;granular/polycrystalline systems in two dimensions. In three-dimensional;(3D) crystals there are more degrees of freedom, and influences of the;substrate play an important role. In the present work we analyze the 3D;coalescence of ZnO grains on Si(111) by thermal annealing under O-2;atmosphere. Atomic force microscopy and electron backscatter diffraction;measurements reveal a significant increase in the mean grain diameter;and a reorientation that matches the substrate orientation. This;structural reorganization leads to a substantial enhancement of the;electronic layer quality. We describe the grain growth with a diffusive;model and find a volume scaling coefficient of 1.5. This proves that the;additional degrees of freedom significantly accelerate grain-rotation;induced coalescence in three dimensions. DOI: 10.1103/PhysRevB.86.224108;Meier, Cedrik/E-4877-2011;Meier, Cedrik/0000-0002-3787-3572;4;0;0;0;4;1098-0121;WOS:000312291300001;;;J;van den Berg, T. L.;Lombardo, P.;Kuzian, R. O.;Hayn, R.;Orbital polaron in double-exchange ferromagnets;PHYSICAL REVIEW B;86;23;235114;10.1103/PhysRevB.86.235114;DEC 11 2012;2012;We investigate the spectral properties of the two-orbital Hubbard model,;including the pair hopping term, by means of the dynamical mean field;method. This Hamiltonian describes materials in which ferromagnetism is;realized by the double-exchange mechanism, as for instance manganites,;nickelates, or diluted magnetic semiconductors. The spectral function of;the unoccupied states is characterized by a specific equidistant three;peak structure. We emphasize the importance of the double hopping term;on the spectral properties. We show the existence of a ferromagnetic;phase due to electron doping near n = 1 by the double-exchange;mechanism. A quasiparticle excitation at the Fermi energy is found that;we attribute to what we will call an orbital polaron. We derive an;effective spin-pseudospin Hamiltonian for the two-orbital;double-exchange model at n = 1 filling to explain the existence and;dynamics of this quasiparticle. DOI: 10.1103/PhysRevB.86.235114;Kuzian, Roman/C-9079-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Kuzian, Roman/0000-0002-6672-7224;;1;0;0;0;1;1098-0121;WOS:000312291700003;;;J;van Wezel, Jasper;Comment on "Charge-parity symmetry observed through Friedel oscillations;in chiral charge-density waves";PHYSICAL REVIEW B;86;24;247101;10.1103/PhysRevB.86.247101;DEC 11 2012;2012;In their publication [Phys. Rev. B 84, 245125 (2011)], Ishioka et al.;discuss the recently discovered chiral charge-density wave state in;1T-TiSe2 in terms of a parameter H-CDW, whose sign is suggested to;correspond to the handedness of the chiral order. Here, we point out;that H-CDW, as defined by Ishioka et al., cannot be used to characterize;chirality in that way. An alternative measure of chirality for the;specific case of 1T-TiSe2 is suggested. DOI: 10.1103/PhysRevB.86.247101;2;0;0;0;2;1098-0121;WOS:000312292100006;;;J;Wan, Li;Iacovella, Christopher R.;Nguyen, Trung D.;Docherty, Hugh;Cummings, Peter T.;Confined fluid and the fluid-solid transition: Evidence from absolute;free energy calculations;PHYSICAL REVIEW B;86;21;214105;10.1103/PhysRevB.86.214105;DEC 11 2012;2012;The debate on whether an organic fluid nanoconfined by mica sheets will;undergo a fluid-to-solid transition as the fluid film thickness is;reduced below a critical value has lasted over two decades. Extensive;experimental and simulation investigations have thus far left this;question only partially addressed. In this work, we adapt and apply;absolute free energy calculations to analyze the phase behavior of a;simple model for nanoconfined fluids, consisting of spherical;Lennard-Jones (LJ) molecules confined between LJ solid walls, which we;use in combination with grand-canonical molecular dynamics simulations.;Absolute Helmholtz free energy calculations of the simulated;nanoconfined systems directly support the existence of order-disorder;phase transition as a function of decreasing wall separation, providing;results in close agreement with previous experiments and detailed;atomistic simulations. DOI: 10.1103/PhysRevB.86.214105;Iacovella, Christopher/D-2050-2011; Cummings, Peter/B-8762-2013;Cummings, Peter/0000-0002-9766-2216;5;0;0;0;5;1098-0121;WOS:000312290000001;;;J;Zaletel, Michael P.;Mong, Roger S. K.;Exact matrix product states for quantum Hall wave functions;PHYSICAL REVIEW B;86;24;245305;10.1103/PhysRevB.86.245305;DEC 11 2012;2012;We show that the model wave functions used to describe the fractional;quantum Hall effect have exact representations as matrix product states;(MPS). These MPS can be implemented numerically in the orbital basis of;both finite and infinite cylinders, which provides an efficient way of;calculating arbitrary observables. We extend this approach to the;charged excitations and numerically compute their Berry phases. Finally,;we present an algorithm for numerically computing the real-space;entanglement spectrum starting from an arbitrary orbital basis MPS,;which allows us to study the scaling properties of the real-space;entanglement spectra on infinite cylinders. The real-space entanglement;spectrum obeys a scaling form dictated by the edge conformal field;theory, allowing us to accurately extract the two entanglement;velocities of the Moore-Read state. In contrast, the orbital space;spectrum is observed to scale according to a complex set of power laws;that rule out a similar collapse. DOI: 10.1103/PhysRevB.86.245305;16;0;0;0;16;1098-0121;WOS:000312292100002;;;J;Berdiyorov, G. R.;Chao, X. H.;Peeters, F. M.;Wang, H. B.;Moshchalkov, V. V.;Zhu, B. Y.;Magnetoresistance oscillations in superconducting strips: A;Ginzburg-Landau study;PHYSICAL REVIEW B;86;22;224504;10.1103/PhysRevB.86.224504;DEC 10 2012;2012;Within the time-dependent Ginzburg-Landau theory we study the dynamic;properties of current-carrying superconducting strips in the presence of;a perpendicular magnetic field. We found pronounced voltage peaks as a;function of the magnetic field, the amplitude of which depends both on;sample dimensions and external parameters. These voltage oscillations;are a consequence of moving vortices, which undergo alternating static;and dynamic phases. At higher fields or for high currents, the;continuous motion of vortices is responsible for the monotonic;background on which the resistance oscillations due to the entry of;additional vortices are superimposed. Mechanisms for such;vortex-assisted resistance oscillations are discussed. Qualitative;changes in the magnetoresistance curves are observed in the presence of;random defects, which affect the dynamics of vortices in the system.;Zhu, Bei Yi/C-1506-2011; Moshchalkov, Victor/I-7232-2013; Wang, HB/M-7461-2013;2;0;0;0;2;1098-0121;WOS:000312064300004;;;J;Bogan, A.;Hatke, A. T.;Studenikin, S. A.;Sachrajda, A.;Zudov, M. A.;Pfeiffer, L. N.;West, K. W.;Microwave-induced resistance oscillations in tilted magnetic fields;PHYSICAL REVIEW B;86;23;235305;10.1103/PhysRevB.86.235305;DEC 10 2012;2012;We have studied the effect of an in-plane magnetic field on;microwave-induced resistance oscillations in a high mobility;two-dimensional electron system. We have found that the oscillation;amplitude decays exponentially with an in-plane component of the;magnetic field B-parallel to. While these findings cannot be accounted;for by existing theories, our analysis suggests that the decay can be;explained by a B-parallel to-induced correction to the quantum;scattering rate, which is quadratic in B-parallel to.;Zudov, Michael/A-3013-2008;7;1;0;0;7;1098-0121;WOS:000312064700005;;;J;Dahl, J.;Kuzmin, M.;Adell, J.;Balasubramanian, T.;Laukkanen, P.;Formation of polar InN with surface Fermi level near the valence band;maximum by means of ammonia nitridation;PHYSICAL REVIEW B;86;24;245304;10.1103/PhysRevB.86.245304;DEC 10 2012;2012;Development of InN films for devices is hindered due to metallic In;clusters, formed readily during growth, and unintentional n-type;conductivity of the nominally undoped films, including surface;electron-accumulation layers via the Fermi level pinning into the;conduction band. Plasma nitridation eliminates even large In clusters;from the surface by changing them to two-dimensional InN [Yamaguchi and;Nanishi, Appl. Phys. Expr. 2, 051001 (2009)]. Here we utilized a similar;approach, that is, nitridation of In-covered surfaces with ammonia (NH3);to grow thin, up to 25 nm thick polar InN films on Si(111) and GaN(0001);substrates. By means of scanning tunneling microscopy and spectroscopy,;as well as photoelectron spectroscopy, we show that this simple NH3;nitridation provides the hitherto not reported formation of polar;InN(000-1) films with the surface Fermi level close to the valence band;maximum, as recent calculations [Belabbes et al., Phys. Rev. B 84,;205304 (2011)] predict. DOI: 10.1103/PhysRevB.86.245304;1;0;0;0;1;1098-0121;WOS:000312065400006;;;J;Ghosh, Sankha;English, Niall J.;Ab initio study on optoelectronic properties of interstitially versus;substitutionally doped titania;PHYSICAL REVIEW B;86;23;235203;10.1103/PhysRevB.86.235203;DEC 10 2012;2012;Density functional theory calculations were performed for Cr, N, and C;monodoping in both rutile and anatase phases of crystalline titania. The;formation and binding energies, electronic structure, and optical;properties were determined. It was found that although C has a;predominant preference for occupying a lattice O-site, N has higher;preference for interstitial occupancy in the vicinity of an O atom in;anatase, whereas both prefer to maintain interstitial occupancy in;rutile, albeit with both N and C exhibiting a relatively higher;preference for anatase over rutile. Furthermore, Cr is more;energetically stable in the rutile phase relative to anatase for;substitutional doping, albeit with comparable formation energies for;both interstitial and substitutional doping. Interstitial C-impurities;were observed to occupy the oxygen lattice sites in anatase, but not in;rutile. In terms of N-doping, it was found that interstitial doping;exhibits higher visible light photoactivity than substitutional doping.;1;0;0;0;1;1098-0121;WOS:000312064700003;;;J;Howie, Ross T.;Scheler, Thomas;Guillaume, Christophe L.;Gregoryanz, Eugene;Proton tunneling in phase IV of hydrogen and deuterium;PHYSICAL REVIEW B;86;21;214104;10.1103/PhysRevB.86.214104;DEC 10 2012;2012;Using in situ optical spectroscopy we have investigated the temperature;stability of the mixed atomic and molecular phases IV of dense deuterium;and hydrogen. Through a series of low-temperature experiments at high;pressures, we observe phase III-to-IV transformation, imposing;constraints on the P-T phase diagrams. The spectral features of the;phase IV-III transition and differences in appearances of the isotopes;Raman spectra strongly indicate the presence of proton tunneling in;phase IV. No differences between isotopes were observed in absorption;spectroscopic studies, resulting in identical values for the band gap.;The extrapolation of the combined band gap yields 375 GPa as the minimum;transition pressure to the metallic state of hydrogen (deuterium). The;minute changes in optical spectra above 275 GPa might suggest the;presence of a new solid modification of hydrogen (deuterium), closely;related structurally to phase IV. DOI: 10.1103/PhysRevB. 86.214104;15;1;0;0;15;1098-0121;WOS:000312063700001;;;J;Hrahsheh, Fawaz;Hoyos, Jose A.;Vojta, Thomas;Rounding of a first-order quantum phase transition to a strong-coupling;critical point;PHYSICAL REVIEW B;86;21;214204;10.1103/PhysRevB.86.214204;DEC 10 2012;2012;We investigate the effects of quenched disorder on first-order quantum;phase transitions on the example of the N-color quantum Ashkin-Teller;model. By means of a strong-disorder renormalization group, we;demonstrate that quenched disorder rounds the first-order quantum phase;transition to a continuous one for both weak and strong coupling between;the colors. In the strong-coupling case, we find a distinct type of;infinite-randomness critical point characterized by additional internal;degrees of freedom. We investigate its critical properties in detail and;find stronger thermodynamic singularities than in the random transverse;field Ising chain. We also discuss the implications for higher spatial;dimensions as well as unusual aspects of our renormalization-group;scheme. DOI: 10.1103/PhysRevB.86.214204;Hoyos, Jose/F-2742-2012;2;0;0;0;2;1098-0121;WOS:000312063700002;;;J;Huevonen, D.;Zhao, S.;Ehlers, G.;Mansson, M.;Gvasaliya, S. N.;Zheludev, A.;Excitations in a quantum spin liquid with random bonds;PHYSICAL REVIEW B;86;21;214408;10.1103/PhysRevB.86.214408;DEC 10 2012;2012;We present the results of an inelastic neutron-scattering study on two;bond disordered quasi-two-dimensional quantum magnets;(C4H12N2)Cu-2(Cl1-xBrx)(6) with x = 0.035 and 0.075. We observe an;increase of spin gap, a reduction of magnon bandwidth, and a decrease of;magnon lifetimes compared to the x = 0 sample. Additional magnon damping;is observed at higher energies away from the zone center, which is found;to follow the density of single-particle states. DOI:;10.1103/PhysRevB.86.214408;Instrument, CNCS/B-4599-2012; Ehlers, Georg/B-5412-2008; Huvonen, Dan/A-6664-2008; Mansson, Martin/C-1134-2014;8;0;0;0;8;1098-0121;WOS:000312063700005;;;J;Hwang, Kyusung;Park, Kwon;Kim, Yong Baek;Influence of Dzyaloshinskii-Moriya interactions on magnetic structure of;a spin-1/2 deformed kagome lattice antiferromagnet;PHYSICAL REVIEW B;86;21;214407;10.1103/PhysRevB.86.214407;DEC 10 2012;2012;Motivated by the recent neutron-scattering experiment on Rb2Cu3SnF12;[Nature Phys. 6, 865 (2010)], we investigate the effect of;Dzyaloshinskii-Moriya interactions in a theoretical model for the;magnetic structure of this material. Considering the valence bond solid;ground state, which has a 12-site unit cell, we develop the bond;operator mean-field theory. It is shown that the Dzyaloshinskii-Moriya;interactions significantly modify the triplon dispersions around the;Gamma point and cause a shift of the spin-gap (the minimum triplon gap);position from the K to Gamma point in the first Brillouin zone. The spin;gap is also evaluated in exact diagonalization studies on a 24-site;cluster. We discuss a magnetic transition induced by the;Dzyaloshinskii-Moriya interactions in the bond operator framework.;Moreover, the magnetization process under external magnetic fields is;studied within the exact diagonalization approach. We find that the;results of both approaches are consistent with the experimental;findings. DOI: 10.1103/PhysRevB.86.214407;3;0;0;0;3;1098-0121;WOS:000312063700004;;;J;Ignacio, M.;Pierre-Louis, O.;Impalement dynamics and Brownian motion of solid islands on nanopillars;PHYSICAL REVIEW B;86;23;235410;10.1103/PhysRevB.86.235410;DEC 10 2012;2012;We study the dynamics of solid islands deposited on nanopillars using;kinetic Monte Carlo simulations. The islands are initially placed on the;top of the pillars, in the so-called Cassie-Baxter state. For high;pillars, the dynamics is divided into two phases. The first phase;corresponds to the deterministic and irreversible impalement of the;island. The dynamics of this phase is governed by surface diffusion.;Once the island has collapsed, a second phase is observed where the;island exhibits Brownian motion along the pillars, characterized by a;diffusion constant D-i and a kinetic coefficient K-i accounting for the;interaction of the island with the top of the pillars. The random walk;stops when the island reaches the bottom of the substrate, where it;sticks irreversibly. When the island wettability is small, the island;diffusion constant D-i is controlled by adatom diffusion, and scales as;the inverse of the number of atoms in the island. In contrast, for large;wettabilities, we observe that D-i oscillates as the island size is;increased. The minimum of the oscillations corresponds to;nucleation-limited dynamics, where D-i is independent of the island;size. We also determine the time for partial irreversible collapse on;shorter pillars, leading to the so-called Wenzel state. Finally, we;discuss the orders of magnitude of the typical duration of these;processes.;2;0;0;0;2;1098-0121;WOS:000312064700007;;;J;Jarlborg, T.;Barbiellini, B.;Markiewicz, R. S.;Bansil, A.;Different doping from apical and planar oxygen vacancies in;Ba2CuO4-delta and La2CuO4-delta: First-principles band structure;calculations;PHYSICAL REVIEW B;86;23;235111;10.1103/PhysRevB.86.235111;DEC 10 2012;2012;First-principles band structure calculations for large supercells of;Ba2CuO4-delta and La2CuO4-delta with different distributions and;concentrations of oxygen vacancies show that the effective doping on;copper sites strongly depends on where the vacancy is located. A vacancy;within the Cu layer produces a weak doping effect while a vacancy;located at an apical oxygen site acts as a stronger electron dopant on;the copper layers and gradually brings the electronic structure close to;that of La2-xSrxCuO4. These effects are robust and only depend;marginally on lattice distortions. Our results show that deoxygenation;can reduce the effect of traditional La/Sr or La/Nd substitutions. Our;study clearly identifies location of the dopant in the crystal structure;as an important factor in doping of the cuprate planes.;6;0;0;0;6;1098-0121;WOS:000312064700002;;;J;Kunimori, K.;Nakamura, M.;Nohara, H.;Tanida, H.;Sera, M.;Nishioka, T.;Matsumura, M.;Unusual magnetic order in CeT2Al10 (T = Ru, Os) in comparison with;localized NdFe2Al10;PHYSICAL REVIEW B;86;24;245106;10.1103/PhysRevB.86.245106;DEC 10 2012;2012;We have investigated the magnetic properties in the well localized;compound NdFe2Al10 and the Kondo semiconductor CeT2Al10 (T = Ru, Os) to;clarify the origin of the unusual magnetic order in CeT2Al10. In;NdFe2Al10, the experimental results of the magnetic properties could be;reproduced very well by the mean-field calculation for the;two-sublattice model. In CeT2Al10 we could reproduce the anisotropic;magnetic susceptibility in the paramagnetic region above 60-100 K very;well by the mean-field calculation for the two-sublattice model;introducing an anisotropic exchange interaction and the recently;determined crystalline electric field (CEF) level scheme from Strigari;et al. [Phys. Rev. B 86, 081105 (2012)]. However, in the;antiferromagnetic (AFM) ordered state, we could not reproduce the;experimental results at all in the framework of the mean-field;calculation for the two-sublattice model. We propose that although the;magnetic properties in the paramagnetic region above 60-100 K could be;understood well by a localized picture, the ordered state could not, and;that the c-f hybridization, especially along the a axis, is associated;with the unusual magnetic order in CeT2Al10. DOI:;10.1103/PhysRevB.86.245106;Tanida, Hiroshi/E-1878-2013;14;0;0;0;14;1098-0121;WOS:000312065400003;;;J;Lee, Jin Bae;Hong, Won G.;Kim, Hae Jin;Jaglicic, Z.;Jazbec, S.;Wencka, M.;Jelen, A.;Dolinsek, J.;Canted antiferromagnetism on a nanodimensional spherical surface;geometry: The case of MnCO3 small hollow nanospheres;PHYSICAL REVIEW B;86;22;224407;10.1103/PhysRevB.86.224407;DEC 10 2012;2012;Canted antiferromagnetism on a nanodimensional spherical surface;geometry was investigated on manganese carbonate MnCO3 small hollow;nanospheres of mean diameter 7.0 +/- 0.3 nm and shell thickness of 0.7;nm, by performing magnetic measurements and specific heat study, in;comparison to the bulk form of the same material. Contrary to the;expectation that small magnetic nanoparticles become superparamagnetic,;the phase transition to the canted antiferromagnetic (AFM) state in the;MnCO3 hollow nanospheres is preserved and retains, at a qualitative;level, all the features of the canted AFM state of the bulk material. At;a quantitative level, some significant differences between the hollow;nanospheres and the bulk were observed, which can all be explained by;the weakened interspin interactions in the hollow nanospheres due to;reduced atomic coordination by the neighboring atoms. This makes the;canted AFM structure of the hollow nanospheres more soft and fragile;with respect to external forces like the magnetic field, as compared to;the rigid and robust structure of the bulk material.;1;0;0;0;1;1098-0121;WOS:000312064300002;;;J;Levkivskyi, Ivan P.;Froehlich, Juerg;Sukhorukov, Eugene V.;Theory of fractional quantum Hall interferometers;PHYSICAL REVIEW B;86;24;245105;10.1103/PhysRevB.86.245105;DEC 10 2012;2012;Interference of fractionally charged quasiparticles is expected to lead;to Aharonov-Bohm oscillations with periods larger than the flux quantum.;However, according to the Byers-Yang theorem, observables of an;electronic system are invariant under an adiabatic insertion of a;quantum of singular flux. We resolve this seeming paradox by considering;a microscopic model of electronic interferometers made from a quantum;Hall liquid at filling factor 1/m with the shape of a Corbino disk. In;such interferometers, the quantum Hall edge states are utilized in place;of optical beams, the quantum point contacts play the role of beam;splitters connecting different edge channels, and Ohmic contacts;represent a source and drain of quasiparticle currents. Depending on the;position of Ohmic contacts, one distinguishes interferometers of;Fabry-Perot (FP) and Mach-Zehnder (MZ) type. An approximate ground state;of such interferometers is described by a Laughlin-type wave function,;and low-energy excitations are incompressible deformations of this;state. We construct a low-energy effective theory by restricting the;microscopic Hamiltonian of electrons to the space of incompressible;deformations and show that the theory of the quantum Hall edge so;obtained is a generalization of a chiral conformal field theory. In our;theory, a quasiparticle tunneling operator is found to be a;single-valued function of tunneling point coordinates, and its phase;depends on the topology determined by the positions of Ohmic contacts.;We describe strong coupling of the edge states to Ohmic contacts and the;resulting quasiparticle current through the interferometer with the help;of a master equation. We find that the coherent contribution to the;average quasiparticle current through MZ interferometers does not vanish;after summation over quasiparticle degrees of freedom. However, it;acquires oscillations with the electronic period, in agreement with the;Byers-Yang theorem. Importantly, our theory does not rely on any ad hoc;constructions, such as Klein factors, etc. When the magnetic flux;through an FP interferometer is varied with a modulation gate, current;oscillations have the quasiparticle periodicity, thus allowing for;spectroscopy of quantum Hall edge states. DOI:;10.1103/PhysRevB.86.245105;2;0;0;0;2;1098-0121;WOS:000312065400002;;;J;Li, Chun-Mei;Luo, Hu-Bin;Hu, Qing-Miao;Yang, Rui;Johansson, Borje;Vitos, Levente;Role of magnetic and atomic ordering in the martensitic transformation;of Ni-Mn-In from a first-principles study;PHYSICAL REVIEW B;86;21;214205;10.1103/PhysRevB.86.214205;DEC 10 2012;2012;The composition-dependent lattice parameters, crystal structure, elastic;properties, magnetic moment, and electronic structure of Ni2Mn1+xIn1-x;(0 <= x <= 0.6) are studied by using first-principles calculations. It;is shown that the martensitic phase transition (MPT) from cubic L2(1) to;tetragonal L1(0) accompanies theMn(Mn)-Mn-In ferromagnetic (FM) to;antiferromagnetic (AFM) transition, at around the critical composition x;= 0.32, in agreement with the experimental measurement. The Mn-In atomic;disorder leads to decreasing stability of the martensite relative to the;austenite, which depresses the MPT. The shear elastic constant C' of the;parent phase first decreases slightly with increasing x and then remains;almost unchanged above x = 0.32, indicating C' alone cannot account for;the increase of the MPT temperature with x. The total magnetic moments;for the L2(1) phase are in good agreement with those determined by;experiments, whereas for the L1(0) phase they are slightly larger than;the experimental data due to the possibleMn-In atomic disorder in the;sample. The calculated density of states demonstrate that the covalent;bonding between the minority spin states of Ni and In plays an important;role in both the magnetic and structural stability. DOI:;10.1103/PhysRevB.86.214205;Hu, Qing-Miao/D-3345-2014;5;0;0;0;5;1098-0121;WOS:000312063700003;;;J;Liu, Bin;Seko, Atsuto;Tanaka, Isao;Cluster expansion with controlled accuracy for the MgO/ZnO pseudobinary;system via first-principles calculations;PHYSICAL REVIEW B;86;24;245202;10.1103/PhysRevB.86.245202;DEC 10 2012;2012;Using the cluster analysis of the structure population (CASP) method,;error of cluster expansion (CE) can be controlled. Combining the CASP-CE;with a systematic set of first-principles total energies, a model;wide-gap pseudobinary system with simple crystal structures MgO-ZnO is;revisited. Ground-state structures are exhaustively searched for both;rocksalt and wurtzite structures. A few structures as yet unreported are;found. The vibrational contribution to the Gibbs free-energy is;evaluated by first-principles phonon calculations within the;quasiharmonic approximation. Monte Carlo simulations are then made to;compute grand potentials of two structures using the thermodynamic;integration. DOI: 10.1103/PhysRevB.86.245202;Tanaka, Isao/B-5941-2009; Liu, Bin/N-9955-2014;1;1;0;0;1;1098-0121;WOS:000312065400005;;;J;Liu, Pan;Santana, Juan A. Colon;Dai, Qilin;Wang, Xianjie;Dowben, Peter A.;Tang, Jinke;Sign of the superexchange coupling between next-nearest neighbors in EuO;PHYSICAL REVIEW B;86;22;224408;10.1103/PhysRevB.86.224408;DEC 10 2012;2012;The sign of the superexchange coupling J(2) between next-nearest;neighboring Eu2+ magnetic moments in EuO is a matter subject to debate.;We have obtained evidence that this coupling is of antiferromagnetic;nature (J(2) < 0). EuO thin films grown at different temperatures;suggest that lattice expansion results in enhancement of T-C as clearly;observed in stoichiometric EuO films grown on CaF2 substrates. Resonant;photoemission spectroscopy provides compelling evidence of strong;hybridization between O 2p and Eu 5d6s6p weighted bands, suggesting that;strong superexchange may be mediated by oxygen, thus consistent with the;observed antiferromagnetic behavior between the next-nearest neighboring;Eu atoms via nearest neighbor oxygen in EuO.;Dai, Qilin/K-1437-2013;2;0;0;0;2;1098-0121;WOS:000312064300003;;;J;Luisier, Mathieu;Atomistic modeling of anharmonic phonon-phonon scattering in nanowires;PHYSICAL REVIEW B;86;24;245407;10.1103/PhysRevB.86.245407;DEC 10 2012;2012;Phonon transport is simulated in ultrascaled nanowires in the presence;of anharmonic phonon-phonon scattering. A modified valence-force-field;model containing four types of bond deformation is employed to describe;the phonon band structure. The inclusion of five additional bond;deformation potentials allows us to account for anharmonic effects.;Phonon-phonon interactions are introduced through inelastic scattering;self-energies solved in the self-consistent Born approximation in the;nonequilibrium Green's function formalism. After calibrating the model;with experimental data, the thermal current, resistance, and;conductivity of < 100 >-, < 110 >-, and < 111 >-oriented Si nanowires;with different lengths and temperatures are investigated in the presence;of anharmonic phonon-phonon scattering and compared to their ballistic;limit. It is found that all the simulated thermal currents exhibit a;peak at temperatures around 200 K if phonon scattering is turned on;while they monotonically increase when this effect is neglected.;Finally, phonon transport through Si-Ge-Si nanowires is considered. DOI:;10.1103/PhysRevB.86.245407;12;1;0;0;12;1098-0121;WOS:000312065400007;;;J;Nemirovskii, Sergey K.;Fluctuations of the vortex line density in turbulent flows of quantum;fluids;PHYSICAL REVIEW B;86;22;224505;10.1103/PhysRevB.86.224505;DEC 10 2012;2012;We present an analytical study of fluctuations of the vortex line;density (VLD) in turbulent flows of;quantum fluids. Two cases are considered. The first is the;counterflowing (Vinen) turbulence, where the vortex lines are;disordered, and the evolution of quantity L(t) obeys the Vinen equation.;The second case is the fluctuations of the VLD in a single vortex;bundle, which develops inside the domain of the concentrated;normal-fluid vorticity. The dynamics of the vortex bundle is described;by the Hall-Vinen-Bekarevich-Khalatnikov (HVBK) equations. The latter;case is of special interest, because the set of the quantum vortex;bundles is believed to mimic classical hydrodynamic turbulence. In;steady states the VLD is related to the normal velocity as L = (rho;gamma/rho(s))(2)upsilon(2)(n) for the Vinen case. In the vortex bundle;case, which appears inside the domain of a concentrated vorticity of;normal fluid, the stationary quantity L can be found from the matching;of velocities and is described by L = vertical bar del x v(n)vertical;bar/kappa. In nonstationary situations, and particularly in the;fluctuating turbulent flow, there is a retardation between the;instantaneous value of the normal velocity and the quantity L. This;retardation tends to decrease in accordance with the inner dynamics,;which has a relaxation character. In both cases, the relaxation dynamics;of the VLD is related to fluctuations of the relative velocity. However,;for the Vinen case the rate of temporal change for L(t) is directly;dependent upon delta v(ns), whereas for HVBK dynamics it depends on del;x delta v(ns). Therefore, for the disordered case the spectrum coincides with the spectrum omega(-5/3). In the;case of the bundle arrangement, the spectrum of the VLD varies (at;different temperatures) from omega(1/3) to omega(-5/3) dependencies.;This conclusion may serve as a basis for the experimental determination;of what kind of turbulence is implemented in different types of;generation.;0;0;0;0;0;1098-0121;WOS:000312064300005;;;J;Peelaers, H.;Van de Walle, C. G.;Effects of strain on band structure and effective masses in MoS2;PHYSICAL REVIEW B;86;24;241401;10.1103/PhysRevB.86.241401;DEC 10 2012;2012;We use hybrid density functional theory to explore the band structure;and effective masses of MoS2, and the effects of strain on the;electronic properties. Strain allows engineering the magnitude as well;as the nature (direct versus indirect) of the band gap. Deformation;potentials that quantify these changes are reported. The calculations;also allow us to investigate the transition in band structure from bulk;to monolayer, and the nature and degeneracy of conduction-band valleys.;Investigations of strain effects on effective masses reveal that small;uniaxial stresses can lead to large changes in the hole effective mass.;DOI: 10.1103/PhysRevB.86.241401;Van de Walle, Chris/A-6623-2012;Van de Walle, Chris/0000-0002-4212-5990;56;3;0;0;56;1098-0121;WOS:000312065400001;;;J;Phien, Ho N.;Vidal, Guifre;McCulloch, Ian P.;Infinite boundary conditions for matrix product state calculations;PHYSICAL REVIEW B;86;24;245107;10.1103/PhysRevB.86.245107;DEC 10 2012;2012;We propose a formalism to study dynamical properties of a quantum;many-body system in the thermodynamic limit by studying a finite system;with "infinite boundary conditions" where both finite-size effects and;boundary effects have been eliminated. For one-dimensional systems,;infinite boundary conditions are obtained by attaching two boundary;sites to a finite system, where each of these two sites effectively;represents a semi-infinite extension of the system. One can then use;standard finite-size matrix product state techniques to study a region;of the system while avoiding many of the complications normally;associated with finite-size calculations such as boundary Friedel;oscillations. We illustrate the technique with an example of time;evolution of a local perturbation applied to an infinite;(translationally invariant) ground state, and use this to calculate the;spectral function of the S = 1 Heisenberg spin chain. This approach is;more efficient and more accurate than conventional simulations based on;finite-size matrix product state and density-matrix;renormalization-group approaches. DOI: 10.1103/PhysRevB.86.245107;McCulloch, Ian/A-6037-2011;McCulloch, Ian/0000-0002-8983-6327;6;0;0;0;6;1098-0121;WOS:000312065400004;;;J;Polyakov, O. P.;Corbetta, M.;Stepanyuk, O. V.;Oka, H.;Saletsky, A. M.;Sander, D.;Stepanyuk, V. S.;Kirschner, J.;Spin-dependent Smoluchowski effect;PHYSICAL REVIEW B;86;23;235409;10.1103/PhysRevB.86.235409;DEC 10 2012;2012;Electron charge near atomically sharp corrugations at the surfaces of a;solid tends to spill out and smoothen the abrupt variation of the;positions of the positively charged atomic nuclei. The reason is that;electrons are much less localized than nuclei. This has been discussed;already some 70 years ago by Smoluchowski [R. Smoluchowski, Phys. Rev.;60, 661 (1941)], and the corresponding effect of charge redistribution;near surface corrugations bears his name. The Smoluchowski effect;focuses on the total electron charge density. It neglects that;electrons-in addition to charge-also carry a spin. We discuss;spin-dependent electron spill out and demonstrate in a combined;theoretical and experimental work that compelling consequences for;spin-polarization and spin-dependent transport arise at the edges of;magnetic nanostructures due to the spin-dependent Smoluchowski effect.;We find a variation of the tunnel magnetoresistance ratio of more than;20% on a length scale of a few atomic diameters.;3;0;0;0;3;1098-0121;WOS:000312064700006;;;J;Rajeswaran, B.;Khomskii, D. I.;Zvezdin, A. K.;Rao, C. N. R.;Sundaresan, A.;Field-induced polar order at the Neel temperature of chromium in;rare-earth orthochromites: Interplay of rare-earth and Cr magnetism;PHYSICAL REVIEW B;86;21;214409;10.1103/PhysRevB.86.214409;DEC 10 2012;2012;We report field-induced switchable polarization (P similar to 0.2-0.8 mu;C/cm(2)) below the Neel temperature of chromium (T-N(Cr)) in weakly;ferromagnetic rare-earth orthochromites, RCrO3 (R = rare earth) but only;when the rare-earth ion is magnetic. Intriguingly, the polarization in;ErCrO3 (T-C = 133 K) disappears at a spin-reorientation (Morin);transition (T-SR similar to 22 K) below which the weak ferromagnetism;associated with the Cr sublattice also disappears, demonstrating the;crucial role of weak ferromagnetism in inducing the polar order.;Further, the polarization (P) is strongly influenced by an applied;magnetic field, indicating a strong magnetoelectric effect. We suggest;that the polar order occurs in RCrO3, due to the combined effect of the;poling field that breaks the symmetry and the exchange field on the R;ion from the Cr sublattice that stabilizes the polar state. We propose;that a similar mechanism could work in the isostructural rare-earth;orthoferrites RFeO3 as well. DOI: 10.1103/PhysRevB.86.214409;Athinarayanan, Sundaresan/B-2176-2010; Zvezdin, Anatoly/K-2072-2013;24;1;0;0;24;1098-0121;WOS:000312063700006;;;J;Rhim, Jun-Won;Park, Kwon;Self-similar occurrence of massless Dirac particles in graphene under a;magnetic field;PHYSICAL REVIEW B;86;23;235411;10.1103/PhysRevB.86.235411;DEC 10 2012;2012;Intricate interplay between the periodicity of the lattice structure and;that of the cyclotron motion gives rise to a well-known self-similar;fractal structure of the energy eigenvalue, known as the Hofstadter;butterfly, for an electron moving in lattice under magnetic field.;Connected with the n = 0 Landau level, the central band of the;Hofstadter butterfly is especially interesting in the honeycomb lattice.;While the entire Hofstadter butterfly can be in principle obtained by;solving Harper's equations numerically, the weak-field limit, most;relevant for experiment, is intractable owing to the fact that the size;of the Hamiltonian matrix, which needs to be diagonalized, diverges. In;this paper, we develop an effective Hamiltonian method that can be used;to provide an accurate analytic description of the central Hofstadter;band in the weak-field regime. One of the most important discoveries;obtained in this work is that massless Dirac particles always exist;inside the central Hofstadter band no matter how small the magnetic flux;may become. In other words, with its bandwidth broadened by the lattice;effect, the n = 0 Landau level contains massless Dirac particles within;itself. In fact, by carefully analyzing the self-similar recursive;pattern of the central Hofstadter band, we conclude that massless Dirac;particles should occur under arbitrary magnetic field. As a corollary,;the central Hofstadter band also contains a self-similar structure of;recursive Landau levels associated with such massless Dirac particles.;To assess the experimental feasibility of observing massless Dirac;particles inside the central Hofstadter band, we compute the width of;the central Hofstadter band as a function of magnetic field in the;weak-field regime.;5;0;0;0;5;1098-0121;WOS:000312064700008;;;J;Robinson, Zachary R.;Tyagi, Parul;Mowll, Tyler R.;Ventrice, Carl A., Jr.;Hannon, James B.;Argon-assisted growth of epitaxial graphene on Cu(111);PHYSICAL REVIEW B;86;23;235413;10.1103/PhysRevB.86.235413;DEC 10 2012;2012;The growth of graphene by catalytic decomposition of ethylene on Cu(111);in an ultrahigh vacuum system was investigated with low-energy electron;diffraction, low-energy electron microscopy, and atomic force;microscopy. Attempts to form a graphene overlayer using ethylene at;pressures as high as 10 mTorr and substrate temperatures as high as 900;degrees C resulted in almost no graphene growth. By using an argon;overpressure, the growth of epitaxial graphene on Cu(111) was achieved.;The suppression of graphene growth without the use of an argon;overpressure is attributed to Cu sublimation at elevated temperatures.;During the initial stages of growth, a random distribution of rounded;graphene islands is observed. The predominant rotational orientation of;the islands is within +/- 1 degrees of the Cu(111) substrate lattice.;Robinson, Zachary/B-5128-2013;11;1;0;0;11;1098-0121;WOS:000312064700010;;;J;Sheps, Tatyana;Brocious, Jordan;Corso, Brad L.;Guel, O. Tolga;Whitmore, Desire;Durkaya, Goeksel;Potma, Eric O.;Collins, Philip G.;Four-wave mixing microscopy with electronic contrast of individual;carbon nanotubes;PHYSICAL REVIEW B;86;23;235412;10.1103/PhysRevB.86.235412;DEC 10 2012;2012;We review an extensive study of the factors that influence the intensity;of coherent, nonlinear four-wave mixing (FWM) in carbon nanotubes, with;particular attention to the variability inherent to single-walled carbon;nanotubes (SWNTs). Through a combination of spatial imaging and;spectroscopy applied to hundreds of individual SWNTs in optoelectronic;devices, the FWM response is shown to vary systematically with;free-carrier concentration. This dependence is manifested both in the;intrinsic SWNT band structure and also by extrinsic and environmental;effects. We demonstrate the sensitivity of the SWNT FWM signal by;investigating SWNTs transferred from one substrate to another, before;and after the introduction of chemical damage, and with chemical and;electrostatic doping. The results demonstrate FWM as a sensitive;technique for interrogating SWNT optoelectronic properties.;3;0;0;0;3;1098-0121;WOS:000312064700009;;;J;Tian, Zhiting;Esfarjani, Keivan;Chen, Gang;Enhancing phonon transmission across a Si/Ge interface by atomic;roughness: First-principles study with the Green's function method;PHYSICAL REVIEW B;86;23;235304;10.1103/PhysRevB.86.235304;DEC 10 2012;2012;Knowledge on phonon transmittance as a function of phonon frequency and;incidence angle at interfaces is vital for multiscale modeling of heat;transport in nanostructured materials. Although thermal conductivity;reduction in nanostructured materials can usually be described by phonon;scattering due to interface roughness, we show how a Green's function;method in conjunction with the Landauer formalism suggests that;interface roughness induced by atomic mixing can increase phonon;transmission and interfacial thermal conductance. This is an attempt to;incorporate first-principles force constants derived from ab initio;density-functional theory (DFT) into Green's function calculation for;infinitely large three-dimensional crystal structure. We also;demonstrate the importance of accurate force constants by comparing the;phonon transmission and thermal conductance using force constants;obtained from semiempirical Stillinger-Weber potential and;first-principles DFT calculations.;Chen, Gang/J-1325-2014;Chen, Gang/0000-0002-3968-8530;14;0;0;0;14;1098-0121;WOS:000312064700004;;;J;Uhm, Sang Hoon;Yeom, Han Woong;Electron-phonon interaction of one-dimensional and two-dimensional;surface states in indium adlayers on the Si(111) surface;PHYSICAL REVIEW B;86;24;245408;10.1103/PhysRevB.86.245408;DEC 10 2012;2012;We performed angle-resolved photoelectron spectroscopy measurements on;one-and two-dimensional (1D and 2D) metallic surface states in indium;layers on the Si(111) surface as a function of temperature. The;temperature dependence of surface-state energy widths was used to;estimate the electron-phonon coupling constant lambda. The 2D metallic;surface states of the root 7 x root 3-In layer above one monolayer;exhibit lambda = 0.8 similar to 1.0, similar to the value of bulk indium;0.9. This is discussed in the light of a recent structure model with a;double indium layer and the relatively high superconducting transition;temperature of this surface. On the other hand, the lambda's of two 1D;surface states of the 4 x 1-In surface with one monolayer of indium are;much higher than that of root 7 x root 3-In, reaching 1.8, which is the;largest ever reported for a surface state. The origin of the enhanced;electron-phonon coupling and its relationship to the charge-density-wave;phase transition of this surface are discussed. DOI:;10.1103/PhysRevB.86.245408;1;0;0;0;1;1098-0121;WOS:000312065400008;;;J;Vekilova, O. Yu.;Simak, S. I.;Ponomareva, A. V.;Abrikosov, I. A.;Influence of Ni on the lattice stability of Fe-Ni alloys at multimegabar;pressures;PHYSICAL REVIEW B;86;22;224107;10.1103/PhysRevB.86.224107;DEC 10 2012;2012;The lattice stability trends of the primary candidate for Earth's core;material, the Fe-Ni alloy, were examined from first principles. We;employed the exact muffin-tin orbital method (EMTO) combined with the;coherent potential approximation (CPA) for the treatment of alloying;effects. It was revealed that high pressure reverses the trend in the;relative stabilities of the body-centered cubic (bcc), face-centered;cubic (fcc), and hexagonal close-packed (hcp) phases observed at ambient;conditions. In the low pressure region the increase of Ni concentration;in the Fe-Ni alloy enhances the bcc phase destabilization relative to;the more close-packed fcc and hcp phases. However, at 300 GPa (Earth's;core pressure), the effect of Ni addition is opposite. The reverse of;the trend is associated with the suppression of the ferromagnetism of Fe;when going from ambient pressures to pressure conditions corresponding;to those of Earth's core. The first-principles results are explained in;the framework of the canonical band model.;0;0;0;0;0;1098-0121;WOS:000312064300001;;;J;Wang, Kang;Light wave states in quasiperiodic metallic structures;PHYSICAL REVIEW B;86;23;235110;10.1103/PhysRevB.86.235110;DEC 10 2012;2012;We investigate the light wave states in the octagonal and decagonal;quasiperiodic metallic structures by considering their respective;approximants at different orders. The mechanisms underlying the light;wave behaviors are studied in relation to various structure parameters;and configurations. We show that the formation of the first passbands,;that delimit the photonic band gaps and determine the plasma gaps,;involves only the lowest frequency resonance modes inside the fat tiles,;and that light localization occurs due to resonances in high symmetry;local centers as well as in the fragments of such centers, formed by the;skinny tiles. The structure filling rate affects the localized state;frequencies relative to the first passbands, as well as the plasma;frequency levels, by modulating the frequency levels of the resonance;modes and the widths of the passbands. The results of this study can be;generalized to other metallic quasiperiodic and related structures.;1;0;0;0;1;1098-0121;WOS:000312064700001;;;J;Singh, Shashi B.;Yang, L. T.;Wang, Y. F.;Shao, Y. C.;Chiang, C. W.;Chiou, J. W.;Lin, K. T.;Chen, S. C.;Wang, B. Y.;Chuang, C. H.;Ling, D. C.;Pong, W. F.;Tsai, M. H.;Tsai, H. M.;Pao, C. W.;Shiu, H. W.;Chen, C. H.;Lin, H.-J.;Lee, J. F.;Yamane, H.;Kosugi, N.;Correlation between p-type conductivity and electronic structure of;Cr-deficient CuCr1-xO2 (x = 0-0.1);PHYSICAL REVIEW B;86;24;241103;10.1103/PhysRevB.86.241103;DEC 7 2012;2012;The correlation between the p-type hole conduction and the electronic;structures of Cr-deficient CuCr1-xO2 (x = 0-0.1) compounds was;investigated using O K-, Cu, and Cr L-3,L-2-edge x-ray absorption;near-edge structure (XANES), scanning photoelectron microscopy, and;x-ray emission spectroscopy measurements. XANES spectra reveal a gradual;increase in the Cu valence from Cu1+ to Cu2+ with increasing Cr;deficiency x, whereas, the valence of Cr remains constant as Cr3+. These;results indicate that the p-type conductivity in the CuCr1-xO2 samples;is enhanced by a Cu1+-O-Cu2+ rather than a Cr3+-Cr4+ or direct;Cu1+-O-Cu2+ holemechanism. Remarkable Cr-deficiency-induced changes in;the densities of Cu 3d, Cu 3d-O 2p, andO2p states at or near the;valence-band maximum or the Fermi level were also observed. In addition,;a crossover of conductionmechanism from thermally activated (TA) hopping;to a combination of TA and Mott's three-dimensional variable range;hopping occurs around 250 K.;Yamane, Hiroyuki/K-5297-2013;0;0;0;0;0;1098-0121;WOS:000312025700004;;;J;Bossy, Jacques;Ollivier, Jacques;Schober, Helmut;Glyde, H. R.;Excitations of amorphous solid helium;PHYSICAL REVIEW B;86;22;224503;10.1103/PhysRevB.86.224503;DEC 7 2012;2012;We present neutron scattering measurements of the dynamic structure;factor S(Q,omega) of amorphous solid helium confined in 47-angstrom pore;diameter MCM-41 at pressure 48.6 bars. At low temperature T = 0.05 K, we;observe S(Q,omega) of the confined quantum amorphous solid plus the bulk;polycrystalline solid between the MCM-41 powder grains. No liquidlike;phonon-roton modes, other sharply defined modes at low energy (omega <;1.0 meV), or modes unique to a quantum amorphous solid that might;suggest superflow are observed. Rather, the S(Q, omega) of confined;amorphous and bulk polycrystalline solid appear to be very similar. At;higher temperature (T > 1 K), the amorphous solid in the MCM-41 pores;melts to a liquid which has a broad S(Q,omega) peaked near omega similar;or equal to 0, characteristic of normal liquid He-4 under pressure.;Expressions for the S(Q,omega) of amorphous and polycrystalline solid;helium are presented and compared. In previous measurements of liquid;He-4 confined in MCM-41 at lower pressure, the intensity in the liquid;roton mode decreases with increasing pressure until the roton vanishes;at the solidification pressure (38 bars), consistent with no roton in;the solid observed here.;2;0;0;0;2;1098-0121;WOS:000321857700002;;;J;Joly, Yves;Collins, S. P.;Grenier, Stephane;Tolentino, Helio C. N.;De Santis, Maurizio;Birefringence and polarization rotation in resonant x-ray diffraction;PHYSICAL REVIEW B;86;22;220101;10.1103/PhysRevB.86.220101;DEC 7 2012;2012;Birefringence can contribute to x-ray resonant Bragg diffraction and;likely explains recent novel data collected on CuO. We prove these;statements using ab initio simulations which reproduce the experimental;polarization effects quantitatively. We show that an unrotated;polarization signal-ruled out in resonant magnetic scattering within the;electric dipole approximation-arises from the dynamic change in;polarization inside the material. We are able to reproduce all the;related behavior with circular polarization and its dependence on the;angle of rotation about the Bragg wave vector. We provide a tool to;disentangle the various physical origins of the polarization rotation,;providing a more complete understanding of the illuminated material.;TOLENTINO, HELIO/J-1894-2014; Grenier, Stephane/N-1986-2014;TOLENTINO, HELIO/0000-0003-4032-5988; Grenier,;Stephane/0000-0001-8370-7375;12;1;0;0;12;1098-0121;WOS:000321857700001;;;J;Kovacs, Istvan A.;Igloi, Ferenc;Cardy, John;Corner contribution to percolation cluster numbers;PHYSICAL REVIEW B;86;21;214203;10.1103/PhysRevB.86.214203;DEC 7 2012;2012;We study the number of clusters in two-dimensional (2d) critical;percolation, N-Gamma, which intersect a given subset of bonds, Gamma. In;the simplest case, when Gamma is a simple closed curve, N-Gamma is;related to the entanglement entropy of the critical diluted quantum;Ising model, in which Gamma represents the boundary between the;subsystem and the environment. Due to corners in Gamma there are;universal logarithmic corrections to N-Gamma, which are calculated in;the continuum limit through conformal in-variance, making use of the;Cardy-Peschel formula. The exact formulas are confirmed by large scale;Monte Carlo simulations. These results are extended to anisotropic;percolation where they confirm a result of discrete holomorphicity.;Kovacs, Istvan/A-8447-2013;5;0;0;0;5;1098-0121;WOS:000312023100003;;;J;Komsa, Hannu-Pekka;Krasheninnikov, Arkady V.;Effects of confinement and environment on the electronic structure and;exciton binding energy of MoS2 from first principles;PHYSICAL REVIEW B;86;24;241201;10.1103/PhysRevB.86.241201;DEC 7 2012;2012;Using GW first-principles calculations for few-layer and bulk MoS2, we;study the effects of quantum confinement on the electronic structure of;this layered material. By solving the Bethe-Salpeter equation, we also;evaluate the exciton energy in these systems. Our results are in;excellent agreement with the available experimental data. Exciton;binding energy is found to dramatically increase from 0.1 eV in the bulk;to 1.1 eV in the monolayer. The fundamental band gap increases as well,;so that the optical transition energies remain nearly constant. We also;demonstrate that environments with different dielectric constants have a;profound effect on the electronic structure of the monolayer. Our;results can be used for engineering the electronic properties of MoS2;and other transition-metal dichalcogenides and may explain the;experimentally observed variations in the mobility of monolayer MoS2.;Krasheninnikov, Arkady/M-3020-2013;Krasheninnikov, Arkady/0000-0003-0074-7588;50;4;0;0;50;1098-0121;WOS:000312025700003;;;J;Ciuchi, S.;Fratini, S.;
2:52:42 Substituent-Induced Intermolecular Interaction in Organic Crystals Revealed by Precise Band-Dispersion Measurements
DOI:10.1103/PhysRevLett.111.086602 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Yamane, Hiroyuki;Kosugi, Nobuhiro;
2:52:43 Effect of dynamic disorder on charge transport along a pentacene chain
DOI:10.1103/PhysRevB.83.085209 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Bohlin, J.;Linares, M.;Stafstrom, S.;
2:52:44 Large bandwidths in synthetic one-dimensional stacks of biological molecules
DOI:10.1103/PhysRevB.86.195407 JN:PHYSICAL REVIEW B PY:2012 TC:0 AU: Oetzel, Bjoern;Ortmann, Frank;Matthes, Lars;Tandetzky, Falk;Bechstedt, Friedhelm;Hannewald, Karsten;
2:52:45 Measurement of molecular motion in organic semiconductors by thermal diffuse electron scattering
DOI:10.1038/NMAT3710 JN:NATURE MATERIALS PY:2013 TC:2 AU: Eggeman, Alexander S.;Illig, Steffen;Troisi, Alessandro;Sirringhaus, Henning;Midgley, Paul A.;
2:52:46 Transport Properties of Polymer Semiconductor Controlled by Ionic Liquid as a Gate Dielectric and a Pressure Medium
DOI:10.1002/adfm.201302954 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Shi, Wu;Ye, Jianting;Checkelsky, Joseph G.;Terakura, Chieko;Iwasa, Yoshihiro;
2:52:47 Charge modulation infrared spectroscopy of rubrene single-crystal field-effect transistors
DOI:10.1063/1.4794055 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Uchida, R.;Yada, H.;Makino, M.;Matsui, Y.;Miwa, K.;Uemura, T.;Takeya, J.;Okamoto, H.;
2:52:48 Anomalous Pressure Effect in Heteroacene Organic Field-Effect Transistors
DOI:10.1103/PhysRevLett.110.096603 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Sakai, K.;Okada, Y.;Kitaoka, S.;Tsurumi, J.;Ohishi, Y.;Fujiwara, A.;Takimiya, K.;Takeya, J.;
2:52:49 Transfer-matrix method study of charge localization lengths in tetracene crystals with chemical impurities
DOI:10.1016/j.synthmet.2013.07.018 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Eilmes, Andrzej;
2:52:50 Materials and devices with applications in high-end organic transistors
DOI:10.1016/j.tsf.2013.10.150 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Takeya, J.;Uemura, T.;Sakai, K.;Okada, Y.;
2:52:51 Effects of nonlinearity on wave-packet dynamics in square and honeycomb lattices
DOI:10.1103/PhysRevB.82.233102 JN:PHYSICAL REVIEW B PY:2010 TC:6 AU: Dias, W. S.;Lyra, M. L.;de Moura, F. A. B. F.;
2:52:52 ORGANIC SEMICONDUCTORS Healing contact
DOI:10.1038/nmat3808 JN:NATURE MATERIALS PY:2013 TC:0 AU: Risko, Chad;Bredas, Jean-Luc;
2:52:53 Strain-driven formation of rubrene crystalline films on Bi(001)
DOI:10.1103/PhysRevB.83.195322 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Lan, Meng;Xiong, Zu-Hong;Li, Guo-Qing;Shao, Ting-Na;Xie, Jia-Le;Yang, Xiu-Fan;Wang, Jun-Zhong;Liu, Ying;
2:52:54 Transport properties and optical conductivity of the adiabatic Su-Schrieffer-Heeger model: A showcase study for rubrene-based field effect transistors (vol 83, 165203, 2011)
DOI:10.1103/PhysRevB.83.199901 JN:PHYSICAL REVIEW B PY:2011 TC:0 AU: Cataudella, V.;De Filippis, G.;Perroni, C. A.;
2:52:55 Direct observation of energy band development in a one-dimensional biradical molecular chain by ultraviolet photoemission spectroscopy
DOI:10.1063/1.4799493 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Koike, Harunobu;Kubo, Takashi;Uchida, Kazuyuki;Chikamatsu, Masayuki;Azumi, Reiko;Mase, Kazuhiko;Kanai, Kaname;
2:52:56 Trapped charge mapping in crystalline organic transistors by using scanning Kelvin probe force microscopy
DOI:10.1063/1.4901946 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ando, Masahiko;Heike, Seiji;Kawasaki, Masahiro;Hashizume, Tomihiro;
2:52:57 Stacks of Nucleic Acids as Molecular Wires: Direct Measurement of the Intermolecular Band Dispersion in Multilayer Guanine Assemblies
DOI:10.1021/ja104839d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:4 AU: Friedlein, Rainer;Wang, Ying;Fleurence, Antoine;Bussolotti, Fabio;Ogata, Yoichi;Yamada-Takamura, Yukiko;
2:53:1 Operational Stability of Organic Field-Effect Transistors
DOI:10.1002/adma.201104580 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Bobbert, Peter A.;Sharma, Abhinav;Mathijssen, Simon G. J.;Kemerink, Martijn;de Leeuw, Dago M.;
2:53:2 25th Anniversary Article: Microstructure Dependent Bias Stability of Organic Transistors
DOI:10.1002/adma.201304665 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Lee, Wi Hyoung;Choi, Hyun Ho;Kim, Do Hwan;Cho, Kilwon;
2:53:3 Revealing Buried Interfaces to Understand the Origins of Threshold Voltage Shifts in Organic Field-Effect Transistors
DOI:10.1002/adma.201001865 JN:ADVANCED MATERIALS PY:2010 TC:37 AU: Mathijssen, Simon G. J.;Spijkman, Mark-Jan;Andringa, Anne-Marije;van Hal, Paul A.;McCulloch, Iain;Kemerink, Martijn;Janssen, Rene A. J.;de Leeuw, Dago M.;
2:53:4 Proton migration mechanism for operational instabilities in organic field-effect transistors
DOI:10.1103/PhysRevB.82.075322 JN:PHYSICAL REVIEW B PY:2010 TC:25 AU: Sharma, A.;Mathijssen, S. G. J.;Smits, E. C. P.;Kemerink, M.;de Leeuw, D. M.;Bobbert, P. A.;
2:53:5 Gate bias stress in pentacene field-effect-transistors: Charge trapping in the dielectric or semiconductor
DOI:10.1063/1.3628297 JN:APPLIED PHYSICS LETTERS PY:2011 TC:21 AU: Hausermann, R.;Batlogg, B.;
2:53:6 Origin of the bias stress instability in single-crystal organic field-effect transistors
DOI:10.1103/PhysRevB.82.085302 JN:PHYSICAL REVIEW B PY:2010 TC:19 AU: Lee, B.;Wan, A.;Mastrogiovanni, D.;Anthony, J. E.;Garfunkel, E.;Podzorov, V.;
2:53:7 Variable Temperature Mobility Analysis of n-Channel, p-Channel, and Ambipolar Organic Field-Effect Transistors
DOI:10.1002/adfm.200900831 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:40 AU: Letizia, Joseph A.;Rivnay, Jonathan;Facchetti, Antonio;Ratner, Mark A.;Marks, Tobin J.;
2:53:8 Interfacial Trap Density-of-States in Pentacene- and ZnO-Based Thin-Film Transistors Measured via Novel Photo-excited Charge-Collection Spectroscopy
DOI:10.1002/adma.201000722 JN:ADVANCED MATERIALS PY:2010 TC:37 AU: Lee, Kimoon;Oh, Min Suk;Mun, Sung-jin;Lee, Kwang H.;Ha, Tae Woo;Kim, Jae Hoon;Park, Sang-Hee Ko;Hwang, Chi-Sun;Lee, Byoung H.;Sung, Myung M.;Im, Seongil;
2:53:9 Bias Stress Effect in "Air-Gap" Organic Field-Effect Transistors
DOI:10.1002/adma.201200455 JN:ADVANCED MATERIALS PY:2012 TC:27 AU: Chen, Y.;Podzorov, V.;
2:53:10 Visualizing and Quantifying Charge Distributions Correlated to Threshold Voltage Shifts in Lateral Organic Transistors
DOI:10.1021/nn4064067 JN:ACS NANO PY:2014 TC:4 AU: Dawidczyk, Thomas J.;Hardigree, Josue F. Martinez;Johns, Gary L.;Ozgun, Recep;Alley, Olivia;Andreou, Andreas G.;Markovic, Nina;Katz, Howard E.;
2:53:11 Bias-Stress-Induced Charge Trapping at Polymer Chain Ends of Polymer Gate-Dielectrics in Organic Transistors
DOI:10.1002/adfm.201201084 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:23 AU: Choi, Hyun Ho;Lee, Wi Hyoung;Cho, Kilwon;
2:53:12 Decoupling the Bias-Stress-Induced Charge Trapping in Semiconductors and Gate-Dielectrics of Organic Transistors Using a Double Stretched-Exponential Formula
DOI:10.1002/adfm.201201545 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:10 AU: Choi, Hyun Ho;Kang, Moon Sung;Kim, Min;Kim, Haena;Cho, Jeong Ho;Cho, Kilwon;
2:53:13 Origin of Bias-Stress Induced Instability in Organic Thin-Film Transistors with Semiconducting Small-Molecule/Insulating Polymer Blend Channel
DOI:10.1021/am3022703 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Park, Ji Hoon;Lee, Young Tack;Lee, Hee Sung;Lee, Jun Young;Lee, Kimoon;Lee, Gyu Baek;Han, Jiwon;Kim, Tae Woong;Im, Seongil;
2:53:14 Charge Trapping by Self-Assembled Monolayers as the Origin of the Threshold Voltage Shift in Organic Field-Effect Transistors
DOI:10.1002/smll.201101467 JN:SMALL PY:2012 TC:18 AU: Gholamrezaie, Fatemeh;Andringa, Anne-Marije;Roelofs, W. S. Christian;Neuhold, Alfred;Kemerink, Martijn;Blom, Paul W. M.;de Leeuw, Dago M.;
2:53:15 Very low bias stress in n-type organic single-crystal transistors
DOI:10.1063/1.3698341 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Barra, M.;Di Girolamo, F. V.;Minder, N. A.;Lezama, I. Gutierrez;Chen, Z.;Facchetti, A.;Morpurgo, A. F.;Cassinese, A.;
2:53:16 Photo-Stable Organic Thin-Film Transistor Utilizing a New Indolocarbazole Derivative for Image Pixel and Logic Applications
DOI:10.1002/adfm.201301783 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Park, Ji Hoon;Lee, Hee Sung;Park, Soohyung;Min, Sung-Wook;Yi, Yeonjin;Cho, Cheon-Gyu;Han, Jiwon;Kim, Tae Woong;Im, Seongil;
2:53:17 Anomalous current transients in organic field-effect transistors
DOI:10.1063/1.3339879 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Sharma, A.;Mathijssen, S. G. J.;Cramer, T.;Kemerink, M.;de Leeuw, D. M.;Bobbert, P. A.;
2:53:18 Localizing trapped charge carriers in NO2 sensors based on organic field-effect transistors
DOI:10.1063/1.4758697 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Andringa, Anne-Marije;Roelofs, W. S. Christian;Sommer, Michael;Thelakkat, Mukundan;Kemerink, Martijn;de Leeuw, Dago M.;
2:53:19 Operational stability enhancement of low-voltage organic field-effect transistors based on bilayer polymer dielectrics
DOI:10.1063/1.4822181 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: She, Xiao-Jian;Liu, Jie;Zhang, Jing-Yu;Gao, Xu;Wang, Sui-Dong;
2:53:20 Bias stress effect in polyelectrolyte-gated organic field-effect transistors
DOI:10.1063/1.4798512 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Sinno, H.;Fabiano, S.;Crispin, X.;Berggren, M.;Engquist, I.;
2:53:21 Effect of Coulomb scattering from trapped charges on the mobility in an organic field-effect transistor
DOI:10.1103/PhysRevB.83.125310 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Sharma, A.;Janssen, N. M. A.;Mathijssen, S. G. J.;de Leeuw, D. M.;Kemerink, M.;Bobbert, P. A.;
2:53:22 Formation of inversion layers in organic field-effect transistors
DOI:10.1103/PhysRevB.85.165310 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Brondijk, J. J.;Spijkman, M.;van Seijen, F.;Blom, P. W. M.;de Leeuw, D. M.;
2:53:23 Following Chemical Charge Trapping in Pentacene Thin Films by Selective Impurity Doping and Wavelength-Resolved Electric Force Microscopy
DOI:10.1002/adfm.201200595 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:3 AU: Smieska, Louisa M.;Pozdin, Vladimir A.;Luria, Justin L.;Hennig, Richard G.;Hines, Melissa A.;Lewis, Chad A.;Marohn, John A.;
2:53:24 High Dynamic Range Organic Temperature Sensor
DOI:10.1002/adma.201204396 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Ren, Xiaochen;Chan, Paddy K. L.;Lu, Jianbiao;Huang, Baoling;Leung, Dennis C. W.;
2:53:25 Enhanced electrical stability of organic thin-film transistors with polymer semiconductor-insulator blended active layers
DOI:10.1063/1.3688177 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Lee, Jiyoul;Jung, Ji Young;Kim, Do Hwan;Kim, Joo-Young;Lee, Bang-Lin;Park, Jeong-Il;Chung, Jong Won;Park, Joon Seok;Koo, Bonwon;Jin, Yong Wan;Lee, Sangyoon;
2:53:26 Low bias stress and reduced operating voltage in SnCl2Pc based n-type organic field-effect transistors
DOI:10.1063/1.4879015 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Obaidulla, Sk. Md.;Goswami, D. K.;Giri, P. K.;
2:53:27 NO2 Detection and Real-Time Sensing with Field-Effect Transistors
DOI:10.1021/cm4020628 JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Andringa, Anne-Marije;Piliego, Claudia;Katsouras, Ilias;Blom, Paul W. M.;de Leeuw, Dago M.;
2:53:28 Reliable and Uniform Thin-Film Transistor Arrays Based on Inkjet-Printed Polymer Semiconductors for Full Color Reflective Displays
DOI:10.1002/adma.201301257 JN:ADVANCED MATERIALS PY:2013 TC:14 AU: Lee, Jiyoul;Kim, Do Hwan;Kim, Joo-Young;Yoo, Byungwook;Chung, Jong Won;Park, Jeong-Il;Lee, Bang-Lin;Jung, Ji Young;Park, Joon Seok;Koo, Bonwon;Im, Seongil;Kim, Jung Woo;Song, Byungkwon;Jung, Myung-Hoon;Jang, Jae Eun;Jin, Yong Wan;Lee, Sang-Yoon;
2:53:29 The Origin of Excellent Gate-Bias Stress Stability in Organic Field-Effect Transistors Employing Fluorinated-Polymer Gate Dielectrics
DOI:10.1002/adma.201402363 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Kim, Jiye;Jang, Jaeyoung;Kim, Kyunghun;Kim, Haekyoung;Kim, Se Hyun;Park, Chan Eon;
2:53:30 Overcoming tradeoff between mobility and bias stability in organic field-effect transistors according to the self-assembled monolayer chain lengths
DOI:10.1063/1.4874263 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Roh, Jeongkyun;Kang, Chan-mo;Kwak, Jeonghun;Lee, Changhee;Jung, Byung Jun;
2:53:31 High performance organic field-effect transistors with ultra-thin HfO2 gate insulator deposited directly onto the organic semiconductor
DOI:10.1063/1.4860998 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Ono, S.;Haeusermann, R.;Chiba, D.;Shimamura, K.;Ono, T.;Batlogg, B.;
2:53:32 Analyzing the influence of negative gate bias stress on the transconductance of solution-processed, organic thin-film transistors
DOI:10.1063/1.4893317 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Sprogies, J.;Scheinert, S.;Hoerselmann, I.;
2:53:33 Bias stress effects investigated in charge depletion and accumulation regimes for inkjet-printed perylene diimide organic transistors
DOI:10.1016/j.synthmet.2013.05.030 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Grimaldi, I. A.;Barra, M.;Carella, A.;Di Girolamo, F. V.;Loffredo, F.;Minarini, C.;Villani, F.;Cassinese, A.;
2:53:34 Photoexcited charge collection spectroscopy of two-dimensional polaronic states in polymer thin-film transistors
DOI:10.1103/PhysRevB.85.045206 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Lee, Jiyoul;Lee, Bang-Lin;Kim, Jae H.;Lee, Sangyoon;Im, Seongil;
2:53:35 Influence of the semiconductor oxidation potential on the operational stability of organic field-effect transistors
DOI:10.1063/1.3634066 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Sharma, A.;Mathijssen, S. G. J.;Bobbert, P. A.;de Leeuw, D. M.;
2:53:36 Thermal annealing and temperature dependences of memory effect in organic memory transistor
DOI:10.1063/1.3617477 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Ren, X. C.;Wang, S. M.;Leung, C. W.;Yan, F.;Chan, P. K. L.;
2:53:37 Characterization of bias stress induced electrical instability in liquid-crystalline semiconducting polymer thin-film transistors
DOI:10.1063/1.3656442 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Lee, Jiyoul;Kim, Do Hwan;Lee, Bang-Lin;Park, Jeong-Il;Yoo, Byungwook;Kim, Joo Young;Moon, Hyunsik;Koo, Bonwon;Jin, Yong Wan;Lee, Sangyoon;
2:53:38 Understanding temperature dependence of threshold voltage in pentacene thin film transistors
DOI:10.1063/1.4807159 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Sun, Qi-Jun;Gao, Xu;Wang, Sui-Dong;
2:53:39 High reliability of vanadyl-phthalocyanine thin-film transistors using silicon nitride gate insulator
DOI:10.1016/j.tsf.2013.07.044 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Wang, Lijuan;Qin, Haitao;Zhang, Wei;Zhang, Long;Yan, Donghang;
2:53:40 Influence of grain size at first monolayer on bias-stress effect in pentacene-based thin film transistors
DOI:10.1063/1.4833251 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zhang, Yiwei;Li, Dexing;Jiang, Chao;
2:53:41 A simple method for controllable solution doping of complete polymer field-effect transistors
DOI:10.1063/1.4871096 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Ingram, Ian D. V.;Tate, Daniel J.;Parry, Adam V. S.;Sprick, R. Sebastian;Turner, Michael L.;
2:53:42 Molecular doping for control of gate bias stress in organic thin film transistors
DOI:10.1063/1.4861168 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Hein, Moritz P.;Zakhidov, Alexander A.;Luessem, Bjoern;Jankowski, Jens;Tietze, Max L.;Riede, Moritz K.;Leo, Karl;
2:53:43 Multiple-trapping in pentacene field-effect transistors with a nanoparticles self-assembled monolayer
DOI:10.1063/1.4720399 JN:AIP ADVANCES PY:2012 TC:3 AU: Lee, Keanchuan;Weis, Martin;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:53:44 Undoped and doped poly(tetraphenylbenzidine) as sensitive material for an impedimetric nitrogen dioxide gas dosimeter
DOI:10.1063/1.4896847 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Marr, I.;Neumann, K.;Thelakkat, M.;Moos, R.;
2:53:45 Quantitative photon-probe evaluation of trap-containing channel/dielectric interface in organic field effect transistors
DOI:10.1039/b921636g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:6 AU: Lee, Kimoon;Lee, Byoung H.;Lee, Kwang H.;Park, Ji Hoon;Sung, Myung M.;Im, Seongil;
2:53:46 Trapping effect of metal nanoparticle mono- and multilayer in the organic field-effect transistor
DOI:10.1063/1.3567916 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Lee, Keanchuan;Weis, Martin;Lin, Jack;Taguchi, Dai;Majkova, Eva;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:53:47 Fabrication and characterization of controllable grain boundary arrays in solution-processed small molecule organic semiconductor films
DOI:10.1063/1.3698203 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Wo, Songtao;Headrick, Randall L.;Anthony, John E.;
2:53:48 Self-heating effects on the electrical instability of fully printed p-type organic thin film transistors
DOI:10.1063/1.4769819 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Rapisarda, M.;Fortunato, G.;Valletta, A.;Jacob, S.;Benwadih, M.;Coppard, R.;Chartier, I.;Mariucci, L.;
2:53:49 Conservation of the injection and transit time ratio in organic field-effect transistors: A thermally accelerated aging study
DOI:10.1063/1.4719970 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Lee, Keanchuan;Weis, Martin;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:53:50 The performance of organic electronic ratchets
DOI:10.1063/1.3677934 JN:AIP ADVANCES PY:2012 TC:1 AU: Roeling, Erik M.;Germs, Wijnand Chr;Smalbrugge, Barry;Geluk, Erik Jan;de Vries, Tjibbe;Janssen, Rene A. J.;Kemerink, Martijn;
2:53:51 Effects of Polystyrene Gate Dielectrics with Various Molecular Weights on Electrical Characteristics of Pentacene Thin-Film Transistors
DOI:10.1080/15421406.2014.933384 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Lee, Sung Woo;Kim, Dong Wook;Shin, Hyunji;Choi, Jong Sun;Bae, Jin-Hyuk;Zhang, Xue;Park, Jaehoon;
2:53:52 Inkjet printed perylene diimide based OTFTs: Effect of the solvent mixture and the printing parameters on film morphology
DOI:10.1016/j.synthmet.2011.08.004 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Grimaldi, Immacolata Angelica;Barra, Mario;Del Mauro, Anna De Girolamo;Loffredo, Fausta;Cassinese, Antonio;Villani, Fulvia;Minarini, Carla;
2:53:53 Interface diffusion characteristics of Al-2 at.%Nd/n + a-Si:H and Al-2 at.%Nd/n + poly-Si bilayers
DOI:10.1016/j.tsf.2011.08.070 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Choi, Nackbong;Yoon, Soo-Young;Kim, Chang-Dong;Hatalis, Miltiadis;
2:54:1 Investigating the Influence of Interfacial Contact Properties on Open Circuit Voltages in Organic Photovoltaic Performance: Work Function Versus Selectivity
DOI:10.1002/aenm.201200669 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:50 AU: Ratcliff, Erin L.;Garcia, Andres;Paniagua, Sergio A.;Cowan, Sarah R.;Giordano, Anthony J.;Ginley, David S.;Marder, Seth R.;Berry, Joseph J.;Olson, Dana C.;
2:54:2 Transparent Conducting Oxides of Relevance to Organic Electronics: Electronic Structures of Their Interfaces with Organic Layers
DOI:10.1021/cm402113k JN:CHEMISTRY OF MATERIALS PY:2014 TC:9 AU: Li, Hong;Winget, Paul;Bredast, Jean-Luc;
2:54:3 Characterization of phosphonic acid binding to zinc oxide
DOI:10.1039/c0jm02829k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:40 AU: Hotchkiss, Peter J.;Malicki, Michal;Giordano, Anthony J.;Armstrong, Neal R.;Marder, Seth R.;
2:54:4 Zinc Oxide as a Model Transparent Conducting Oxide: A Theoretical and Experimental Study of the Impact of Hydroxylation, Vacancies, Interstitials, and Extrinsic Doping on the Electronic Properties of the Polar ZnO (0002) Surface
DOI:10.1021/cm301596x JN:CHEMISTRY OF MATERIALS PY:2012 TC:36 AU: Li, Hong;Schirra, Laura K.;Shim, Jaewon;Cheun, Hyeunseok;Kippelen, Bernard;Monti, Oliver L. A.;Bredas, Jean-Luc;
2:54:5 Tuning the Work Function of Polar Zinc Oxide Surfaces using Modified Phosphonic Acid Self-Assembled Monolayers
DOI:10.1002/adfm.201401493 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Lange, Ilja;Reiter, Sina;Paetzel, Michael;Zykov, Anton;Nefedov, Alexei;Hildebrandt, Jana;Hecht, Stefan;Kowarik, Stefan;Woell, Christof;Heimel, Georg;Neher, Dieter;
2:54:6 Chemically Controlled Reversible and Irreversible Extraction Barriers Via Stable Interface Modification of Zinc Oxide Electron Collection Layer in Polycarbazole-based Organic Solar Cells
DOI:10.1002/adfm.201400158 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:21 AU: Cowan, Sarah R.;Schulz, Philip;Giordano, Anthony J.;Garcia, Andres;MacLeod, Bradley A.;Marder, Seth R.;Kahn, Antoine;Ginley, David S.;Ratcliff, Erin L.;Olson, Dana C.;
2:54:7 Surface Functionalization of Zinc Oxide by Carboxyalkylphosphonic Acid Self-Assembled Monolayers
DOI:10.1021/la9042827 JN:LANGMUIR PY:2010 TC:53 AU: Zhang, Beibei;Kong, Tao;Xu, Wenzhi;Su, Ruigong;Gao, Yunhua;Cheng, Guosheng;
2:54:8 Tailoring Electron-Transfer Barriers for Zinc Oxide/C-60 Fullerene Interfaces
DOI:10.1002/adfm.201401794 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Schulz, Philip;Kelly, Leah L.;Winget, Paul;Li, Hong;Kim, Hyungchul;Ndione, Paul F.;Sigdel, Ajaya K.;Berry, Joseph J.;Graham, Samuel;Bredas, Jean-Luc;Kahn, Antoine;Monti, Oliver L. A.;
2:54:9 Theoretical study of the surface modification of indium tin oxide with trifluorophenyl phosphonic acid molecules: impact of coverage density and binding geometry
DOI:10.1039/b921768a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:32 AU: Li, Hong;Paramonov, Pavel;Bredas, Jean-Luc;
2:54:10 Orientation of Phenylphosphonic Acid Self-Assembled Monolayers on a Transparent Conductive Oxide: A Combined NEXAFS, PM-IRRAS, and DFT Study
DOI:10.1021/la304594t JN:LANGMUIR PY:2013 TC:24 AU: Gliboff, Matthew;Sang, Lingzi;Knesting, Kristina M.;Schalnat, Matthew C.;Mudalige, Anoma;Ratcliff, Erin L.;Li, Hong;Sigdel, Ajaya K.;Giordano, Anthony J.;Berry, Joseph J.;Nordlund, Dennis;Seidler, Gerald T.;Bredas, Jean-Luc;Marder, Seth R.;Pemberton, Jeanne E.;Ginger, David S.;
2:54:11 Defect-Driven Interfacial Electronic Structures at an Organic/Metal-Oxide Semiconductor Heterojunction
DOI:10.1002/adma.201305351 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Winget, Paul;Schirra, Laura K.;Cornil, David;Li, Hong;Coropceanu, Veaceslav;Ndione, Paul F.;Sigdel, Ajaya K.;Ginley, David S.;Berry, Joseph J.;Shim, Jaewon;Kim, Hyungchui;Kippelen, Bernard;Bredas, Jean-Luc;Monti, Oliver L. A.;
2:54:12 Organic/Inorganic Hybrids for Solar Energy Generation
DOI:10.1557/mrs2010.579 JN:MRS BULLETIN PY:2010 TC:30 AU: Hsu, Julia W. P.;Lloyd, Matthew T.;
2:54:13 Spatially Modulating Interfacial Properties of Transparent Conductive Oxides: Patterning Work Function with Phosphonic Acid Self-Assembled Monolayers
DOI:10.1002/adma.201102321 JN:ADVANCED MATERIALS PY:2012 TC:20 AU: Knesting, Kristina M.;Hotchkiss, Peter J.;MacLeod, Bradley A.;Marder, Seth R.;Ginger, David S.;
2:54:14 Tuning zinc oxide/organic energy level alignment using mixed triethoxysilane monolayers
DOI:10.1039/c3tc30881b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Brenner, Thomas M.;Chen, Gang;Meinig, Erich P.;Baker, Darick J.;Olson, Dana C.;Collins, Reuben T.;Furtak, Thomas E.;
2:54:15 Space-Charge Transfer in Hybrid Inorganic-Organic Systems
DOI:10.1103/PhysRevLett.111.226802 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:6 AU: Xu, Yong;Hofmann, Oliver T.;Schlesinger, Raphael;Winkler, Stefanie;Frisch, Johannes;Niederhausen, Jens;Vollmer, Antje;Blumstengel, Sylke;Henneberger, Fritz;Koch, Norbert;Rinke, Patrick;Scheffler, Matthias;
2:54:16 Modification of the Gallium-Doped Zinc Oxide Surface with Self-Assembled Monolayers of Phosphonic Acids: A Joint Theoretical and Experimental Study
DOI:10.1002/adfm.201303670 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Li, Hong;Ratcliff, Erin L.;Sigdel, Ajaya K.;Giordano, Anthony J.;Marder, Seth R.;Berry, Joseph J.;Bredas, Jean-Luc;
2:54:17 Conjugated Phosphonic Acid Modified Zinc Oxide Electron Transport Layers for Improved Performance in Organic Solar Cells
DOI:10.1021/am505182c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Braid, Jennifer L.;Koldemir, Unsal;Sellinger, Alan;Collins, Reuben T.;Furtak, Thomas E.;Olson, Dana C.;
2:54:18 Molecular Adsorption on ZnO(10(1)over-bar0) Single-Crystal Surfaces: Morphology and Charge Transfer
DOI:10.1021/la301347t JN:LANGMUIR PY:2012 TC:20 AU: Chen, Jixin;Ruther, Rose E.;Tan, Yizheng;Bishop, Lee M.;Hamers, Robert J.;
2:54:19 Surface Modification of ZnO(0001)-Zn with Phosphonate-Based Self-Assembled Monolayers: Binding Modes, Orientation, and Work Function
DOI:10.1021/cm502171m JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Timpel, Melanie;Nardi, Marco V.;Krause, Stefan;Ligorio, Giovanni;Christodoulou, Christos;Pasquali, Luca;Giglia, Angelo;Frisch, Johannes;Wegner, Berthold;Moras, Paolo;Koch, Norbert;
2:54:20 Efficient Modification of Metal Oxide Surfaces with Phosphonic Acids by Spray Coating
DOI:10.1021/la303354t JN:LANGMUIR PY:2013 TC:21 AU: Bulusu, Anuradha;Paniagua, Sergio A.;MacLeod, Bradley A.;Sigdel, Ajaya K.;Berry, Joseph J.;Olson, Dana C.;Marder, Seth R.;Graham, Samuel;
2:54:21 Surface composition, work function, and electrochemical characteristics of gallium-doped zinc oxide
DOI:10.1016/j.tsf.2012.04.038 JN:THIN SOLID FILMS PY:2012 TC:8 AU: Ratcliff, Erin L.;Sigdel, Ajaya K.;Macech, Mariola R.;Nebesny, Kenneth;Lee, Paul A.;Ginley, David S.;Armstrong, Neal R.;Berry, Joseph J.;
2:54:22 Investigation of phosphonic acid surface modifications on zinc oxide nanoparticles under ambient conditions
DOI:10.1016/j.tsf.2014.06.057 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Quinones, Rosalynn;Rodriguez, Kate;Iuliucci, Robbie J.;
2:54:23 Radio-frequency superimposed direct current magnetron sputtered Ga:ZnO transparent conducting thin films
DOI:10.1063/1.4709753 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Sigdel, Ajaya K.;Ndione, Paul F.;Perkins, John D.;Gennett, Thomas;van Hest, Maikel F. A. M.;Shaheen, Sean E.;Ginley, David S.;Berry, Joseph J.;
2:54:24 Electrodeposition of ZnO Nanostructures on Molecular Thin Films
DOI:10.1021/cm200764h JN:CHEMISTRY OF MATERIALS PY:2011 TC:24 AU: Cruickshank, Amy C.;Tay, Stephen E. R.;Illy, Benoit N.;Da Campo, Raffaello;Schumann, Stefan;Jones, Tim S.;Heutz, Sandrine;McLachlan, Martyn A.;McComb, David W.;Riley, D. Jason;Ryan, Mary P.;
2:54:25 Nanostructures and sensing properties of ZnO prepared using normal and oblique angle deposition techniques
DOI:10.1016/j.tsf.2011.12.066 JN:THIN SOLID FILMS PY:2012 TC:11 AU: Chu, Jin;Peng, Xiaoyan;Sajjad, M.;Yang, Boqian;Feng, Peter X.;
2:54:26 Work function measurements on nano-crystalline zinc oxide surfaces
DOI:10.1063/1.4729527 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:11 AU: Gutmann, S.;Conrad, M.;Wolak, M. A.;Beerbom, M. M.;Schlaf, R.;
2:54:27 Controlling the work function of ZnO and the energy-level alignment at the interface to organic semiconductors with a molecular electron acceptor
DOI:10.1103/PhysRevB.87.155311 JN:PHYSICAL REVIEW B PY:2013 TC:6 AU: Schlesinger, Raphael;Xu, Yong;Hofmann, Oliver T.;Winkler, Stefanie;Frisch, Johannes;Niederhausen, Jens;Vollmer, Antje;Blumstengel, Sylke;Henneberger, Fritz;Rinke, Patrick;Scheffler, Matthias;Koch, Norbert;
2:54:28 Donor-Acceptor Interfacial Interactions Dominate Device Performance in Hybrid P3HT-ZnO Nanowire-Array Solar Cells
DOI:10.1002/aenm.201400585 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:0 AU: Whittaker-Brooks, Luisa;McClain, William E.;Schwartz, Jeffrey;Loo, Yueh-Lin;
2:54:29 Texture and morphology of ZnO grown on nanocrystalline p-sexiphenyl thin films
DOI:10.1016/j.jcrysgro.2014.05.009 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:1 AU: Blumstengel, S.;Kirmse, H.;Sparenberg, M.;Sadofev, S.;Polzer, F.;Henneberger, F.;
2:54:30 Effect of deposition distance and temperature on electrical, optical and structural properties of radio-frequency magnetron-sputtered gallium-doped zinc oxide
DOI:10.1016/j.tsf.2010.07.098 JN:THIN SOLID FILMS PY:2010 TC:16 AU: Gorrie, Christopher W.;Sigdel, Ajaya K.;Berry, Joseph J.;Reese, Brandon J.;van Hest, Maikel F. A. M.;Holloway, Paul H.;Ginley, David S.;Perkins, John D.;
2:54:31 Characterizing the Molecular Order of Phosphonic Acid Self-Assembled Monolayers on Indium Tin Oxide Surfaces
DOI:10.1021/la201161q JN:LANGMUIR PY:2011 TC:13 AU: Losego, Mark D.;Guske, Joshua T.;Efremenko, Alina;Maria, Jon-Paul;Franzen, Stefan;
2:54:32 Formation of Smooth, Conformal Molecular Layers on ZnO Surfaces via Photochemical Grafting
DOI:10.1021/la2011265 JN:LANGMUIR PY:2011 TC:4 AU: Ruther, Rose E.;Franking, Ryan;Huhn, Alex M.;Gomez-Zayas, Jaritza;Hamers, Robert J.;
2:54:33 Sensing performances of ZnO nanostructures grown under different oxygen pressures to hydrogen
DOI:10.1016/j.materresbull.2012.09.037 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:2 AU: Chu, Jin;Peng, Xiaoyan;Wang, Zhenbo;Feng, Peter;
2:54:34 On the origin of efficient electron injection at phosphonate-functionalized polyfluorene/aluminum interface in efficient polymer light-emitting diodes
DOI:10.1063/1.3475021 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Zhang, Baohua;Qin, Chuanjiang;Niu, Xiaodi;Xie, Zhiyuan;Cheng, Yanxiang;Wang, Lixiang;Li, Xinglin;
2:54:35 Extreme low-temperature molecular beam epitaxy of ZnO-based quantum structures
DOI:10.1063/1.3544575 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Blumstengel, S.;Sadofev, S.;Kirmse, H.;Henneberger, F.;
2:54:36 Ligand chemistry of titania precursor affects transient photovoltaic behavior in inverted organic solar cells
DOI:10.1063/1.4795287 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Kim, Jong Bok;Ahn, Seokhoon;Kang, Seok Ju;Nuckolls, Colin;Loo, Yueh-Lin;
2:54:37 Quantum Spin Hall and Quantum Anomalous Hall States Realized in Junction Quantum Wells
DOI:10.1103/PhysRevLett.112.216803 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Zhang, Haijun;Xu, Yong;Wang, Jing;Chang, Kai;Zhang, Shou-Cheng;
2:54:38 A new polyfluorene containing repeated ethylenoxy units linked to glycerol as side chains: Synthesis and application as an electron injection material in the fabrication of polymer light-emitting diodes
DOI:10.1016/j.synthmet.2012.09.010 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Kwon, Jae-Taek;Moon, Byung Seuk;Shin, Jin-Koog;Lee, Soo-Hyoung;Lee, Sang-Hee;Lee, Youn-Sik;
2:54:39 Surface Modification of Indium-Tin-Oxide Via Self-Assembly of a Donor-Acceptor Complex: A Density Functional Theory Study
DOI:10.1002/adma.201103009 JN:ADVANCED MATERIALS PY:2012 TC:5 AU: Li, Hong;Winget, Paul;Bredas, Jean-Luc;
2:54:40 Genomic DNA characterization of pork spleen by Raman spectroscopy
DOI:10.1063/1.4831948 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Guzman-Embus, D. A.;Orrego Cardozo, M.;Vargas-Hernandez, C.;
2:54:41 Comparison of a Fluorinated Aryl Thiol Self-Assembled Monolayer with Its Hydrogenated Counterpart on Polycrystalline Ag Substrates
DOI:10.1021/la1010314 JN:LANGMUIR PY:2010 TC:15 AU: Schalnat, Matthew C.;Pemberton, Jeanne E.;
2:54:42 Rapid preparation of highly ordered ultraflat ZnO surfaces
DOI:10.1016/j.apsusc.2012.06.094 JN:APPLIED SURFACE SCIENCE PY:2012 TC:7 AU: Goetzen, Jan;Witte, Gregor;
2:54:43 Orientation of Phenylphosphonic Acid Self-Assembled Mono layers on a Transparent Conductive Oxide: A Combined NEXAFS, PM-IRRAS, and DFT Study (vol 29, pg 2166, 2013)
DOI:10.1021/la400693c JN:LANGMUIR PY:2013 TC:1 AU: Gliboff, Matthew;Sang, Lingzi;Knesting, Kristina M.;Schalnat, Matthew C.;Mudalige, Anoma;Ratcliff, Erin L.;Li, Hong;Sigdel, Ajaya K.;Giordano, Anthony J.;Berry, Joseph J.;Nordlund, Dennis;Seidler, Gerald T.;Bredas, Jean-Luc;Marder, Seth R.;Pemberton, Jeanne E.;Ginger, David S.;
2:54:44 Thickness, Composition, and Molecular Structure of Residual Thin Films Formed by Forced Dewetting of Ag from Glycerol/D2O Solutions
DOI:10.1021/la503863t JN:LANGMUIR PY:2014 TC:2 AU: Pemberton, Jeanne E.;Mudalige, Anoma;Yoo, Heemin;
2:54:45 Effect of self assembled monolayers on charge carrier photogeneration in sexithiophene based diodes
DOI:10.1016/j.synthmet.2011.09.028 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Kouki, Faycal;Karsi, Nadia;Lang, Philippe;Horowitz, Gilles;Bouchriha, Habib;
2:54:46 Characterization of nanostructures of ZnO and ZnMnO films deposited by successive ionic layer adsorption and reaction method
DOI:10.1016/j.tsf.2011.05.008 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Jimenez-Garcia, F. N.;Espinosa-Arbelaez, D. G.;Vargas-Hernandez, C.;del Real, A.;Rodriguez-Garcia, M. E.;
2:55:1 Observation of long-range exciton diffusion in highly ordered organic semiconductors
DOI:10.1038/nmat2872 JN:NATURE MATERIALS PY:2010 TC:141 AU: Najafov, H.;Lee, B.;Zhou, Q.;Feldman, L. C.;Podzorov, V.;
2:55:2 Organic single crystals: Addressing the fundamentals of organic electronics
DOI:10.1557/mrs.2012.306 JN:MRS BULLETIN PY:2013 TC:31 AU: Podzorov, Vitaly;
2:55:3 Connecting Molecular Structure and Exciton Diffusion Length in Rubrene Derivatives
DOI:10.1002/adma.201300641 JN:ADVANCED MATERIALS PY:2013 TC:18 AU: Mullenbach, Tyler K.;McGarry, Kathryn A.;Luhman, Wade A.;Douglas, Christopher J.;Holmes, Russell J.;
2:55:4 Rubrene micro-crystals from solution routes: their crystallography, morphology and optical properties
DOI:10.1039/b914334c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:49 AU: Huang, Liwei;Liao, Qing;Shi, Qiang;Fu, Hongbing;Ma, Jinshi;Yao, Jiannian;
2:55:5 Triplet exciton dynamics in rubrene single crystals
DOI:10.1103/PhysRevB.84.193203 JN:PHYSICAL REVIEW B PY:2011 TC:22 AU: Ryasnyanskiy, Aleksandr;Biaggio, Ivan;
2:55:6 Absorption and photoluminescence spectroscopy of rubrene single crystals
DOI:10.1103/PhysRevB.86.085143 JN:PHYSICAL REVIEW B PY:2012 TC:16 AU: Irkhin, Pavel;Ryasnyanskiy, Aleksandr;Koehler, Marlus;Biaggio, Ivan;
2:55:7 Photon-Assisted Oxygen Diffusion and Oxygen-Related Traps in Organic Semiconductors
DOI:10.1002/adma.201004239 JN:ADVANCED MATERIALS PY:2011 TC:21 AU: Najafov, Hikmet;Mastrogiovanni, Daniel;Garfunkel, Eric;Feldman, Leonard C.;Podzorov, Vitaly;
2:55:8 The Origin of a 650 nm Photoluminescence Band in Rubrene
DOI:10.1002/adma.201102294 JN:ADVANCED MATERIALS PY:2011 TC:22 AU: Chen, Yuanzhen;Lee, Bumsu;Fu, Danni;Podzorov, Vitaly;
2:55:9 Competition between polaron pair formation and singlet fission observed in amorphous rubrene films
DOI:10.1103/PhysRevB.87.224202 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Jankus, Vygintas;Snedden, Edward W.;Bright, Daniel W.;Arac, Erhan;Dai, DeChang;Monkman, Andrew P.;
2:55:10 Direct Imaging of Anisotropic Exciton Diffusion and Triplet Diffusion Length in Rubrene Single Crystals
DOI:10.1103/PhysRevLett.107.017402 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:27 AU: Irkhin, Pavel;Biaggio, Ivan;
2:55:11 In Situ Patterning of High-Quality Crystalline Rubrene Thin Films for High-Resolution Patterned Organic Field-Effect Transistors
DOI:10.1021/nn203068q JN:ACS NANO PY:2011 TC:13 AU: Lee, Hyeok Moo;Kim, Jae Joon;Choi, Jae Hak;Cho, Sung Oh;
2:55:12 Connecting molecule oxidation to single crystal structural and charge transport properties in rubrene derivatives
DOI:10.1039/c3tc32527j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Uttiya, S.;Miozzo, L.;Fumagalli, E. M.;Bergantin, S.;Ruffo, R.;Parravicini, M.;Papagni, A.;Moret, M.;Sassella, A.;
2:55:13 Optical pump-probe spectroscopy of photocarriers in rubrene single crystals
DOI:10.1103/PhysRevB.83.075204 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Tao, Shoichi;Matsuzaki, Hiroyuki;Uemura, Hirotaka;Yada, Hiroyuki;Uemura, Takafumi;Takeya, Jun;Hasegawa, Tatsuo;Okamoto, Hiroshi;
2:55:14 Relaxation Dynamics of Photoexcited Excitons in Rubrene Single Crystals Using Femtosecond Absorption Spectroscopy
DOI:10.1103/PhysRevLett.109.097403 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:6 AU: Tao, S.;Ohtani, N.;Uchida, R.;Miyamoto, T.;Matsui, Y.;Yada, H.;Uemura, H.;Matsuzaki, H.;Uemura, T.;Takeya, J.;Okamoto, H.;
2:55:15 Roles of local and nonlocal electron-phonon couplings in triplet exciton diffusion in the anthracene crystal
DOI:10.1103/PhysRevB.88.035450 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Grisanti, Luca;Olivier, Yoann;Wang, Linjun;Athanasopoulos, Stavros;Cornil, Jerome;Beljonne, David;
2:55:16 Induced Crystallization of Rubrene in Thin-Film Transistors
DOI:10.1002/adma.201000786 JN:ADVANCED MATERIALS PY:2010 TC:31 AU: Li, Zhefeng;Du, Jun;Tang, Qin;Wang, Feng;Xu, Jian-Bin;Yu, Jimmy C.;Miao, Qian;
2:55:17 Role of oxygen incorporation in electronic properties of rubrene films
DOI:10.1063/1.3466914 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Song, Xin;Wang, Li;Fan, Qitang;Wu, Yuyu;Wang, Hongming;Liu, Chunmei;Liu, Nianhua;Zhu, Junfa;Qi, Dongchen;Gao, Xingyu;Wee, Andrew T. S.;
2:55:18 Rubrene-Based Single-Crystal Organic Semiconductors: Synthesis, Electronic Structure, and Charge-Transport Properties
DOI:10.1021/cm400736s JN:CHEMISTRY OF MATERIALS PY:2013 TC:23 AU: McGarry, Kathryn A.;Xie, Wei;Sutton, Christopher;Risko, Chad;Wu, Yanfei;Young, Victor G., Jr.;Bredas, Jean-Luc;Frisbie, C. Daniel;Douglas, Christopher J.;
2:55:19 A thienyl peripherally substituted rubrene analogue with constant emissions and good film forming ability
DOI:10.1039/c4tc01356e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Zhang, Xiaotao;Zhen, Yonggang;Fu, Xiaolong;Liu, Jie;Lu, Xiuqiang;He, Ping;Dong, Huanli;Zhang, Hantang;Zhao, Guangyao;Jiang, Lang;Hu, Wenping;
2:55:20 Trap healing and ultralow-noise Hall effect at the surface of organic semiconductors
DOI:10.1038/NMAT3781 JN:NATURE MATERIALS PY:2013 TC:13 AU: Lee, B.;Chen, Y.;Fu, D.;Yi, H. T.;Czelen, K.;Najafov, H.;Podzorov, V.;
2:55:21 Photovoltaic Effect at the Schottky Interface with Organic Single Crystal Rubrene
DOI:10.1002/adfm.201301891 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Karak, Supravat;Lim, Jung Ah;Ferdous, Sunzida;Duzhko, Volodimyr V.;Briseno, Alejandro L.;
2:55:22 Extrinsic origins of electronic disorder in 2D organic crystals
DOI:10.1116/1.4869196 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:1 AU: Wang, Jiuyang;Dougherty, Daniel B.;
2:55:23 Effect of Oxygen on the Electronic Structure of Highly Crystalline Picene Films
DOI:10.1021/ja204011j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:15 AU: Wang, Ying;Di Motta, Simone;Negri, Fabrizia;Friedlein, Rainer;
2:55:24 Highly bright and sharp light emission of a single nanoparticle of crystalline rubrene
DOI:10.1039/c1jm10530b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Park, Dong Hyuk;Jo, Seong Gi;Hong, Young Ki;Cui, Chunzhi;Lee, Hyunsoo;Ahn, Dong June;Kim, Jeongyong;Joo, Jinsoo;
2:55:25 Rubrene analogues with the aggregation-induced emission enhancement behaviour
DOI:10.1039/c3tc31794c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Zhang, Xiaotao;Sorensen, Jakob K.;Fu, Xiaolong;Zhen, Yonggang;Zhao, Guangyao;Jiang, Lang;Dong, Huanli;Liu, Jie;Shuai, Zhigang;Geng, Hua;Bjornholm, Thomas;Hu, Wenping;
2:55:26 Vacuum Lamination Approach to Fabrication of High-Performance Single-Crystal Organic Field-Effect Transistors
DOI:10.1002/adma.201103305 JN:ADVANCED MATERIALS PY:2011 TC:13 AU: Yi, H. T.;Chen, Y.;Czelen, K.;Podzorov, V.;
2:55:27 Two mechanisms of exciton dissociation in rubrene single crystals
DOI:10.1063/1.3421539 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Najafov, Hikmat;Lyu, Byunggook;Biaggio, Ivan;Podzorov, Vitaly;
2:55:28 Optical properties of fully and partially fluorinated rubrene in films and solution
DOI:10.1063/1.4773520 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Anger, F.;Scholz, R.;Adamski, E.;Broch, K.;Gerlach, A.;Sakamoto, Y.;Suzuki, T.;Schreiber, F.;
2:55:29 Oxidation Dynamics of Epitaxial Rubrene Ultrathin Films
DOI:10.1021/cm201230j JN:CHEMISTRY OF MATERIALS PY:2011 TC:10 AU: Fumagalli, Enrico;Raimondo, Luisa;Silvestri, Leonardo;Moret, Massimo;Sassella, Adele;Campione, Marcello;
2:55:30 Crystalline Growth of Rubrene Film Enhanced by Vertical Ordering in Cadmium Arachidate Multilayer Substrate
DOI:10.1021/la3046912 JN:LANGMUIR PY:2013 TC:7 AU: Wang, Chia-Hsin;Islam, A. K. M. Maidul;Yang, Yaw-Wen;Wu, Tsung-Yu;Lue, Jian-Wei;Hsu, Chia-Hung;Sinha, Sumona;Mukherjee, Manabendra;
2:55:31 Estimation of the spatial distribution of traps using space-charge-limited current measurements in an organic single crystal
DOI:10.1103/PhysRevB.86.115202 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Dacuna, Javier;Xie, Wei;Salleo, Alberto;
2:55:32 Polarized photoluminescence characteristics of rubrene sheets with nanometer thickness
DOI:10.1103/PhysRevB.86.075416 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Lee, Jin Woo;Jo, Seong Gi;Joo, Jinsoo;Kim, Jin Heung;Rho, Heesuk;
2:55:33 Two-photon absorption spectroscopy of rubrene single crystals
DOI:10.1103/PhysRevB.89.201202 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Irkhin, Pavel;Biaggio, Ivan;
2:55:34 Evolution of the surface morphology of rubrene under ambient conditions
DOI:10.1063/1.3551624 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Thompson, R. J.;Yadin, B.;Grout, Z. J.;Hudziak, S.;Kloc, C. L.;Mitrofanov, O.;Curson, N. J.;
2:55:35 Patterning rubrene crystalline thin films for sub-micrometer channel length field-effect transistor arrays
DOI:10.1039/c4tc01590h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Zhu, Juan;Wang, Wenchong;Zhong, Qigang;Li, Liqiang;Du, Chuan;Lv, Aifeng;Wang, Hong;Fuchs, Harald;Chi, Lifeng;
2:55:36 Oxidation of Rubrene Thin Films: An Electronic Structure Study
DOI:10.1021/la503357t JN:LANGMUIR PY:2014 TC:2 AU: Sinha, Sumona;Wang, C. -H.;Mukherjee, M.;Mukherjee, T.;Yang, Y. -W.;
2:55:37 ORGANIC SEMICONDUCTORS A little energy goes a long way
DOI:10.1038/nmat2890 JN:NATURE MATERIALS PY:2010 TC:5 AU: Silva, Carlos;
2:55:38 Fluorescence from rubrene single crystals: Interplay of singlet fission and energy trapping
DOI:10.1103/PhysRevB.87.201203 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Ma, Lin;Zhang, Keke;Kloc, Christian;Sun, Handong;Soci, Cesare;Michel-Beyerle, Maria E.;Gurzadyan, Gagik G.;
2:55:39 Modeling of the effect of intentionally introduced traps on hole transport in single-crystal rubrene
DOI:10.1103/PhysRevB.89.245302 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Dacuna, Javier;Desai, Amit;Xie, Wei;Salleo, Alberto;
2:55:40 Patterned Growth of Crystalline Organic Heterostructures
DOI:10.1002/adma.201300462 JN:ADVANCED MATERIALS PY:2013 TC:4 AU: Sassella, Adele;Raimondo, Luisa;Campione, Marcello;Borghesi, Alessandro;
2:55:41 Extremely efficient exciton fission and fusion and its dominant contribution to the photoluminescence yield in rubrene single crystals
DOI:10.1063/1.4857095 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Biaggio, Ivan;Irkhin, Pavel;
2:55:42 Exciton diffusion enhancement in triphenylamines via incorporation of phenylethenyl sidearms
DOI:10.1039/c4tc00262h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Raisys, S.;Kazlauskas, K.;Daskeviciene, M.;Malinauskas, T.;Getautis, V.;Jursenas, S.;
2:55:43 Sub-A Resolution Electron Density Analysis of the Surface of Organic Rubrene Crystals
DOI:10.1103/PhysRevLett.104.066103 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:13 AU: Wakabayashi, Yusuke;Takeya, Jun;Kimura, Tsuyoshi;
2:55:44 Stability to photo-oxidation of rubrene and fluorine-substituted rubrene
DOI:10.1016/j.synthmet.2011.08.006 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Uttiya, Sureeporn;Raimondo, Luisa;Campione, Marcello;Miozzo, Luciano;Yassar, Abderrahim;Moret, Massimo;Fumagalli, Enrico;Borghesi, Alessandro;Sassella, Adele;
2:55:45 Application of phosphonic acid self-assembled monolayer in organic field-effect transistors
DOI:10.1016/j.apsusc.2013.05.158 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Li, Zhefeng;Li, Jiao;Luo, Xianye;
2:55:46 Thickness dependent electronic structure and morphology of rubrene thin films on metal, semiconductor, and dielectric substrates
DOI:10.1063/1.4819213 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Sinha, Sumona;Mukherjee, M.;
2:55:47 Induced crystallization of rubrene with diazapentacene as the template
DOI:10.1039/c2jm14941a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Liu, Danqing;Li, Zhefeng;He, Zikai;Xu, Jianbin;Miao, Qian;
2:55:48 Enhanced photoluminescence from self-organized rubrene single crystal surface structures
DOI:10.1063/1.3449124 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Stoehr, R. J.;Beirne, G. J.;Michler, P.;Scholz, R.;Wrachtrup, J.;Pflaum, J.;
2:55:49 Growth and Structure of Picene Thin Films on SiO2
DOI:10.1080/15421406.2013.807718 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Kurihara, R.;Hosokai, T.;Kubozono, Y.;
2:55:50 Interface structure of the rubrene crystal field effect transistor
DOI:10.1063/1.3661523 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Wakabayashi, Yusuke;Takeya, Jun;Kimura, Tsuyoshi;
2:55:51 Electron-Beam Nanopatterning and Spectral Modulation of Organic Molecular Light-Emitting Single Crystals
DOI:10.1021/la4033833 JN:LANGMUIR PY:2014 TC:0 AU: Persano, Luana;Camposeo, Andrea;Pisignano, Dario;Burini, Andrea;Spearman, Peter;Tavazzi, Silvia;
2:56:1 Multi-Functional Integration of Organic Field-Effect Transistors (OFETs): Advances and Perspectives
DOI:10.1002/adma.201201502 JN:ADVANCED MATERIALS PY:2013 TC:63 AU: Di, Chong-an;Zhang, Fengjiao;Zhu, Daoben;
2:56:2 Chemical and Physical Sensing by Organic Field-Effect Transistors and Related Devices
DOI:10.1002/adma.200902760 JN:ADVANCED MATERIALS PY:2010 TC:113 AU: Someya, Takao;Dodabalapur, Ananth;Huang, Jia;See, Kevin C.;Katz, Howard E.;
2:56:3 High Performance Field-Effect Ammonia Sensors Based on a Structured Ultrathin Organic Semiconductor Film
DOI:10.1002/adma.201301138 JN:ADVANCED MATERIALS PY:2013 TC:34 AU: Li, Liqiang;Gao, Peng;Baumgarten, Martin;Muellen, Klaus;Lu, Nan;Fuchs, Harald;Chi, Lifeng;
2:56:4 Ultrathin Film Organic Transistors: Precise Control of Semiconductor Thickness via Spin-Coating
DOI:10.1002/adma.201204075 JN:ADVANCED MATERIALS PY:2013 TC:32 AU: Zhang, Fengjiao;Di, Chong-an;Berdunov, Nikolai;Hu, Yuanyuan;Hu, Yunbin;Gao, Xike;Meng, Qing;Sirringhaus, Henning;Zhu, Daoben;
2:56:5 High-Performance Organic Single-Crystal Field-Effect Transistors of Indolo[3,2-b]carbazole and Their Potential Applications in Gas Controlled Organic Memory Devices
DOI:10.1002/adma.201102975 JN:ADVANCED MATERIALS PY:2011 TC:21 AU: Jiang, Hui;Zhao, Huaping;Zhang, Keke K.;Chen, Xiaodong;Kloc, Christian;Hu, Wenping;
2:56:6 Flexible spray-coated TIPS-pentacene organic thin-film transistors as ammonia gas sensors
DOI:10.1039/c3tc31412j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Yu, Xinge;Zhou, Nanjia;Han, Shijiao;Lin, Hui;Buchholz, Donald B.;Yu, Junsheng;Chang, Robert P. H.;Marks, Tobin J.;Facchetti, Antonio;
2:56:7 Diverse Organic Field-Effect Transistor Sensor Responses from Two Functionalized Naphthalenetetracarboxylic Diimides and Copper Phthalocyanine Semiconductors Distinguishable Over a Wide Analyte Range
DOI:10.1002/adfm.201300245 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:11 AU: Huang, Weiguo;Sinha, Jasmine;Yeh, Ming-Ling;Hardigree, Josue F. Martinez;LeCover, Rachel;Besar, Kalpana;Rule, Ana Maria;Breysse, Patrick N.;Katz, Howard E.;
2:56:8 Highly Sensitive NH3 Detection Based on Organic Field-Effect Transistors with Tris(pentafluorophenyl)borane as Receptor
DOI:10.1021/ja305287p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:22 AU: Huang, Weiguo;Besar, Kalpana;LeCover, Rachel;Rule, Ana Maria;Breysse, Patrick N.;Katz, Howard E.;
2:56:9 Solution-sheared ultrathin films for highly-sensitive ammonia detection using organic thin-film transistors
DOI:10.1039/c3tc31762e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Meng, Qing;Zhang, Fengjiao;Zang, Yaping;Huang, Dazhen;Zou, Ye;Liu, Jie;Zhao, Guangyao;Wang, Zongrui;Ji, Deyang;Di, Chong-an;Hu, Wenping;Zhu, Daoben;
2:56:10 Digital-Inverter Amine Sensing via Synergistic Responses by n and p Organic Semiconductors
DOI:10.1002/adfm.201101324 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:19 AU: Tremblay, Noah J.;Jung, Byung Jun;Breysse, Patrick;Katz, Howard E.;
2:56:11 Millimeter-Sized Molecular Monolayer Two-Dimensional Crystals
DOI:10.1002/adma.201004551 JN:ADVANCED MATERIALS PY:2011 TC:26 AU: Jiang, Lang;Dong, Huanli;Meng, Qing;Li, Hongxiang;He, Meng;Wei, Zhongming;He, Yudong;Hu, Wenping;
2:56:12 Mechanistic Considerations of Bending-Strain Effects within Organic Semiconductors on Polymer Dielectrics
DOI:10.1002/adfm.201101418 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:31 AU: Sokolov, Anatoliy N.;Cao, Yadong;Johnson, Olasupo B.;Bao, Zhenan;
2:56:13 Response diversity and dual response mechanism of organic field-effect transistors with dinitrotoluene vapor
DOI:10.1039/b916037j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:23 AU: Huang, J.;Dawidczyk, T. J.;Jung, B. J.;Sun, J.;Mason, A. F.;Katz, H. E.;
2:56:14 Induced Sensitivity and Selectivity in Thin-Film Transistor Sensors via Calixarene Layers
DOI:10.1002/adma.200903305 JN:ADVANCED MATERIALS PY:2010 TC:31 AU: Sokolov, Anatoliy N.;Roberts, Mark E.;Johnson, Olasupo B.;Cao, Yadong;Bao, Zhenan;
2:56:15 Highly Sensitive Non-Classical Strain Gauge Using Organic Heptazole Thin-Film Transistor Circuit on a Flexible Substrate
DOI:10.1002/adfm.201400139 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Nam, Seung Hee;Jeon, Pyo Jin;Min, Sung Wook;Lee, Young Tack;Park, Eun Young;Im, Seongil;
2:56:16 High-Performance Air-Stable Single-Crystal Organic Nanowires Based on a New Indolocarbazole Derivative for Field-Effect Transistors
DOI:10.1002/adma.201300740 JN:ADVANCED MATERIALS PY:2013 TC:13 AU: Park, Kyung Sun;Salunkhe, Sonali M.;Lim, Iseul;Cho, Cheon-Gyu;Han, Sung-Hwan;Sung, Myung Mo;
2:56:17 Specific and Reproducible Gas Sensors Utilizing Gas-Phase Chemical Reaction on Organic Transistors
DOI:10.1002/adma.201305011 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Zang, Yaping;Zhang, Fengjiao;Huang, Dazhen;Di, Chong-an;Meng, Qing;Gao, Xike;Zhu, Daoben;
2:56:18 Investigation of the physics of sensing in organic field effect transistor based sensors
DOI:10.1063/1.3686686 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:11 AU: Duarte, Davianne;Dodabalapur, Ananth;
2:56:19 Gas Dielectric Transistor of CuPc Single Crystalline Nanowire for SO2 Detection Down to Sub-ppm Levels at Room Temperature
DOI:10.1002/adma.201204509 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Shaymurat, Talgar;Tang, Qingxin;Tong, Yanhong;Dong, Lin;Liu, Yichun;
2:56:20 Single crystal field-effect transistors containing a pentacene analogue and their application in ethanol vapor detection
DOI:10.1063/1.4750063 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Zhao, Guangyao;Dong, Huanli;Jiang, Lang;Zhao, Huaping;Qin, Xiang;Hu, Wenping;
2:56:21 Gate-Bias Controlled Charge Trapping as a Mechanism for NO2 Detection with Field-Effect Transistors
DOI:10.1002/adfm.201001560 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:22 AU: Andringa, Anne-Marije;Meijboom, Juliaan R.;Smits, Edsger C. P.;Mathijssen, Simon G. J.;Blom, Paul W. M.;de Leeuw, Dago M.;
2:56:22 A High-Performance Room-Temperature NO2 Sensor Based on An Ultrathin Heterojunction Film
DOI:10.1002/adma.201204134 JN:ADVANCED MATERIALS PY:2013 TC:21 AU: Ji, Shiliang;Wang, Haibo;Wang, Tong;Yan, Donghang;
2:56:23 Substitution effect on molecular packing and transistor performance of indolo [3,2-b]carbazole derivatives
DOI:10.1039/c1jm14891e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Zhao, Guangyao;Dong, Huanli;Zhao, Huaping;Jiang, Lang;Zhang, Xiaotao;Tan, Jiahui;Meng, Qing;Hu, Wenping;
2:56:24 A composite of a graphene oxide derivative as a novel sensing layer in an organic field-effect transistor
DOI:10.1039/c4tc00376d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Kim, Yebyeol;An, Tae Kyu;Kim, Jiye;Hwang, Jihun;Park, Seonuk;Nam, Sooji;Cha, Hyojung;Park, Won Jeong;Baik, Jeong Min;Park, Chan Eon;
2:56:25 Electrical "Turn-On" Response of Poly(3,3 '''-didodecylquaterthiophene) and Electron Donor Blend: Transistors to 2,4,6-Trinitrotoluene
DOI:10.1021/cm3012292 JN:CHEMISTRY OF MATERIALS PY:2012 TC:10 AU: Kong, Hoyoul;Jung, Byung Jun;Sinha, Jasmine;Katz, Howard E.;
2:56:26 Air-Stable Spin-Coated Naphthalocyanine Transistors for Enhanced Chemical Vapor Detection
DOI:10.1021/la204486y JN:LANGMUIR PY:2012 TC:11 AU: Royer, James E.;Zhang, Chengyi;Kummel, Andrew C.;Trogler, William C.;
2:56:27 Charge transport and trapping in organic field effect transistors exposed to polar analytes
DOI:10.1063/1.3569592 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Duarte, Davianne;Sharma, Deepak;Cobb, Brian;Dodabalapur, Ananth;
2:56:28 Novel Top-Contact Monolayer Pentacene-Based Thin-Film Transistor for Ammonia Gas Detection
DOI:10.1021/am5001954 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Mirza, Misbah;Wang, Jiawei;Li, Dexing;Arabi, S. Atika;Jiang, Chao;
2:56:29 Molecular weight sensing properties of ionic liquid-polymer composite films: theory and experiment
DOI:10.1039/c3tc32528h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Regmi, Bishnu P.;Speller, Nicholas C.;Anderson, Michael J.;Brutus, Jean Olivier;Merid, Yonathan;Das, Susmita;El-Zahab, Bilal;Hayes, Daniel J.;Murray, Kermit K.;Warner, Isiah M.;
2:56:30 A novel composite film for detection and molecular weight determination of organic vapors
DOI:10.1039/c2jm31623d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Regmi, Bishnu P.;Monk, Joshua;El-Zahab, Bilal;Das, Susmita;Hung, Francisco R.;Hayes, Daniel J.;Warner, Isiah M.;
2:56:31 The nature and role of trap states in a dendrimer-based organic field-effect transistor explosive sensor
DOI:10.1063/1.4810914 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Tang, Guoqiang;Chen, Simon S. Y.;Lee, Kwan H.;Pivrikas, Almantas;Aljada, Muhsen;Burn, Paul L.;Meredith, Paul;Shaw, Paul E.;
2:56:32 Solution processed ter-anthrylene-ethynylenes for annealing-activated organic field-effect transistors: a structure-performance correlation study
DOI:10.1039/c1jm11957e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Romanazzi, Giuseppe;Dell'Aquila, Antonio;Suranna, Gian Paolo;Marinelli, Francesco;Cotrone, Serafina;Altamura, Davide;Giannini, Cinzia;Torsi, Luisa;Mastrorilli, Piero;
2:56:33 Field-Structured Chemiresistors
DOI:10.1002/adfm.200902286 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:11 AU: Read, Douglas H.;Martin, James E.;
2:56:34 Conductive SnO2:Sb nanobelts as electrodes for detection of NO2 in ppb level with ultrahigh sensitivity
DOI:10.1063/1.4866275 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Cai, Bin;Zhao, Xiaoli;Pei, Tengfei;Toninelli, Ermes;Tang, Qingxin;Tong, Yanhong;Liu, Yichun;
2:56:35 Swelling of Polymer Dielectric Thin Films for Organic-Transistor-Based Aqueous Sensing Applications
DOI:10.1021/cm4032013 JN:CHEMISTRY OF MATERIALS PY:2013 TC:3 AU: Verploegen, Eric;Sokolov, Anatoliy N.;Akgun, Bulent;Satija, Sushil K.;Wei, Peng;Kim, Daniel;Kapelewski, Matthew T.;Bao, Zhenan;Toney, Michael F.;
2:56:36 Closed Batch Initiated Chemical Vapor Deposition of Ultrathin, Functional, and Conformal Polymer Films
DOI:10.1021/la500543d JN:LANGMUIR PY:2014 TC:2 AU: Petruczok, Christy D.;Chen, Nan;Gleason, Karen K.;
2:56:37 Alq(3) nanorod arrays by temperature-gradient-assisted eutectic melting and crystallization
DOI:10.1016/j.matlet.2014.08.143 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Chung, Jeyon;Lim, Hyunmin;Kim, Jueun;Hyon, Jinho;Seo, Chunhee;Nam, Jihye;Kwon, Taehoon;Kang, Youngjong;
2:56:38 Tetrathiafulvalene-Capped Hybrid Materials for the Optical Detection of Explosives
DOI:10.1021/am303111c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Salinas, Yolanda;Martinez-Manez, Ramon;Jeppesen, Jan O.;Petersen, Lars H.;Sancenon, Felix;Dolores Marcos, Maria;Soto, Juan;Guillem, Carmen;Amoros, Pedro;
2:56:39 Gas sensors based on doped-CNT/SnO2 composites for NO2 detection at room temperature
DOI:10.1016/j.tsf.2011.04.186 JN:THIN SOLID FILMS PY:2011 TC:14 AU: Leghrib, R.;Felten, A.;Pireaux, J. J.;Llobet, E.;
2:56:40 Highly Sensitive NH3 Detection Based on Organic Field-Effect Transistors with Tris(pentafluorophenyl)borane as Receptor (vol 134, pg 14650, 2012)
DOI:10.1021/ja309862d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:1 AU: Huang, Weiguo;Besar, Kalpana;LeCover, Rachel;Rule, Ana Maria;Breysse, Patrick N.;Katz, Howard E.;
2:56:41 Solution processable ter-anthrylene-ethynylenes semiconductors: thin film transistor properties and STM study on HOPG and Au(111)
DOI:10.1039/b921349j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:10 AU: Keg, Peisi;Dell'Aquila, Antonio;Marinelli, Francesco;Kapitanchuk, Oleksiy L.;Fichou, Denis;Mastrorilli, Piero;Romanazzi, Giuseppe;Suranna, Gian Paolo;Torsi, Luisa;Lam, Yeng Ming;Mhaisalkar, Subodh G.;
2:56:42 Organic vapor discrimination with chemiresistor arrays of temperature modulated tin-oxide nanowires and thiolate-monolayer-protected gold nanoparticles
DOI:10.1088/0957-4484/22/12/125501 JN:NANOTECHNOLOGY PY:2011 TC:4 AU: Scholten, K.;Bohrer, F. I.;Dattoli, E.;Lu, W.;Zellers, E. T.;
2:57:1 Stretchable Microfluidic Radiofrequency Antennas
DOI:10.1002/adma.200904201 JN:ADVANCED MATERIALS PY:2010 TC:98 AU: Kubo, Masahiro;Li, Xiaofeng;Kim, Choongik;Hashimoto, Michinao;Wiley, Benjamin J.;Ham, Donhee;Whitesides, George M.;
2:57:2 Emerging Applications of Liquid Metals Featuring Surface Oxides
DOI:10.1021/am5043017 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Dickey, Michael D.;
2:57:3 Self-Healing Stretchable Wires for Reconfigurable Circuit Wiring and 3D Microfluidics
DOI:10.1002/adma.201203921 JN:ADVANCED MATERIALS PY:2013 TC:48 AU: Palleau, Etienne;Reece, Stephen;Desai, Sharvil C.;Smith, Michael E.;Dickey, Michael D.;
2:57:4 Ionic Current Rectification in Soft-Matter Diodes with Liquid-Metal Electrodes
DOI:10.1002/adfm.201101967 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:29 AU: So, Ju-Hee;Koo, Hyung-Jun;Dickey, Michael D.;Velev, Orlin D.;
2:57:5 Liquid Metal Marbles
DOI:10.1002/adfm.201200837 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:38 AU: Sivan, Vijay;Tang, Shi-Yang;O'Mullane, Anthony P.;Petersen, Phred;Eshtiaghi, Nicky;Kalantar-zadeh, Kourosh;Mitchell, Arnan;
2:57:6 Towards All-Soft Matter Circuits: Prototypes of Quasi-Liquid Devices with Memristor Characteristics
DOI:10.1002/adma.201101257 JN:ADVANCED MATERIALS PY:2011 TC:44 AU: Koo, Hyung-Jun;So, Ju-Hee;Dickey, Michael D.;Velev, Orlin D.;
2:57:7 3D Printing of Free Standing Liquid Metal Microstructures
DOI:10.1002/adma.201301400 JN:ADVANCED MATERIALS PY:2013 TC:50 AU: Ladd, Collin;So, Ju-Hee;Muth, John;Dickey, Michael D.;
2:57:8 Liquid Metal/Metal Oxide Frameworks
DOI:10.1002/adfm.201304064 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Zhang, Wei;Ou, Jian Zhen;Tang, Shi-Yang;Sivan, Vijay;Yao, David D.;Latham, Kay;Khoshmanesh, Khashayar;Mitchell, Arnan;O'Mullane, Anthony P.;Kalantar-zadeh, Kourosh;
2:57:9 Conformal Printing of Electrically Small Antennas on Three-Dimensional Surfaces
DOI:10.1002/adma.201003734 JN:ADVANCED MATERIALS PY:2011 TC:63 AU: Adams, Jacob J.;Duoss, Eric B.;Malkowski, Thomas F.;Motala, Michael J.;Ahn, Bok Yeop;Nuzzo, Ralph G.;Bernhard, Jennifer T.;Lewis, Jennifer A.;
2:57:10 Ultrastretchable Fibers with Metallic Conductivity Using a Liquid Metal Alloy Core
DOI:10.1002/adfm.201202405 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:39 AU: Zhu, Shu;So, Ju-Hee;Mays, Robin;Desai, Sharvil;Barnes, William R.;Pourdeyhimi, Behnam;Dickey, Michael D.;
2:57:11 3D Printed Quantum Dot Light-Emitting Diodes
DOI:10.1021/nl5033292 JN:NANO LETTERS PY:2014 TC:7 AU: Kong, Yong Lin;Tamargo, Ian A.;Kim, Hyoungsoo;Johnson, Blake N.;Gupta, Maneesh K.;Koh, Tae-Wook;Chin, Huai-An;Steingart, Daniel A.;Rand, Barry P.;McAlpine, Michael C.;
2:57:12 Different Shades of Oxide: From Nanoscale Wetting Mechanisms to Contact Printing of Gallium-Based Liquid Metals
DOI:10.1021/la5012023 JN:LANGMUIR PY:2014 TC:11 AU: Doudrick, Kyle;Liu, Shanliangzi;Mutunga, Eva M.;Klein, Kate L.;Damle, Viraj;Varanasi, Kripa K.;Rykaczewski, Konrad;
2:57:13 Directing Substrate Morphology via Self-Assembly: Ligand-Mediated Scission of Gallium-Indium Microspheres to the Nanoscale
DOI:10.1021/nl202728j JN:NANO LETTERS PY:2011 TC:16 AU: Hohman, J. Nathan;Kim, Moonhee;Wadsworth, Garrett A.;Bednar, Heidi R.;Jiang, Jun;LeThai, Mya A.;Weiss, Paul S.;
2:57:14 Ultrastretchable, cyclable and recyclable 1- and 2-dimensional conductors based on physically cross-linked thermoplastic elastomer gels
DOI:10.1039/c3sm51136g JN:SOFT MATTER PY:2013 TC:11 AU: Mineart, Kenneth P.;Lin, Yiliang;Desai, Sharvil C.;Krishnan, Arjun S.;Spontak, Richard J.;Dickey, Michael D.;
2:57:15 Production of Liquid Metal Spheres by Molding
DOI:10.3390/met4040465 JN:METALS PY:2014 TC:3 AU: Mohammed, Mohammed G.;Xenakis, Alexis;Dickey, Michael D.;
2:57:16 A Microfluidic, Reversibly Stretchable, Large-Area Wireless Strain Sensor
DOI:10.1002/adfm.201002508 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:46 AU: Cheng, Shi;Wu, Zhigang;
2:57:17 Rapid Prototyping for Soft-Matter Electronics
DOI:10.1002/adfm.201303732 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Lu, Tong;Finkenauer, Lauren;Wissman, James;Majidi, Carmel;
2:57:18 High-Density Soft-Matter Electronics with Micron-Scale Line Width
DOI:10.1002/adma.201400502 JN:ADVANCED MATERIALS PY:2014 TC:12 AU: Gozen, B. Arda;Tabatabai, Arya;Ozdoganlar, O. Burak;Majidi, Carmel;
2:57:19 Recovery of Nonwetting Characteristics by Surface Modification of Gallium-Based Liquid Metal Droplets Using Hydrochloric Acid Vapor
DOI:10.1021/am302357t JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:24 AU: Kim, Daeyoung;Thissen, Peter;Viner, Gloria;Lee, Dong-Weon;Choi, Wonjae;Chabal, Yves J.;Lee, Jeong-Bong (J B);
2:57:20 Influence of Water on the Interfacial Behavior of Gallium Liquid Metal Alloys
DOI:10.1021/am506496u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Khan, Mohammad R.;Trlica, Chris;So, Ju-Hee;Valeri, Michael;Dickey, Michael D.;
2:57:21 Liquid-Phase Gallium-Indium Alloy Electronics with Microcontact Printing
DOI:10.1021/la401245d JN:LANGMUIR PY:2013 TC:32 AU: Tabatabai, Arya;Fassler, Andrew;Usiak, Claire;Majidi, Carmel;
2:57:22 Formation of Spherical and Non-Spherical Eutectic Gallium-Indium Liquid-Metal Microdroplets in Microfluidic Channels at Room Temperature
DOI:10.1002/adfm.201200324 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:14 AU: Hutter, Tanya;Bauer, Wolfgang-Andreas C.;Elliott, Stephen R.;Huck, Wilhelm T. S.;
2:57:23 A frequency shifting liquid metal antenna with pressure responsiveness
DOI:10.1063/1.3603961 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Khan, Mohammad Rashed;Hayes, Gerard J.;So, Ju-Hee;Lazzi, Gianluca;Dickey, Michael D.;
2:57:24 Stretchable and Reversibly Deformable Radio Frequency Antennas Based on Silver Nanowires
DOI:10.1021/am405972e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:23 AU: Song, Lingnan;Myers, Amanda C.;Adams, Jacob J.;Zhu, Yong;
2:57:25 Masked Deposition of Gallium-Indium Alloys for Liquid-Embedded Elastomer Conductors
DOI:10.1002/adfm.201203589 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:28 AU: Kramer, Rebecca K.;Majidi, Carmel;Wood, Robert J.;
2:57:26 Pervasive liquid metal based direct writing electronics with roller-ball pen
DOI:10.1063/1.4832220 JN:AIP ADVANCES PY:2013 TC:6 AU: Zheng, Yi;Zhang, Qin;Liu, Jing;
2:57:27 Liquid Metal Actuator for Inducing Chaotic Advection
DOI:10.1002/adfm.201400689 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Tang, Shi-Yang;Sivan, Vijay;Petersen, Phred;Zhang, Wei;Morrison, Paul D.;Kalantar-zadeh, Kourosh;Mitchell, Arnan;Khoshmanesh, Khashayar;
2:57:28 Saddle-like deformation in a dielectric elastomer actuator embedded with liquid-phase gallium-indium electrodes
DOI:10.1063/1.4897551 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Wissman, J.;Finkenauer, L.;Deseri, L.;Majidi, C.;
2:57:29 Direct Writing of Gallium-Indium Alloy for Stretchable Electronics
DOI:10.1002/adfm.201303220 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:22 AU: Boley, J. William;White, Edward L.;Chiu, George T. -C.;Kramer, Rebecca K.;
2:57:30 Reconfigurable liquid metal based terahertz metamaterials via selective erasure and refilling to the unit cell level
DOI:10.1063/1.4837675 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Wang, Jinqi;Liu, Shuchang;Guruswamy, Sivaraman;Nahata, Ajay;
2:57:31 Electro-hydrodynamic shooting phenomenon of liquid metal stream
DOI:10.1063/1.4897309 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Fang, Wen-Qiang;He, Zhi-Zhu;Liu, Jing;
2:57:32 Rapidly patterning conductive components on skin substrates as physiological testing devices via liquid metal spraying and pre-designed mask
DOI:10.1039/c4tb00660g JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:1 AU: Guo, Cangran;Yu, Yang;Liu, Jing;
2:57:33 Diverse Transformations of Liquid Metals Between Different Morphologies
DOI:10.1002/adma.201400843 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Sheng, Lei;Zhang, Jie;Liu, Jing;
2:57:34 Atomized spraying of liquid metal droplets on desired substrate surfaces as a generalized way for ubiquitous printed electronics
DOI:10.1007/s00339-013-8191-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:3 AU: Zhang, Qin;Gao, Yunxia;Liu, Jing;
2:57:35 Influence of cross-sectional geometry on the sensitivity and hysteresis of liquid-phase electronic pressure sensors
DOI:10.1063/1.4767217 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Park, Yong-Lae;Tepayotl-Ramirez, Daniel;Wood, Robert J.;Majidi, Carmel;
2:57:36 Reconfigurable liquid metal circuits by Laplace pressure shaping
DOI:10.1063/1.4764020 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Cumby, Brad L.;Hayes, Gerard J.;Dickey, Michael D.;Justice, Ryan S.;Tabor, Christopher E.;Heikenfeld, Jason C.;
2:57:37 Channelless Fabrication for Large-Scale Preparation of Room Temperature Liquid Metal Droplets
DOI:10.1002/adem.201300420 JN:ADVANCED ENGINEERING MATERIALS PY:2014 TC:5 AU: Yu, Yang;Wang, Qian;Yi, Liting;Liu, Jing;
2:57:38 Ultra-compliant liquid metal electrodes with in-plane self-healing capability for dielectric elastomer actuators
DOI:10.1063/1.4817977 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Liu, Yang;Gao, Meng;Mei, Shengfu;Han, Yanting;Liu, Jing;
2:57:39 Liquid metal actuation-based reversible frequency tunable monopole antenna
DOI:10.1063/1.4903882 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Daeyoung;Pierce, Richard G.;Henderson, Rashaunda;Doo, Seok Joo;Yoo, Koangki;Lee, Jeong-Bong;
2:57:40 Synthesis of Liquid Core Shell Particles and Solid Patchy Multicomponent Particles by Shearing Liquids Into Complex Particles (SLICE)
DOI:10.1021/la5035118 JN:LANGMUIR PY:2014 TC:0 AU: Tevis, Ian D.;Newcomb, Lucas B.;Thuo, Martin;
2:57:41 Effect of Microtextured Surface Topography on the Wetting Behavior of Eutectic Gallium-Indium Alloys
DOI:10.1021/la404356r JN:LANGMUIR PY:2014 TC:10 AU: Kramer, Rebecca K.;Boley, J. William;Stone, Howard A.;Weaver, James C.;Wood, Robert J.;
2:57:42 Direct Transfer Patterning of Electrically Small Antennas onto Three-Dimensionally Contoured Substrates
DOI:10.1002/adma.201104290 JN:ADVANCED MATERIALS PY:2012 TC:9 AU: Pfeiffer, Carl;Xu, Xin;Forrest, Stephen R.;Grbic, Anthony;
2:57:43 Monolithically integrated Helmholtz coils by 3-dimensional printing
DOI:10.1063/1.4885441 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Li, Longguang;Abedini-Nassab, Roozbeh;Yellen, Benjamin B.;
2:57:44 Sonication-Assisted Synthesis of Large, High-Quality Mercury Thiolate Single Crystals Directly from Liquid Mercury
DOI:10.1021/ja1056449 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:7 AU: Pokroy, Boaz;Aichmayer, Barbara;Schenk, Anna Sophia;Haimov, Boris;Kang, Sung Hoon;Fratzl, Peter;Aizenberg, Joanna;
2:57:45 A Tunable Spherical Cap Microfluidic Electrically Small Antenna
DOI:10.1002/smll.201300070 JN:SMALL PY:2013 TC:5 AU: Jobs, Magnus;Hjort, Klas;Rydberg, Anders;Wu, Zhigang;
2:57:46 Collapse of triangular channels in a soft elastomer
DOI:10.1063/1.4789762 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Tepayotl-Ramirez, Daniel;Lu, Tong;Park, Yong-Lae;Majidi, Carmel;
2:58:1 Cylindrical Micelles of Controlled Length with a pi-Conjugated Polythiophene Core via Crystallization-Driven Self-Assembly
DOI:10.1021/ja202408w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:82 AU: Patra, Sanjib K.;Ahmed, Rumman;Whittell, George R.;Lunn, David J.;Dunphy, Emma L.;Winnik, Mitchell A.;Manners, Ian;
2:58:2 Hierarchical Helical Assembly of Conjugated Poly(3-hexylthiophene)-block-poly(3-triethylene glycol thiophene) Diblock Copolymers
DOI:10.1021/ja2038547 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:81 AU: Lee, Eunji;Hammer, Brenton;Kim, Jung-Keun;Page, Zachariah;Emrick, Todd;Hayward, Ryan C.;
2:58:3 Hierarchical Self-Assembly of Amphiphilic Semiconducting Polymers into Isolated, Bundled, and Branched Nanofibers
DOI:10.1021/nn300385p JN:ACS NANO PY:2012 TC:53 AU: Kamps, Amanda C.;Fryd, Michael;Park, So-Jung;
2:58:4 General Pathway toward Crystalline-Core Micelles with Tunable Morphology and Corona Segregation
DOI:10.1021/nn202638t JN:ACS NANO PY:2011 TC:58 AU: Schmelz, Joachim;Karg, Matthias;Hellweg, Thomas;Schmalz, Holger;
2:58:5 Gradient Crystallization-Driven Self-Assembly: Cylindrical Micelles with "Patchy" Segmented Coronas via the Coassembly of Linear and Brush Block Copolymers
DOI:10.1021/ja507121h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Finnegan, John R.;Lunn, David J.;Gould, Oliver E. C.;Hudson, Zachary M.;Whittell, George R.;Winnik, Mitchell A.;Manners, Ian;
2:58:6 Towards smart self-assembly of colloidal silica particles through diblock copolymer crystallization
DOI:10.1016/j.polymer.2013.05.048 JN:POLYMER PY:2013 TC:6 AU: Mihut, Adriana M.;Crassous, Jerome J.;Dechezelles, Jean-Francois;Lages, Sebastian;Menzel, Andreas;Dietsch, Herve;Schurtenberger, Peter;
2:58:7 Templated Fabrication of Fiber-Basket Polymersomes via Crystallization-Driven Block Copolymer Self-Assembly
DOI:10.1021/ja510019s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Jia, Lin;Tong, Lemuel;Liang, Yi;Petretic, Amy;Guerin, Gerald;Manners, Ian;Winnik, Mitchell A.;
2:58:8 Crystallization-driven sphere-to-rod transition of poly(lactide)-b-poly(acrylic acid) diblock copolymers: mechanism and kinetics
DOI:10.1039/c2sm25247c JN:SOFT MATTER PY:2012 TC:39 AU: Petzetakis, Nikos;Walker, David;Dove, Andrew P.;O'Reilly, Rachel K.;
2:58:9 Cylindrical crystalline-core micelles: pushing the limits of solution self-assembly
DOI:10.1039/c2sm27259h JN:SOFT MATTER PY:2013 TC:21 AU: Schmelz, Joachim;Schacher, Felix H.;Schmalz, Holger;
2:58:10 Highly Tunable Photoluminescent Properties of Amphiphilic Conjugated Block Copolymers
DOI:10.1021/ja1004569 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:57 AU: Park, Sang-Jae;Kang, Seung-Gu;Fryd, Michael;Saven, Jeffery G.;Park, So-Jung;
2:58:11 Fluorescent "Barcode" Multiblock Co-Micelles via the Living Self-Assembly of Di- and Triblock Copolymers with a Crystalline Core-Forming Metalloblock
DOI:10.1021/ja202662u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:48 AU: He, Feng;Gaedt, Torben;Manners, Ian;Winnik, Mitchell A.;
2:58:12 Nanostar and Nanonetwork Crystals Fabricated by in Situ Nanoparticlization of Fully Conjugated Polythiophene Diblock Copolymers
DOI:10.1021/ja409206p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:13 AU: Lee, In-Hwan;Amaladass, Pitchamuthu;Yoon, Ki-Young;Shin, Suyong;Kim, Yong-Jae;Kim, Inhye;Lee, Eunji;Choi, Tae-Lim;
2:58:13 Uniform, High Aspect Ratio Fiber-like Micelles and Block Co-micelles with a Crystalline pi-Conjugated Polythiophene Core by Self-Seeding
DOI:10.1021/ja500661k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:14 AU: Qian, Jieshu;Li, Xiaoyu;Lunn, David J.;Gwyther, Jessica;Hudson, Zachary M.;Kynaston, Emily;Rupar, Paul A.;Winnik, Mitchell A.;Manners, Ian;
2:58:14 A simple approach to characterizing block copolymer assemblies: graphene oxide supports for high contrast multi-technique imaging
DOI:10.1039/c2sm07040e JN:SOFT MATTER PY:2012 TC:32 AU: Patterson, Joseph P.;Sanchez, Ana M.;Petzetakis, Nikos;Smart, Thomas P.;Epps, Thomas H., III;Portman, Ian;Wilson, Neil R.;O'Reilly, Rachel K.;
2:58:15 Multi-Armed Micelles and Block Co-micelles via Crystallization-Driven Self-Assembly with Homopolymer Nanocrystals as Initiators
DOI:10.1021/ja404100w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:27 AU: Qiu, Huibin;Cambridge, Graeme;Winnik, Mitchell A.;Manners, Ian;
2:58:16 Light-Emitting Color Barcode Nanowires Using Polymers: Nanoscale Optical Characteristics
DOI:10.1021/nn101096m JN:ACS NANO PY:2010 TC:25 AU: Park, Dong Hyuk;Hong, Young Ki;Cho, Eun Hei;Kim, Mi Suk;Kim, Dae-Chul;Bang, Jihee;Kim, Jeongyong;Joo, Jinsoo;
2:58:17 Self-Seeding in One Dimension: A Route to Uniform Fiber-like Nanostructures from Block Copolymers with a Crystallizable Core-Forming Block
DOI:10.1021/nn400124x JN:ACS NANO PY:2013 TC:21 AU: Qian, Jieshu;Lu, Yijie;Chia, Anselina;Zhang, Meng;Rupar, Paul A.;Gunari, Nikhil;Walker, Gilbert C.;Cambridge, Graeme;He, Feng;Guerin, Gerald;Manners, Ian;Winnik, Mitchell A.;
2:58:18 End-to-End Coupling and Network Formation Behavior of Cylindrical Block Copolymer Micelles with a Crystalline Polyferrocenylsilane Core
DOI:10.1021/ja202340s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:20 AU: Yusoff, Siti F. Mohd;Gilroy, Joe B.;Cambridge, Graeme;Winnik, Mitchell A.;Manners, Ian;
2:58:19 Length Control and Block-Type Architectures in Worm-like Micelles with Polyethylene Cores
DOI:10.1021/ja306264d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:37 AU: Schmelz, Joachim;Schedl, Andreas E.;Steinlein, Christoph;Manners, Ian;Schmalz, Holger;
2:58:20 Reversible Cross-Linking of Polyisoprene Coronas in Micelles, Block Comicelles, and Hierarchical Micelle Architectures Using Pt(0)-Olefin Coordination
DOI:10.1021/ja206370k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:25 AU: Rupar, Paul A.;Cambridge, Graeme;Winnik, Mitchell A.;Manners, Ian;
2:58:21 Phase separation in electrospun nanofibers controlled by crystallization induced self-assembly
DOI:10.1039/c4ta00417e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:4 AU: Huang, Wei;Wang, Mei-Jia;Liu, Chang-Lei;You, Jiao;Chen, Si-Chong;Wang, Yu-Zhong;Liu, Ya;
2:58:22 Hollow Block Copolymer Nanoparticles through a Spontaneous One-step Structural Reorganization
DOI:10.1021/nn400272p JN:ACS NANO PY:2013 TC:19 AU: Petzetakis, Nikos;Robin, Mathew P.;Patterson, Joseph P.;Kelley, Elizabeth G.;Cotanda, Pepa;Bomans, Paul H. H.;Sommerdijk, Nico A. J. M.;Dove, Andrew P.;Epps, Thomas H., III;O'Reilly, Rachel K.;
2:58:23 Dynamic Cylindrical Assembly of Triblock Copolymers by a Hierarchical Process of Covalent and Supramolecular Interactions
DOI:10.1021/ja109191z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:55 AU: Li, Zhou;Ma, Jun;Lee, Nam S.;Wooley, Karen L.;
2:58:24 Branched Cylindrical Micelles via Crystallization-Driven Self-Assembly
DOI:10.1021/ja410176n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:12 AU: Qiu, Huibin;Du, Van An;Winnik, Mitchell A.;Manners, Ian;
2:58:25 Interfacial activity of patchy worm-like micelles
DOI:10.1039/c3sm51914g JN:SOFT MATTER PY:2013 TC:3 AU: Schmelz, Joachim;Pirner, Daniela;Krekhova, Marina;Ruhland, Thomas M.;Schmalz, Holger;
2:58:26 Synthesis and solution self-assembly of block copolymers with a gradient, crystallizable polyferrocenylsilane core-forming metalloblock
DOI:10.1039/c3sm50859e JN:SOFT MATTER PY:2013 TC:4 AU: Schacher, Felix H.;Bellas, Vasilios;Winnik, Mitchell A.;Manners, Ian;
2:58:27 Synthesis of Poly(3-alkylthiophene)-block-poly(arylisocyanide): Two Sequential, Mechanistically Distinct Polymerizations Using a Single Catalyst
DOI:10.1021/ja106999q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:40 AU: Wu, Zong-Quan;Ono, Robert J.;Chen, Zheng;Bielawski, Christopher W.;
2:58:28 A facile way to prepare crystalline platelets of block copolymers by crystallization-driven self-assembly
DOI:10.1016/j.polymer.2013.10.027 JN:POLYMER PY:2013 TC:10 AU: Wang, Jing;Zhu, Wen;Peng, Bo;Chen, Yongming;
2:58:29 Hierarchical self-assembly of star-shaped organometallic crystalline-coil block copolymers in solution
DOI:10.1039/c2sm25245g JN:SOFT MATTER PY:2012 TC:6 AU: Schacher, Felix H.;Freier, Ulrike;Steiniger, Frank;
2:58:30 Temperature dependent morphological evolution and the formation mechanism of anisotropic nano-aggregates from a crystalline-coil block copolymer of poly(p-dioxanone) and poly(ethylene glycol)
DOI:10.1039/c3sm51858b JN:SOFT MATTER PY:2013 TC:7 AU: Wang, Hao;Liu, Chang-Lei;Wu, Gang;Chen, Si-Chong;Song, Fei;Wang, Yu-Zhong;
2:58:31 Probing the Structure of the Crystalline Core of Field-Aligned, Monodisperse, Cylindrical Polyisoprene-block-Polyferrocenylsilane Micelles in Solution Using Synchrotron Small- and Wide-Angle X-ray Scattering
DOI:10.1021/ja207417z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:25 AU: Gilroy, Joe B.;Rupar, Paul A.;Whittell, George R.;Chabanne, Laurent;Terrill, Nicholas J.;Winnik, Mitchell A.;Manners, Ian;Richardson, Robert M.;
2:58:32 Corona structure on demand: Tailor-made surface compartmentalization in worm-like micelles via random cocrystallization
DOI:10.1016/j.polymer.2012.07.058 JN:POLYMER PY:2012 TC:8 AU: Schmelz, Joachim;Schmalz, Holger;
2:58:33 Self-assembly of crystalline-coil diblock copolymers in solution: experimental phase map
DOI:10.1039/c2sm06359j JN:SOFT MATTER PY:2012 TC:31 AU: Mihut, Adriana M.;Crassous, Jerome J.;Schmalz, Holger;Drechsler, Markus;Ballauff, Matthias;
2:58:34 One-Pot in Situ Fabrication of Stable Nanocaterpillars Directly from Polyacetylene Diblock Copolymers Synthesized by Mild Ring-Opening Metathesis Polymerization
DOI:10.1021/ja305150c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Yoon, Ki-Young;Lee, In-Hwan;Kim, Kyung Oh;Jang, Jihoon;Lee, Eunji;Choi, Tae-Lim;
2:58:35 Dual-mode waveguiding of Raman and luminescence signals in a crystalline organic microplate
DOI:10.1039/c4tc00409d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Jo, Seong Gi;Park, Dong Hyuk;Kim, Bong-Gi;Seo, Sungbaek;Lee, Suk Joong;Kim, Jeongyong;Kim, Jinsang;Joo, Jinsoo;
2:58:36 Synthesis, self-assembly and photophysical properties of oligo(2,5-dihexyloxy-1,4-phenylene vinylene)-block-poly(ethylene glycol)
DOI:10.1039/c4sm01402b JN:SOFT MATTER PY:2014 TC:1 AU: Feng, Chun;Gonzalez-Alvarez, M. Jose;Song, Yin;Li, Isaac;Zhao, Guangyao;Molev, Gregory;Guerin, Gerald;Walker, Gilbert;Scholes, Gregory D.;Manners, Ian;Winnik, Mitchell A.;
2:58:37 Temperature dependent charge transport in poly(3-hexylthiophene)-block polystyrene copolymer field-effect transistor
DOI:10.1016/j.synthmet.2012.07.022 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Arif, M.;Liu, Jianhua;Zhai, Lei;Khondaker, Saiful I.;
2:58:38 Flexible photodiodes constructed with CdTe nanoparticle thin films and single ZnO nanowires on plastics
DOI:10.1088/0957-4484/22/41/415204 JN:NANOTECHNOLOGY PY:2011 TC:6 AU: Kwak, Kiyeol;Cho, Kyoungah;Kim, Sangsig;
2:58:39 A new approach to high resolution, high contrast electron microscopy of macromolecular block copolymer assemblies
DOI:10.1039/c3sm27787a JN:SOFT MATTER PY:2013 TC:4 AU: Dyson, M. Adam;Sanchez, Ana M.;Patterson, Joseph P.;O'Reilly, Rachel K.;Sloan, Jeremy;Wilson, Neil R.;
2:58:40 Preparation and properties of poly(ethylene glycol)-block-poly(acrylic acid)-coated cobalt nanocrystals
DOI:10.1016/j.polymer.2010.04.036 JN:POLYMER PY:2010 TC:1 AU: Martinez-Castro, Nemesio;Zhou, Zhihan;Liu, Guojun;
2:59:1 Use of a 1H-Benzoimidazole Derivative as an n-Type Dopant and To Enable Air-Stable Solution-Processed n-Channel Organic Thin-Film Transistors
DOI:10.1021/ja103173m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:61 AU: Wei, Peng;Oh, Joon Hak;Dong, Guifang;Bao, Zhenan;
2:59:2 In-situ Crosslinking and n-Doping of Semiconducting Polymers and Their Application as Efficient Electron-Transporting Materials in Inverted Polymer Solar Cells
DOI:10.1002/aenm.201100429 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:29 AU: Cho, Namchul;Yip, Hin-Lap;Davies, Joshua A.;Kazarinoff, Peter D.;Zeigler, David F.;Durban, Matthew M.;Segawa, Yukari;O'Malley, Kevin M.;Luscombe, Christine K.;Jen, Alex K. -Y.;
2:59:3 n-Doping of thermally polymerizable fullerenes as an electron transporting layer for inverted polymer solar cells
DOI:10.1039/c1jm10214a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:31 AU: Cho, Namchul;Yip, Hin-Lap;Hau, Steven K.;Chen, Kung-Shih;Kim, Tae-Wook;Davies, Joshua A.;Zeigler, David F.;Jen, Alex K. -Y.;
2:59:4 Solution-Processible Highly Conducting Fullerenes
DOI:10.1002/adma.201204543 JN:ADVANCED MATERIALS PY:2013 TC:26 AU: Li, Chang-Zhi;Chueh, Chu-Chen;Yip, Hin-Lap;Ding, Feizhi;Li, Xiaosong;Jen, Alex K. -Y.;
2:59:5 \Doping of Fullerenes via Anion-Induced Electron Transfer and Its Implication for Surfactant Facilitated High Performance Polymer Solar Cells
DOI:10.1002/adma.201300580 JN:ADVANCED MATERIALS PY:2013 TC:33 AU: Li, Chang-Zhi;Chueh, Chu-Chen;Ding, Feizhi;Yip, Hin-Lap;Liang, Po-Wei;Li, Xiaosong;Jen, Alex K. -Y.;
2:59:6 2-(2-Methoxyphenyl)-1,3-dimethyl-1H-benzoimidazol-3-ium Iodide as a New Air-Stable n-Type Dopant for Vacuum-Processed Organic Semiconductor Thin Films
DOI:10.1021/ja211382x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:32 AU: Wei, Peng;Menke, Torben;Naab, Benjamin D.;Leo, Karl;Riede, Moritz;Bao, Zhenan;
2:59:7 Simultaneous Enhancement of Electron Injection and Air Stability in N-Type Organic Field-Effect Transistors by Water-Soluble Polyfluorene Interlayers
DOI:10.1021/am500466q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Kim, Jihong;Khim, Dongyoon;Kang, Rira;Lee, Seung-Hoon;Baeg, Kang-Jun;Kang, Minji;Noh, Yong-Young;Kim, Dong-Yu;
2:59:8 Ultralow Doping in Organic Semiconductors: Evidence of Trap Filling
DOI:10.1103/PhysRevLett.109.176601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:28 AU: Olthof, Selina;Mehraeen, Shafigh;Mohapatra, Swagat K.;Barlow, Stephen;Coropceanu, Veaceslav;Bredas, Jean-Luc;Marder, Seth R.;Kahn, Antoine;
2:59:9 Passivation of trap states in unpurified and purified C-60 and the influence on organic field-effect transistor performance
DOI:10.1063/1.4772551 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Olthof, Selina;Singh, Sanjeev;Mohapatra, Swagat K.;Barlow, Stephen;Marder, Seth R.;Kippelen, Bernard;Kahn, Antoine;
2:59:10 In-situ conductivity and Seebeck measurements of highly efficient n-dopants in fullerene C-60
DOI:10.1063/1.3689778 JN:APPLIED PHYSICS LETTERS PY:2012 TC:27 AU: Menke, Torben;Ray, Debdutta;Meiss, Jan;Leo, Karl;Riede, Moritz;
2:59:11 Solution doping of organic semiconductors using air-stable n-dopants
DOI:10.1063/1.3689760 JN:APPLIED PHYSICS LETTERS PY:2012 TC:20 AU: Qi, Yabing;Mohapatra, Swagat K.;Kim, Sang Bok;Barlow, Stephen;Marder, Seth R.;Kahn, Antoine;
2:59:12 Polarity and Air-Stability Transitions in Field-Effect Transistors Based on Fullerenes with Different Solubilizing Groups
DOI:10.1021/am400618r JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Yu, Hojeong;Cho, Han-Hee;Cho, Chul-Hee;Kim, Ki-Hyun;Kim, Dong Yeong;Kim, Bumjoon J.;Oh, Joon Hak;
2:59:13 Power Factor Enhancement in Solution-Processed Organic n-Type Thermoelectrics Through Molecular Design
DOI:10.1002/adma.201306116 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Russ, Boris;Robb, Maxwell J.;Brunetti, Fulvio G.;Miller, P. Levi;Perry, Erin E.;Patel, Shrayesh N.;Ho, Victor;Chang, William B.;Urban, Jeffrey J.;Chabinyc, Michael L.;Hawker, Craig J.;Segalman, Rachel A.;
2:59:14 Evaluation of structure-property relationships of solution-processible fullerene acceptors and their n-channel field-effect transistor performance
DOI:10.1039/c2jm32693k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Li, Chang-Zhi;Chueh, Chu-Chen;Yip, Hin-Lap;Zou, Jingyu;Chen, Wen-Chang;Jen, Alex K. -Y.;
2:59:15 Comparative Study of the N-Type Doping Efficiency in Solution-processed Fullerenes and Fullerene Derivatives
DOI:10.1002/adfm.201401842 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Rossbauer, Stephan;Muller, Christian;Anthopoulos, Thomas D.;
2:59:16 n-Doping of Organic Electronic Materials using Air-Stable Organometallics
DOI:10.1002/adma.201103238 JN:ADVANCED MATERIALS PY:2012 TC:34 AU: Guo, Song;Kim, Sang Bok;Mohapatra, Swagat K.;Qi, Yabing;Sajoto, Tissa;Kahn, Antoine;Marder, Seth R.;Barlow, Stephen;
2:59:17 High Mobility N-Type Transistors Based on Solution-Sheared Doped 6,13-Bis(triisopropylsilylethynyl)pentacene Thin Films
DOI:10.1002/adma.201205098 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Naab, Benjamin D.;Himmelberger, Scott;Diao, Ying;Vandewal, Koen;Wei, Peng;Lussem, Bjoern;Salleo, Alberto;Bao, Zhenan;
2:59:18 Molecular n-type doping for air-stable electron transport in vacuum-processed n-channel organic transistors
DOI:10.1063/1.3527972 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Oh, Joon Hak;Wei, Peng;Bao, Zhenan;
2:59:19 Mechanistic Study on the Solution-Phase n-Doping of 1,3-Dimethyl-2-aryl-2,3-dihydro-1H-benzoimidazole Derivatives
DOI:10.1021/ja403906d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Naab, Benjamin D.;Guo, Song;Olthof, Selina;Evans, Eric G. B.;Wei, Peng;Millhauser, Glenn L.;Kahn, Antoine;Barlow, Stephen;Marder, Seth R.;Bao, Zhenan;
2:59:20 N-type doping of poly(p-phenylene vinylene) with air-stable dopants
DOI:10.1063/1.3656735 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Lu, Mingtao;Nicolai, Herman T.;Wetzelaer, Gert-Jan A. H.;Blom, Paul W. M.;
2:59:21 Effective Solution- and Vacuum-Processed n-Doping by Dimers of Benzimidazoline Radicals
DOI:10.1002/adma.201400668 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Naab, Benjamin D.;Zhang, Siyuan;Vandewal, Koen;Salleo, Alberto;Barlow, Stephen;Marder, Seth R.;Bao, Zhenan;
2:59:22 Enhancing the Performance of Solution-Processed n-Type Organic Field-Effect Transistors by Blending with Molecular "Aligners"
DOI:10.1002/adma.201304032 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Zhang, Yue;Hanifi, David;Lim, Eunhee;Chourou, Slim;Alvarez, Steven;Pun, Andrew;Hexemer, Alexander;Ma, Biwu;Liu, Yi;
2:59:23 Characterization of Dopant Diffusion within Semiconducting Polymer and Small-Molecule Films Using Infrared-Active Vibrational Modes and Attenuated Total Reflectance Infrared Spectroscopy
DOI:10.1021/am401799k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Maliakal, Ashok J.;
2:59:24 Reduction of contact resistance by selective contact doping in fullerene n-channel organic field-effect transistors
DOI:10.1063/1.4802237 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Singh, Sanjeev;Mohapatra, Swagat K.;Sharma, Asha;Fuentes-Hernandez, Canek;Barlow, Stephen;Marder, Seth R.;Kippelen, Bernard;
2:59:25 Poly(ethylene imine) Impurities Induce n-doping Reaction in Organic (Semi)Conductors
DOI:10.1002/adma.201401986 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Fabiano, Simone;Braun, Slawomir;Liu, Xianjie;Weverberghs, Eric;Gerbaux, Pascal;Fahlman, Mats;Berggren, Magnus;Crispin, Xavier;
2:59:26 Soluble fullerene derivatives: The effect of electronic structure on transistor performance and air stability
DOI:10.1063/1.3605531 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Ball, James M.;Bouwer, Ricardo K. M.;Kooistra, Floris B.;Frost, Jarvist M.;Qi, Yabing;Domingo, Ester Buchaca;Smith, Jeremy;de Leeuw, Dago M.;Hummelen, Jan C.;Nelson, Jenny;Kahn, Antoine;Stingelin, Natalie;Bradley, Donal D. C.;Anthopoulos, Thomas D.;
2:59:27 Blending induced stack-ordering and performance improvement in a solution-processed n-type organic field-effect transistor
DOI:10.1039/b918874f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Wei, Zhongming;Xi, Hongxia;Dong, Huanli;Wang, Linjun;Xu, Wei;Hu, Wenping;Zhu, Daoben;
2:59:28 Photovoltaic properties of benzimidazole-derived perylene imides as an n-type material
DOI:10.1016/j.tsf.2011.04.127 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Sim, Bo Ram;Kim, Bong-Gun;Lee, Jin Kook;Do, Jung Yun;
2:60:1 Confinement-Induced One-Dimensional Ferroelectric Polymer Arrays
DOI:10.1021/nl100429u JN:NANO LETTERS PY:2010 TC:56 AU: Garcia-Gutierrez, Mari-Cruz;Linares, Amelia;Hernandez, Jaime J.;Rueda, Daniel R.;Ezquerra, Tiberio A.;Poza, Pedro;Davies, Richard J.;
2:60:2 Tailored polymer-based nanorods and nanotubes by "template synthesis": From preparation to applications
DOI:10.1016/j.polymer.2012.01.028 JN:POLYMER PY:2012 TC:54 AU: Martin, Jaime;Maiz, Jon;Sacristan, Javier;Mijangos, Carmen;
2:60:3 Confinement effects on polymer crystallization: From droplets to alumina nanopores
DOI:10.1016/j.polymer.2013.05.029 JN:POLYMER PY:2013 TC:24 AU: Michell, Rose Mary;Blaszczyk-Lezak, Iwona;Mijangos, Carmen;Mueller, Alejandro J.;
2:60:4 From Heterogeneous to Homogeneous Nucleation of Isotactic Poly(propylene) Confined to Nanoporous Alumina
DOI:10.1021/nl200153c JN:NANO LETTERS PY:2011 TC:61 AU: Duran, Hatice;Steinhart, Martin;Butt, Hans-Juergen;Floudas, George;
2:60:5 Temperature-induced and crystallization-driven self-assembly of polyethylene-b-poly(ethylene oxide) in solution
DOI:10.1016/j.polymer.2013.01.044 JN:POLYMER PY:2013 TC:18 AU: Li, ZhiYun;Liu, Ran;Mai, BiYun;Wang, WanJuan;Wu, Qing;Liang, GuoDong;Gao, HaiYang;Zhu, FangMing;
2:60:6 Poly(3-hexylthiophene) Nanotubes with Tunable Aspect Ratios and Charge Transport Properties
DOI:10.1021/am5006207 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Huang, Long-Biao;Xu, Zong-Xiang;Chen, Xianfeng;Tian, Wei;Han, Su-Ting;Zhou, Ye;Xu, Jia-Ju;Yang, Xiong-Bo;Roy, Vellaisamy A. L.;
2:60:7 Confinement Effects on the Crystallization of Poly(ethylene oxide) Nanotubes
DOI:10.1021/la302675k JN:LANGMUIR PY:2012 TC:30 AU: Maiz, Jon;Martin, Jaime;Mijangos, Carmen;
2:60:8 Dynamic study of polystyrene-block-poly(4-vinylpyridine) copolymer in bulk and confined in cylindrical nanopores
DOI:10.1016/j.polymer.2014.05.042 JN:POLYMER PY:2014 TC:2 AU: Maiz, Jon;Zhao, Wei;Gu, Yu;Lawrence, Jimmy;Arbe, Arantxa;Alegria, Angel;Emrick, Todd;Colmenero, Juan;Russell, Thomas P.;Mijangos, Carmen;
2:60:9 Synthesis and Application of Ferroelectric P(VDF-TrFE) Nanoparticles in Organic Photovoltaic Devices for High Efficiency
DOI:10.1002/aenm.201300396 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:9 AU: Xiao, Zhengguo;Dong, Qingfeng;Sharma, Pankaj;Yuan, Yongbo;Mao, Baodong;Tian, Wenjing;Gruverman, Alexei;Huang, Jinsong;
2:60:10 Polymer nanofibers by controllable infiltration of vapour swollen polymers into cylindrical nanopores
DOI:10.1039/c2sm27026a JN:SOFT MATTER PY:2013 TC:16 AU: Mei, Shilin;Feng, Xunda;Jin, Zhaoxia;
2:60:11 Arrays of Aligned Supramolecular Wires by Macroscopic Orientation of Columnar Discotic Mesophases
DOI:10.1021/nn302937t JN:ACS NANO PY:2012 TC:22 AU: Duran, Hatice;Hartmann-Azanza, Brigitte;Steinhart, Martin;Gehrig, Dominik;Laquai, Frederic;Feng, Xinliang;Muellen, Klaus;Butt, Hans-Juergen;Floudas, George;
2:60:12 Thermoresponsive biotinylated star amphiphilic block copolymer: Synthesis, self-assembly, and specific target recognition
DOI:10.1016/j.polymer.2012.02.031 JN:POLYMER PY:2012 TC:15 AU: Bian, Qingqing;Xiao, Yan;Lang, Meidong;
2:60:13 In-situ polymerization of styrene in AAO nanocavities
DOI:10.1016/j.polymer.2013.10.045 JN:POLYMER PY:2013 TC:3 AU: Giussi, Juan M.;Blaszczyk-Lezak, Iwona;Susana Cortizo, M.;Mijangos, Carmen;
2:60:14 Cellular interactions of biodegradable nanorod arrays prepared by nondestructive extraction from nanoporous alumina
DOI:10.1039/b926432a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Grimm, Silko;Martin, Jaime;Rodriguez, Gema;Fernandez-Gutierrez, Mar;Mathwig, Klaus;Wehrspohn, Ralf B.;Goesele, Ulrich;San Roman, Julio;Mijangos, Carmen;Steinhart, Martin;
2:60:15 Wettability Transition Induced Transformation and Entrapment of Polymer Nanostructures in Cylindrical Nanopores
DOI:10.1021/la2030632 JN:LANGMUIR PY:2011 TC:10 AU: Feng, Xunda;Mei, Shilin;Jin, Zhaoxia;
2:60:16 Density Fluctuations and Phase Transitions of Ferroelectric Polymer Nanowires
DOI:10.1002/smll.201000562 JN:SMALL PY:2010 TC:18 AU: Serghei, Anatoli;Lutkenhaus, Jodie L.;Miranda, Daniel F.;McEnnis, Kathleen;Kremer, Friedrich;Russell, Thomas P.;
2:60:17 Control of crystal orientation in soft nanostructures by nanoimprint lithography
DOI:10.1039/b918168g JN:SOFT MATTER PY:2010 TC:30 AU: Hu, Zhijun;Jonas, Alain M.;
2:60:18 Nanoscale Design of Multifunctional Organic Layers for Low-Power High-Density Memory Devices
DOI:10.1021/nn406503g JN:ACS NANO PY:2014 TC:9 AU: Nougaret, Laurianne;Kassa, Hailu G.;Cai, Ronggang;Patois, Tilia;Nysten, Bernard;van Breemen, Albert J. J. M.;Gelinck, Gerwin H.;de Leeuw, Dago M.;Marrani, Alessio;Hu, Zhijun;Jonas, Alain M.;
2:60:19 Crystallization under One-Dimensional Confinement in Alumina Nanopores of Poly(trimethylene terephthalate) and Its Composites with Single Wall Carbon Nanotubes
DOI:10.1021/am401194p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Martin-Fabiani, Ignacio;Garcia-Gutierrez, Mari-Cruz;Rueda, Daniel R.;Linares, Amelia;Hernandez, Jaime J.;Ezquerra, Tiberio A.;Reynolds, Michael;
2:60:20 Isotactic polystyrene nanorods with gradient crystallite states
DOI:10.1039/c2sm06896f JN:SOFT MATTER PY:2012 TC:17 AU: Wu, Hui;Su, Zhaohui;Takahara, Atsushi;
2:60:21 Fabrication of Vertically Well-Aligned P(VDF-TrFE) Nanorod Arrays
DOI:10.1002/adma.201201940 JN:ADVANCED MATERIALS PY:2012 TC:12 AU: Oh, Sehoon;Kim, Yeontae;Choi, Yoon-Young;Kim, Dongjin;Choi, Hyunwoo;No, Kwangsoo;
2:60:22 Nanofluidics Approach to Separate between Static and Kinetic Nanoconfinement Effects on the Crystallization of Polymers
DOI:10.1021/acs.nanolett.5b00185 JN:NANO LETTERS PY:2015 TC:0 AU: Houachtia, Afef;Alcouffe, Pierre;Boiteux, Gisele;Seytre, Gerard;Gerard, Jean-Francois;Serghei, Anatoli;
2:60:23 Self-assembly of polystyrene-b-poly(4-vinylpyridine) in deoxycholic acid melt
DOI:10.1016/j.polymer.2011.07.014 JN:POLYMER PY:2011 TC:4 AU: Yu, Cheng-Hao;Chuang, Yu-Hao;Tung, Shih-Huang;
2:60:24 Block Copolymer Nanotubes by Melt-infiltration of Nanoporous Aluminum Oxide
DOI:10.1002/adma.201003958 JN:ADVANCED MATERIALS PY:2011 TC:13 AU: Pulamagatta, Bhanuprathap;Yau, Man Yan Eric;Gunkel, Ilja;Thurn-Albrecht, Thomas;Schroeter, Klaus;Pfefferkorn, Dirk;Kressler, Joerg;Steinhart, Martin;Binder, Wolfgang H.;
2:60:25 Ordered arrays of polymeric nanopores by using inverse nanostructured PTFE surfaces
DOI:10.1088/0957-4484/23/38/385305 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Martin, Jaime;Martin-Gonzalez, Marisol;del Campo, Adolfo;Reinosa, Julian J.;Francisco Fernandez, Jose;
2:60:26 Homogeneous Nucleation of Predominantly Cubic Ice Confined in Nanoporous Alumina
DOI:10.1021/nl504855z JN:NANO LETTERS PY:2015 TC:1 AU: Suzuki, Yasuhito;Duran, Hatice;Steinhart, Martin;Kappl, Michael;Butt, Hans-Juergen;Floudas, George;
2:60:27 Tautomerizable styrenic copolymers confined in AAO templates
DOI:10.1016/j.polymer.2013.06.040 JN:POLYMER PY:2013 TC:6 AU: Giussi, Juan M.;Blaszczyk-Lezak, Iwona;Allegretti, Patricia E.;Susana Cortizo, M.;Mijangos, Carmen;
2:60:28 Formation, morphology and internal structure of one-dimensional nanostructures of the ferroelectric polymer P(VDF-TrFE)
DOI:10.1016/j.polymer.2013.03.034 JN:POLYMER PY:2013 TC:11 AU: Shingne, Nitin;Geuss, Markus;Hartmann-Azanza, Brigitte;Steinhart, Martin;Thurn-Albrecht, Thomas;
2:60:29 Crystallization behavior of poly(epsilon-caprolactone) chains confined in lamellar nanodomains
DOI:10.1016/j.polymer.2014.06.049 JN:POLYMER PY:2014 TC:5 AU: Nakagawa, Shintaro;Tanaka, Takumi;Ishizone, Takashi;Nojima, Shuichi;Kamimura, Kohei;Yamaguchi, Kazuo;Nakahama, Seiichi;
2:60:30 Gradient composition distribution in poly(2,6-dimethylphenylene oxide)/polystyrene blend nanorods
DOI:10.1039/c0sm00968g JN:SOFT MATTER PY:2011 TC:8 AU: Wu, Hui;Su, Zhaohui;Takahara, Atsushi;
2:60:31 Mediating polymer crystal orientation using nanotemplates from block copolymer microdomains and anodic aluminium oxide nanochannels
DOI:10.1039/c2sm25583a JN:SOFT MATTER PY:2012 TC:17 AU: Lin, Ming-Champ;Nandan, Bhanu;Chen, Hsin-Lung;
2:60:32 Homogeneous crystallization and local dynamics of poly(ethylene oxide) (PEO) confined to nanoporous alumina
DOI:10.1039/c2sm27618f JN:SOFT MATTER PY:2013 TC:17 AU: Suzuki, Yasuhito;Duran, Hatice;Steinhart, Martin;Butt, Hans-Juergen;Floudas, George;
2:60:33 Suppression of Phase Transitions in a Confined Rodlike Liquid Crystal
DOI:10.1021/nn203448c JN:ACS NANO PY:2011 TC:24 AU: Grigoriadis, Christos;Duran, Hatice;Steinhart, Martin;Kappl, Michael;Butt, Hans-Juergen;Floudas, George;
2:60:34 Thermotropic nematic and smectic order in silica glass nanochannels
DOI:10.1063/1.3502595 JN:APPLIED PHYSICS LETTERS PY:2010 TC:16 AU: Kityk, Andriy V.;Huber, Patrick;
2:60:35 Fast and Slow Dynamics in a Discotic Liquid Crystal with Regions of Columnar Order and Disorder
DOI:10.1103/PhysRevLett.107.257801 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:14 AU: Hansen, M. R.;Feng, X.;Macho, V.;Muellen, K.;Spiess, H. W.;Floudas, G.;
2:60:36 Nanostructured thermosets from epoxy and poly(2,2,2-trifluoroethyl acrylate)-block-poly(glycidyl methacrylate) diblock copolymer: Demixing of reactive blocks and thermomechanical properties
DOI:10.1016/j.polymer.2011.09.055 JN:POLYMER PY:2011 TC:15 AU: Yi, Fangping;Yu, Rentong;Zheng, Sixun;Li, Xiuhong;
2:60:37 Orientation of lamellar crystals and its correlation with switching behavior in ferroelectric P(VDF-TrFE) ultra-thin films
DOI:10.1016/j.polymer.2014.01.004 JN:POLYMER PY:2014 TC:5 AU: Wu, Yangjiang;Li, Xiaohui;Weng, Yuyan;Hu, Zhijun;Jonas, Alain M.;
2:60:38 Multiple nucleation events and local dynamics of poly(epsilon-caprolactone) (PCL) confined to nanoporous alumina
DOI:10.1039/c3sm50907a JN:SOFT MATTER PY:2013 TC:12 AU: Suzuki, Yasuhito;Duran, Hatice;Akram, Wajiha;Steinhart, Martin;Floudas, George;Butt, Hans-Juergen;
2:60:39 Enhanced interfacial rigidity of 1D thermoset nanostructures by interface-induced liquid crystallinity
DOI:10.1039/c3tc31055h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:0 AU: Duran, Hatice;Yameen, Basit;Geuss, Markus;Kappl, Micheal;Steinhart, Martin;Knoll, Wolfgang;
2:60:40 Sphere-forming diblock copolymers confined in a square well
DOI:10.1016/j.polymer.2013.10.024 JN:POLYMER PY:2013 TC:3 AU: Tan, Hongge;Zhang, Meiling;Deng, Yajing;Song, Qinggong;Yan, Dadong;
2:60:41 Segmental dynamics of polymers during capillary flow into nanopores
DOI:10.1039/b921757f JN:SOFT MATTER PY:2010 TC:18 AU: Serghei, A.;Chen, D.;Lee, D. H.;Russell, T. P.;
2:60:42 Smectic C chevrons in nanocylinders
DOI:10.1063/1.4902354 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Lefort, R.;Jean, F.;Noirez, L.;Ndao, M.;Cerclier, C. V.;Morineau, D.;
2:60:43 Self-Ordered Anodic Alumina with Continuously Tunable Pore Intervals from 410 to 530 nm
DOI:10.1021/am1001713 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:14 AU: Sun, Chuanmin;Luo, Jia;Wu, Longmin;Zhang, Junyan;
2:60:44 Porous Polymer Nanostructures Fabricated by the Surface-Induced Phase Separation of Polymer Solutions in Anodic Aluminum Oxide Templates
DOI:10.1021/la401797f JN:LANGMUIR PY:2013 TC:5 AU: Wei, Tzu-Hui;Chi, Mu-Huan;Tsai, Chia-Chan;Ko, Hao-Wen;Chen, Jiun-Tai;
2:60:45 Curie Transitions for Attograms of Ferroelectric Polymers
DOI:10.1021/nl304103y JN:NANO LETTERS PY:2013 TC:10 AU: Serghei, A.;Zhao, W.;Miranda, D.;Russell, T. P.;
2:60:46 To tilt or not to tilt? Kinetics of structure formation in a discotic liquid crystal
DOI:10.1039/c1sm05188a JN:SOFT MATTER PY:2011 TC:11 AU: Grigoriadis, Christos;Haase, Nino;Butt, Hans-Juergen;Muellen, Klaus;Floudas, George;
2:60:47 Thermotropic orientational order of discotic liquid crystals in nanochannels: an optical polarimetry study and a Landau-de Gennes analysis
DOI:10.1039/c4sm00211c JN:SOFT MATTER PY:2014 TC:10 AU: Kityk, Andriy V.;Busch, Mark;Rau, Daniel;Calus, Sylwia;Cerclier, Carole V.;Lefort, Ronan;Morineau, Denis;Grelet, Eric;Krause, Christina;Schoenhals, Andreas;Frick, Bernhard;Huber, Patrick;
2:60:48 Imprinting macropore arrays into mesoporous silica monoliths
DOI:10.1039/c2jm31245j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Grimm, Silko;Lange, Andreas;Enke, Dirk;Steinhart, Martin;
2:60:49 Vesicle formation of polystyrene-block-poly (ethylene oxide) block copolymers induced by supercritical CO2 treatment
DOI:10.1016/j.polymer.2010.06.002 JN:POLYMER PY:2010 TC:3 AU: Xu, Limei;Zhang, Xiaokai;Yang, Hui;Li, Xue;Li, Chunsheng;Zhang, Shuxiang;
2:60:50 Phase diagrams of ABC linear triblock copolymers under nanopore confinements
DOI:10.1016/j.polymer.2012.05.026 JN:POLYMER PY:2012 TC:1 AU: Qiu, Wenjuan;He, Linli;Ji, Yongyun;Wang, Xianghong;Li, Shiben;
2:60:51 From hard to soft confinement in a symmetric block copolymer: local and segmental dynamics
DOI:10.1039/c1sm05368j JN:SOFT MATTER PY:2011 TC:12 AU: Sanz, Alejandro;Nogales, Aurora;Ezquerra, Tiberio A.;
2:60:52 Honeycombs in Honeycombs: Complex Liquid Crystal Alumina Composite Mesostructures
DOI:10.1021/nn406368e JN:ACS NANO PY:2014 TC:6 AU: Zhang, Ruibin;Zeng, Xianbing;Prehm, Marko;Liu, Feng;Grimm, Silko;Geuss, Markus;Steinhart, Martin;Tschierske, Carsten;Ungar, Goran;
2:60:53 Nematics with Quenched Disorder: Violation of Self-Averaging
DOI:10.1103/PhysRevLett.105.147801 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:3 AU: Fish, J. M.;Vink, R. L. C.;
2:60:54 Solvent annealing assisted self-assembly of hydrogen-bonded interpolymer complexes of AB block copolymer/C homopolymer in thin film
DOI:10.1016/j.polymer.2010.08.047 JN:POLYMER PY:2010 TC:8 AU: Wang, Chao;Wang, Tingmei;Wang, Qihua;
2:60:55 Imprint-induced ordering of crystallizing polymers below stamp protrusions
DOI:10.1116/1.4831765 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:1 AU: Wang, Si;Mayer, Andre;Dhima, Khalid;Steinberg, Christian;Scheer, Hella-Christin;
2:60:56 Birefringence Control of Semicrystalline Block Copolymers by Crystallization under Confinement
DOI:10.1021/la1034432 JN:LANGMUIR PY:2010 TC:4 AU: Li, Ming-Chia;Chang, Guang-Wei;Lin, Tao;Ho, Rong-Ming;Chuang, Wei-Tsung;Kooi, Steven;
2:60:57 Small-angle X-ray scattering (SAXS) study of porous anodic alumina-A new approach
DOI:10.1016/j.matchemphys.2011.09.057 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:1 AU: Waheed, Abdul;Mehmood, Mazhar;Benfield, Robert;Ahmad, Jamil;Amenitsch, Heinz;Aslam, Muhammad;Rauf, Abdur;Hassan, Mujtabaul;
2:61:1:1 Sc2C2@C-80 Rather than Sc-2@C-82: Templated Formation of Unexpected C-2v(5)-C-80 and Temperature-Dependent Dynamic Motion of Internal Sc2C2 Cluster
DOI:10.1021/ja1107723 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:40 AU: Kurihara, Hiroki;Lu, Xing;Iiduka, Yuko;Mizorogi, Naomi;Slanina, Zdenek;Tsuchiya, Takahiro;Akasaka, Takeshi;Nagase, Shigeru;
2:61:1:2 Metal Sulfide in a C-82 Fullerene Cage: A New Form of Endohedral Clusterfullerenes
DOI:10.1021/ja909580j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:79 AU: Dunsch, Lothar;Yang, Shangfeng;Zhang, Lin;Svitova, Anna;Oswald, Steffen;Popov, Alexey A.;
2:61:1:3 Structural Elucidation and Regioselective Functionalization of An Unexplored Carbide Cluster Metallofullerene Sc2C2@C-s(6)-C-82
DOI:10.1021/ja208841w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:34 AU: Lu, Xing;Nakajima, Koji;Iiduka, Yuko;Nikawa, Hidefumi;Mizorogi, Naomi;Slanina, Zdenek;Tsuchiya, Takahiro;Nagase, Shigeru;Akasaka, Takeshi;
2:61:1:4 Sc2S@C-s(10528)-C-72: A Dimetallic Sulfide Endohedral Fullerene with a Non Isolated Pentagon Rule Cage
DOI:10.1021/ja300765z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:30 AU: Chen, Ning;Beavers, Christine M.;Mulet-Gas, Marc;Rodriguez-Fortea, Antonio;Munoz, Elias J.;Li, Yu-Yang;Olmstead, Marilyn M.;Balch, Alan L.;Poblet, Josep M.;Echegoyen, Luis;
2:61:1:5 An Experimentally Observed Trimetallofullerene Sm-3@I-h-C-80: Encapsulation of Three Metal Atoms in a Cage without a Nonmetallic Mediator
DOI:10.1021/ja400490u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:14 AU: Xu, Wei;Feng, Lai;Calvaresi, Matteo;Liu, Jia;Liu, Yang;Niu, Ben;Shi, Zujin;Lian, Yongfu;Zerbetto, Francesco;
2:61:1:6 The Shape of the Sc-2(mu(2)-S) Unit Trapped in C-82: Crystallographic, Computational, and Electrochemical Studies of the Isomers, Sc-2(mu(2)-S)@C-s(6)-C-82 and Sc-2(mu(2)-S)@C-3v(8)-C-82
DOI:10.1021/ja200289w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:44 AU: Mercado, Brandon Q.;Chen, Ning;Rodriguez-Fortea, Antonio;Mackey, Mary A.;Stevenson, Steven;Echegoyen, Luis;Poblet, Josep M.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:1:7 Redox-Active Scandium Oxide Cluster inside a Fullerene Cage:. Spectroscopic, Voltammetric, Electron Spin Resonance Spectroelectrochemical, and Extended Density Functional Theory Study of Sc4O2@C-80 and Its Ion Radicals
DOI:10.1021/ja306728p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:24 AU: Popov, Alexey A.;Chen, Ning;Pinzon, Julio R.;Stevenson, Steven;Echegoyen, Luis A.;Dunsch, Lothar;
2:61:1:8 Sc-2(mu(2)-O) Trapped in a Fullerene Cage: The Isolation and Structural Characterization of Sc-2(mu(2)-O)@C-s(6)-C-82 and the Relevance of the Thermal and Entropic Effects in Fullerene Isomer Selection
DOI:10.1021/ja104902e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:49 AU: Mercado, Brandon Q.;Stuart, Melissa A.;Mackey, Mary A.;Pickens, Jane E.;Confait, Bridget S.;Stevenson, Steven;Easterling, Michael L.;Valencia, Ramon;Rodriguez-Fortea, Antonio;Poblet, Josep M.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:1:9 Planar Quinary Cluster inside a Fullerene Cage: Synthesis and Structural Characterizations of Sc3NC@C-80-I-h
DOI:10.1021/ja107843b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:56 AU: Wang, Tai-Shan;Feng, Lai;Wu, Jing-Yi;Xu, Wei;Xiang, Jun-Feng;Tan, Kai;Ma, Yi-Han;Zheng, Jun-Peng;Jiang, Li;Lu, Xin;Shu, Chun-Ying;Wang, Chun-Ru;
2:61:1:10 Clusters Encapsulated in Endohedral Metallofullerenes: How Strained Are They?
DOI:10.1021/ja4122582 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Deng, Qingming;Popov, Alexey A.;
2:61:1:11 Large Endohedral Fullerenes Containing Two Metal Ions, Sm-2@D-2(35)-C-88, Sm-2@C-1(21)-C-90, and Sm-2@D-3(85)-C-92, and Their Relationship to Endohedral Fullerenes Containing Two Gadolinium Ions
DOI:10.1021/ja206244w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:18 AU: Yang, Hua;Jin, Hongxiao;Hong, Bo;Liu, Ziyang;Beavers, Christine M.;Zhen, Hongyu;Wang, Zhimin;Mercado, Brandon Q.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:1:12 Spin-Flow Vibrational Spectroscopy of Molecules with Flexible Spin Density: Electrochemistry, ESR, Cluster and Spin Dynamics, and Bonding in TiSc2N@C-80
DOI:10.1021/nn101115d JN:ACS NANO PY:2010 TC:28 AU: Popov, Alexey A.;Chen, Chuanbao;Yang, Shangfeng;Lipps, Ferdinand;Dunsch, Lothar;
2:61:1:13 A Pseudoatom in a Cage: Trimetallofullerene Y-3@C-80 Mimics Y3N@C-80 with Nitrogen Substituted by a Pseudoatom
DOI:10.1021/nn901422z JN:ACS NANO PY:2010 TC:36 AU: Popov, Alexey A.;Zhang, Lin;Dunsch, Lothar;
2:61:1:14 A Structural Diagnostics Diagram for Metallofullerenes Encapsulating Metal Carbides and Nitrides
DOI:10.1021/ja311070v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Maki, Sachiko;Nishibori, Eiji;Terauchi, Ikuya;Ishihara, Masayuki;Aoyagi, Shinobu;Sakata, Makoto;Takata, Masaki;Umemoto, Hisashi;Inoue, Takashi;Shinohara, Hisanori;
2:61:1:15 Chemical Understanding of Carbide Cluster Metallofullerenes: A Case Study on Sc2C2@C-2v(5)-C-80 with Complete X-ray Crystallographic Characterizations
DOI:10.1021/ja210101f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:22 AU: Kurihara, Hiroki;Lu, Xing;Iiduka, Yuko;Nikawa, Hidefumi;Mizorogi, Naomi;Slanina, Zdenek;Tsuchiya, Takahiro;Nagase, Shigeru;Akasaka, Takeshi;
2:61:1:16 Vibrational spectrum of the endohedral Y2C2@C-92 fullerene by Raman spectroscopy: Evidence for tunneling of the diatomic C-2 molecule
DOI:10.1103/PhysRevB.83.115457 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Burke, Brian G.;Chan, Jack;Williams, Keith A.;Fuhrer, Timothy;Fu, Wujun;Dorn, Harry C.;Puretzky, Alexander A.;Geohegan, David B.;
2:61:1:17 Nanoscale Fullerene Compression of an Yttrium Carbide Cluster
DOI:10.1021/ja300134x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:24 AU: Zhang, Jianyuan;Fuhrer, Tim;Fu, Wujun;Ge, Jiechao;Bearden, Daniel W.;Dallas, Jerry;Duchamp, James;Walker, Kenneth;Champion, Hunter;Azurmendi, Hugo;Harich, Kim;Dorn, Harry C.;
2:61:1:18 Enhanced Dipole Moments in Trimetallic Nitride Template Endohedral Metallofullerenes with the Pentalene Motif
DOI:10.1021/ja312045t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: Zhang, Jianyuan;Bearden, Daniel W.;Fuhrer, Tim;Xu, Liaosa;Fu, Wujun;Zuo, Tianming;Dorn, Harry C.;
2:61:1:19 Calculations of Metallofullerene Yields
DOI:10.1166/jctn.2011.1950 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2011 TC:4 AU: Slanina, Zdenek;Uhlik, Filip;Lee, Shyi-Long;Adamowicz, Ludwik;Akasaka, Takeshi;Nagase, Shigeru;
2:61:1:20 Sc-2@C-66 Revisited: An Endohedral Fullerene with Scandium Ions Nestled within Two Unsaturated Linear Triquinanes
DOI:10.1021/ja5035649 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Yamada, Michio;Kurihara, Hiroki;Suzuki, Mitsuaki;Guo, Jing Dong;Waelchli, Markus;Olmstead, Marilyn M.;Balch, Alan L.;Nagase, Shigeru;Maeda, Yutaka;Hasegawa, Tadashi;Lu, Xing;Akasaka, Takeshi;
2:61:1:21 Interaction Between NO2 and an Elongated Fullerene C-60
DOI:10.1166/jctn.2010.1374 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2010 TC:4 AU: Contreras-Torres, Flavio F.;Basiuk, Vladimir A.;Basiuk, Elena V.;
2:61:2:1 Donor-Acceptor Conjugates of Lanthanum Endohedral Metallofullerene and pi-Extended Tetrathiafulvalene
DOI:10.1021/ja100665q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:36 AU: Takano, Yuta;Angeles Herranz, M.;Martin, Nazario;Radhakrishnan, Shankara Gayathri;Guldi, Dirk M.;Tsuchiya, Takahiro;Nagase, Shigeru;Akasaka, Takeshi;
2:61:2:2 A Paradigmatic Change: Linking Fullerenes to Electron Acceptors
DOI:10.1021/ja3039695 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:27 AU: Feng, Lai;Rudolf, Marc;Wolfrum, Silke;Troeger, Anna;Slanina, Zdenek;Akasaka, Takeshi;Nagase, Shigeru;Martin, Nazario;Ameri, Tayebeh;Brabec, Christoph J.;Guldi, Dirk M.;
2:61:2:3 Synthesis and Charge-Transfer Chemistry of La-2@I-h-C-80/Sc3N@I-h-C(80)Zinc-Porphyrin Conjugates: Impact of Endohedral Cluster
DOI:10.1021/ja202331r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:28 AU: Feng, Lai;Radhakrishnan, Shankara Gayathri;Mizorogi, Naomi;Slanina, Zdenek;Nikawa, Hidefumi;Tsuchiya, Takahiro;Akasaka, Takeshi;Nagase, Shigeru;Martin, Nazario;Guldi, Dirk M.;
2:61:2:4 A Metallofullerene Electron Donor that Powers an Efficient Spin Flip in a Linear Electron Donor-Acceptor Conjugate
DOI:10.1021/ja403763e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Rudolf, Marc;Feng, Lai;Slanina, Zdenek;Akasaka, Takeshi;Nagase, Shigeru;Gudi, Dirk M.;
2:61:2:5 A Molecular Ce-2@I-h-C-80 Switch-Unprecedented Oxidative Pathway in Photoinduced Charge Transfer Reactivity
DOI:10.1021/ja101856j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:28 AU: Guldi, Dirk M.;Feng, Lai;Radhakrishnan, Shankara Gayathri;Nikawa, Hidefumi;Yamada, Michio;Mizorogi, Naomi;Tsuchiya, Takahiro;Akasaka, Takeshi;Nagase, Shigeru;Angeles Herranz, M.;Martin, Nazario;
2:61:2:6 An Endohedral Metallofullerene as a Pure Electron Donor: Intramolecular Electron Transfer in Donor Acceptor Conjugates of La-2@C-80 and 11,11,12,12-Tetracyano-9,10-anthra-p-quinodimethane (TCAQ)
DOI:10.1021/ja307341g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:11 AU: Takano, Yuta;Obuchi, Shota;Mizorogi, Naomi;Garcia, Raul;Angeles Herranz, M.;Rudolf, Marc;Guldi, Dirk M.;Martin, Nazario;Nagase, Shigeru;Akasaka, Takeshi;
2:61:2:7 25th Anniversary Article: 25 Years of Fullerene Research in Electron Transfer Chemistry
DOI:10.1002/adma.201304928 JN:ADVANCED MATERIALS PY:2014 TC:19 AU: Kirner, Sabrina;Sekita, Michael;Guldi, Dirk M.;
2:61:2:8 Ambipolar organic semiconductors with cascades of energy levels for generating long-lived charge separated states: a donor-acceptor1-acceptor2 architectural triarylamine dye
DOI:10.1039/c4tc00860j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Wang, Tianyang;Weerasinghe, Krishanthi C.;Liu, Dongzhi;Li, Wei;Yan, Xilong;Zhou, Xueqin;Wang, Lichang;
2:61:2:9 Non-HPLC Rapid Separation of Metallofullerenes and Empty Cages with TiCl4 Lewis Acid
DOI:10.1021/ja3030627 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Akiyama, Kazuhiko;Hamano, Tatsuyuki;Nakanishi, Yusuke;Takeuchi, Erina;Noda, Shoko;Wang, Zhiyong;Kubuki, Shiro;Shinohara, Hisanori;
2:61:2:10 Stable Radical Anions Inside Fullerene Cages: Formation of Reversible Electron Transfer Systems
DOI:10.1021/ja205391v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:9 AU: Tsuchiya, Takahiro;Wielopolski, Mateusz;Sakuma, Noriko;Mizorogi, Naomi;Akasaka, Takeshi;Kato, Tatsuhisa;Guldi, Dirk M.;Nagase, Shigeru;
2:61:3:1 Yb@C-2n (n=40, 41, 42): New Fullerene Allotropes with Unexplored Electrochemical Properties
DOI:10.1021/ja101131e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:52 AU: Lu, Xing;Slanina, Zdenek;Akasaka, Takeshi;Tsuchiya, Takahiro;Mizorogi, Naomi;Nagase, Shigeru;
2:61:3:2 Isolation and Crystallographic Identification of Four Isomers of Sm@C-90
DOI:10.1021/ja111465n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:24 AU: Yang, Hua;Jin, Hongxiao;Zhen, Hongyu;Wang, Zhimin;Liu, Ziyang;Beavers, Christine M.;Mercado, Brandon Q.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:3:3 X-ray Crystallographic Characterization of New Soluble Endohedral Fullerenes Utilizing the Popular C-82 Bucky Cage. Isolation and Structural Characterization of Sm@C-3v(7)-C-82, Sm@C-s(6)-C-82, and Sm@C-2(5)-C-82
DOI:10.1021/ja304867j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:15 AU: Yang, Hua;Jin, Hongxiao;Wang, Xinqing;Liu, Ziyang;Yu, Meilan;Zhao, Fukun;Mercado, Brandon Q.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:3:4 Molecular Structure and Chemical Property of a Divalent Metallofullerene Yb@C-2(13)-C-84
DOI:10.1021/ja405223t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:3 AU: Zhang, Wenjun;Suzuki, Mitsuaki;Xie, Yunpeng;Bao, Lipiao;Cai, Wenting;Slanina, Zdenek;Nagase, Shigeru;Xu, Ming;Akasaka, Takeshi;Lu, Xing;
2:61:3:5 Single Samarium Atoms in Large Fullerene Cages. Characterization of Two Isomers of Sm@C-92 and Four Isomers of Sm@C-94 with the X-ray Crystallographic Identification of Sm@C-1(42)-C-92, Sm@C-s(24)-C-92, and Sm@C-3v(134)-C-94
DOI:10.1021/ja302859r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Jin, Hongxiao;Yang, Hua;Yu, Meilan;Liu, Ziyang;Beavers, Christine M.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:3:6 Crystallographic X-ray Analyses of Yb@C-2v(3)-C-80 Reveal a Feasible Rule That Governs the Location of a Rare Earth Metal inside a Medium-Sized Fullerene
DOI:10.1021/ja204653z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:27 AU: Lu, Xing;Lian, Yongfu;Beavers, Christine M.;Mizorogi, Naomi;Slanina, Zdenek;Nagase, Shigeru;Akasaka, Takeshi;
2:61:3:7 Single-Crystal X-ray Diffraction Study of Three Yb@C-82 Isomers Cocrystallized with Ni-II(octaethylporphyrin)
DOI:10.1021/ja308706d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:20 AU: Suzuki, Mitsuaki;Slanina, Zdenek;Mizorogi, Naomi;Lu, Xing;Nagase, Shigeru;Olmstead, Marilyn M.;Balch, Alan L.;Akasaka, Takeshi;
2:61:3:8 Isolation of Three Isomers of Sm@C-84 and X-ray Crystallographic Characterization of Sm@D-3d(19)-C-84 and Sm@C-2(13)-C-84
DOI:10.1021/ja211785u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:17 AU: Yang, Hua;Yu, Meilan;Jin, Hongxiao;Liu, Ziyang;Yao, Mingguang;Liu, Bingbing;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:3:9 Exceptional Chemical Properties of Sc@C-2v(9)-C-82 Probed with Adamantylidene Carbene
DOI:10.1021/ja306890x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:11 AU: Hachiya, Makoto;Nikawa, Hidefumi;Mizorogi, Naomi;Tsuchiya, Takahiro;Lu, Xing;Akasaka, Takeshi;
2:61:4:1 Azide Addition to an Endohedral Metallofullerene: Formation of Azafulleroids of Sc3N@I-h-C-80
DOI:10.1021/ja305446v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:9 AU: Liu, Tong-Xin;Wei, Tao;Zhu, San-E;Wang, Guan-Wu;Jiao, Mingzhi;Yang, Shangfeng;Bowles, Faye L.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:4:2 In Vitro and in Vivo Studies of Single-Walled Carbon Nanohorns with Encapsulated Metallofullerenes and Exohedrally Functionalized Quantum Dots
DOI:10.1021/nl1008635 JN:NANO LETTERS PY:2010 TC:27 AU: Zhang, Jianfei;Ge, Jiechao;Shultz, Michael D.;Chung, Eunna;Singh, Gurpreet;Shu, Chunying;Fatouros, Panos P.;Henderson, Scott C.;Corwin, Frank D.;Geohegan, David B.;Puretzky, Alex A.;Rouleau, Christopher M.;More, Karren;Rylander, Christopher;Rylander, Marissa Nichole;Gibson, Harry W.;Dorn, Harry C.;
2:61:4:3 Reactivity of Metallic Nitride Endohedral Metallofullerene Anions: Electrochemical Synthesis of a Lu3N@I-h-C-80 Derivative
DOI:10.1021/ja110160j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:18 AU: Li, Fang-Fang;Rodriguez-Fortea, Antonio;Poblet, Josep M.;Echegoyen, Luis;
2:61:4:4 [2+2] Cycloaddition Reaction to Sc3N@I-h-C-80. The Formation of Very Stable [5,6]- and [6,6]-Adducts
DOI:10.1021/ja1097176 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:26 AU: Li, Fang-Fang;Pinzon, Julio R.;Mercado, Brandon Q.;Olmstead, Marilyn M.;Balch, Alan L.;Echegoyen, Luis;
2:61:4:5 Encapsulation of a Radiolabeled Cluster Inside a Fullerene Cage, (LuxLu(3-x)N)-Lu-177@C-80: An Interleukin-13-Conjugated Radiolabeled Metallofullerene Platform
DOI:10.1021/ja9093617 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:42 AU: Shultz, Michael D.;Duchamp, James C.;Wilson, John D.;Shu, Chun-Ying;Ge, Jiechao;Zhang, Jianyuan;Gibson, Harry W.;Fillmore, Helen L.;Hirsch, Jerry I.;Dorn, Harry C.;Fatouros, Panos P.;
2:61:4:6 Electrosynthesis of a Sc3N@I-h-C-80 Methano Derivative from Trianionic Sc3N@I-h-C-80
DOI:10.1021/ja3008038 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:13 AU: Li, Fang-Fang;Rodriguez-Fortea, Antonio;Peng, Ping;Campos Chavez, Guillermo A.;Poblet, Josep M.;Echegoyen, Luis;
2:61:4:7 Anion Radicals of Isomeric [5,6] and [6,6] Benzoadducts of Sc3N@C-80: Remarkable Differences in Endohedral Cluster Spin Density and Dynamics
DOI:10.1021/ja507607k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Popov, Alexey A.;Pykhova, Anastasia D.;Ioffe, Ilya N.;Li, Fang-Fang;Echegoyen, Luis;
2:61:4:8 Prato Reaction of M3N@I-h-C-80 (M = Sc, Lu, Y, Gd) with Reversible Isomerization
DOI:10.1021/ja309550z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:8 AU: Aroua, Safwan;Yamakoshi, Yoko;
2:61:4:9 A Facile High-speed Vibration Milling Method to Water-disperse Single-walled Carbon Nanohorns
DOI:10.1021/cm902710n JN:CHEMISTRY OF MATERIALS PY:2010 TC:12 AU: Shu, Chunying;Zhang, Jianfei;Ge, Jiechao;Sim, Jae Hyun;Burke, Brain G.;Williams, Keith A.;Rylander, Williams M.;Campbell, Tom;Puretzky, Alex;Rouleau, Chris;Geohegan, David B.;More, Karren;Esker, Alan R.;Gibson, Harry W.;Dorn, Harry C.;
2:61:4:10 Reactivity of Metallic Nitride Endohedral Metallofullerene Anions: Electrochemical Synthesis of a Lu3N@I-h-C-80 Derivative (vol 133, pg 2760, 2011)
DOI:10.1021/ja403288d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:0 AU: Li, Fang-Fang;Rodriguez-Fortea, Antonio;Poblet, Josep M.;Echegoyen, Luis;
2:61:5:1 Semi-metallic Single-Component Crystal of Soluble La@C-82 Derivative with High Electron Mobility
DOI:10.1021/ja110465y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:28 AU: Sato, Satoru;Seki, Shu;Honsho, Yoshihito;Wang, Lu;Nikawa, Hidefumi;Luo, Guanfu;Lu, Jing;Haranaka, Masayuki;Tsuchiya, Takahiro;Nagase, Shigeru;Akasaka, Takeshi;
2:61:5:2 Enantioselective Synthesis of Endohedral Metallofullerenes
DOI:10.1021/ja2062727 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:22 AU: Sawai, Koji;Takano, Yuta;Izquierdo, Marta;Filippone, Salvatore;Martin, Nazario;Slanina, Zdenek;Mizorogi, Naomi;Waelchli, Markus;Tsuchiya, Takahiro;Akasaka, Takeshi;Nagase, Shigeru;
2:61:5:3 Enantioselective Cycloaddition of Munchnones onto [60]Fullerene: Organocatalysis versus Metal Catalysis
DOI:10.1021/ja500071k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:9 AU: Marco-Martinez, Juan;Reboredo, Silvia;Izquierdo, Marta;Marcos, Vanesa;Luis Lopez, Juan;Filippone, Salvatore;Martin, Nazario;
2:61:5:4 Stabilizing Ion and Radical Ion Pair States in a Paramagnetic Endohedral Metallofullerene/pi-Extended Tetrathiafulvalene Conjugate
DOI:10.1021/ja3055386 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Takano, Yuta;Obuchi, Shota;Mizorogi, Naomi;Garcia, Raul;Angeles Herranz, M.;Rudolf, Marc;Wolfrum, Silke;Guldi, Dirk M.;Martin, Nazario;Nagase, Shigeru;Akasaka, Takeshi;
2:61:5:5 Unprecedented Chemical Reactivity of a Paramagnetic Endohedral Metallofullerene La@C-5-C-82 that Leads Hydrogen Addition in the 1,3-Dipolar Cycloaddition Reaction
DOI:10.1021/ja509407j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Takano, Yuta;Slanina, Zdenek;Mateos, Jaime;Tsuchiya, Takayoshi;Kurihara, Hirold;Uhlik, Filip;Angeles Herranz, Maria;Martin, Nazario;Nagase, Shigeru;Akasaka, Takeshi;
2:61:5:6 A Clear Correlation between the Diradical Character of 1,3-Dipoles and Their Reactivity toward Ethylene or Acetylene
DOI:10.1021/ja100512d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:36 AU: Braida, Benoit;Walter, Christof;Engels, Bernd;Hiberty, Philippe C.;
2:61:5:7 Switching the Stereoselectivity: (Fullero)Pyrrolidines "a la Carte"
DOI:10.1021/ja306105b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:22 AU: Maroto, Enrique E.;Filippone, Salvatore;Martin-Domenech, Angel;Suarez, Margarita;Martin, Nazario;
2:61:5:8 Stereodivergent Synthesis of Chiral Fullerenes by [3+2] Cycloadditions to C-60
DOI:10.1021/ja410408c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Maroto, Enrique E.;Filippone, Salvatore;Suarez, Margarita;Martinez-Alvarez, Roberto;de Cozar, Abel;Cossio, Fernando P.;Martin, Nazario;
2:61:6:1 Synthesis of Silylene-Bridged Endohedral Metallofullerene Lu3N@I-h-C-80
DOI:10.1021/ja3073929 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Sato, Kumiko;Kako, Masahiro;Suzuki, Mitsuaki;Mizorogi, Naomi;Tsuchiya, Takahiro;Olmstead, Marilyn M.;Balch, Alan L.;Akasaka, Takeshi;Nagase, Shigeru;
2:61:6:2 Very Large, Soluble Endohedral Fullerenes in the Series La2C90 to La2C138: Isolation and Crystallographic Characterization of La-2@D-5(450)-C-100
DOI:10.1021/ja207090e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:24 AU: Beavers, Christine M.;Jin, Hongxiao;Yang, Hua;Wang, Zhimin;Wang, Xinqing;Ge, Hongliang;Liu, Ziyang;Mercado, Brandon Q.;Olmstead, Marilyn M.;Balch, Alan L.;
2:61:6:3 Thermal Carbosilylation of Endohedral Dimetallofullerene La-2@I-h-C-80 with Silirane
DOI:10.1021/ja108671b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:13 AU: Yamada, Michio;Minowa, Mari;Sato, Satoru;Kako, Masahiro;Slanina, Zdenek;Mizorogi, Naomi;Tsuchiya, Takahiro;Maeda, Yutaka;Nagase, Shigeru;Akasaka, Takeshi;
2:61:6:4 Photochemical Addition of C-60 with Siliranes: Synthesis and Characterization of Carbosilylated and Hydrosilylated C-60 Derivatives
DOI:10.1021/ja1049719 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:14 AU: Nagatsuka, Junko;Sugitani, Sachie;Kako, Masahiro;Nakahodo, Tsukasa;Mizorogi, Naomi;Ishitsuka, Midori O.;Maeda, Yutaka;Tsuchiya, Takahiro;Akasaka, Takeshi;Gao, Xingfa;Nagase, Shigeru;
2:61:6:5 Regioselective Cycloaddition of La-2@/(h)-C-80 with Tetracyanoethylene Oxide: Formation of an Endohedral Dimetallofullerene Adduct Featuring Enhanced Electron-Accepting Character
DOI:10.1021/ja2000243 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Yamada, Michio;Minowa, Mari;Sato, Satoru;Slanina, Zdenek;Tsuchiya, Takahiro;Maeda, Yutaka;Nagase, Shigeru;Akasaka, Takeshi;
2:61:6:6 Regioselective Bis-functionalization of Endohedral Dimetallofullerene, La-2@C-80: Extremal La-La Distance
DOI:10.1021/ja200903q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:15 AU: Ishitsuka, Midori O.;Sano, Shogo;Enoki, Haruka;Sato, Satoru;Nikawa, Hidefumi;Tsuchiya, Takahiro;Slanina, Zdenek;Mizorogi, Naomi;Liu, Michael T. H.;Akasaka, Takeshi;Nagase, Shigeru;
2:61:7:1 Disclosure of the Elusive C-2v-C-72 Carbon Cage
DOI:10.1021/ja108470p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:20 AU: Ziegler, Karolin;Mueller, Andreas;Amsharov, Konstantin Yu;Jansen, Martin;
2:61:7:2 Non-IPR endohedral fullerene Yb@C-76: density functional theory characterization
DOI:10.1039/c1jm12230d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:24 AU: Yang, Tao;Zhao, Xiang;Xu, Qian;Zhou, Caihua;He, Ling;Nagase, Shigeru;
2:61:7:3 Soluble Chlorofullerenes C60Cl2,4,6,8,10. Synthesis, Purification, Compositional Analysis, Stability, and Experimental/Theoretical Structure Elucidation, Including the X-ray Structure of C-1-C60Cl10
DOI:10.1021/ja1005256 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:27 AU: Kuvychko, Igor V.;Streletskii, Alexey V.;Shustova, Natalia B.;Seppelt, Konrad;Drewello, Thomas;Popov, Alexey A.;Strauss, Steven H.;Boltalina, Olga V.;
2:61:7:4 C72Cl4: A Pristine Fullerene with Favorable Pentagon-Adjacent Structure
DOI:10.1021/ja108860y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:21 AU: Tan, Yuan-Zhi;Zhou, Ting;Bao, Jian;Shan, Gui-Juan;Xie, Su-Yuan;Huang, Rong-Bin;Zheng, Lan-Sun;
2:61:7:5 Pentagon-Fused Hollow Fullerene in C-78 Family Retrieved by Chlorination
DOI:10.1021/ja102887t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:17 AU: Tan, Yuan-Zhi;Li, Jia;Zhou, Ting;Feng, Yu-Qi;Lin, Shui-Chao;Lu, Xin;Zhan, Zhuang-Ping;Xie, Su-Yuan;Huang, Rong-Bin;Zheng, Lan-Sun;
2:61:8:1 Investigation of Gd3N@C-2n (40 < n < 44) family by Raman and inelastic electron tunneling spectroscopy
DOI:10.1103/PhysRevB.81.115423 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Burke, Brian G.;Chan, Jack;Williams, Keith A.;Ge, Jiechao;Shu, Chunying;Fu, Wujun;Dorn, Harry C.;Kushmerick, James G.;Puretzky, Alexander A.;Geohegan, David B.;
2:61:8:2 Gd-2@C79N: Isolation, Characterization, and Monoadduct Formation of a Very Stable Heterofullerene with a Magnetic Spin State of S=15/2
DOI:10.1021/ja202011u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:24 AU: Fu, Wujun;Zhang, Jianyuan;Fuhrer, Tim;Champion, Hunter;Furukawa, Ko;Kato, Tatsuhisa;Mahaney, James E.;Burke, Brian G.;Williams, Keith A.;Walker, Kenneth;Dixon, Caitlyn;Ge, Jiechao;Shu, Chunying;Harich, Kim;Dorn, Harry C.;
2:61:8:3 Gd3N@C-84(OH)(x): A New Egg-Shaped Metallofullerene Magnetic Resonance Imaging Contrast Agent
DOI:10.1021/ja412254k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:7 AU: Zhang, Jianyuan;Ye, Youqing;Chen, Ying;Pregot, Christopher;Li, Tinghui;Balasubramaniam, Sharavanan;Hobart, David B.;Zhang, Yafen;Wi, Sungsool;Davis, Richey M.;Madsen, Louis A.;Morris, John R.;LaConte, Stephen M.;Yee, Gordon T.;Dorn, Harry C.;
2:61:8:4 A Study of the Kinetic Stability of Heterofullerene C59Si and C58Si2 Isomers
DOI:10.1166/jctn.2013.2693 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:0 AU: Kerim, Ablikim;
2:61:9:1 Poly(perfluoroalkylation) of Metallic Nitride Fullerenes Reveals Addition-Pattern Guidelines: Synthesis and Characterization of a Family of Sc3N@C-80(CF3)(n) (n=2-16) and Their Radical Anions
DOI:10.1021/ja109462j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:33 AU: Shustova, Natalia B.;Peryshkov, Dmitry V.;Kuvychko, Igor V.;Chen, Yu-Sheng;Mackey, Mary A.;Coumbe, Curtis E.;Heaps, David T.;Confait, Bridget S.;Heine, Thomas;Phillips, J. Paige;Stevenson, Steven;Dunsch, Lothar;Popov, Alexey A.;Strauss, Steven H.;Boltalina, Olga V.;
2:61:9:2 Regioselective Benzyl Radical Addition to an Open-Shell Cluster Metallofullerene. Crystallographic Studies of Cocrystallized Sc3C2@I-h-C-80 and Its Singly Bonded Derivative
DOI:10.1021/ja505858y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Fang, Hongyun;Cong, Hailin;Suzuki, Mitsuaki;Bao, Lipiao;Yu, Bing;Xie, Yunpeng;Mizorogi, Naomi;Olmstead, Marilyn M.;Balch, Alan L.;Nagase, Shigeru;Akasaka, Takeshi;Lu, Xing;
2:62:1 Biocompatible and Biodegradable Materials for Organic Field-Effect Transistors
DOI:10.1002/adfm.201001031 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:87 AU: Irimia-Vladu, Mihai;Troshin, Pavel A.;Reisinger, Melanie;Shmygleva, Lyuba;Kanbur, Yasin;Schwabegger, Guenther;Bodea, Marius;Schwoediauer, Reinhard;Mumyatov, Alexander;Fergus, Jeffrey W.;Razumov, Vladimir F.;Sitter, Helmut;Sariciftci, Niyazi Serdar;Bauer, Siegfried;
2:62:2 Organic Thin-Film Transistors Fabricated on Resorbable Biomaterial Substrates
DOI:10.1002/adma.200902322 JN:ADVANCED MATERIALS PY:2010 TC:94 AU: Bettinger, Christopher J.;Bao, Zhenan;
2:62:3 Dissolvable Metals for Transient Electronics
DOI:10.1002/adfm.201301847 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:21 AU: Yin, Lan;Cheng, Huanyu;Mao, Shimin;Haasch, Richard;Liu, Yuhao;Xie, Xu;Hwang, Suk-Won;Jain, Harshvardhan;Kang, Seung-Kyun;Su, Yewang;Li, Rui;Huang, Yonggang;Rogers, John A.;
2:62:4 Exotic materials for bio-organic electronics
DOI:10.1039/c0jm02444a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:50 AU: Irimia-Vladu, Mihai;Sariciftci, Niyazi Serdar;Bauer, Siegfried;
2:62:5 Self-deployable current sources fabricated from edible materials
DOI:10.1039/c3tb20183j JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:15 AU: Kim, Young Jo;Chun, Sang-Eun;Whitacre, Jay;Bettinger, Christopher J.;
2:62:6 Biodegradable Elastomers and Silicon Nanomembranes/Nanoribbons for Stretchable, Transient Electronics, and Biosensors
DOI:10.1021/nl503997m JN:NANO LETTERS PY:2015 TC:1 AU: Hwang, Suk-Won;Lee, Chi Hwan;Cheng, Huanyu;Jeong, Jae-Woong;Kang, Seung-Kyun;Kim, Jae-Hwan;Shin, Jiho;Yang, Jian;Liu, Zhuangjian;Ameer, Guillermo A.;Huang, Yonggang;Rogers, John A.;
2:62:7 Transient, Biocompatible Electronics and Energy Harvesters Based on ZnO
DOI:10.1002/smll.201300146 JN:SMALL PY:2013 TC:38 AU: Dagdeviren, Canan;Hwang, Suk-Won;Su, Yewang;Kim, Stanley;Cheng, Huanyu;Gur, Onur;Haney, Ryan;Omenetto, Fiorenzo G.;Huang, Yonggang;Rogers, John A.;
2:62:8 Materials and Fabrication Processes for Transient and Bioresorbable High-Performance Electronics
DOI:10.1002/adfm.201300127 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:26 AU: Hwang, Suk-Won;Kim, Dae-Hyeong;Tao, Hu;Kim, Tae-il;Kim, Stanley;Yu, Ki Jun;Panilaitis, Bruce;Jeong, Jae-Woong;Song, Jun-Kyul;Omenetto, Fiorenzo G.;Rogers, John. A.;
2:62:9 Biodegradable Nanofibrous Polymeric Substrates for Generating Elastic and Flexible Electronics
DOI:10.1002/adma.201401537 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Najafabadi, Alireza Hassani;Tamayol, Ali;Annabi, Nasim;Ochoa, Manuel;Mostafalu, Pooria;Akbari, Mohsen;Nikkhah, Mehdi;Rahimi, Rahim;Dokmeci, Mehmet R.;Sonkusale, Sameer;Ziaie, Babak;Khademhosseini, Ali;
2:62:10 Study of Physically Transient Insulating Materials as a Potential Platform for Transient Electronics and Bioelectronics
DOI:10.1002/adfm.201304186 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:11 AU: Acar, Handan;Cinar, Simge;Thunga, Mahendra;Kessler, Michael R.;Hashemi, Nastaran;Montazami, Reza;
2:62:11 Silk-Based Conformal, Adhesive, Edible Food Sensors
DOI:10.1002/adma.201103814 JN:ADVANCED MATERIALS PY:2012 TC:46 AU: Tao, Hu;Brenckle, Mark A.;Yang, Miaomiao;Zhang, Jingdi;Liu, Mengkun;Siebert, Sean M.;Averitt, Richard D.;Mannoor, Manu S.;McAlpine, Michael C.;Rogers, John A.;Kaplan, David L.;Omenetto, Fiorenzo G.;
2:62:12 Materials for Bioresorbable Radio Frequency Electronics
DOI:10.1002/adma.201300920 JN:ADVANCED MATERIALS PY:2013 TC:27 AU: Hwang, Suk-Won;Huang, Xian;Seo, Jung-Hun;Song, Jun-Kyul;Kim, Stanley;Hage-Ali, Sami;Chung, Hyun-Joong;Tao, Hu;Omenetto, Fiorenzo G.;Ma, Zhenqiang;Rogers, John A.;
2:62:13 Triggered Transience of Metastable Poly(phthalaldehyde) for Transient Electronics
DOI:10.1002/adma.201403045 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Hernandez, Hector Lopez;Kang, Seung-Kyun;Lee, Olivia P.;Hwang, Suk-Won;Kaitz, Joshua A.;Inci, Bora;Park, Chan Woo;Chung, Sangjin;Sottos, Nancy R.;Moore, Jeffrey S.;Rogers, John A.;White, Scott R.;
2:62:14 Dissolution Behaviors and Applications of Silicon Oxides and Nitrides in Transient Electronics
DOI:10.1002/adfm.201304293 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:15 AU: Kang, Seung-Kyun;Hwang, Suk-Won;Cheng, Huanyu;Yu, Sooyoun;Kim, Bong Hoon;Kim, Jae-Hwan;Huang, Yonggang;Rogers, John A.;
2:62:15 Solution-processed single-walled carbon nanotube field effect transistors and bootstrapped inverters for disintegratable, transient electronics
DOI:10.1063/1.4885761 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Jin, Sung Hun;Shin, Jongmin;Cho, In-Tak;Han, Sang Youn;Lee, Dong Joon;Lee, Chi Hwan;Lee, Jong-Ho;Rogers, John A.;
2:62:16 Transient Rechargeable Batteries Triggered by Cascade Reactions
DOI:10.1021/acs.nanolett.5b01451 JN:NANO LETTERS PY:2015 TC:0 AU: Fu, Kun;Liu, Zhen;Yao, Yonggang;Wang, Zhengyang;Zhao, Bin;Luo, Wei;Dai, Jiaqi;Lacey, Steven D.;Zhou, Lihui;Shen, Fei;Kim, Myeongseob;Swafford, Laura;Sengupta, Louise;Hu, Liangbing;
2:62:17 Materials, Designs, and Operational Characteristics for Fully Biodegradable Primary Batteries
DOI:10.1002/adma.201306304 JN:ADVANCED MATERIALS PY:2014 TC:12 AU: Yin, Lan;Huang, Xian;Xu, Hangxun;Zhang, Yanfeng;Lam, Jasper;Cheng, Jianjun;Rogers, John A.;
2:62:18 Biocompatible Ionic Liquid-Biopolymer Electrolyte-Enabled Thin and Compact Magnesium-Air Batteries
DOI:10.1021/am505985z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Jia, Xiaoteng;Yang, Yang;Wang, Caiyun;Zhao, Chen;Vijayaraghavan, R.;MacFarlane, Douglas R.;Forsyth, Maria;Wallace, Gordon G.;
2:62:19 DNA-Base Guanine as Hydrogen Getter and Charge-Trapping Layer Embedded in Oxide Dielectrics for Inorganic and Organic Field-Effect Transistors
DOI:10.1021/am405998d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Lee, Junyeong;Park, Ji Hoon;Lee, Young Tack;Jeon, Pyo Jin;Lee, Hee Sung;Nam, Seung Hee;Yi, Yeonjin;Lee, Younjoo;Im, Seongil;
2:62:20 25th Anniversary Article: Materials for High-Performance Biodegradable Semiconductor Devices
DOI:10.1002/adma.201304821 JN:ADVANCED MATERIALS PY:2014 TC:11 AU: Hwang, Suk-Won;Park, Gayoung;Cheng, Huanyu;Song, Jun-Kyul;Kang, Seung-Kyun;Yin, Lan;Kim, Jae-Hwan;Omenetto, Fiorenzo G.;Huang, Yonggang;Lee, Kyung-Mi;Rogers, John A.;
2:62:21 Implantable microdevice for peripheral nerve regeneration: materials and fabrications
DOI:10.1007/s10853-011-5510-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:8 AU: Bennet, Devasier;Kim, Sanghyo;
2:62:22 Dissolution Chemistry and Biocompatibility of Single-Crystalline Silicon Nanomembranes and Associated Materials for Transient Electronics
DOI:10.1021/nn500847g JN:ACS NANO PY:2014 TC:15 AU: Hwang, Suk-Won;Park, Gayoung;Edwards, Chris;Corbin, Elise A.;Kang, Seung-Kyun;Cheng, Huanyu;Song, Jun-Kyul;Kim, Jae-Hwan;Yu, Sooyoun;Ng, Joanne;Lee, Jung Eun;Kim, Jiyoung;Yee, Cassian;Bhaduri, Basanta;Su, Yewang;Omennetto, Fiorenzo G.;Huang, Yonggang;Bashir, Rashid;Goddard, Lynford;Popescu, Gabriel;Lee, Kyung-Mi;Rogers, John A.;
2:62:23 Biodegradable Materials for Multilayer Transient Printed Circuit Boards
DOI:10.1002/adma.201403164 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Huang, Xian;Liu, Yuhao;Hwang, Suk-Won;Kang, Seung-Kyun;Patnaik, Dwipayan;Cortes, Jonathan Fajardo;Rogers, John A.;
2:62:24 High-Performance Biodegradable/Transient Electronics on Biodegradable Polymers
DOI:10.1002/adma.201306050 JN:ADVANCED MATERIALS PY:2014 TC:18 AU: Hwang, Suk-Won;Song, Jun-Kyul;Huang, Xian;Cheng, Huanyu;Kang, Seung-Kyun;Kim, Bong Hoon;Kim, Jae-Hwan;Yu, Sooyoun;Huang, Yonggang;Rogers, John A.;
2:62:25 Built To Disappear
DOI:10.1021/nn502938g JN:ACS NANO PY:2014 TC:4 AU: Bauer, Siegfried;Kaltenbrunner, Martin;
2:62:26 An Analytical Model of Reactive Diffusion for Transient Electronics
DOI:10.1002/adfm.201203088 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:7 AU: Li, Rui;Cheng, Huanyu;Su, Yewang;Hwang, Suk-Won;Yin, Lan;Tao, Hu;Brenckle, Mark A.;Kim, Dae-Hyeong;Omenetto, Fiorenzo G.;Rogers, John A.;Huang, Yonggang;
2:62:27 Flexible and transparent gastric battery: Energy harvesting from gastric acid for endoscopy application
DOI:10.1016/j.bios.2013.10.040 JN:BIOSENSORS & BIOELECTRONICS PY:2014 TC:7 AU: Mostafalu, Pooria;Sonkusale, Sameer;
2:62:28 Cellulose nanecrystals thin films as gate dielectric for flexible organic field-effect transistors
DOI:10.1016/j.matlet.2014.04.003 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Valentini, L.;Bon, S. Bittolo;Cardinali, M.;Fortunati, E.;Kenny, J. M.;
2:62:29 Flexible organic transistors and circuits with extreme bending stability
DOI:10.1038/NMAT2896 JN:NATURE MATERIALS PY:2010 TC:316 AU: Sekitani, Tsuyoshi;Zschieschang, Ute;Klauk, Hagen;Someya, Takao;
2:62:30 Surface microstructurization of a sputtered magnesium thin film via a solution-immersion route
DOI:10.1016/j.matlet.2009.11.052 JN:MATERIALS LETTERS PY:2010 TC:5 AU: Wu, Guosong;Dai, Wei;Song, Lixin;Wang, Aiying;
2:62:31 Bismuth Hall probes: Preparation, properties and application
DOI:10.1016/j.tsf.2010.02.010 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Koseva, R.;Moench, I.;Schumann, J.;Arndt, K. -F.;Schmidt, O. G.;
2:62:32 Evolution of hillocks in Bi thin films and their removal upon nanoscale mechanical polishing
DOI:10.1016/j.tsf.2012.04.040 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Koseva, R.;Moench, I.;Meier, D.;Schumann, J.;Arndt, K-F;Schultz, L.;Zhao, B.;Schmidt, O. G.;
2:63:1 Trap-free electron transport in poly(p-phenylene vinylene) by deactivation of traps with n-type doping
DOI:10.1103/PhysRevB.81.085201 JN:PHYSICAL REVIEW B PY:2010 TC:51 AU: Zhang, Yuan;de Boer, Bert;Blom, Paul W. M.;
2:63:2 Origin of the dark-current ideality factor in polymer:fullerene bulk heterojunction solar cells
DOI:10.1063/1.3651752 JN:APPLIED PHYSICS LETTERS PY:2011 TC:51 AU: Wetzelaer, G. A. H.;Kuik, M.;Lenes, M.;Blom, P. W. M.;
2:63:3 Trap-Assisted Recombination in Disordered Organic Semiconductors
DOI:10.1103/PhysRevLett.107.256805 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:40 AU: Kuik, M.;Koster, L. J. A.;Wetzelaer, G. A. H.;Blom, P. W. M.;
2:63:4 Trap-assisted and Langevin-type recombination in organic light-emitting diodes
DOI:10.1103/PhysRevB.83.165204 JN:PHYSICAL REVIEW B PY:2011 TC:28 AU: Wetzelaer, G. A. H.;Kuik, M.;Nicolai, H. T.;Blom, P. W. M.;
2:63:5 Electron traps in semiconducting polymers: Exponential versus Gaussian trap distribution
DOI:10.1103/PhysRevB.83.195204 JN:PHYSICAL REVIEW B PY:2011 TC:31 AU: Nicolai, H. T.;Mandoc, M. M.;Blom, P. W. M.;
2:63:6 Space-charge-limited hole current in poly(9,9-dioctylfluorene) diodes
DOI:10.1063/1.3391668 JN:APPLIED PHYSICS LETTERS PY:2010 TC:32 AU: Nicolai, H. T.;Wetzelaer, G. A. H.;Kuik, M.;Kronemeijer, A. J.;de Boer, B.;Blom, P. W. M.;
2:63:7 Trap states in ZnPc:C60 small-molecule organic solar cells
DOI:10.1103/PhysRevB.87.045432 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Burtone, Lorenzo;Fischer, Janine;Leo, Karl;Riede, Moritz;
2:63:8 Determination of the trap-assisted recombination strength in polymer light emitting diodes
DOI:10.1063/1.3559911 JN:APPLIED PHYSICS LETTERS PY:2011 TC:22 AU: Kuik, Martijn;Nicolai, Herman T.;Lenes, Martijn;Wetzelaer, Gert-Jan A. H.;Lu, Mingtao;Blom, Paul W. M.;
2:63:9 Validity of the Einstein Relation in Disordered Organic Semiconductors
DOI:10.1103/PhysRevLett.107.066605 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:34 AU: Wetzelaer, G. A. H.;Koster, L. J. A.;Blom, P. W. M.;
2:63:10 25th Anniversary Article: Charge Transport and Recombination in Polymer Light-Emitting Diodes
DOI:10.1002/adma.201303393 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Kuik, Martijn;Wetzelaer, Gert-Jan A. H.;Nicolai, Herman T.;Craciun, N. Irina;De Leeuw, Dago M.;Blom, Paul W. M.;
2:63:11 Device Physics of White Polymer Light-Emitting Diodes
DOI:10.1002/adfm.201102699 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:20 AU: Nicolai, Herman T.;Hof, Andre;Blom, Paul W. M.;
2:63:12 Electron and hole transport in poly(fluorene-benzothiadiazole)
DOI:10.1063/1.3574907 JN:APPLIED PHYSICS LETTERS PY:2011 TC:21 AU: Zhang, Yuan;Blom, Paul W. M.;
2:63:13 Diffusion-driven currents in organic-semiconductor diodes
DOI:10.1038/am.2014.41 JN:NPG ASIA MATERIALS PY:2014 TC:1 AU: Wetzelaer, Gert-Jan A. H.;Blom, Paul W. M.;
2:63:14 Impedance model of trap states for characterization of organic semiconductor devices
DOI:10.1063/1.3693545 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:14 AU: Burtone, L.;Ray, D.;Leo, K.;Riede, M.;
2:63:15 Charge Trapping in Mixed Organic Donor-Acceptor Semiconductor Thin Films
DOI:10.1002/adma.201403198 JN:ADVANCED MATERIALS PY:2014 TC:0 AU: Nunomura, Shota;Che, Xiaozhou;Forrest, Stephen R.;
2:63:16 Hysteresis-free electron currents in poly(p-phenylene vinylene) derivatives
DOI:10.1063/1.3432744 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Craciun, N. I.;Zhang, Y.;Palmaerts, A.;Nicolai, H. T.;Kuik, M.;Kist, R. J. P.;Wetzelaer, G. A. H.;Wildeman, J.;Vandenbergh, J.;Lutsen, L.;Vanderzande, D.;Blom, P. W. M.;
2:63:17 Investigation of C(60)F(36) as low-volatility p-dopant in organic optoelectronic devices
DOI:10.1063/1.3590142 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:26 AU: Meerheim, Rico;Olthof, Selina;Hermenau, Martin;Scholz, Sebastian;Petrich, Annette;Tessler, Nir;Solomeshch, Olga;Luessem, Bjoern;Riede, Moritz;Leo, Karl;
2:63:18 Optical detection of deep electron traps in poly(p-phenylene vinylene) light-emitting diodes
DOI:10.1063/1.3656713 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Kuik, Martijn;Vandenbergh, Joke;Goris, Ludwig;Begemann, Eline J.;Lutsen, Laurence;Vanderzande, Dirk J. M.;Manca, Jean V.;Blom, Paul W. M.;
2:63:19 Exciton quenching at PEDOT:PSS anode in polymer blue-light-emitting diodes
DOI:10.1063/1.4903952 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Abbaszadeh, D.;Wetzelaer, G. A. H.;Nicolai, H. T.;Blom, P. W. M.;
2:63:20 Diffusion-Limited Current in Organic Metal-Insulator-Metal Diodes
DOI:10.1103/PhysRevLett.111.186801 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:9 AU: de Bruyn, P.;van Rest, A. H. P.;Wetzelaer, G. A. H.;de Leeuw, D. M.;Blom, P. W. M.;
2:63:21 Quantifying Bimolecular Recombination in Organic Solar Cells in Steady State
DOI:10.1002/aenm.201300251 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:15 AU: Wetzelaer, Gert-Jan A. H.;Van der Kaap, Niels J.;Koster, L. Jan Anton;Blom, Paul W. M.;
2:63:22 The Effect of Ketone Defects on the Charge Transport and Charge Recombination in Polyfluorenes
DOI:10.1002/adfm.201100374 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:15 AU: Kuik, Martijn;Wetzelaer, Gert-Jan A. H.;Ladde, Jurre G.;Nicolai, Herman T.;Wildeman, Jurjen;Sweelssen, Jorgen;Blom, Paul W. M.;
2:63:23 Unification of trap-limited electron transport in semiconducting polymers
DOI:10.1038/NMAT3384 JN:NATURE MATERIALS PY:2012 TC:97 AU: Nicolai, H. T.;Kuik, M.;Wetzelaer, G. A. H.;de Boer, B.;Campbell, C.;Risko, C.;Bredas, J. L.;Blom, P. W. M.;
2:63:24 Charge Transport and Recombination in Polyspirobifluorene Blue Light-Emitting Diodes
DOI:10.1002/adfm.201002293 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:13 AU: Nicolai, Herman T.;Hof, Andre;Oosthoek, Jasper L. M.;Blom, Paul W. M.;
2:63:25 Quantitative analysis of the guest-concentration dependence of the mobility in a disordered fluorene-arylamine host-guest system in the guest-to-guest regime
DOI:10.1063/1.3663563 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Nicolai, H. T.;Hof, A. J.;Lu, M.;Blom, P. W. M.;de Vries, R. J.;Coehoorn, R.;
2:63:26 Detection of trap charge in small molecular organic bulk heterojunction solar cells
DOI:10.1103/PhysRevB.82.125204 JN:PHYSICAL REVIEW B PY:2010 TC:8 AU: Ray, Debdutta;Burtone, Lorenzo;Leo, Karl;Riede, Moritz;
2:63:27 Tuning the colour of white polymer light emitting diodes
DOI:10.1016/j.tsf.2010.03.040 JN:THIN SOLID FILMS PY:2010 TC:9 AU: de Kok, Margreet;Sarfert, Wiebke;Paetzold, Ralph;
2:63:28 Quantitative estimation of electronic quality of zinc phthalocyanine thin films
DOI:10.1103/PhysRevB.84.075214 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Ray, Debdutta;Furno, Mauro;Siebert-Henze, Ellen;Leo, Karl;Riede, Moritz;
2:63:29 Trap-induced light enhancement from a polymer light emitting device
DOI:10.1063/1.4816505 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Zhang, Xiaojin;He, Zhiqun;Liang, Chunjun;Wang, Yongsheng;Zhuang, Qixin;Han, Zhewen;
2:63:30 Charge trapping in [poly-(2-methoxyl),5-(3,77dimethyloctyloxy)] paraphenylenevinylene synthesized in different routes affected by the energetical distribution of trapping states
DOI:10.1063/1.4772802 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Pranaitis, M.;Sakavicius, A.;Janonis, V.;Kazukauskas, V.;
2:63:31 Density of trap states in organic photovoltaic materials from LESR studies of carrier recombination kinetics
DOI:10.1103/PhysRevB.84.245205 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Carati, Claudio;Bonoldi, Lucia;Po, Riccardo;
2:63:32 Application of the thermally stimulated current method to prove the Gaussian distribution of the charge transport and trapping states in the band gap of MDMO-PPV, depending on the synthesis route
DOI:10.1016/j.optmat.2013.12.050 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Pranaitis, M.;Sakavicius, A.;Kazukauskas, V.;
2:63:33 Ohmic current in organic metal-insulator-metal diodes revisited
DOI:10.1103/PhysRevB.89.241201 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Wetzelaer, G. A. H.;Blom, P. W. M.;
2:63:34 In-situ characterization of trapped charges in amorphous semiconductor films during plasma-enhanced chemical vapor deposition
DOI:10.1063/1.4895345 JN:AIP ADVANCES PY:2014 TC:1 AU: Nunomura, S.;Sakata, I.;
2:63:35 Quantitative analysis of the guest-concentration dependence of the mobility in a disordered fluorene-arylamine host-guest system in the guest-to-guest regime (vol 99, 203303, 2011)
DOI:10.1063/1.3679550 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Nicolai, H. T.;Hof, A. J.;Lu, M.;Blom, P. W. M.;de Vries, R. J.;Coehoorn, R.;
2:63:36 Extraction of the Schottky parameters in metal-semiconductor-metal diodes from a single current-voltage measurement
DOI:10.1063/1.4901467 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Nouchi, Ryo;
2:63:37 Gaussian Distribution of the Charge Traps in the Energy Gap of MDMO-PPV and Its Dependence on Synthesis Route Revealed by the Thermally Stimulated Current Spectroscopy
DOI:10.1080/15421406.2014.968037 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Pranaitis, M.;Sakavicius, A.;Janonis, V.;Kazukauskas, V.;
2:63:38 Crystalline thin films of beta-phase poly(9,9-dioctylfluorene)
DOI:10.1016/j.tsf.2010.10.048 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Kawamura, Takuji;Misaki, Masahiro;Koshiba, Yasuko;Horie, Satoshi;Kinashi, Kenji;Ishida, Kenji;Ueda, Yasukiyo;
2:64:1 Oligo- and Polythiophene/ZnO Hybrid Nanowire Solar Cells
DOI:10.1021/nl9036752 JN:NANO LETTERS PY:2010 TC:211 AU: Briseno, Alejandro L.;Holcombe, Thomas W.;Boukai, Akram I.;Garnett, Erik C.;Shelton, Steve W.;Frechet, Jean J. M.;Yang, Peidong;
2:64:2 Towards Efficient Hybrid Solar Cells Based on Fully Polymer Infiltrated ZnO Nanorod Arrays
DOI:10.1002/adma.201100414 JN:ADVANCED MATERIALS PY:2011 TC:67 AU: Baeten, Linny;Conings, Bert;Boyen, Hans-Gerd;D'Haen, Jan;Hardy, An;D'Olieslaeger, Marc;Manca, Jean V.;Van Bael, Marlies K.;
2:64:3 Solution-Processed Zinc Oxide as High-Performance Air-Stable Electron Injector in Organic Ambipolar Light-Emitting Field-Effect Transistors
DOI:10.1002/adfm.201000785 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:39 AU: Gwinner, Michael C.;Vaynzof, Yana;Banger, Kulbinder K.;Ho, Peter K. H.;Friend, Richard H.;Sirringhaus, Henning;
2:64:4 Ideal Energy-Level Alignment at the ZnO/P3HT Photovoltaic Interface
DOI:10.1002/adfm.201201478 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:27 AU: Noori, Keian;Giustino, Feliciano;
2:64:5 Directed Self-Assembly of Hybrid Oxide/Polymer Core/Shell Nanowires with Transport Optimized Morphology for Photovoltaics
DOI:10.1002/adma.201103708 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Zhang, Shanju;Pelligra, Candice I.;Keskar, Gayatri;Jiang, Jie;Majewski, Pawel W.;Taylor, Andre D.;Ismail-Beigi, Sohrab;Pfefferle, Lisa D.;Osuji, Chinedum O.;
2:64:6 Anisotropic core-shell nanocomposites by direct covalent attachment of a side-functionalized poly(3-hexylthiophene) onto ZnO nanowires
DOI:10.1016/j.polymer.2013.11.016 JN:POLYMER PY:2013 TC:1 AU: Redeker, Neil D.;Danesh, Cameron D.;Ding, Yong;Zhang, Shanju;
2:64:7 Liquid Crystalline Order and Magnetocrystalline Anisotropy in Magnetically Doped Semiconducting ZnO Nanowires
DOI:10.1021/nn203070d JN:ACS NANO PY:2011 TC:14 AU: Zhang, Shanju;Pelligra, Candice I.;Keskar, Gayatri;Majewski, Pawel W.;Ren, Fang;Pfefferle, Lisa D.;Osuji, Chinedum O.;
2:64:8 Lyotropic Self-Assembly of High-Aspect-Ratio Semiconductor Nanowires of Single-Crystal ZnO
DOI:10.1021/la200703u JN:LANGMUIR PY:2011 TC:13 AU: Zhang, Shanju;Majewski, Pawel W.;Keskar, Gayatri;Pfefferle, Lisa D.;Osuji, Chinedum O.;
2:64:9 Large-Scale Aligned Carbon Nanotubes from Their Purified, Highly Concentrated Suspension
DOI:10.1021/nn901326m JN:ACS NANO PY:2010 TC:38 AU: Lu, Luhua;Chen, Wei;
2:64:10 The influence of molecular interface modification on the charge dynamics of polymeric semiconductor:ZnO heterostructure
DOI:10.1063/1.4893361 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Rezasoltani, Elham;Wang, Mingqing;Hill, Ian G.;Silva, Carlos;
2:64:11 Scalable High-fidelity Growth of Semiconductor Nanorod Arrays with Controlled Geometry for Photovoltaic Devices Using Block Copolymers
DOI:10.1002/smll.201400956 JN:SMALL PY:2014 TC:2 AU: Pelligra, Candice I.;Huang, Su;Singer, Jonathan P.;Mayo, Anthony T.;Mu, Richard R.;Osuji, Chinedum O.;
2:64:12 First principles investigations on the electronic structure of anchor groups on ZnO nanowires and surfaces
DOI:10.1063/1.4879676 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Dominguez, A.;Lorke, M.;Schoenhalz, A. L.;Rosa, A. L.;Frauenheim, Th;Rocha, A. R.;Dalpian, G. M.;
2:64:13 Effect of surface-modified zinc oxide nanowires on solution crystallization kinetics of poly(3-hexylthiophene)
DOI:10.1016/j.polymer.2014.02.048 JN:POLYMER PY:2014 TC:1 AU: Wagner, Taylor W.;Luo, Yanqi;Redeker, Neil D.;Immoos, Chad E.;Zhang, Shanju;
2:64:14 Photoelectron spectroscopic study of band alignment of polymer/ZnO photovoltaic device structure
DOI:10.1063/1.4790298 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Nagata, T.;Oh, S.;Yamashita, Y.;Yoshikawa, H.;Ikeno, N.;Kobayashi, K.;Chikyow, T.;Wakayama, Y.;
2:64:15 Two-Step Self-Assembly and Lyotropic Liquid Crystal Behavior of TiO2 Nanorods
DOI:10.1155/2012/180989 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:1 AU: Ren, Zhimin;Chen, Chao;Hu, Rong;Mai, Kaiguang;Qian, Guodong;Wang, Zhiyu;
2:64:16 Lyotropic Liquid Crystalline Self-Assembly in Dispersions of Silver Nanowires and Nanoparticles
DOI:10.1021/la101305z JN:LANGMUIR PY:2010 TC:14 AU: Murali, Shanthi;Xu, Teng;Marshall, Bennett D.;Kayatin, Matthew J.;Pizarro, Khristine;Radhakrishnan, Vinod K.;Nepal, Dhriti;Davis, Virginia A.;
2:64:17 Enhancement of Interfacial Polymer Crystallinity Using Chromism in Single Inorganic Nanowire-Polymer Nanohybrids for Photovoltaic Applications
DOI:10.1021/nl201974s JN:NANO LETTERS PY:2011 TC:13 AU: Rodd, Christopher M.;Agarwal, Ritesh;
2:64:18 Ordering in a Droplet of an Aqueous Suspension of Single-Wall Carbon Nanotubes on a Solid Substrate
DOI:10.1021/la902642f JN:LANGMUIR PY:2010 TC:20 AU: Zhang, Shanju;Li, Qingwen;Kinloch, Ian A.;Windle, Alan H.;
2:64:19 Water-processed self-assembles of monolayers as interface modifier for ZnO/P3HT hybrid solar cells
DOI:10.1016/j.matchemphys.2013.05.011 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Ruankham, Pipat;Yoshikawa, Susumu;Sagawa, Takashi;
2:64:20 Improving the performance of inorganic-organic hybrid photovoltaic devices by uniform ordering of ZnO nanorods and near-atmospheric pressure nitrogen plasma treatment
DOI:10.1063/1.4793283 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Oh, Seungjun;Nagata, Takahiro;Volk, Janos;Wakayama, Yutaka;
2:64:21 Energy level alignment of polythiophene/ZnO hybrid solar cells
DOI:10.1039/c4ta00937a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Feng, W.;Rangan, S.;Cao, Y.;Galoppini, E.;Bartynski, R. A.;Garfunkel, E.;
2:64:22 Liquid Crystalline Phase Behavior of Silica Nanorods in Dimethyl Sulfoxide and Water
DOI:10.1021/la405013h JN:LANGMUIR PY:2014 TC:3 AU: Xu, Teng;Davis, Virginia A.;
2:64:23 Controlled Orientation and Alignment in Films of Single-Walled Carbon Nanotubes Using Inkjet Printing
DOI:10.1021/la300770b JN:LANGMUIR PY:2012 TC:6 AU: Beyer, Simon T.;Walus, Konrad;
2:64:24 The Effect of Solvatochromism on the Interfacial Morphology of P3HT-CdS Nanowire Nanohybrids
DOI:10.1021/nl401700a JN:NANO LETTERS PY:2013 TC:4 AU: Rodd, Christopher M.;Agarwal, Ritesh;
2:64:25 Direct evidence of type II band alignment in ZnO nanorods/poly (3-hexylthiophene) heterostructures
DOI:10.1063/1.3676267 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Chan, M. H.;Chen, J. Y.;Lin, T. Y.;Chen, Y. F.;
2:64:26 Liquid crystalline assembly of nanocylinders
DOI:10.1557/jmr.2010.10 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:11 AU: Davis, Virginia A.;
2:64:27 Orienting Periodic Organic - Inorganic Nanoscale Domains Through One-Step Electrodeposition
DOI:10.1021/nn102697r JN:ACS NANO PY:2011 TC:5 AU: Herman, David J.;Goldberger, Joshua E.;Chao, Stephen;Martin, Daniel T.;Stupp, Samuel I.;
2:64:28 Long-Range Ordering of Highly Charged Self-Assembled Nanofilaments
DOI:10.1021/ja50825191 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Palmer, Liam C.;Leung, Cheuk-Yui;Kewalramani, Sumit;Kumthekar, Rohan;Newcomb, Christina J.;de la Cruz, Monica Olvera;Bedzyk, Michael J.;Stupp, Samuel I.;
2:64:29 Direct evidence of type II band alignment in nanoscale P3HT/CdSe heterostructures
DOI:10.1088/0957-4484/22/6/065202 JN:NANOTECHNOLOGY PY:2011 TC:2 AU: Wang, Chun Hsiung;Chen, Chih Wei;Chen, Yung Ting;Chen, Chiang Ting;Chen, Yang Fang;Chou, Shang Wei;Chen, Chia Chun;
2:64:30 Oriented Polythiophene Nanofibers Grown from CdTe Quantum Dot Surfaces
DOI:10.1002/smll.201101983 JN:SMALL PY:2012 TC:2 AU: Strong, Veronica;Uribe-Romo, Fernando J.;Battson, Micah;Kaner, Richard;
2:65:1 Efficiency and rate of spontaneous emission in organic electroluminescent devices
DOI:10.1103/PhysRevB.85.115205 JN:PHYSICAL REVIEW B PY:2012 TC:36 AU: Furno, Mauro;Meerheim, Rico;Hofmann, Simone;Luessem, Bjoern;Leo, Karl;
2:65:2 Recent Developments in Top-Emitting Organic Light-Emitting Diodes
DOI:10.1002/adma.201001167 JN:ADVANCED MATERIALS PY:2010 TC:110 AU: Chen, Shufen;Deng, Lingling;Xie, Jun;Peng, Ling;Xie, Linghai;Fan, Quli;Huang, Wei;
2:65:3 Quantification of energy loss mechanisms in organic light-emitting diodes
DOI:10.1063/1.3527936 JN:APPLIED PHYSICS LETTERS PY:2010 TC:66 AU: Meerheim, Rico;Furno, Mauro;Hofmann, Simone;Luessem, Bjoern;Leo, Karl;
2:65:4 Extremely Efficient Indium-Tin-Oxide-Free Green Phosphorescent Organic Light-Emitting Diodes
DOI:10.1002/adma.201202035 JN:ADVANCED MATERIALS PY:2012 TC:25 AU: Cai, Min;Ye, Zhuo;Xiao, Teng;Liu, Rui;Chen, Ying;Mayer, Robert W.;Biswas, Rana;Ho, Kai-Ming;Shinar, Ruth;Shinar, Joseph;
2:65:5 Highly efficient white organic light-emitting diodes based on fluorescent blue emitters
DOI:10.1063/1.3516481 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:38 AU: Rosenow, Thomas C.;Furno, Mauro;Reineke, Sebastian;Olthof, Selina;Luessem, Bjoern;Leo, Karl;
2:65:6 We Want Our Photons Back: Simple Nanostructures for White Organic Light-Emitting Diode Outcoupling
DOI:10.1002/adfm.201303401 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Kim, Yong Hyun;Lee, Jonghee;Kim, Won Mok;Fuchs, Cornelius;Hofmann, Simone;Chang, Hong-Wei;Gather, Malte C.;Mueller-Meskamp, Lars;Leo, Karl;
2:65:7 Alternative p-doped hole transport material for low operating voltage and high efficiency organic light-emitting diodes
DOI:10.1063/1.4896127 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Murawski, Caroline;Fuchs, Cornelius;Hofmann, Simone;Leo, Karl;Gather, Malte C.;
2:65:8 Nano-particle based scattering layers for optical efficiency enhancement of organic light-emitting diodes and organic solar cells
DOI:10.1063/1.4807000 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:22 AU: Chang, Hong-Wei;Lee, Jonghee;Hofmann, Simone;Kim, Yong Hyun;Mueller-Meskamp, Lars;Luessem, Bjoern;Wu, Chung-Chih;Leo, Karl;Gather, Malte C.;
2:65:9 Quantitative description of charge-carrier transport in a white organic light-emitting diode
DOI:10.1103/PhysRevB.84.165326 JN:PHYSICAL REVIEW B PY:2011 TC:14 AU: Schober, M.;Anderson, M.;Thomschke, M.;Widmer, J.;Furno, M.;Scholz, R.;Luessem, B.;Leo, K.;
2:65:10 Top-emitting organic light-emitting diodes: Influence of cavity design
DOI:10.1063/1.3530447 JN:APPLIED PHYSICS LETTERS PY:2010 TC:33 AU: Hofmann, Simone;Thomschke, Michael;Freitag, Patricia;Furno, Mauro;Luessem, Bjoern;Leo, Karl;
2:65:11 Highly Efficient White Top-Emitting Organic Light-Emitting Diodes Comprising Laminated Microlens Films
DOI:10.1021/nl203743p JN:NANO LETTERS PY:2012 TC:43 AU: Thomschke, Michael;Reineke, Sebastian;Luessem, Bjoern;Leo, Karl;
2:65:12 Improved efficiency and lifetime in small molecule organic solar cells with optimized conductive polymer electrodes
DOI:10.1063/1.3634015 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Kim, Yong Hyun;Sachse, Christoph;Hermenau, Martin;Fehse, Karsten;Riede, Moritz;Mueller-Meskamp, Lars;Leo, Karl;
2:65:13 Analysis of the external and internal quantum efficiency of multi-emitter, white organic light emitting diodes
DOI:10.1063/1.4757610 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Furno, Mauro;Rosenow, Thomas C.;Gather, Malte C.;Luessem, Bjoern;Leo, Karl;
2:65:14 Highly efficient inverted top emitting organic light emitting diodes using a transparent top electrode with color stability on viewing angle
DOI:10.1063/1.4865765 JN:APPLIED PHYSICS LETTERS PY:2014 TC:4 AU: Kim, Jung-Bum;Lee, Jeong-Hwan;Moon, Chang-Ki;Kim, Jang-Joo;
2:65:15 Achieving High Efficiency and Improved Stability in ITO-Free Transparent Organic Light-Emitting Diodes with Conductive Polymer Electrodes
DOI:10.1002/adfm.201203449 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:26 AU: Kim, Yong Hyun;Lee, Jonghee;Hofmann, Simone;Gather, Malte C.;Mueller-Meskamp, Lars;Leo, Karl;
2:65:16 Improvement of voltage and charge balance in inverted top-emitting organic electroluminescent diodes comprising doped transport layers by thermal annealing
DOI:10.1063/1.3559847 JN:APPLIED PHYSICS LETTERS PY:2011 TC:21 AU: Thomschke, Michael;Hofmann, Simone;Olthof, Selina;Anderson, Merve;Kleemann, Hans;Schober, Matthias;Luessem, Bjoern;Leo, Karl;
2:65:17 Determination of the exciton singlet-to-triplet ratio in single-layer organic light-emitting diodes
DOI:10.1103/PhysRevB.83.075203 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Carvelli, M.;Janssen, R. A. J.;Coehoorn, R.;
2:65:18 Singlet exciton diffusion length in organic light-emitting diodes
DOI:10.1103/PhysRevB.85.245209 JN:PHYSICAL REVIEW B PY:2012 TC:14 AU: Hofmann, Simone;Rosenow, Thomas C.;Gather, Malte C.;Luessem, Bjoern;Leo, Karl;
2:65:19 Highly Enhanced Light Extraction from Surface Plasmonic Loss Minimized Organic Light-Emitting Diodes
DOI:10.1002/adma.201205233 JN:ADVANCED MATERIALS PY:2013 TC:37 AU: Kim, Jung-Bum;Lee, Jeong-Hwan;Moon, Chang-Ki;Kim, Sei-Yong;Kim, Jang-Joo;
2:65:20 A plasmonically enhanced charge generation layer for tandem organic light emitting device
DOI:10.1063/1.4789979 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Yan, Fei;Sun, Xiao Wei;
2:65:21 Inverted top-emitting blue electrophosphorescent organic light-emitting diodes with high current efficacy
DOI:10.1063/1.4750141 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Knauer, K. A.;Najafabadi, E.;Haske, W.;Kippelen, B.;
2:65:22 Highly efficient inverted top-emitting green phosphorescent organic light-emitting diodes on glass and flexible substrates
DOI:10.1063/1.4736573 JN:APPLIED PHYSICS LETTERS PY:2012 TC:14 AU: Najafabadi, E.;Knauer, K. A.;Haske, W.;Fuentes-Hernandez, C.;Kippelen, B.;
2:65:23 Integrated optical model for organic light-emitting devices
DOI:10.1063/1.3576114 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:14 AU: Mladenovski, Saso;Hofmann, Simone;Reineke, Sebastian;Penninck, Lieven;Verschueren, Thomas;Neyts, Kristiaan;
2:65:24 Highly efficient bi-directional organic light-emitting diodes by strong micro-cavity effects
DOI:10.1063/1.3628292 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Lee, Jonghee;Hofmann, Simone;Thomschke, Michael;Furno, Mauro;Kim, Yong Hyun;Luessem, Bjoern;Leo, Karl;
2:65:25 Enhanced light extraction of organic light-emitting diodes using recessed anodes
DOI:10.1016/j.apsusc.2014.04.145 JN:APPLIED SURFACE SCIENCE PY:2014 TC:5 AU: Hsu, C. M.;Zeng, Y. X.;Lin, B. T.;Lin, W. M.;Wu, W. T.;
2:65:26 Effects of Charge Balance on the Carrier Trapping Mechanisms of Organic Light-Emitting Devices with a 5,6,11,12-Tetraphenylnaphthacene Emission Layer
DOI:10.1080/15421406.2013.844382 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Jang, Jae Seung;Park, Su Hyeong;Kim, Dae Hun;Kim, Tae Whan;
2:65:27 A new model for optimization of organic light-emitting device by concurrent incorporation of electrical and optical simulations
DOI:10.1063/1.4759257 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Chang, Yung-Ting;Liu, Shun-Wei;Chen, Chin-Ti;Yuan, Chih-Hsien;Liu, Li-An;Chen, Yu-San;Su, Wei-Cheng;Lee, Kuen-Lin;Wu, Chih-I;Lee, Chih-Chien;
2:65:28 Analytical estimation of emission zone mean position and width in organic light-emitting diodes from emission pattern image-source interference fringes
DOI:10.1063/1.4880737 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Epstein, Ariel;Roberts, Matthew;Tessler, Nir;Einziger, Pinchas D.;
2:65:29 Single carrier devices with electrical doped layers for the characterization of charge-carrier transport in organic thin-films
DOI:10.1063/1.3460528 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Schober, Matthias;Olthof, Selina;Furno, Mauro;Luessem, Bjoern;Leo, Karl;
2:65:30 Stacked inverted top-emitting white organic light-emitting diodes composed of orange and blue light-emitting units
DOI:10.1063/1.4829135 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Najafabadi, Ehsan;Knauer, Keith A.;Haske, Wojciech;Fuentes-Hernandez, Canek;Kippelen, Bernard;
2:65:31 Efficient organic light-emitting diodes fabricated on cellulose nanocrystal substrates
DOI:10.1063/1.4891046 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Najafabadi, E.;Zhou, Y. H.;Knauer, K. A.;Fuentes-Hernandez, C.;Kippelen, B.;
2:65:32 Spatial resolution of methods for measuring the light-emission profile in organic light-emitting diodes
DOI:10.1063/1.3656443 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Carvelli, M.;Janssen, R. A. J.;Coehoorn, R.;
2:65:33 Coupled plasmonic modes in organic planar microcavities
DOI:10.1063/1.4729820 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Furno, Mauro;Gather, Malte C.;Luessem, Bjoern;Leo, Karl;
2:65:34 Improved Photoluminescence Lifetime of Organic Emissive Materials Embedded in Organic-Inorganic Hybrid Thin Films Fabricated by Sol-Gel Method Using Tetraethoxysilane
DOI:10.1080/15421406.2014.935975 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Ohtani, Naoki;Tonoi, Masashi;
2:65:35 Efficient inverted organic light-emitting devices with self or intentionally Ag-doped interlayer modified cathode
DOI:10.1063/1.4868031 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Wenbo;Liu, Shihao;Yu, Jing;Zhang, Wei;Wen, Xuemei;Yin, Yongming;Zhang, Letian;Chen, Ping;Xie, Wenfa;
2:65:36 Efficiency and rate of spontaneous emission in organic electroluminescent devices (vol 85, 115205, 2012)
DOI:10.1103/PhysRevB.88.119905 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Furno, Mauro;Meerheim, Rico;Hofmann, Simone;Luessem, Bjoern;Leo, Karl;
2:65:37 Improved light extraction from white organic light-emitting devices using a binary random phase array
DOI:10.1063/1.4864788 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Inada, Yasuhisa;Nishiwaki, Seiji;Matsuzaki, Jumpei;Hirasawa, Taku;Nakamura, Yoshitaka;Hashiya, Akira;Wakabayashi, Shin-ichi;Suzuki, Masa-aki;
2:65:38 Preparation of indium tin oxide anodes using energy filtrating technique for top-emitting organic light-emitting diode
DOI:10.1016/j.apsusc.2013.10.082 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Wang Zhaoyong;Yao Ning;Han Changbao;Hu Xing;
2:66:1 Low temperature sintering of Ag nanoparticles for flexible electronics packaging
DOI:10.1063/1.3502604 JN:APPLIED PHYSICS LETTERS PY:2010 TC:62 AU: Hu, A.;Guo, J. Y.;Alarifi, H.;Patane, G.;Zhou, Y.;Compagnini, G.;Xu, C. X.;
2:66:2 Mechanical properties of nano-silver joints as die attach materials
DOI:10.1016/j.jallcom.2011.10.092 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:40 AU: Siow, Kim S.;
2:66:3 Silver Nanoparticle Paste for Low-Temperature Bonding of Copper
DOI:10.1007/s11664-011-1594-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:50 AU: Alarifi, Hani;Hu, Anming;Yavuz, Mustafa;Zhou, Y. Norman;
2:66:4 Preparation of PVP coated Cu NPs and the application for low-temperature bonding
DOI:10.1039/c1jm12108a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:22 AU: Yan Jianfeng;Zou Guisheng;Hu Anming;Zhou, Y. Norman;
2:66:5 Carboxylate-Passivated Silver Nanoparticles and Their Application to Sintered Interconnection: A Replacement for High Temperature Lead-Rich Solders
DOI:10.1007/s11664-010-1236-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:27 AU: Ogura, Hiroshi;Maruyama, Minoru;Matsubayashi, Ryo;Ogawa, Tetsuya;Nakamura, Shigeyoshi;Komatsu, Teruo;Nagasawa, Hiroshi;Ichimura, Akio;Isoda, Seiji;
2:66:6 A Low-Temperature Bonding Process Using Mixed Cu-Ag Nanoparticles
DOI:10.1007/s11664-010-1195-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:34 AU: Morisada, Y.;Nagaoka, T.;Fukusumi, M.;Kashiwagi, Y.;Yamamoto, M.;Nakamoto, M.;
2:66:7 Room-temperature pressureless bonding with silver nanowire paste: towards organic electronic and heat-sensitive functional devices packaging
DOI:10.1039/c2jm31979a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Peng, Peng;Hu, Anming;Huang, Hong;Gerlich, Adrian P.;Zhao, Boxin;Zhou, Y. Norman;
2:66:8 Reinforcement of Ag nanoparticle paste with nanowires for low temperature pressureless bonding
DOI:10.1007/s10853-012-6624-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:13 AU: Peng, Peng;Hu, Anming;Zhao, Boxin;Gerlich, Adrian P.;Zhou, Y. Norman;
2:66:9 Low-temperature Cu-to-Cu bonding using silver nanoparticles stabilised by saturated dodecanoic acid
DOI:10.1016/j.msea.2014.07.002 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2014 TC:1 AU: Li, Wen-Hua;Lin, Pei-Syuan;Chen, Chen-Ni;Dong, Teng-Yuan;Tsai, Chi-Hang;Kung, Wan-Ting;Song, Jenn-Ming;Chiu, Ying-Ta;Yang, Ping-Feng;
2:66:10 Are Sintered Silver Joints Ready for Use as Interconnect Material in Microelectronic Packaging?
DOI:10.1007/s11664-013-2967-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:11 AU: Siow, Kim S.;
2:66:11 Pressureless bonding process using Ag nanoparticle paste for flexible electronics packaging
DOI:10.1016/j.scriptamat.2012.01.007 JN:SCRIPTA MATERIALIA PY:2012 TC:23 AU: Yan, Jianfeng;Zou, Guisheng;Wu, Ai-ping;Ren, Jialie;Yan, Jiuchun;Hu, Anming;Zhou, Y.;
2:66:12 Pressureless Bonding by Use of Cu and Sn Mixed Nanoparticles
DOI:10.1007/s11664-014-3368-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:0 AU: Ishizaki, Toshitaka;Watanabe, Ryota;
2:66:13 A new one-pot method for the synthesis of Cu nanoparticles for low temperature bonding
DOI:10.1039/c2jm34954j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Ishizaki, Toshitaka;Watanabe, Ryota;
2:66:14 Fabrication of conductive interconnects by Ag migration in Cu-Ag core-shell nanoparticles
DOI:10.1063/1.3364132 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Kim, Suk Jun;Stach, Eric A.;Handwerker, Carol A.;
2:66:15 Microstructure evolution during 300 degrees C storage of sintered Ag nanoparticles on Ag and Au substrates
DOI:10.1016/j.jallcom.2014.08.062 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: Paknejad, S. A.;Dumas, G.;West, G.;Lewis, G.;Mannan, S. H.;
2:66:16 Enhancement of pressure-free bonding with Cu particles by the addition of Cu-Ni alloy nanoparticles
DOI:10.1039/c4tc00240g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Watanabe, Ryota;Ishizaki, Toshitaka;
2:66:17 Rapid pressureless low-temperature sintering of Ag nanoparticles for high-power density electronic packaging
DOI:10.1016/j.scriptamat.2013.08.031 JN:SCRIPTA MATERIALIA PY:2013 TC:6 AU: Wang, Shuai;Li, Mingyu;Ji, Hongjun;Wang, Chunqing;
2:66:18 Pressure-Free Bonding of Metallic Plates with Ni Affinity Layers Using Cu Nanoparticles
DOI:10.1007/s11664-013-2953-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:5 AU: Ishizaki, Toshitaka;Akedo, Kunio;Satoh, Toshikazu;Watanabe, Ryota;
2:66:19 A Low-Temperature Pressureless Bonding Process Using a Trimodal Mixture System of Ag Nanoparticles
DOI:10.1007/s11664-011-1750-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:15 AU: Morisada, Y.;Nagaoka, T.;Fukusumi, M.;Kashiwagi, Y.;Yamamoto, M.;Nakamoto, M.;Kakiuchi, H.;Yoshida, Y.;
2:66:20 Fabrication of interconnects using pressureless low temperature sintered Ag nanoparticles
DOI:10.1016/j.matlet.2012.06.089 JN:MATERIALS LETTERS PY:2012 TC:10 AU: Wang, Shuai;Ji, Hongjun;Li, Mingyu;Wang, Chunqing;
2:66:21 Bondability of Copper Joints Formed Using a Mixed Paste of Ag2O and CuO for Low-Temperature Sinter Bonding
DOI:10.2320/matertrans.MD201202 JN:MATERIALS TRANSACTIONS PY:2013 TC:3 AU: Ogura, Tomo;Yagishita, Tomohiro;Takata, Shinya;Fujimoto, Tomoyuki;Hirose, Akio;
2:66:22 Thermal transport in nanoclusters
DOI:10.1063/1.3590265 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Desai, Tapan G.;
2:66:23 An innovative method for joining materials at low temperature using silver (nano) particles derived from [AgO2C(CH2OCH2)(3)H]
DOI:10.1016/j.apsusc.2012.10.186 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Oestreicher, Annerose;Roehrich, Tobias;Wilden, Johannes;Lerch, Martin;Jakob, Alexander;Lang, Heinrich;
2:66:24 X-ray photoelectron spectroscopic study of the formation of Cu/Ni interface mediated by oxide phase
DOI:10.1016/j.jallcom.2013.08.042 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Satoh, Toshikazu;Akedo, Kunio;Ishizaki, Toshitaka;
2:66:25 Polymer-Protected Cu-Ag Mixed NPs for Low-Temperature Bonding Application
DOI:10.1007/s11664-012-2008-7 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:11 AU: Yan, Jianfeng;Zou, Guisheng;Wu, Aiping;Ren, Jialie;Hu, Anming;Zhou, Y. Norman;
2:66:26 Influence of Joining Conditions on Bonding Strength of Joints: Efficacy of Low-Temperature Bonding Using Cu Nanoparticle Paste
DOI:10.1007/s11664-013-2583-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:8 AU: Yamakawa, Tomohiro;Takemoto, Tadashi;Shimoda, Masayoshi;Nishikawa, Hiroshi;Shiokawa, Kunio;Terada, Nobuto;
2:66:27 Review on Joint Shear Strength of Nano-Silver Paste and Its Long-Term High Temperature Reliability
DOI:10.1007/s11664-014-3202-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:6 AU: Khazaka, R.;Mendizabal, L.;Henry, D.;
2:66:28 Low-current resistance spot welding of pure copper using silver oxide paste
DOI:10.1016/j.matchar2014.10.027 JN:MATERIALS CHARACTERIZATION PY:2014 TC:1 AU: Suzuki, Yuichiro;Ogura, Tomo;Takahashi, Makoto;Hirose, Akio;
2:66:29 Effect of Polyethylene Glycols with Different Polymer Chain Lengths on the Bonding Process Involving In Situ Formation of Silver Nanoparticles from Ag2O
DOI:10.2320/matertrans.MD201201 JN:MATERIALS TRANSACTIONS PY:2013 TC:3 AU: Yagishita, Tomohiro;Ogura, Tomo;Hirose, Akio;
2:66:30 Molecular Dynamics Simulation of Sintering and Surface Premelting of Silver Nanoparticles
DOI:10.2320/matertrans.MD201225 JN:MATERIALS TRANSACTIONS PY:2013 TC:6 AU: Alarifi, H. A.;Atis, M.;Ozdogan, C.;Hu, A.;Yavuz, M.;Zhou, Y.;
2:66:31 Improvement of Bondability by Depressing the Inhomogeneous Distribution of Nanoparticles in a Sintering Bonding Process with Silver Nanoparticles
DOI:10.1007/s11664-012-1965-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:7 AU: Yan, Jianfeng;Zou, Guisheng;Wu, Aiping;Ren, Jialie;Hu, Anming;Zhou, Y. Norman;
2:66:32 Pressureless sintering of nanosilver paste at low temperature to join large area (>= 100 mm(2)) power chips for electronic packaging
DOI:10.1016/j.matlet.2014.04.127 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Fu, Shancan;Mei, Yunhui;Lu, Guo-Quan;Li, Xin;Chen, Gang;Chen, Xu;
2:66:33 Effects of Au and Pd Additions on Joint Strength, Electrical Resistivity, and Ion-Migration Tolerance in Low-Temperature Sintering Bonding Using Ag2O Paste
DOI:10.1007/s11664-012-2167-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:7 AU: Ito, Takeyasu;Ogura, Tomo;Hirose, Akio;
2:66:34 Optimal design of coating material for nanoparticles and its application for low-temperature interconnection
DOI:10.1007/s11051-009-9775-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:9 AU: Tobita, Motoi;Yasuda, Yusuke;Ide, Eiichi;Ushio, Jiro;Morita, Toshiaki;
2:66:35 Interfacial Bonding Behavior between Silver Nanoparticles and Gold Substrate Using Molecular Dynamics Simulation
DOI:10.2320/matertrans.MB201201 JN:MATERIALS TRANSACTIONS PY:2012 TC:4 AU: Ogura, Tomo;Nishimura, Masumi;Tatsumi, Hiroaki;Takahara, Wataru;Hirose, Akio;
2:66:36 Metal-Metal Bonding Process Using Cu+Ag Mixed Nanoparticles
DOI:10.2320/matertrans.MD201222 JN:MATERIALS TRANSACTIONS PY:2013 TC:4 AU: Yan, Jianfeng;Zou, Guisheng;Zhang, Yingchuan;Li, Jiaxin;Liu, Lei;Wu, Aiping;Zhou, Y. Norman;
2:66:37 Shear Strength of Copper Joints Prepared by Low Temperature Sintering of Silver Nanoparticles
DOI:10.1007/s13391-013-3148-5 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:1 AU: Pesina, Zbynek;Vykoukal, Vit;Palcut, Marian;Sopousek, Jiri;
2:66:38 Solvothermal synthesis and mechanical characterization of single crystalline copper nanorings
DOI:10.1016/j.jcrysgro.2011.04.031 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:7 AU: Zhan, Yongjie;Lu, Yang;Peng, Cheng;Lou, Jun;
2:66:39 Shrinkage and Sintering Behavior of a Low-Temperature Sinterable Nanosilver Die-Attach Paste
DOI:10.1007/s11664-012-2134-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:4 AU: Wang, Tao;Zhao, Meihua;Chen, Xu;Lu, Guo-Quan;Ngo, Khai;Luo, Shufang;
2:66:40 Effects of Solvents in the Polyethylene Glycol Series on the Bonding of Copper Joints Using Ag2O Paste
DOI:10.1007/s11664-012-2354-5 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:7 AU: Takata, Shinya;Ogura, Tomo;Ide, Eiichi;Morita, Toshiaki;Hirose, Akio;
2:66:41 Mechanism of Low Temperature Sintering-Bonding through In-Situ Formation of Silver Nanoparticles Using Silver Oxide Microparticles
DOI:10.2320/matertrans.MD201231 JN:MATERIALS TRANSACTIONS PY:2013 TC:1 AU: Mu, Fengwen;Zhao, Zhenyu;Zou, Guisheng;Bai, Hailin;Wu, Aiping;Liu, Lei;Zhang, Dongyue;Zhou, Y. Norman;
2:66:42 Size-dependent structural characteristics and phonon thermal transport in silicon nanoclusters
DOI:10.1063/1.4818591 JN:AIP ADVANCES PY:2013 TC:0 AU: Li, Hai-Peng;Zhang, Rui-Qin;
2:66:43 A diffusion-viscous analysis and experimental verification of defect formation in sintered silver bond-line
DOI:10.1557/jmr.2014.42 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Xiao, Kewei;Ngo, Khai D. T.;Lu, Guo-Quan;
2:66:44 Effect of silver nanoparticles content on the various properties of nanocomposite hydrogels by in situ polymerization
DOI:10.1007/s10853-009-3896-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:11 AU: Lee, Wen-Fu;Tsao, Kai-Tai;
2:66:45 Deep crystallization induced high thermal conductivity of low-temperature sintered Ag nanoparticles
DOI:10.1016/j.matlet.2013.11.030 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Ji, Hongjun;Wang, Shuai;Li, Mingyu;Kim, Jongmyung;
2:66:46 Low-Temperature Bonding of Silver Derived from Silver-Oxide Particles to Nickel
DOI:10.2320/matertrans.M2013083 JN:MATERIALS TRANSACTIONS PY:2013 TC:2 AU: Yasuda, Yusuke;Ide, Eiichi;Morita, Toshiaki;
2:66:47 Quantitative Microstructure Characterization of Ag Nanoparticle Sintered Joints for Power Die Attachment
DOI:10.1080/15421406.2014.967647 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Wang, Yun;Li, Jianfeng;Agyakwa, Pearl;Johnson, Christopher Mark;Li, Shuguang;
2:67:1 Review paper: Recent developments in light extraction technologies of organic light emitting diodes
DOI:10.1007/s13391-011-0601-1 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:54 AU: Hong, Kihyon;Lee, Jong-Lam;
2:67:2 Light Extraction of Organic Light Emitting Diodes by Defective Hexagonal-Close-Packed Array
DOI:10.1002/adfm.201200876 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:91 AU: Koo, Won Hoe;Youn, Wooram;Zhu, Peifen;Li, Xiao-Hang;Tansu, Nelson;So, Franky;
2:67:3 Optical Outcoupling Enhancement in Organic Light-Emitting Diodes: Highly Conductive Polymer as a Low-Index Layer on Microstructured ITO Electrodes
DOI:10.1002/adma.200903375 JN:ADVANCED MATERIALS PY:2010 TC:64 AU: Koh, Tae-Wook;Choi, Jung-Min;Lee, Sunghun;Yoo, Seunghyup;
2:67:4 Surface plasmon-enhanced electroluminescence in organic light-emitting diodes incorporating Au nanoparticles
DOI:10.1063/1.3675970 JN:APPLIED PHYSICS LETTERS PY:2012 TC:31 AU: Xiao, Y.;Yang, J. P.;Cheng, P. P.;Zhu, J. J.;Xu, Z. Q.;Deng, Y. H.;Lee, S. T.;Li, Y. Q.;Tang, J. X.;
2:67:5 Enhanced fluorescence by surface plasmon coupling of Au nanoparticles in an organic electroluminescence diode
DOI:10.1063/1.3271773 JN:APPLIED PHYSICS LETTERS PY:2010 TC:57 AU: Fujiki, A.;Uemura, T.;Zettsu, N.;Akai-Kasaya, M.;Saito, A.;Kuwahara, Y.;
2:67:6 Simultaneously Enhancing Light Extraction and Device Stability of Organic Light-Emitting Diodes using a Corrugated Polymer Nanosphere Templated PEDOT:PSS Layer
DOI:10.1002/aenm.201301345 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:3 AU: Lee, Changyeon;Kang, Dong Jin;Kang, Hyunbum;Kim, Taesu;Park, Junwoo;Lee, Jaeho;Yoo, Seunghyup;Kim, Bumjoon J.;
2:67:7 Oxidized Gold Thin Films: An Effective Material for High-Performance Flexible Organic Optoelectronics
DOI:10.1002/adma.200903248 JN:ADVANCED MATERIALS PY:2010 TC:26 AU: Helander, Michael G.;Wang, Zhi-Bin;Greiner, Mark T.;Liu, Zhi-Wei;Qiu, Jacky;Lu, Zheng-Hong;
2:67:8 Enhanced efficiency of organic light-emitting devices with metallic electrodes by integrating periodically corrugated structure
DOI:10.1063/1.3680595 JN:APPLIED PHYSICS LETTERS PY:2012 TC:19 AU: Bi, Yan-Gang;Feng, Jing;Li, Yun-Fei;Jin, Yu;Liu, Yue-Feng;Chen, Qi-Dai;Sun, Hong-Bo;
2:67:9 Enhancement of hole injection and electroluminescence by ordered Ag nanodot array on indium tin oxide anode in organic light emitting diode
DOI:10.1063/1.4890135 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Jung, Mi;Yoon, Dang Mo;Kim, Miyoung;Kim, Chulki;Lee, Taikjin;Kim, Jae Hun;Lee, Seok;Lim, Si-Hyung;Woo, Deokha;
2:67:10 Efficiency enhancement of organic light-emitting devices due to the localized surface plasmonic resonant effect of Au nanoparticles embedded in ZnO nanoparticles
DOI:10.1063/1.4901176 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lee, Yong Hun;Kim, Dae Hun;Yoo, Keon-Ho;Kim, Tae Whan;
2:67:11 Gold nanoparticles modified ITO anode for enhanced PLEDs brightness and efficiency
DOI:10.1039/c3tc31237b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Wu, Xiaoyan;Liu, Linlin;Yu, Tiancheng;Yu, Lei;Xie, Zengqi;Mo, Yueqi;Xu, Shuping;Ma, Yuguang;
2:67:12 Extremely Efficient White Organic Light-Emitting Diodes for General Lighting
DOI:10.1002/adfm.201402026 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Ou, Qing-Dong;Zhou, Lei;Li, Yan-Qing;Shen, Su;Chen, Jing-De;Li, Chi;Wang, Qian-Kun;Lee, Shuit-Tong;Tang, Jian-Xin;
2:67:13 Two-Dimensional TiO2 Inverse Opal with a Closed Top Surface Structure for Enhanced Light Extraction from Polymer Light-Emitting Diodes
DOI:10.1002/adma.201004660 JN:ADVANCED MATERIALS PY:2011 TC:23 AU: Hyun, Woo Jin;Lee, Hang Ken;Oh, Sang Soon;Hess, Ortwin;Choi, Choon-Gi;Im, Sang Hyuk;Park, O. Ok;
2:67:14 Improved efficiency in polymer light-emitting diodes using metal-enhanced fluorescence
DOI:10.1063/1.4901042 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Peng, Jinghong;Xu, Xinjun;Tian, Yuan;Wang, Jinshan;Tang, Fu;Li, Lidong;
2:67:15 Phosphorescent organic light emitting diode efficiency enhancement using functionalized silver nanoparticles
DOI:10.1063/1.3640892 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Liu, Feng;Nunzi, Jean-Michel;
2:67:16 Indium-tin-oxide free transparent electrodes using a plasmon frequency conversion layer
DOI:10.1039/c2tc00049k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Koo, Bonhyeong;Kim, Sungjun;Lee, Jong-Lam;
2:67:17 Enhanced Light Out-Coupling of OLEDs with Low Haze by Inserting Randomly Dispersed Nanopillar Arrays Formed by Lateral Phase Separation of Polymer Blends
DOI:10.1002/smll.201300068 JN:SMALL PY:2013 TC:16 AU: Lee, Cholho;Kim, Jang-Joo;
2:67:18 Solving Efficiency-Stability Tradeoff in Top-Emitting Organic Light-Emitting Devices by Employing Periodically Corrugated Metallic Cathode
DOI:10.1002/adma.201103397 JN:ADVANCED MATERIALS PY:2012 TC:39 AU: Jin, Yu;Feng, Jing;Zhang, Xu-Lin;Bi, Yan-Gang;Bai, Yu;Chen, Lu;Lan, Tian;Liu, Yue-Feng;Chen, Qi-Dai;Sun, Hong-Bo;
2:67:19 Broadband Light Extraction from White Organic Light-Emitting Devices by Employing Corrugated Metallic Electrodes with Dual Periodicity
DOI:10.1002/adma.201302367 JN:ADVANCED MATERIALS PY:2013 TC:12 AU: Bi, Yan-Gang;Feng, Jing;Li, Yun-Fei;Zhang, Xu-Lin;Liu, Yue-Feng;Jin, Yu;Sun, Hong-Bo;
2:67:20 Light Extraction of Trapped Optical Modes in Polymer Light-Emitting Diodes with Nanoimprinted Double-Pattern Gratings
DOI:10.1021/am5050357 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Zhou, Lei;Jiang, Xiaochen;Li, Yanqing;Shi, Aili;Chen, Jingde;Ou, Qingdong;Liu, Haitao;Tang, Jianxin;
2:67:21 Polarization Conversion in Surface-Plasmon-Coupled Emission from Organic Light-Emitting Diodes Using Spontaneously Formed Buckles
DOI:10.1002/adma.201003357 JN:ADVANCED MATERIALS PY:2011 TC:19 AU: Koo, Won Hoe;Jeong, Soon Moon;Nishimura, Suzushi;Araoka, Fumito;Ishikawa, Ken;Toyooka, Takehiro;Takezoe, Hideo;
2:67:22 Light out-coupling enhancement of organic light-emitting devices with microlens array
DOI:10.1063/1.3521413 JN:APPLIED PHYSICS LETTERS PY:2010 TC:23 AU: Yang, J. P.;Bao, Q. Y.;Xu, Z. Q.;Li, Y. Q.;Tang, J. X.;Shen, S.;
2:67:23 Enhanced light extraction in organic light-emitting devices: Using conductive low-index layers and micropatterned indium tin oxide electrodes with optimal taper angle
DOI:10.1063/1.4724306 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Choi, Jungmin;Koh, Tae-Wook;Lee, Soohyun;Yoo, Seunghyup;
2:67:24 Ultrathin nanoclay films with tunable thickness as barrier layers in organic light emitting devices
DOI:10.1039/c2jm00047d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Kim, Jung Kyu;Park, Hyo Suk;Rhee, Do Kyung;Ham, Suk-Jin;Lee, Kwang-Jik;Yoo, Pil J.;Park, Jong Hyeok;
2:67:25 An efficient non-Lambertian organic light-emitting diode using imprinted submicron-size zinc oxide pillar arrays
DOI:10.1063/1.4791786 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Liu, S. W.;Wang, J. X.;Divayana, Y.;Dev, K.;Tan, S. T.;Demir, H. V.;Sun, X. W.;
2:67:26 An approach to achieve significantly faster luminescence decay of thin-film scintillator by surface plasmons
DOI:10.1063/1.4864634 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Bo;Zhu, Zhichao;Zhu, Jingtao;Wu, Shuang;Chen, Hong;Gu, Mu;Cheng, Qian;Chen, Hong;Cheng, Chuanwei;Wang, Zhanshan;Zhao, Yuping;Zhang, Qingli;
2:67:27 Light extraction enhancement from organic light-emitting diodes with randomly scattered surface fixture
DOI:10.1016/j.apsusc.2014.07.001 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Zhou, Dong-Ying;Shi, Xiao-Bo;Gao, Chun-Hong;Cai, Shi-Duan;Jin, Yue;Liao, Liang-Sheng;
2:67:28 Improving Light Outcoupling Efficiency for OLEDs with Microlens Array Fabricated on Transparent Substrate
DOI:10.1155/2014/289752 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Wang, Jun;Li, Weizhi;Wang, Chong;
2:67:29 Photo- and electroluminescent properties of bithiophene disubstituted 1,3,4-thiadiazoles and their application as active components in organic light emitting diodes
DOI:10.1016/j.optmat.2014.05.023 JN:OPTICAL MATERIALS PY:2014 TC:4 AU: Grykien, Remigiusz;Luszczynska, Beata;Glowacki, Ireneusz;Kurach, Ewa;Rybakiewicz, Renata;Kotwica, Kamil;Zagorska, Malgorzata;Pron, Adam;Tassini, Paolo;Maglione, Maria Grazia;Del Mauro, Anna De Girolamo;Fasolino, Tommaso;Rega, Romina;Pandolfi, Giuseppe;Minarini, Carla;Aprano, Salvatore;
2:67:30 Plasmonic Nanocavity Organic Light-Emitting Diode with Significantly Enhanced Light Extraction, Contrast, Viewing Angle, Brightness, and Low-Glare
DOI:10.1002/adfm.201400964 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Ding, Wei;Wang, Yuxuan;Chen, Hao;Chou, Stephen Y.;
2:67:31 Enhanced Light Out-Coupling of Organic Light-Emitting Diodes: Spontaneously Formed Nanofacet-Structured MgO as a Refractive Index Modulation Layer
DOI:10.1002/adma.201002028 JN:ADVANCED MATERIALS PY:2010 TC:20 AU: Hong, Kihyon;Yu, Hak Ki;Lee, Ilhwan;Kim, Kisoo;Kim, Sungjun;Lee, Jong-Lam;
2:67:32 Influence of surface oxidation on plasmon resonance in monolayer of gold and silver nanoparticles
DOI:10.1063/1.4767688 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Kuzma, Anton;Weis, Martin;Flickyngerova, Sona;Jakabovic, Jan;Satka, Alexander;Dobrocka, Edmund;Chlpik, Juraj;Cirak, Julius;Donoval, Martin;Telek, Peter;Uherek, Frantisek;Donoval, Daniel;
2:67:33 Hole injection enhancement by sparsely dispersed Au nanoparticles on indium tin oxide electrode in organic light emitting devices
DOI:10.1063/1.4776664 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Wang, D.;Yasui, K.;Ozawa, M.;Odoi, K.;Shimamura, S.;Fujita, K.;
2:67:34 Metallic Bragg-gratings for light management in organic light-emitting devices
DOI:10.1063/1.3631728 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Hauss, Julian;Bocksrocker, Tobias;Riedel, Boris;Geyer, Ulf;Lemmer, Uli;Gerken, Martina;
2:67:35 Enhancing the emission directionality of organic light-emitting diodes by using photonic microstructures
DOI:10.1063/1.4829759 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Zhang, Shuyu;Turnbull, Graham A.;Samuel, Ifor D. W.;
2:67:36 Driving characteristics of poly(N-vinylcarbazole) and 2-(4-biphenylyl)-5-(4-tert-butylphenyl)-1,3-4-oxadiazole-based polymer light emitting diodes
DOI:10.1007/s13391-013-3061-y JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:5 AU: Lee, Dae-Yeol;Lee, Myong-Hoon;Lee, Chan-Jae;Park, Sung-Kyu;
2:67:37 Comparison of light out-coupling enhancements in single-layer blue-phosphorescent organic light emitting diodes using small-molecule or polymer hosts
DOI:10.1063/1.4829677 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Chang, Yung-Ting;Liu, Shun-Wei;Yuan, Chih-Hsien;Ho, Yu-Hsuan;Chen, Kuan-Yu;Lee, Yi-Ting;Wu, Min-Fei;Lee, Chih-Chien;Wei, Pei-Kuen;Chen, Chin-Ti;Wu, Chih-I;
2:67:38 Fabrication of gold nanodot arrays on a transparent substrate as a nanobioplatform for label-free visualization of living cells
DOI:10.1088/0957-4484/22/23/235304 JN:NANOTECHNOLOGY PY:2011 TC:11 AU: Jung, Mi;El-Said, Waleed Ahmed;Choi, Jeong-Woo;
2:67:39 Suppression of damage to organic light-emitting layers during deposition of Al-doped ZnO thin films by radio-frequency magnetron sputtering
DOI:10.1016/j.tsf.2010.12.097 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Yamada, Minoru;Matsumura, Michio;Maeda, Yasuhiro;
2:67:40 Plasmon resonance properties of silver-patterned glass substrates fabricated by anodic alumina oxide templates
DOI:10.1007/s00339-012-7404-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: Chen, I-Chen;Chen, Yen-Hsun;Wang, Yu-Cian;Shih, Meng-Hong;
2:67:41 Polymer grating imbedded organic light emitting diodes with improved out-coupling efficiency
DOI:10.1063/1.3491286 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Jang, Ji-Hyang;Oh, Min-Cheol;Yoon, Tae-Hoon;Kim, Jae Chang;
2:67:42 Strong blue light emission from a-SiNx:O films via localized surface plasmon enhancement
DOI:10.1063/1.4732101 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Ma, Zhongyuan;Yan, Minyi;Jiang, Xiaofan;Yang, Huafeng;Xia, Guoyin;Ni, Xiaodong;Ling, Tao;Li, Wei;Xu, Ling;Chen, Kunji;Huang, Xinfan;Feng, Duan;
2:67:43 Improvement of light extraction efficiency and reduction of driving voltage in organic light emitting diodes using a plasmonic crystal
DOI:10.1063/1.4867259 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Okamoto, Takayuki;Shinotsuka, Kei;
2:67:44 Effect of a multiple quantum well structure as an emissive layer based on blue phosphorescent organic light-emitting diodes
DOI:10.1007/s13391-013-6024-4 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Lee, Seok Jae;Koo, Ja Ryong;Lee, Ho Won;Lee, Dong Hyung;Lee, Kum Hee;Yoon, Seung Soo;Park, Jaehoon;Kim, Young Kwan;
2:67:45 Fabrication of large-area periodic nanostructures using two-mirror laser interference lithography
DOI:10.1007/s13391-013-6035-1 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:0 AU: Kim, Jongseok;Jeong, Il Gyu;Lee, Sang Ho;Kang, Kyung Tae;Lee, Sung Ho;
2:67:46 Growth of Au nanoparticle films and the effect of nanoparticle shape on plasmon peak wavelength
DOI:10.1063/1.4876263 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Horikoshi, S.;Matsumoto, N.;Omata, Y.;Kato, T.;
2:67:47 Organic Light-Emitting Diode Outcoupling Enhancement Using Buffer Layers
DOI:10.1080/15421406.2013.849427 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Lee, Ho-Nyeon;Cho, Hyun Jun;Kim, Doo Hoon;
2:67:48 OLED Light Outcoupling Enhancement by Extracting Surface Plasmon Polariton Energy
DOI:10.1080/15421406.2014.940795 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Cho, Hyun-Jun;Lee, Ho-Nyeon;
2:67:49 Fabrication of a microball lens array for OLEDs fabricated using a monolayer microsphere template
DOI:10.1007/s13391-013-3174-3 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Kim, Hyun Soo;Kim, Chang Kyo;Jang, Ho Won;
2:67:50 Buffer layers to enhance light outcoupling for organic light-emitting diodes
DOI:10.1007/s13391-013-3183-2 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Lee, Ho-Nyeon;Cho, Hyun Jun;
2:67:51 Thin LED light module using the inclined edge and inhomogeneous pattern reflection of a light guide plate
DOI:10.1007/s13391-013-3184-1 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:0 AU: Jang, Ji-Geun;Hwang, Sun-Nam;Lim, Sungkyoo;
2:68:1 PCDTBT: en route for low cost plastic solar cells
DOI:10.1039/c3ta12420g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:38 AU: Beaupre, Serge;Leclerc, Mario;
2:68:2 Morphology control in polycarbazole based bulk heterojunction solar cells and its impact on device performance
DOI:10.1063/1.3601474 JN:APPLIED PHYSICS LETTERS PY:2011 TC:77 AU: Chu, Ta-Ya;Alem, Salima;Tsang, Sai-Wing;Tse, Shing-Chi;Wakim, Salem;Lu, Jianping;Dennler, Gilles;Waller, David;Gaudiana, Russell;Tao, Ye;
2:68:3 A Thermally Stable Semiconducting Polymer
DOI:10.1002/adma.200903420 JN:ADVANCED MATERIALS PY:2010 TC:91 AU: Cho, Shinuk;Seo, Jung Hwa;Park, Sung Heum;Beaupre, Serge;Leclerc, Mario;Heeger, Alan J.;
2:68:4 Nanomorphology of PCDTBT:PC70BM Bulk Heterojunction Solar Cells
DOI:10.1002/aenm.201100667 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:58 AU: Moon, Ji Sun;Jo, Jang;Heeger, Alan J.;
2:68:5 The Nanoscale Morphology of a PCDTBT: PCBM Photovoltaic Blend
DOI:10.1002/aenm.201100144 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:46 AU: Staniec, Paul A.;Parnell, Andrew J.;Dunbar, Alan D. F.;Yi, Hunan;Pearson, Andrew J.;Wang, Tao;Hopkinson, Paul E.;Kinane, Christy;Dalgliesh, Robert M.;Donald, Athene M.;Ryan, Anthony J.;Iraqi, Ahmed;Jones, Richard A. L.;Lidzey, David G.;
2:68:6 Constructing the nanointerpenetrating structure of PCDTBT:PC70BM bulk heterojunction solar cells induced by aggregation of PC70BM via mixed-solvent vapor annealing
DOI:10.1039/c3ta10629b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:25 AU: Liu, Jiangang;Chen, Liang;Gao, Bingrong;Cao, Xinxiu;Han, Yanchun;Xie, Zhiyuan;Wang, Lixiang;
2:68:7 Fabricating High Performance, DonorAcceptor Copolymer Solar Cells by Spray-Coating in Air
DOI:10.1002/aenm.201200713 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:19 AU: Wang, Tao;Scarratt, Nicholas W.;Yi, Hunan;Dunbar, Alan D. F.;Pearson, Andrew J.;Watters, Darren C.;Glen, Tom S.;Brook, Andrew C.;Kingsley, James;Buckley, Alastair R.;Skoda, Maximilian W. A.;Donald, Athene M.;Jones, Richard A. L.;Iraqi, Ahmed;Lidzey, David G.;
2:68:8 Impact of UV-Visible Light on the Morphological and Photochemical Behavior of a Low-Bandgap Poly(2,7-Carbazole) Derivative for Use in High-Performance Solar Cells
DOI:10.1002/aenm.201200662 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:17 AU: Tournebize, Aurelien;Bussiere, Pierre-Olivier;Wong-Wah-Chung, Pascal;Therias, Sandrine;Rivaton, Agnes;Gardette, Jean-Luc;Beaupre, Serge;Leclerc, Mario;
2:68:9 Stability comparison: A PCDTBT/PC71BM bulk-heterojunction versus a P3HT/PC71BM bulk-heterojunction
DOI:10.1016/j.solmat.2012.02.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:17 AU: Wang, Dong Hwan;Kim, Jung Kyu;Seo, Jung Hwa;Park, O. Ok;Park, Jong Hyeok;
2:68:10 How Photoinduced Crosslinking Under Operating Conditions Can Reduce PCDTBT-Based Solar Cell Efficiency and then Stabilize It
DOI:10.1002/aenm.201301530 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Tournebize, Aurelien;Rivaton, Agnes;Gardette, Jean-Luc;Lombard, Christian;Pepin-Donat, Brigitte;Beaupre, Serge;Leclerc, Mario;
2:68:11 Batch-to-Batch Variation of Polymeric Photovoltaic Materials: its Origin and Impacts on Charge Carrier Transport and Device Performances
DOI:10.1002/aenm.201400768 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:10 AU: Lee, Harrison Ka Hin;Li, Zhao;Constantinou, Iordania;So, Franky;Tsang, Sai Wing;So, Shu Kong;
2:68:12 Improvement of polycarbazole-based organic bulk-heterojunction solar cells using 1,8-diiodooctane
DOI:10.1063/1.4823582 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Liu, Zhihai;Ju, Heongkyu;Lee, Eun-Cheol;
2:68:13 Effect of blend layer thickness on the dielectric response of PCDTBT:PC71BM-based bulk heterojunction solar cells
DOI:10.1016/j.mssp.2013.11.004 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:1 AU: Dhibi, Olfa;Ltaief, Adnen;Bouazizi, Abdelaziz;
2:68:14 Performance of spray deposited poly [N-9 ''-hepta-decanyl-2,7-carbazole-alt-5, 5-(4 ',7 '-di-2-thieny1-2 ',1 ',3 '-benzothiadiazole)]/[6,6]-phenyl-C61-butyric acid methyl ester blend active layer based bulk heterojunction organic solar cell devices
DOI:10.1016/j.tsf.2011.12.022 JN:THIN SOLID FILMS PY:2012 TC:11 AU: Saitoh, Leona;Babu, R. Ramesh;Kannappan, Santhakumar;Kojima, Kenzo;Mizutani, Teruyoshi;Ochiai, Shizuyasu;
2:68:15 Elaboration of PCDTBT nanorods and nanoflowers for augmented morphological and optical properties
DOI:10.1016/j.matlet.2014.05.158 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Bakar, Nor Asmaliza;Supangat, Azzuliani;Sulaiman, Khaulah;
2:68:16 Influence of morphology of PCDTBT:PC71BM on the performance of solar cells
DOI:10.1007/s00339-013-7987-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Zhao, Ling;Zhao, Suling;Xu, Zheng;Gong, Wei;Yang, Qianqian;Fan, Xing;Xu, Xurong;
2:68:17 Fabrication and characterizations of PCDTBT: PC71BM bulk heterojunction solar cell using air brush coating method
DOI:10.1007/s10853-012-7010-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:13 AU: Kannappan, Santhakumar;Palanisamy, Kumar;Tatsugi, Jiro;Shin, Paik-Kyun;Ochiai, Shizuyasu;
2:68:18 Rationalization of donor-acceptor ratio in bulk heterojunction solar cells using lateral photocurrent studies
DOI:10.1063/1.4704654 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Mukhopadhyay, Sabyasachi;Narayan, K. S.;
2:68:19 Spatial mapping of photocurrents in organic solar cells comprising wedge-shaped absorber layers for an efficient material screening
DOI:10.1016/j.solmat.2012.04.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:16 AU: Nickel, Felix;Sprau, Christian;Klein, Michael F. G.;Kapetana, Panagiota;Christ, Nico;Liu, Xin;Klinkhammer, Soenke;Lemmer, Uli;Colsmann, Alexander;
2:68:20 Solution structure: defining polymer film morphology and optoelectronic device performance
DOI:10.1039/c3tc31812e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Wolfer, Pascal;Armin, Ardalan;Pivrikas, Almantas;Velusamy, Marappan;Burn, Paul L.;Meredith, Paul;
2:68:21 Properties of Y-Shaped PFO-DBT Nanotubes
DOI:10.1155/2014/672798 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Fakir, Muhamad Saipul;Supangat, Azzuliani;Sulaiman, Khaulah;
2:68:22 P3HT:VOPcPhO composite nanorods arrays fabricated via template-assisted method: Enhancement on the structural and optical properties
DOI:10.1016/j.matlet.2013.12.058 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Supangat, Azzuliani;Kamarundzaman, Anas;Bakar, Nor Asmaliza;Sulaiman, Khaulah;Zulfiqar, Hadi;
2:68:23 Morphological and optical properties of hierarchical tubular VOPcPhO nanoflowers
DOI:10.1016/j.matlet.2013.08.064 JN:MATERIALS LETTERS PY:2013 TC:9 AU: Kamarundzaman, Anas;Fakir, Muhamad Saipul;Supangat, Azzuliani;Sulaiman, Khaulah;Zulfiqar, Hadi;
2:68:24 Series vs parallel connected organic tandem solar cells: Cell performance and impact on the design and operation of functional modules
DOI:10.1016/j.solmat.2014.07.047 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Etxebarria, Ikerne;Furlan, Alice;Ajuria, Jon;Fecher, Frank W.;Voigt, Monika;Brabec, Christoph J.;Wienk, Martijn M.;Slooff, Lenneke;Veenstra, Sjoerd;Gilot, Jan;Pacios, Roberto;
2:68:25 Effects of Side-Chain Interdigitation on Stability: An Environmentally, Electrically, and Thermally Stable Semiconducting Polymer
DOI:10.1021/am201301u JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Choi, Danbi;Jeong, Ban-Seok;Ahn, Byungcheol;Chung, Dae Sung;Lim, Kimin;Kim, Se Hyun;Park, Seon Uk;Ree, Moonhor;Ko, Jaejung;Park, Chan Eon;
2:68:26 Relaxation and charge transport phenomena in polyaniline nanofibers: Swift heavy ion irradiation effects
DOI:10.1016/j.jnoncrysol.2012.07.033 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Banerjee, Somik;Kumar, A.;
2:68:27 Synthesis and Characterization of Indolo[3,2-b]indole Based Copolymers for Bulk Heterojunction Polymer Solar Cell
DOI:10.1080/15421406.2014.932658 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Jin, Sung-Ho;Yoo, Hyunyoung;Lee, Chikyu;Saravanan, Chinnusamy;Gal, Yeong-Soon;Lee, Jae Wook;
2:69:1 High-Performance Organic Solar Cells with Spray-Coated Hole-Transport and Active Layers
DOI:10.1002/adfm.201001562 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:80 AU: Girotto, Claudio;Moia, Davide;Rand, Barry P.;Heremans, Paul;
2:69:2 Fully spray-coated ITO-free organic solar cells for low-cost power generation
DOI:10.1016/j.solmat.2010.01.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:62 AU: Na, Seok-In;Yu, Byung-Kwan;Kim, Seok-Soon;Vak, Doojin;Kim, Tae-Soo;Yeo, Jun-Seok;Kim, Dong-Yu;
2:69:3 Multi-Source/Component Spray Coating for Polymer Solar Cells
DOI:10.1021/nn901758p JN:ACS NANO PY:2010 TC:51 AU: Chen, Li-Min;Hong, Ziruo;Kwan, Wei Lek;Lu, Cheng-Hsueh;Lai, Yi-Feng;Lei, Bao;Liu, Chuan-Pu;Yang, Yang;
2:69:4 Ultrahigh density array of CdSe nanorods for CdSe/polymer hybrid solar cells: enhancement in short-circuit current density
DOI:10.1039/c1jm11990g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Kwon, Seungchul;Shim, Myungsun;Lee, Jeung In;Lee, Tae-Woo;Cho, Kilwon;Kim, Jin Kon;
2:69:5 Fully Inkjet-Printed Organic Photodetectors with High Quantum Yield
DOI:10.1002/adma.201303473 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Azzellino, G.;Grimoldi, A.;Binda, M.;Caironi, M.;Natali, D.;Sampietro, M.;
2:69:6 Polyethylenimine Aqueous Solution: A Low-Cost and Environmentally Friendly Formulation to Produce Low-Work-Function Electrodes for Efficient Easy-to-Fabricate Organic Solar Cells
DOI:10.1021/am5077974 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Min, Xue;Jiang, Fangyuan;Qin, Fei;Li, Zaifang;Tong, Jinhui;Xiong, Sixing;Meng, Wei;Zhou, Yinhua;
2:69:7 Spray-coated organic solar cells with large-area of 12.25 cm(2)
DOI:10.1016/j.solmat.2010.10.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:33 AU: Park, Sun-Young;Kang, Yong-Jin;Lee, Seunghun;Kim, Do-Geun;Kim, Jong-Kuk;Kim, Joo Hyun;Kang, Jae-Wook;
2:69:8 Fully spray-coated inverted organic solar cells
DOI:10.1016/j.solmat.2012.04.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:24 AU: Kang, Jae-Wook;Kang, Yong-Jin;Jung, Sunghoon;Song, Myungkwan;Kim, Do-Geun;Kim, Chang Su;Kim, Soo H.;
2:69:9 Vacuum-free processed transparent inverted organic solar cells with spray-coated PEDOT:PSS anode
DOI:10.1016/j.solmat.2011.09.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:14 AU: Peh, Rui Jie;Lu, Yanru;Zhao, Fangli;Lee, Chi-Lik Ken;Kwan, Wei Lek;
2:69:10 Inverted semi-transparent organic solar cells with spray coated, surfactant free polymer top-electrodes
DOI:10.1016/j.solmat.2011.10.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:30 AU: Colsmann, Alexander;Reinhard, Manuel;Kwon, Tae-Hyuk;Kayser, Christian;Nickel, Felix;Czolk, Jens;Lemmer, Uli;Clark, Noel;Jasieniak, Jacek;Holmes, Andrew B.;Jones, David;
2:69:11 The electronic structure of C60/ZnPc interface for organic photovoltaic device with blended layer architecture
DOI:10.1063/1.3285174 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Park, S. H.;Jeong, J. G.;Kim, Hyo-Jin;Park, Seung-Han;Cho, Mann-Ho;Cho, Sang Wan;Yi, Yeonjin;Heo, Min Young;Sohn, Hyunchul;
2:69:12 Airbrush spray-coating of polymer bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2011.01.047 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:41 AU: Susanna, Gianpaolo;Salamandra, Luigi;Brown, Thomas M.;Di Carlo, Aldo;Brunetti, Francesca;Reale, Andrea;
2:69:13 Fully-Sprayed and Flexible Organic Photodiodes with Transparent Carbon Nanotube Electrodes
DOI:10.1021/am5022123 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:11 AU: Falco, Aniello;Cina, Lucio;Scarpa, Giuseppe;Lugli, Paolo;Abdellah, Alaa;
2:69:14 High performance organic photovoltaic cells with blade-coated active layers
DOI:10.1016/j.solmat.2012.06.049 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Lim, Siew-Lay;Chen, En-Chen;Chen, Chun-Yu;Ong, Kok-Haw;Chen, Zhi-Kuan;Meng, Hsin-Fei;
2:69:15 Properties of Bulk Heterojunction Organic Solar Cells with LiF Buffer Layer at Various Concentrations of Active Layer
DOI:10.1080/15421406.2014.944760 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Park, Byung Min;Chang, Ho Jung;
2:69:16 High-performance organic field-effect transistors with dielectric and active layers printed sequentially by ultrasonic spraying
DOI:10.1039/c3tc30535j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Shao, Ming;Das, Sanjib;Xiao, Kai;Chen, Jihua;Keum, Jong K.;Ivanov, Ilia N.;Gu, Gong;Durant, William;Li, Dawen;Geohegan, David B.;
2:69:17 Successive Spray Deposition of P3HT/PCBM Organic Photoactive Layers: Material Composition and Device Characteristics
DOI:10.1002/adfm.201200548 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:22 AU: Abdellah, Alaa;Virdi, Kulpreet Singh;Meier, Robert;Doeblinger, Markus;Mueller-Buschbaum, Peter;Scheu, Christina;Lugli, Paolo;Scarpa, Giuseppe;
2:69:18 Spray coated indium-tin-oxide-free organic photodiodes with PEDOT:PSS anodes
DOI:10.1063/1.4899044 JN:AIP ADVANCES PY:2014 TC:2 AU: Schmidt, Morten;Falco, Aniello;Loch, Marius;Lugli, Paolo;Scarpa, Giuseppe;
2:69:19 Investigation of Solution-Processed Ultrathin Electron Injection Layers for Organic Light-Emitting Diodes
DOI:10.1021/am500287y JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:7 AU: Stolz, Sebastian;Scherer, Michael;Mankel, Eric;Lovrincic, Robert;Schinke, Janusz;Kowalsky, Wolfgang;Jaegermann, Wolfram;Lemmer, Uli;Mechau, Norman;Hernandez-Sosa, Gerardo;
2:69:20 Thickness dependence of photovoltaic performance of additional spray coated solar cells
DOI:10.1016/j.tsf.2012.07.080 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Lee, Jae-hyeong;Sagawa, Takashi;Yoshikawa, Susumu;
2:69:21 Integration of an Organic Photodetector onto a Plastic Optical Fiber by Means of Spray Coating Technique
DOI:10.1002/adma.201301285 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: Binda, Maddalena;Natali, Dario;Iacchetti, Antonio;Sampietro, Marco;
2:69:22 Enhanced Electron Injection into Inverted Polymer Light-Emitting Diodes by Combined Solution-Processed Zinc Oxide/Polyethylenimine Inter layers
DOI:10.1002/adma.201304666 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Hoefle, Stefan;Schienle, Alexander;Bruns, Michael;Lemmer, Uli;Colsmann, Alexander;
2:69:23 Inverted Semi-transparent Polymer Solar Cells with Transparency Color Rendering Indices approaching 100
DOI:10.1002/aenm.201200532 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:12 AU: Czolk, Jens;Puetz, Andreas;Kutsarov, Dimitar;Reinhard, Manuel;Lemmer, Uli;Colsmann, Alexander;
2:69:24 Highly conductive spray deposited poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) electrodes for indium tin oxide-free small molecule organic photovoltaic devices
DOI:10.1063/1.4826651 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Unsworth, N. K.;Hancox, I.;Dearden, C. Argent;Howells, T.;Sullivan, P.;Lilley, R. S.;Sharp, J.;Jones, T. S.;
2:69:25 Effect of self-assembly supramolecules on the electrical properties of polyaniline based hole transport layer
DOI:10.1016/j.synthmet.2011.12.002 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Lim, Tae Hwan;Oh, Kyung Wha;Kim, Seong Hun;
2:69:26 High efficiency organic solar cells with spray coated active layers comprised of a low band gap conjugated polymer
DOI:10.1063/1.3687911 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Nie, Wanyi;Coffin, Robert C.;Liu, Jiwen;Li, Yuan;Peterson, Eric D.;MacNeill, Christopher M.;Noftle, Ronald E.;Carroll, David L.;
2:69:27 Spray coating fabrication of organic solar cells bypassing the limit of orthogonal solvents
DOI:10.1063/1.4807464 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Colella, Silvia;Mazzeo, Marco;Melcarne, Giovanna;Carallo, Sonia;Ciccarella, Giuseppe;Gigli, Giuseppe;
2:69:28 Effect of hybrid carbon nanotubes-bimetallic composite particles on the performance of polymer solar cells
DOI:10.1016/j.solmat.2009.12.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:6 AU: Park, Sun-Young;Kim, Whi-Dong;Kim, Do-Geun;Kim, Jong-Kuk;Jeong, Yong-Soo;Kim, Joo Hyun;Lee, Jae Keun;Kim, Soo H.;Kang, Jae-Wook;
2:69:29 Comprehensive studies of response characteristics of organic photodetectors based on rubrene and C-60
DOI:10.1063/1.4885078 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Yang, Dezhi;Xu, Kai;Zhou, Xiaokang;Wang, Yanping;Ma, Dongge;
2:69:30 Morphological image interpretation of organic nickel(II) phthalocyanine-tetrasulfonic acid tetrasodium film using fractal analysis
DOI:10.1016/j.apsusc.2014.02.081 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Kong, Y. L.;Muniandy, S. V.;Fakir, M. S.;Sulaiman, K.;
2:69:31 Incorporation of indium oxide into the growth of multiwall carbon nanostructures via a solid-liquid-solid mechanism
DOI:10.1016/j.matlet.2013.08.116 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Supangat, Azzuliani;Zulfiqar, Hadi;Kamarundzaman, Anas;
2:69:32 Feasibility test of spray-coating method for patterning of vapor phase-polymerized poly(3,4-ethylenedioxythiophene) thin film
DOI:10.1016/j.materresbull.2014.05.039 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Ma, Feng;Boo, Jin-Hyo;Sohn, Honglae;Kim, Sungsoo;
2:69:33 Improving efficiency of pentacene/C-60 based solar cells with mixed interlayers
DOI:10.1016/j.tsf.2011.01.174 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Hung, Kuang-Teng;Huang, Kuan-Ta;Hsiao, Chu-Yun;Shih, Chuan-Feng;
2:70:1 Effect of buffer layers on the performance of organic photovoltaic cells based on copper phthalocyanine and C-60
DOI:10.1016/j.solmat.2009.09.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:89 AU: Wang, Nana;Yu, Junsheng;Zang, Yue;Huang, Jiang;Jiang, Yadong;
2:70:2 Hole mobility enhancement of pentacene organic field-effect transistors using 4,4 ',4 ''-tris[3-methylphenyl(phenyl)amino] triphenylamine as a hole injection interlayer
DOI:10.1063/1.3624586 JN:APPLIED PHYSICS LETTERS PY:2011 TC:26 AU: Yu, Xinge;Yu, Junsheng;Zhou, Jianlin;Huang, Jiang;Jiang, Yadong;
2:70:3 Improvement in open circuit voltage of organic solar cells by inserting a thin phosphorescent iridium complex layer
DOI:10.1063/1.3492838 JN:APPLIED PHYSICS LETTERS PY:2010 TC:37 AU: Huang, Jiang;Yu, Junsheng;Guan, Zhiqiang;Jiang, Yadong;
2:70:4 Effect of two-step annealing on the performance of ternary polymer solar cells based on P3HT:PC71BM:SQ
DOI:10.1016/j.solmat.2014.05.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:9 AU: Wang, Hanyu;Zheng, Yifan;Zhang, Lei;Yu, Junsheng;
2:70:5 Organic solar cells with a multicharge separation structure consisting of a thin rubrene fluorescent dye for open circuit voltage enhancement
DOI:10.1063/1.3535603 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Huang, Jiang;Yu, Junsheng;Wang, Wan;Jiang, Yadong;
2:70:6 Gold(III) Corroles for High Performance Organic Solar Cells
DOI:10.1002/adfm.201400082 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Lai, Shiu-Lun;Wang, Lin;Yang, Chen;Chan, Mei-Yee;Guan, Xiangguo;Kwok, Chi-Chung;Che, Chi-Ming;
2:70:7 Novel high-performance photovoltaic D-A conjugated polymers bearing 1,2-squaraine moieties as electron-deficient units
DOI:10.1016/j.solmat.2012.06.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:4 AU: Yang, Daobin;Guang, Zhiqiang;Yang, Lin;Huang, Yan;Wei, Qingjian;Lu, Zhiyun;Yu, Junsheng;
2:70:8 Small molecule dye rubrene doped organic bulk heterojunction solar cells
DOI:10.1016/j.tsf.2013.05.074 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Guan, Zhiqiang;Wu, Ruofan;Zang, Yue;Yu, Junsheng;
2:70:9 Low roll off radiation efficiency of charge transfer state excitons based on organic photovoltaic and electroluminescent integrated device
DOI:10.1063/1.4803924 JN:APPLIED PHYSICS LETTERS PY:2013 TC:12 AU: Huang, Jiang;Qi, Yige;Wang, Hanyu;Yu, Junsheng;
2:70:10 High photoresponse inverted ultraviolet photodectectors consisting of iridium phosphor doped into poly(N-vinylcarbazole) polymeric matrix
DOI:10.1063/1.4874610 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Wang, Xiao;Huang, Jiang;Han, Shijiao;Yu, Junsheng;
2:70:11 Contact engineering for organic semiconductor devices via Fermi level depinning at the metal-organic interface
DOI:10.1103/PhysRevB.82.035311 JN:PHYSICAL REVIEW B PY:2010 TC:24 AU: Liu, Zihong;Kobayashi, Masaharu;Paul, Bipul C.;Bao, Zhenan;Nishi, Yoshio;
2:70:12 Organic photovoltaic cells based on TPBi as a cathode buffer layer
DOI:10.1016/j.solmat.2010.09.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:38 AU: Yu, Junsheng;Wang, Nana;Zang, Yue;Jiang, Yadong;
2:70:13 Effect of in situ annealing on the performance of spray coated polymer solar cells
DOI:10.1016/j.solmat.2013.01.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:21 AU: Zheng, Yifan;Wu, Ruofan;Shi, Wei;Guan, Zhiqiang;Yu, Junsheng;
2:70:14 High-efficiency white organic light-emitting devices with a non-doped yellow phosphorescent emissive layer
DOI:10.1016/j.tsf.2012.01.006 JN:THIN SOLID FILMS PY:2012 TC:13 AU: Zhao, Juan;Yu, Junsheng;Hu, Xiao;Hou, Menghan;Jiang, Yadong;
2:70:15 Organic field-effect transistors with nearly non-injection barrier from source/drain electrodes to pentacene
DOI:10.1016/j.synthmet.2012.03.012 JN:SYNTHETIC METALS PY:2012 TC:8 AU: Yu, Xinge;Yu, Junsheng;Zhou, Jianlin;Jiang, Yadong;
2:70:16 Source/drain electrodes contact effect on the stability of bottom-contact pentacene field-effect transistors
DOI:10.1063/1.4707164 JN:AIP ADVANCES PY:2012 TC:10 AU: Yu, Xinge;Yu, Junsheng;Huang, Wei;Zhang, Lin;Zeng, Hongjuan;
2:70:17 A photodiode with high rectification ratio based on well-aligned ZnO nanowire arrays and regioregular poly(3-hexylthiophene-2,5-diyl) hybrid heterojunction
DOI:10.1007/s00339-011-6756-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:17 AU: Yuan, Zhaolin;Yu, Junsheng;Ma, Wenming;Jiang, Yadong;
2:70:18 High response deep ultraviolet organic photodetector with spectrum peak focused on 280 nm
DOI:10.1063/1.3327833 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Wu, Shuang-hong;Li, Wen-lian;Chu, Bei;Lee, C. S.;Su, Zi-sheng;Wang, Jun-bo;Yan, Fei;Zhang, Guang;Hu, Zhi-zhi;Zhang, Zhi-qiang;
2:70:19 Discrepancies in performance for heterojunction organic field-effect transistors with different channel lengths
DOI:10.1116/1.4753932 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2012 TC:0 AU: Yu, Xinge;Yu, Junsheng;Huang, Wei;Han, Shijiao;
2:70:20 Improved the efficiency of small molecule organic solar cell by double anode buffer layers
DOI:10.1016/j.solmat.2011.08.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:15 AU: Huang, Chien-Jung;Ke, Jhong-Ciao;Chen, Wen-Ray;Meen, Teen-Hang;Yang, Cheng-Fu;
2:70:21 Air-stable inverted ZnO nanorod arrays/polymer hybrid solar cell
DOI:10.1016/j.synthmet.2013.09.036 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Yuan, Zhaolin;Fu, Mingxing;Huang, Wendeng;
2:70:22 Effect of organic buffer layers on the performance of n-type organic field-effect transistor based on C-60 active layer
DOI:10.1016/j.synthmet.2012.12.004 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Li, Qing;Yu, Xinge;Shi, Wei;Yu, Junsheng;
2:70:23 High performance organic integrated device with ultraviolet photodetective and electroluminescent properties consisting of a charge-transfer-featured naphthalimide derivative
DOI:10.1063/1.4893154 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Hanyu;Zhou, Jie;Wang, Xu;Lu, Zhiyun;Yu, Junsheng;
2:70:24 Influence of bias voltage and temperature on charge transfer states in organic photovoltaic and electroluminescent integrated device
DOI:10.1063/1.4876217 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Huang, Jiang;Wang, Hanyu;Qi, Yige;Yu, Junsheng;
2:70:25 Performance enhancement of organic thin-film transistors with improved copper phthalocyanine crystallization by inserting ultrathin pentacene buffer
DOI:10.1016/j.tsf.2012.06.084 JN:THIN SOLID FILMS PY:2012 TC:8 AU: Huang, Wei;Yu, Junsheng;Yu, Xinge;Li, Yu;Zeng, Hongjuan;
2:70:26 Exciton diffusion length analysis of mixed donor materials in organic solar cells by doping with phosphorescent iridium complex
DOI:10.1063/1.3514545 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:14 AU: Yu, Junsheng;Huang, Jiang;Lin, Hui;Jiang, Yadong;
2:70:27 Zinc oxide nanorod arrays hydrothermally grown on a highly conductive polymer for inverted polymer solar cells
DOI:10.1016/j.synthmet.2012.06.018 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Reinhard, Manuel;Conradt, Jonas;Braun, Marco;Colsmann, Alexander;Lemmer, Uli;Kalt, Heinz;
2:70:28 Efficient small-molecule organic solar cells incorporating a doped buffer layer
DOI:10.1016/j.tsf.2013.04.008 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Chou, Dei-Wei;Chen, Kan-Lin;Huang, Chien-Jung;Tsao, Yao-Jen;Chen, Wen-Ray;Meen, Teen-Hang;
2:70:29 Effect of 8-hydroxyquinolatolithium buffer layer on the performance of polymer photovoltaic cells
DOI:10.1016/j.tsf.2012.03.024 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Zou, Ye;Deng, Zhenbo;Yu, Lingling;Du, Hailiang;Yin, Yuehong;Zhou, Maoyang;Wang, Yongsheng;
2:70:30 Enhancement of the power conversion efficiency for organic photovoltaic cells with a Liq/bathocuproine electron transport bilayer
DOI:10.1016/j.tsf.2013.04.057 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Xu, Ke;Kim, Dae Hun;Lee, Se Han;Kim, Tae Whan;
2:70:31 Observation of hole injection boost via two parallel paths in Pentacene thin-film transistors by employing Pentacene: 4,4 ''-tris(3-methylphenylphenylamino) triphenylamine: MoO3 buffer layer
DOI:10.1063/1.4901123 JN:APL MATERIALS PY:2014 TC:1 AU: Yan, Pingrui;Liu, Ziyang;Zhang, Shiming;Liu, Dongyang;Wang, Xuehui;Yue, Shouzhen;Zhao, Yi;
2:70:32 Inkjet-Printed Organic Electrodes for Bottom-Contact Organic Field-Effect Transistors
DOI:10.1002/adfm.201001583 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:14 AU: Zhang, Jing;Zhao, Yan;Wei, Zhongming;Sun, Yimeng;He, Yudong;Di, Chong-an;Xu, Wei;Hu, Wenping;Liu, Yunqi;Zhu, Daoben;
2:70:33 Visible-blind ultraviolet sensitive photodiode with high responsivity and long term stability
DOI:10.1063/1.3463483 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Wu, Shuang-hong;Li, Wen-lian;Chu, Bei;Lee, C. S.;Su, Zi-sheng;Wang, Jun-bo;Ren, Qing-jiang;Hu, Zhi-zhi;Zhang, Zhi-qiang;
2:70:34 Low bandgap carbazole copolymers containing an electron-withdrawing side chain for solar cell applications
DOI:10.1016/j.solmat.2011.05.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Lee, Jung Feng;Hsu, Steve Lien Chung;Lee, Po I.;Chuang, Hung Yi;Yang, Ming Lun;Chen, Jen Sue;Chou, Wei Yang;
2:70:35 The effect of small-molecule electron transporting materials on the performance of polymer solar cells
DOI:10.1016/j.tsf.2011.02.049 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Du, Hailiang;Deng, Zhenbo;Lue, Zhaoyue;Chen, Zheng;Zou, Ye;Yin, Yuehong;Xu, Denghui;Wang, Yongsheng;
2:70:36 Enhancing the performance of organic thin-film transistors using an organic-doped inorganic buffer layer
DOI:10.1016/j.tsf.2013.04.009 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Su, Shui-Hsiang;Wu, Chung-Ming;Kung, Shu-Yi;Yokoyama, Meiso;
2:70:37 Adsorption of Cu phthalocyanine on Pt modified Ge(001): A scanning tunneling microscopy study
DOI:10.1103/PhysRevB.82.165306 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Saedi, Amirmehdi;Berkelaar, Robin P.;Kumar, Avijit;Poelsema, Bene;Zandvliet, Harold J. W.;
2:70:38 Electron transport across a metal-organic interface: Simulations using nonequilibrium Green's function and density functional theory
DOI:10.1103/PhysRevB.88.075317 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Stokbro, Kurt;Smidstrup, Soren;
2:70:39 High mobility organic thin-film transistors based on p-p heterojunction buffer layer
DOI:10.1063/1.4826676 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Qian, Xianrui;Wang, Tong;Yan, Donghang;
2:70:40 Effects of rubrene mixing on the electronic structures of donor/acceptor interface in organic photovoltaic device
DOI:10.1016/j.apsusc.2011.04.130 JN:APPLIED SURFACE SCIENCE PY:2011 TC:3 AU: Liu, Zengtao;Wang, Haibo;Yang, Qingdan;Ng, T. W.;Lo, M. F.;Wong, N. B.;Lee, S. T.;Lee, C. S.;
2:70:41 Effect of electron transport layer materials on the performance of copper phthalocyanine/fullerene heterojunction with function of organic solar cells
DOI:10.1016/j.jnoncrysol.2010.06.022 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:2 AU: Chou, Dei-Wei;Huang, Chien-Jung;Wang, Tsung-Chang;Chen, Wen-Ray;Meen, Teen-Han;
2:70:42 The influences of substrate temperature on ambipolar organic heterojunction transistors
DOI:10.1016/j.tsf.2010.07.068 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Gu, Wen;Li, Xifeng;Zhang, Hao;Wei, Bin;Zhang, Jianhua;Wang, Jun;
2:70:43 Luminance and charge transport mechanisms for phosphorescent organic light-emitting devices fabricated utilizing a tris(2-phenylpyridine)iridium-doped N,N '-dicarbazolyl-3,5-benzene emitting layer
DOI:10.1016/j.tsf.2011.01.170 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Choo, Dong Chul;Ko, Yo Seop;Kim, Tae Whan;Seo, Ji Hyun;Kim, Young Kwan;
2:71:1 Transfer Printing Techniques for Materials Assembly and Micro/Nanodevice Fabrication
DOI:10.1002/adma.201201386 JN:ADVANCED MATERIALS PY:2012 TC:88 AU: Carlson, Andrew;Bowen, Audrey M.;Huang, Yonggang;Nuzzo, Ralph G.;Rogers, John A.;
2:71:2 High-Efficiency, Microscale GaN Light-Emitting Diodes and Their Thermal Properties on Unusual Substrates
DOI:10.1002/smll.201200382 JN:SMALL PY:2012 TC:38 AU: Kim, Tae-il;Jung, Yei Hwan;Song, Jizhou;Kim, Daegon;Li, Yuhang;Kim, Hoon-sik;Song, Il-Sun;Wierer, Jonathan J.;Pao, Hsuan An;Huang, Yonggang;Rogers, John A.;
2:71:3 Interfacial Thermal Conductance of Transfer-Printed Metal Films
DOI:10.1002/adma.201102994 JN:ADVANCED MATERIALS PY:2011 TC:17 AU: Oh, Dong-Wook;Kim, Seok;Rogers, John A.;Cahill, David G.;Sinha, Sanjiv;
2:71:4 Arrays of Silicon Micro/Nanostructures Formed in Suspended Configurations for Deterministic Assembly Using Flat and Roller-Type Stamps
DOI:10.1002/smll.201001633 JN:SMALL PY:2011 TC:31 AU: Yang, Yumi;Hwang, Youngkyu;Cho, Hyun A.;Song, Jung-Hoon;Park, Seong-Ju;Rogers, John A.;Ko, Heung Cho;
2:71:5 Water-resistant flexible GaN LED on a liquid crystal polymer substrate for implantable biomedical applications
DOI:10.1016/j.nanoen.2011.07.001 JN:NANO ENERGY PY:2012 TC:31 AU: Lee, Sang Yong;Park, Kwi-Il;Huh, Chul;Koo, Min;Yoo, Hyeon Gyun;Kim, Seungjun;Ah, Chil Seong;Sung, Gun Yong;Lee, Keon Jae;
2:71:6 Ultrathin Sticker-Type ZnO Thin Film Transistors Formed by Transfer Printing via Topological Confinement of Water-Soluble Sacrificial Polymer in Dimple Structure
DOI:10.1002/adfm.201202409 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:8 AU: Kim, Suk Ho;Yoon, Jongwon;Yun, Su Ok;Hwang, Youngkyu;Jang, Hun Soo;Ko, Heung Cho;
2:71:7 Transfer Printing Methods for Flexible Thin Film Solar Cells: Basic Concepts and Working Principles
DOI:10.1021/nn5037587 JN:ACS NANO PY:2014 TC:6 AU: Lee, Chi Hwan;Kim, Dong Rip;Zheng, Xiaolin;
2:71:8 Nanotransfer Molding of Free-Standing Nanowire and Porous Nanomembranes Suspended on Microtrenches
DOI:10.1021/am302493x JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:0 AU: Choi, Dae-Geun;Lee, Ki-Joong;Kim, Jung Yup;
2:71:9 Shear-enhanced adhesiveless transfer printing for use in deterministic materials assembly
DOI:10.1063/1.3605558 JN:APPLIED PHYSICS LETTERS PY:2011 TC:25 AU: Carlson, Andrew;Kim-Lee, Hyun-Joon;Wu, Jian;Elvikis, Paulius;Cheng, Huanyu;Kovalsky, Anton;Elgan, Steven;Yu, Qingmin;Ferreira, Placid M.;Huang, Yonggang;Turner, Kevin T.;Rogers, John A.;
2:71:10 Fabrication of Nanowire Electronics on Nonconventional Substrates by Water-Assisted Transfer Printing Method
DOI:10.1021/nl201901z JN:NANO LETTERS PY:2011 TC:21 AU: Lee, Chi Hwan;Kim, Dong Rip;Zheng, Xiaolin;
2:71:11 Contact-Printed Microelectromechanical Systems
DOI:10.1002/adma.200903034 JN:ADVANCED MATERIALS PY:2010 TC:18 AU: Packard, Corinne E.;Murarka, Apoorva;Lam, Eric W.;Schmidt, Martin A.;Bulovic, Vladimir;
2:71:12 Sticker-Type Alq(3)-Based OLEDs Based on Printable Ultrathin Substrates in Periodically Anchored and Suspended Configurations
DOI:10.1002/adma201302503 JN:ADVANCED MATERIALS PY:2013 TC:3 AU: Yun, Su Ok;Hwang, Youngkyu;Park, Jeongpil;Jeong, Yunkyung;Kim, Suk Ho;Noh, Byeong Il;Jung, Hoon Sun;Jang, Hun Soo;Hyun, Yujun;Choa, Sung-Hoon;Ko, Heung Cho;
2:71:13 Thermo-mechanical modeling of laser-driven non-contact transfer printing: two-dimensional analysis (vol 8, pg 7122, 2012)
DOI:10.1039/c2sm25339a JN:SOFT MATTER PY:2012 TC:0 AU: Li, Rui;Li, Yuhang;Lu, Chaofeng;Song, Jizhou;Saeidpouraza, Reza;Fang, Bo;Zhong, Yang;Ferreira, Placid M.;Rogers, John A.;Huang, Yonggang;
2:71:14 Detachment Lithography of Photosensitive Polymers: A Route to Fabricating Three-Dimensional Structures
DOI:10.1002/adfm.200900686 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:21 AU: Yeom, Junghoon;Shannon, Mark A.;
2:71:15 Temperature- and size-dependent characteristics in ultrathin inorganic light-emitting diodes assembled by transfer printing
DOI:10.1063/1.4863856 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Tae-il;Lee, Soo Hyun;Li, Yuhang;Shi, Yan;Shin, Gunchul;Lee, Sung Dan;Huang, Yonggang;Rogers, John A.;Yu, Jae Su;
2:71:16 Thin Film Receiver Materials for Deterministic Assembly by Transfer Printing
DOI:10.1021/cm501002b JN:CHEMISTRY OF MATERIALS PY:2014 TC:6 AU: Kim, Tae-il;Kim, Mo Joon;Jung, Yei Hwan;Jang, Hyejin;Dagdeviren, Canan;Pao, Hsuan An;Cho, Sang June;Carlson, Andrew;Yu, Ki Jun;Ameen, Abid;Chung, Hyun-joong;Jin, Sung Hun;Ma, Zhenqiang;Rogers, John A.;
2:71:17 Imbricate Scales as a Design Construct for Microsystem Technologies
DOI:10.1002/smll.201101832 JN:SMALL PY:2012 TC:8 AU: Kim, Seok;Su, Yewang;Mihi, Agustin;Lee, Seungwoo;Liu, Zhuangjian;Bhandakkar, Tanmay K.;Wu, Jian;Geddes, Joseph B., III;Johnson, Harley T.;Zhang, Yongwei;Park, Jung-Ki;Braun, Paul V.;Huang, Yonggang;Rogers, John A.;
2:71:18 Controllable self-organization of colloid microarrays based on finite length effects of electrospun ribbons
DOI:10.1039/c2sm25535a JN:SOFT MATTER PY:2012 TC:18 AU: Huang, YongAn;Wang, Xiaomei;Duan, Yongqing;Bu, Ningbin;Yin, Zhouping;
2:71:19 Enhanced adhesion with pedestal-shaped elastomeric stamps for transfer printing
DOI:10.1063/1.4706257 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Kim, Seok;Carlson, Andrew;Cheng, Huanyu;Lee, Seungwoo;Park, Jung-Ki;Huang, Yonggang;Rogers, John A.;
2:71:20 Electrical Contact at the Interface between Silicon and Transfer-Printed Gold Films by Eutectic Joining
DOI:10.1021/am4021236 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Keum, Hohyun;Chung, Hyun-Joong;Kim, Seok;
2:71:21 Vertically Stacked Color Tunable Light-Emitting Diodes Fabricated Using Wafer Bonding and Transfer Printing
DOI:10.1021/am505415q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Chun, Jaeyi;Lee, Kwang Jae;Leem, Young-Chul;Kang, Won-Mo;Jeong, Tak;Baek, Jong Hyeob;Lee, Hyung Joo;Kim, Bong-Joong;Park, Seong-Ju;
2:71:22 Printable ultrathin substrates formed on a concave-convex underlayer for highly flexible membrane-type electrode stickers
DOI:10.1039/c2sm25637a JN:SOFT MATTER PY:2012 TC:3 AU: Hwang, Youngkyu;Cho, Hyun A.;Kim, Suk Ho;Jang, Hun Soo;Hyun, Yujun;Chun, Jae-Yi;Park, Seong-Ju;Ko, Heung Cho;
2:71:23 An analytical mechanics model for the island-bridge structure of stretchable electronics
DOI:10.1039/c3sm51476e JN:SOFT MATTER PY:2013 TC:5 AU: Li, Rui;Li, Ming;Su, Yewang;Song, Jizhou;Ni, Xiaoqin;
2:71:24 GaN-based light-emitting diodes on origami substrates
DOI:10.1063/1.4726123 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Jung, Younghun;Wang, Xiaotie;Kim, Jiwan;Kim, Sung Hyun;Ren, Fan;Pearton, Stephen J.;Kim, Jihyun;
2:71:25 Transfer printing and patterning of stretchable electrospun film
DOI:10.1016/j.tsf.2013.03.132 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Duan, Yongqing;Huang, YongAn;Yin, Zhouping;
2:71:26 An analytical model of strain isolation for stretchable and flexible electronics
DOI:10.1063/1.3553020 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Cheng, H.;Wu, J.;Li, M.;Kim, D. -H.;Kim, Y. -S.;Huang, Y.;Kang, Z.;Hwang, K. C.;Rogers, J. A.;
2:71:27 Laser lift-off transfer printing of patterned GaN light-emitting diodes from sapphire to flexible substrates using a Cr/Au laser blocking layer
DOI:10.1016/j.scriptamat.2014.01.005 JN:SCRIPTA MATERIALIA PY:2014 TC:3 AU: Chun, Jaeyi;Hwang, Youngkyu;Choi, Yong-Seok;Kim, Jae-Joon;Jeong, Talc;Baek, Jong Hyeob;Ko, Heung Cho;Park, Seong-Ju;
2:71:28 Active, Programmable Elastomeric Surfaces with Tunable Adhesion for Deterministic Assembly by Transfer Printing
DOI:10.1002/adfm.201201023 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:13 AU: Carlson, Andrew;Wang, Shuodao;Elvikis, Paulius;Ferreira, Placid M.;Huang, Yonggang;Rogers, John A.;
2:71:29 Thermal properties of microscale inorganic light-emitting diodes in a pulsed operation
DOI:10.1063/1.4800858 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Li, Yuhang;Shi, Yan;Song, Jizhou;Lu, Chaofeng;Kim, Tae-il;Rogers, John A.;Huang, Yonggang;
2:71:30 Area of contact and thermal transport across transfer-printed metal-dielectric interfaces
DOI:10.1063/1.4773532 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Seong, M.;Singh, P. K.;Sinha, S.;
2:71:31 Interface mechanics of adhesiveless microtransfer printing processes
DOI:10.1063/1.4870873 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Kim-Lee, H. -J.;Carlson, A.;Grierson, D. S.;Rogers, J. A.;Turner, K. T.;
2:71:32 Flexible organic light-emitting diodes using a laser lift-off method
DOI:10.1039/c3tc30848k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Kim, Kisoo;Kim, Soo Young;Lee, Jong-Lam;
2:71:33 Mechanics of reversible adhesion
DOI:10.1039/c1sm05915g JN:SOFT MATTER PY:2011 TC:10 AU: Wu, Jian;Kim, Seok;Chen, Weiqiu;Carlson, Andrew;Hwang, Keh-Chih;Huang, Yonggang;Rogers, John A.;
2:71:34 Analysis of interfacial peeling in IC chip pick-up process
DOI:10.1063/1.3642975 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Peng, Bo;Huang, YongAn;Yin, ZhouPing;Xiong, YouLun;
2:71:35 Nano-fabrication with a flexible array of nano-apertures
DOI:10.1088/0957-4484/23/17/175303 JN:NANOTECHNOLOGY PY:2012 TC:7 AU: Hu, Huan;Yeom, Junghoon;Mensing, Glennys;Chen, Yaofeng;Shannon, Mark A.;King, William P.;
2:72:1 Current transport mechanism of heterojunction diodes based on the reduced graphene oxide-based polymer composite and n-type Si
DOI:10.1063/1.3703612 JN:APPLIED PHYSICS LETTERS PY:2012 TC:20 AU: Lin, Jian-Huang;Zeng, Jian-Jhou;Su, Yu-Chao;Lin, Yow-Jon;
2:72:2 Graphene doping of P3HT:PCBM photovoltaic devices
DOI:10.1016/j.synthmet.2010.02.022 JN:SYNTHETIC METALS PY:2010 TC:47 AU: Liu, Zhiyong;He, Dawei;Wang, Yongsheng;Wu, Hongpeng;Wang, Jigang;
2:72:3 Preparation and characteristics of hybrid ZnO-polymer solar cells
DOI:10.1007/s10853-010-4336-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:38 AU: Ji, L. W.;Shih, W. S.;Fang, T. H.;Wu, C. Z.;Peng, S. M.;Meen, T. H.;
2:72:4 Current transport mechanism of heterojunction diodes based on the sol-gel p-type ZnO and n-type Si with H2O2 treatment
DOI:10.1016/j.matchemphys.2012.06.049 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:12 AU: He, Guan-Ru;Lin, Yow-Jon;
2:72:5 Photocurrent stability and responsivity in the n-type Si/ZnO-doped conducting polymer photovoltaic device
DOI:10.1016/j.synthmet.2011.12.029 JN:SYNTHETIC METALS PY:2012 TC:16 AU: Lin, Yow-Jon;Su, Ting-Hong;Lin, Jung-Chung;Su, Yu-Chao;
2:72:6 Tailored Highly Transparent Composite Hole-Injection Layer Consisting of Pedot:PSS and SiO2 Nanoparticles for Efficient Polymer Light-Emitting Diodes
DOI:10.1002/adma.201003490 JN:ADVANCED MATERIALS PY:2011 TC:23 AU: Riedel, Boris;Shen, Yuxin;Hauss, Julian;Aichholz, Markus;Tang, Xiaochen;Lemmer, Uli;Gerken, Martina;
2:72:7 Modification of the electrical properties of poly(3,4-ethylenedioxythiophene) doped with poly(4-styrenesulfonate) upon doping of ZnO nanoparticles of different content
DOI:10.1063/1.3702446 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:23 AU: Lin, Yow-Jon;Su, Yu-Chao;
2:72:8 Effects of H2O2 treatment on the optical and structural properties of ZnO nanorods and the electrical properties of conductive polymer/ZnO-nanorod array diodes
DOI:10.1016/j.tsf.2013.08.063 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Yang, Shih-Hung;Lin, Yow-Jon;Chang, Hsing-Cheng;Chen, Ya-Hui;
2:72:9 Carrier transport and photoresponse for heterojunction diodes based on the reduced graphene oxide-based TiO2 composite and p-type Si
DOI:10.1007/s00339-013-8166-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Lin, Yow-Jon;Yang, Shih-Hung;
2:72:10 Carrier transport mechanism of poly(3,4-ethylenedioxythiophene) doped with poly(4-styrenesulfonate) films by incorporating ZnO nanoparticles
DOI:10.1063/1.4730391 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Lin, Yow-Jon;Tsai, Cheng-Lung;Su, Yu-Chao;Liu, Day-Shan;
2:72:11 Enhancement of photocurrent of poly(3-hexylthiophene)/n-type Si diodes by incorporating the reduced graphene oxide sheets
DOI:10.1063/1.4826559 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Lin, Yow-Jon;Chin, Yi-Min;
2:72:12 Effects of Na content on the luminescence behavior, conduction type, and crystal structure of Na-doped ZnO films
DOI:10.1063/1.3603033 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:21 AU: Lai, Jian-Jhong;Lin, Yow-Jon;Chen, Ya-Hui;Chang, Hsing-Cheng;Liu, Chia-Jyi;Zou, Yi-Yan;Shih, Yu-Tai;Wang, Meng-Chieh;
2:72:13 Hybrid diodes based on n-type Ge and conductive polymer doped by graphene oxide sheets with and without reduction treatment
DOI:10.1063/1.4790889 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Zeng, Jian-Jhou;Lin, Yow-Jon;
2:72:14 Hybrid photovoltaic devices based on the reduced graphene oxide-based polymer composite and n-type GaAs
DOI:10.1016/j.synthmet.2012.06.010 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Zeng, Jian-Jhou;Tsai, Cheng-Lung;Lin, Yow-Jon;
2:72:15 Defects, stress and abnormal shift of the (002) diffraction peak for Li-doped ZnO films
DOI:10.1016/j.apsusc.2010.06.016 JN:APPLIED SURFACE SCIENCE PY:2010 TC:23 AU: Lin, Yow-Jon;Wang, Mu-Shan;Liu, Chia-Jyi;Huang, Hsueh-Jung;
2:72:16 Dependence of photocurrent of poly(3-hexylthiophene)/n-type Si diodes upon incorporation of ZnO nanoparticles
DOI:10.1016/j.tsf.2013.10.169 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Lin, Yow-Jon;Chin, Yi-Min;Tsao, Hou-Yen;
2:72:17 Effects of H2O2 treatment on the optoelectronic property of poly(3-hexylthiophene) doped with the reduced graphene oxide sheets/Si-nanowire arrays/n-type Si diodes
DOI:10.1016/j.matchemphys.2014.02.007 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:4 AU: Chin, Yi-Min;Lin, Yow-Jon;
2:72:18 Preparation and characterization of electromagnetic polyaniline/nickel plating graphite nanosheets composites through ultrasonic irradiation
DOI:10.1016/j.synthmet.2011.08.002 JN:SYNTHETIC METALS PY:2011 TC:12 AU: Wu, Xinming;Qi, Shuhua;Duan, Guocheng;
2:72:19 Doping mechanism in poly(3,4-ethylenedioxythiophene) doped with poly(4-styrenesulfonate): TiO2 nanoparticles composite films
DOI:10.1016/j.tsf.2013.05.101 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Jhang, Wun-Hao;Lin, Yow-Jon;Ruan, Cheng-He;Liu, Day-Shan;
2:72:20 Effects of ultraviolet treatment on the photovoltaic property of poly(3,4-ethylenedioxythiophene) doped with poly(4-styrenesulfonate)/n-type Si diodes
DOI:10.1016/j.solmat.2010.07.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:16 AU: Chin, Yi-Min;Lin, Jung-Chung;Lin, Yow-Jon;Wu, Kuo-Chen;
2:72:21 Enhancement of the carrier mobility of poly(3,4-ethylenedioxythiophene) doped with poly(4-styrenesulfonate) by incorporating reduced graphene oxide
DOI:10.1063/1.4740073 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Lin, Vow-Jon;Zeng, Jian-Jhou;Tsai, Cheng-Lung;
2:72:22 Correlation between the electron-phonon coupling and rectifying performance for poly(3-hexylthiophene)/n-type Si devices
DOI:10.1063/1.4901286 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Lin, Yow-Jon;Chin, Yi-Min;
2:72:23 Effects of interface modification by H2O2 treatment on the electrical properties of n-type ZnO/p-type Si diodes
DOI:10.1016/j.tsf.2012.10.056 JN:THIN SOLID FILMS PY:2012 TC:6 AU: He, Guan-Ru;Lin, Yow-Jon;Chang, Hsing-Cheng;Chen, Ya-Hui;
2:72:24 Effects of Li content on the structural, optical, and electrical properties of LiZnMgO films
DOI:10.1063/1.3448036 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Tsai, Chia-Lung;Wang, Mu-Shan;Chen, Ya-Hui;Chang, Hsing-Cheng;Liu, Chia-Jyi;Lee, Ching-Ting;Shih, Yu-Tai;Huang, Hsueh-Jung;Lin, Yow-Jon;
2:72:25 Enhancement of carrier mobility in poly(3-hexylthiophene) by incorporating ZnO nanoparticles
DOI:10.1016/j.tsf.2013.09.066 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Chin, Yi-Min;Lin, Yow-Jon;Liu, Day-Shan;
2:72:26 Hybrid solar cell based on P3HT-ZnO nanoparticle blend in the inverted device configuration
DOI:10.1016/j.solmat.2011.03.047 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:20 AU: Bhat, S. Venkataprasad;Govindaraj, A.;Rao, C. N. R.;
2:72:27 Growth and characteristics of ZnO nano-aggregates electrodeposited onto p-Si(111)
DOI:10.1016/j.apsusc.2010.07.045 JN:APPLIED SURFACE SCIENCE PY:2010 TC:7 AU: Messai, Z.;Ouennoughi, Z.;Devers, T.;Mouet, T.;Harel, V.;Konstantinov, K.;Bouguechal, N.;
2:72:28 Electron-phonon coupling modification and carrier mobility enhancement in poly(3,4-ethylenedioxythiophene) doped with poly(4-styrenesulfonate) films by ultraviolet irradiation
DOI:10.1063/1.4894836 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Lin, Yow-Jon;Chin, Yi-Min;Wu, Cheng-You;Liu, Day-Shan;
2:72:29 Investigations of the polymer alignment, the nonradiative resonant energy transfer, and the photovoltaic response of poly(3-hexylthiophene)/TiO(2) hybrid solar cells
DOI:10.1063/1.3459889 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Park, Young Ran;Lee, You-Jin;Yu, Chang-Jae;Kim, Jae-Hoon;
2:72:30 Barrier Inhomogeneity and Electrical Properties of InN Nanodots/Si Heterojunction Diodes
DOI:10.1155/2011/189731 JN:JOURNAL OF NANOMATERIALS PY:2011 TC:4 AU: Kumar, Mahesh;Roul, Basanta;Bhat, Thirumaleshwara N.;Rajpalke, Mohana K.;Kalghatgi, A. T.;Krupanidhi, S. B.;
2:72:31 Violation of the Wiedemann-Franz law in quasi-one-dimensional organic crystals
DOI:10.1103/PhysRevB.81.155415 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Casian, Anatolie;
2:72:32 Defects, stress and abnormal shift of the (0 0 2) diffraction peak for Li-doped ZnO films (vol 256, pg 7623, 2010)
DOI:10.1016/j.apsusc.2012.04.092 JN:APPLIED SURFACE SCIENCE PY:2012 TC:0 AU: Lin, Yow-Jon;Wang, Mu-Shan;Liu, Chia-Jyi;Huang, Hsueh-Jung;
2:72:33 Effects of Li content on the structural, optical, and electrical properties of LiZnMgO films (vol 107, 113717, 2010)
DOI:10.1063/1.4719975 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Tsai, Chia-Lung;Wang, Mu-Shan;Chen, Ya-Hui;Chang, Hsing-Cheng;Liu, Chia-Jyi;Lee, Ching-Ting;Shih, Yu-Tai;Huang, Hsueh-Jung;Lin, Yow-Jon;
2:73:1 High Performance Nanocrystals of a Donor-Acceptor Conjugated Polymer
DOI:10.1021/cm4011579 JN:CHEMISTRY OF MATERIALS PY:2013 TC:20 AU: Liu, Yao;Dong, Huanli;Jiang, Shidong;Zhao, Guangyao;Shi, Qinqin;Tan, Jiahui;Jiang, Lang;Hu, Wenping;Zhan, Xiaowei;
2:73:2 High-Performance Phototransistors Based on Organic Microribbons Prepared by a Solution Self-Assembly Process
DOI:10.1002/adfm.200901662 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:47 AU: Guo, Yunlong;Du, Chunyan;Yu, Gui;Di, Chong-an;Jiang, Shidong;Xi, Hongxia;Zheng, Jian;Yan, Shouke;Yu, Cailan;Hu, Wenping;Liu, Yunqi;
2:73:3 An organic microcrystal array-embedded layer: highly directional alternating p- and n-channels for ambipolar transistors and inverters
DOI:10.1039/c4tc00042k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Jea, Minkyung;Kumar, Amit;Cho, Hyejin;Yang, Dongmyung;Shim, Hyunseok;Palai, Akshaya K.;Pyo, Seungmoon;
2:73:4 Inkjet Printing Short-Channel Polymer Transistors with High-Performance and Ultrahigh Photoresponsivity
DOI:10.1002/adma.201400697 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Wang, Hanlin;Cheng, Cheng;Zhang, Lei;Liu, Hongtao;Zhao, Yan;Guo, Yunlong;Hu, Wenping;Yu, Gui;Liu, Yunqi;
2:73:5 Highly Photosensitive J-Aggregated Single-Crystalline Organic Transistors
DOI:10.1002/adma.201100944 JN:ADVANCED MATERIALS PY:2011 TC:43 AU: Kim, Kyung Hwan;Bae, Suk Young;Kim, Youn Sun;Hur, Jung A.;Hoang, Mai Ha;Lee, Tae Wan;Cho, Min Ju;Kim, Youngmee;Kim, Minsik;Jin, Jung-Il;Kim, Sung-Jin;Lee, Kwangyeol;Lee, Suk Joong;Choi, Dong Hoon;
2:73:6 Tuning the Photoresponse in Organic Field-Effect Transistors
DOI:10.1021/ja211515b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:23 AU: El Gemayel, Mirella;Treier, Matthias;Musumeci, Chiara;Li, Chen;Muellen, Klaus;Samori, Paolo;
2:73:7 High-Performance Phototransistors Based on Single-Crystalline n-Channel Organic Nanowires and Photogenerated Charge-Carrier Behaviors
DOI:10.1002/adfm.201201848 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:34 AU: Yu, Hojeong;Bao, Zhenan;Oh, Joon Hak;
2:73:8 Unusually High-Performing Organic Field-Effect Transistors Based on p-Extended Semiconducting Porphyrins
DOI:10.1002/adma.201202148 JN:ADVANCED MATERIALS PY:2012 TC:20 AU: Mai Ha Hoang;Kim, Youngmee;Kim, Minsik;Kim, Kyung Hwan;Lee, Tae Wan;Duc Nghia Nguyen;Kim, Sung-Jin;Lee, Kwangyeol;Lee, Suk Joong;Choi, Dong Hoon;
2:73:9 Control over Multifunctionality in Optoelectronic Device Based on Organic Phototransistor
DOI:10.1021/am100127q JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:24 AU: Mukherjee, Biswanath;Mukherjee, Moumita;Choi, Youngill;Pyo, Seungmoon;
2:73:10 Multifunctional Organic Phototransistor-based Nonvolatile Memory Achieved by UV/Ozone Treatment of the Ta2O5 Gate Dielectric
DOI:10.1021/am501197d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Liu, Xiaohui;Zhao, Haoyan;Dong, Guifang;Duan, Lian;Li, Dong;Wang, Liduo;Qiu, Yong;
2:73:11 Copolymers of benzo[1,2-b:4,5-b ']dithiophene and bithiazole for high-performance thin film phototransistors
DOI:10.1039/c4tc01682c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Liu, Yao;Shi, Qinqin;Ma, Lanchao;Dong, Huanli;Tan, Jiahui;Hu, Wenping;Zhan, Xiaowei;
2:73:12 High-performance n-type organic thin-film phototransistors based on a core-expanded naphthalene diimide
DOI:10.1063/1.4817267 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Qi, Zhe;Liao, Xiaxia;Zheng, Jincheng;Di, Chong-an;Gao, Xike;Wang, Jizheng;
2:73:13 High performance phototransistors based on single crystalline perylene-tetracarboxylic-dianhydride nanoparticle
DOI:10.1063/1.4827975 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Linh-Nam Nguyen;Pradhan, Sunil Kumar;Yen, Chia-Nan;Lin, Ming-Chou;Chen, Chien-Han;Wu, Cen-Shawn;Chang-Liao, Kuei-Shu;Lin, Minn-Tsong;Chen, Chii-Dong;
2:73:14 Organic phototransistors based on solution grown, ordered single crystalline arrays of a pi-conjugated molecule
DOI:10.1039/c2jm14179e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:25 AU: Mukherjee, Biswanath;Sim, Kyoseung;Shin, Tae Joo;Lee, Junghyun;Mukherjee, Moumita;Ree, Moonhor;Pyo, Seungmoon;
2:73:15 Light sensing in photosensitive, flexible n-type organic thin-film transistors
DOI:10.1039/c3tc31966k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Chou, Wei-Yang;Lin, Yi-Sheng;Kuo, Ling-Ling;Liu, Shyh-Jiun;Cheng, Horng-Long;Tang, Fu-Ching;
2:73:16 High performance organic phototransistor based on regioregular poly(3-hexylthiophene)
DOI:10.1088/0957-4484/21/32/325201 JN:NANOTECHNOLOGY PY:2010 TC:37 AU: Pal, Tanusri;Arif, M.;Khondaker, Saiful I.;
2:73:17 Device physics of highly sensitive thin film polyfluorene copolymer organic phototransistors
DOI:10.1063/1.3273332 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:24 AU: Wang, Xuhua;Wasapinyokul, Kamol;De Tan, Wei;Rawcliffe, Ruth;Campbell, Alasdair J.;Bradley, Donal D. C.;
2:73:18 Solution processed, aligned arrays of TCNQ micro crystals for low-voltage organic phototransistor
DOI:10.1039/c0jm02513e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Mukherjee, Biswanath;Mukherjee, Moumita;Sim, Kyoseung;Pyo, Seungmoon;
2:73:19 High Performance Photoswitches Based on Flexible and Amorphous D-A Polymer Nanowires
DOI:10.1002/smll.201201332 JN:SMALL PY:2013 TC:10 AU: Liu, Yao;Wang, Haifeng;Dong, Huanli;Jiang, Lang;Hu, Wenping;Zhan, Xiaowei;
2:73:20 High performance low-voltage organic phototransistors: interface modification and the tuning of electrical, photosensitive and memory properties
DOI:10.1039/c2jm31404e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Liu, Xiaohui;Dong, Guifang;Duan, Lian;Wang, Liduo;Qiu, Yong;
2:73:21 A trilayer architecture for polymer photoconductors
DOI:10.1063/1.4791595 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Jin, Zhiwen;Wang, Jizheng;
2:73:22 Flexible N-channel organic phototransistor on polyimide substrate
DOI:10.1016/j.synthmet.2010.11.010 JN:SYNTHETIC METALS PY:2011 TC:10 AU: Park, Jae-eun;Mukherjee, Biswanath;Cho, Hyejin;Kim, Sungyoung;Pyo, Seungmoon;
2:73:23 An electrospun fiber phototransistor by the conjugated polymer poly[2-methoxy-5-(2 '-ethylhexyloxy)-1,4-phenylene-vinylene]
DOI:10.1063/1.3534803 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Tu, Deyu;Pagliara, Stefano;Cingolani, Roberto;Pisignano, Dario;
2:73:24 Light Sensing in a Photoresponsive, Organic-Based Complementary Inverter
DOI:10.1021/am101284m JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:5 AU: Kim, Sungyoung;Lim, Taehoon;Sim, Kyoseung;Kim, Hyojoong;Choi, Youngill;Park, Keechan;Pyo, Seungmoon;
2:73:25 Solution-processed dye-sensitized ZnO phototransistors with extremely high photoresponsivity
DOI:10.1063/1.4757602 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Pattanasattayavong, Pichaya;Rossbauer, Stephan;Thomas, Stuart;Labram, John G.;Snaith, Henry J.;Anthopoulos, Thomas D.;
2:73:26 Correlated Charge Carrier-like Photoresponse of Polymer Nanowires
DOI:10.1021/nn402917h JN:ACS NANO PY:2013 TC:3 AU: Rahman, Atikur;Sanyal, Milan K.;
2:73:27 Organic Donor-sigma-Acceptor Molecules Based on 5,5 '-(9,10-Bis((4-hexylphenyl)ethynyl)anthracene-2,6-diyl)bis(ethyne-2,1-di yl)bis(2-hexylthiophene) for Resistive Random Access Memory
DOI:10.1080/15421406.2013.807723 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Lee, Tae Wan;Shin, Jicheol;Kim, Kyung Hwan;Cho, Min Ju;Choi, Dong Hoon;
2:73:28 Investigation of organic n-type field-effect transistor performance on the polymeric gate dielectrics
DOI:10.1016/j.synthmet.2009.11.039 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Mukherjee, Moumita;Mukherjee, Biswanath;Choi, Youngill;Sim, Kyoseung;Do, Junghwan;Pyo, Seungmoon;
2:73:29 Effects of gate dielectric composition on the performance of organic thin-film devices
DOI:10.1016/j.synthmet.2012.01.020 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Das, Sujoy;Lee, Junghyun;Lim, Taehoon;Choi, Youngill;Park, Yong Sun;Pyo, Seungmoon;
2:73:30 Biphase micro/nanometer sized single crystals of organic semiconductors: Control synthesis and their strong phase dependent optoelectronic properties
DOI:10.1063/1.3383222 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Wang, Chengliang;Liu, Yaling;Wei, Zhongming;Li, Hongxiang;Xu, Wei;Hu, Wenping;
2:73:31 Origin of the threshold voltage shift of organic thin-film transistors under light illumination
DOI:10.1063/1.3575334 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Wasapinyokul, Kamol;Milne, W. I.;Chu, D. P.;
2:73:32 Periodic arrays of organic crystals on polymer gate dielectric for low-voltage field-effect transistors and complementary inverter
DOI:10.1039/c0jm01220c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:8 AU: Mukherjee, Biswanath;Shin, Tae Joo;Sim, Kyoseung;Mukherjee, Moumita;Lee, Junghyun;Kim, Sung Hoon;Pyo, Seungmoon;
2:73:33 Photo-response of a nanopore device with a single embedded ZnO nanoparticle
DOI:10.1088/0957-4484/23/16/165201 JN:NANOTECHNOLOGY PY:2012 TC:2 AU: Linh-Nam Nguyen;Lin, Ming-Chou;Chen, Horng-Shyang;Lan, Yann-Wen;Wu, Cen-Shawn;Chang-Liao, Kuei-Shu;Chen, Chii-Dong;
2:73:34 Organic donor-sigma-acceptor molecules based-on 5,5 '-(9,10-bis((4-hexylphenyl)ethynyl)anthracene-2,6-diyl)bis(ethyne-2,1-di yl)bis(2-hexylthiophene)
DOI:10.1016/j.synthmet.2012.05.010 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Shin, Jicheol;Lee, Tae Wan;Kang, Nam Su;Kim, Kyung Hwan;Hong, Jae-Min;Choi, Dong Hoon;
2:74:1 Trap density of states in small-molecule organic semiconductors: A quantitative comparison of thin-film transistors with single crystals
DOI:10.1103/PhysRevB.81.155315 JN:PHYSICAL REVIEW B PY:2010 TC:71 AU: Kalb, Wolfgang L.;Haas, Simon;Krellner, Cornelius;Mathis, Thomas;Batlogg, Bertram;
2:74:2 Calculating the trap density of states in organic field-effect transistors from experiment: A comparison of different methods
DOI:10.1103/PhysRevB.81.035327 JN:PHYSICAL REVIEW B PY:2010 TC:59 AU: Kalb, Wolfgang L.;Batlogg, Bertram;
2:74:3 From organic single crystals to solution processed thin-films: Charge transport and trapping with varying degree of order
DOI:10.1063/1.4798610 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:15 AU: Willa, K.;Haeusermann, R.;Mathis, T.;Facchetti, A.;Chen, Z.;Batlogg, B.;
2:74:4 How to Find Out the Density of States in Disordered Organic Semiconductors
DOI:10.1103/PhysRevLett.108.226403 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:21 AU: Oelerich, J. O.;Huemmer, D.;Baranovskii, S. D.;
2:74:5 Fermi Level Pinning by Gap States in Organic Semiconductors
DOI:10.1103/PhysRevLett.110.036803 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:14 AU: Yogev, S.;Matsubara, R.;Nakamura, M.;Zschieschang, U.;Klauk, H.;Rosenwaks, Y.;
2:74:6 Distribution of Localized States from Fine Analysis of Electron Spin Resonance Spectra in Organic Transistors
DOI:10.1103/PhysRevLett.104.056602 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:23 AU: Matsui, Hiroyuki;Mishchenko, Andrei S.;Hasegawa, Tatsuo;
2:74:7 Role of band states and trap states in the electrical properties of organic semiconductors: Hopping versus mobility edge model
DOI:10.1103/PhysRevB.87.195209 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Mehraeen, Shafigh;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:74:8 Complete Demonstration of the Valence Electronic Structure Inside a Practical Organic Solar Cell Probed by Low Energy Photoemission
DOI:10.1002/aenm.201301354 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:5 AU: Nakayama, Yasuo;Thanh Luan Nguyen;Ozawa, Yusuke;Machida, Shin'ichi;Sato, Tomoya;Tokairin, Hiroshi;Noguchi, Yutaka;Ishii, Hisao;
2:74:9 Modeling space-charge-limited currents in organic semiconductors: Extracting trap density and mobility
DOI:10.1103/PhysRevB.84.195209 JN:PHYSICAL REVIEW B PY:2011 TC:17 AU: Dacuna, Javier;Salleo, Alberto;
2:74:10 Low density of gap states and unpinned Fermi level in n-channel organic thin-film transistors
DOI:10.1103/PhysRevB.89.081409 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Yogev, S.;Rosenwaks, Y.;
2:74:11 Trap density of states in n-channel organic transistors: variable temperature characteristics and band transport
DOI:10.1063/1.4828415 JN:AIP ADVANCES PY:2013 TC:6 AU: Cho, Joung-min;Akiyama, Yuto;Kakinuma, Tomoyuki;Mori, Takehiko;
2:74:12 Analysing organic transistors based on interface approximation
DOI:10.1063/1.4863296 JN:AIP ADVANCES PY:2014 TC:3 AU: Akiyama, Yuto;Mori, Takehiko;
2:74:13 Band gap states of copper phthalocyanine thin films induced by nitrogen exposure
DOI:10.1063/1.3332577 JN:APPLIED PHYSICS LETTERS PY:2010 TC:37 AU: Sueyoshi, Tomoki;Kakuta, Haruya;Ono, Masaki;Sakamoto, Kazuyuki;Kera, Satoshi;Ueno, Nobuo;
2:74:14 Direct measurement of density of states in pentacene thin film transistors
DOI:10.1103/PhysRevB.84.165124 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Yogev, S.;Halpern, E.;Matsubara, R.;Nakamura, M.;Rosenwaks, Y.;
2:74:15 Accurate description of charge transport in organic field effect transistors using an experimentally extracted density of states
DOI:10.1103/PhysRevB.85.085202 JN:PHYSICAL REVIEW B PY:2012 TC:9 AU: Roelofs, W. S. C.;Mathijssen, S. G. J.;Janssen, R. A. J.;de Leeuw, D. M.;Kemerink, M.;
2:74:16 Gap states in Pentacene Thin Film Induced by Inert Gas Exposure
DOI:10.1103/PhysRevLett.110.267602 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:16 AU: Bussolotti, Fabio;Kera, Satoshi;Kudo, Kazuhiro;Kahn, Antoine;Ueno, Nobuo;
2:74:17 Distribution of localized states from fine analysis of electron spin resonance spectra of organic semiconductors: Physical meaning and methodology
DOI:10.1103/PhysRevB.85.085211 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Mishchenko, Andrey S.;Matsui, Hiroyuki;Hasegawa, Tatsuo;
2:74:18 Origin of the energy level alignment at organic/organic interfaces: The role of structural defects
DOI:10.1103/PhysRevB.89.115319 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Bussolotti, Fabio;Yang, Jinpeng;Hinderhofer, Alexander;Huang, Yuli;Chen, Wei;Kera, Satoshi;Wee, Andrew T. S.;Ueno, Nobuo;
2:74:19 Electron affinity of pentacene thin film studied by radiation-damage free inverse photoemission spectroscopy
DOI:10.1063/1.4821445 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Han, Weining;Yoshida, Hiroyuki;Ueno, Nobuo;Kera, Satoshi;
2:74:20 Influence of Alkyl Side Chain on the Crystallinity and Trap Density of States in Thiophene and Thiazole Semiconducting Copolymer Based Inkjet-Printed Field-Effect Transistors
DOI:10.1021/cm400592b JN:CHEMISTRY OF MATERIALS PY:2013 TC:9 AU: Lee, Jiyoul;Chung, Jong Won;Jang, Jaeman;Kim, Do Hwan;Park, Jeong-Il;Lee, Eunkyung;Lee, Bang-Lin;Kim, Joo-Young;Jung, Ji Young;Park, Joon Seok;Koo, Bonwon;Jin, Yong Wan;Kim, Dae Hwan;
2:74:21 Electronic Transport in Organic Materials: Comparison of Band Theory with Percolation/(Variable Range) Hopping Theory
DOI:10.1002/adma.201101129 JN:ADVANCED MATERIALS PY:2011 TC:17 AU: Stallinga, P.;
2:74:22 Theory to carrier recombination in organic disordered semiconductors
DOI:10.1063/1.4883318 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Hofacker, A.;Oelerich, J. O.;Nenashev, A. V.;Gebhard, F.;Baranovskii, S. D.;
2:74:23 Low-temperature solution-processed wavelength-tunable perovskites for lasing
DOI:10.1038/NMAT3911 JN:NATURE MATERIALS PY:2014 TC:131 AU: Xing, Guichuan;Mathews, Nripan;Lim, Swee Sien;Yantara, Natalia;Liu, Xinfeng;Sabba, Dharani;Gratzel, Michael;Mhaisalkar, Subodh;Sum, Tze Chien;
2:74:24 Quantum dynamic localization in the Holstein Hamiltonian at finite temperatures
DOI:10.1103/PhysRevB.82.245202 JN:PHYSICAL REVIEW B PY:2010 TC:5 AU: Troisi, Alessandro;
2:74:25 Deep trap states in rubrene single crystals induced by ion radiation
DOI:10.1103/PhysRevB.85.134101 JN:PHYSICAL REVIEW B PY:2012 TC:0 AU: Zimmerling, Tino;Mattenberger, Kurt;Doebeli, Max;Simon, Marius Johannes;Batlogg, Bertram;
2:74:26 Photoelectron spectroscopy investigations of recombination contacts for tandem organic solar cells
DOI:10.1063/1.3693385 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Olthof, Selina;Timmreck, Ronny;Riede, Moritz;Leo, Karl;
2:74:27 Microstructural characterization and electrical conductivity of CuxMn3-xO4 (0.9 <= x <= 1.3) spinels produced by optimized glycine-nitrate combustion and mechanical milling processes
DOI:10.1016/j.ceramint.2014.04.065 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Hosseini, N.;Karimzadeh, F.;Abbasi, M. H.;Choi, G. M.;
2:74:28 Non-Markovian effects in time-resolved fluorescence spectrum of molecular aggregates: Tracing polaron formation
DOI:10.1103/PhysRevB.84.245430 JN:PHYSICAL REVIEW B PY:2011 TC:19 AU: Gelzinis, Andrius;Abramavicius, Darius;Valkunas, Leonas;
2:74:29 Potassium doping of single crystalline pentacene thin film
DOI:10.1103/PhysRevB.86.155120 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: Bussolotti, Fabio;Kera, Satoshi;Ueno, Nobuo;
2:74:30 Extraction of the sub-bandgap density-of-states in polymer thin-film transistors with the multi-frequency capacitance-voltage spectroscopy
DOI:10.1063/1.3698455 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Jang, Jaeman;Kim, Jaehyeong;Bae, Minkyung;Lee, Jaewook;Kim, Dong Myong;Kim, Dae Hwan;Lee, Jiyoul;Lee, Bang-Lin;Koo, Bonwon;Jin, Yong Wan;
2:74:31 Trap density of states in n-channel organic transistors: variable temperature characteristics and band transport (vol 3, 102131, 2013)
DOI:10.1063/1.4860945 JN:AIP ADVANCES PY:2013 TC:0 AU: Cho, Joung-min;Akiyama, Yuto;Kakinuma, Tomoyuki;Mori, Takehiko;
2:75:1 Temperature-dependent electron and hole transport in disordered semiconducting polymers: Analysis of energetic disorder
DOI:10.1103/PhysRevB.81.045210 JN:PHYSICAL REVIEW B PY:2010 TC:28 AU: Blakesley, J. C.;Clubb, H. S.;Greenham, N. C.;
2:75:2 Modeling of the transient mobility in disordered organic semiconductors with a Gaussian density of states
DOI:10.1103/PhysRevB.84.165210 JN:PHYSICAL REVIEW B PY:2011 TC:17 AU: Germs, W. Chr;van der Holst, J. J. M.;van Mensfoort, S. L. M.;Bobbert, P. A.;Coehoorn, R.;
2:75:3 Charge Transport in Organic Crystals: Role of Disorder and Topological Connectivity
DOI:10.1021/ja104380c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:50 AU: Vehoff, Thorsten;Baumeier, Bjoern;Troisi, Alessandro;Andrienko, Denis;
2:75:4 Scaling Theory for Percolative Charge Transport in Disordered Molecular Semiconductors
DOI:10.1103/PhysRevLett.107.136601 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:25 AU: Cottaar, J.;Koster, L. J. A.;Coehoorn, R.;Bobbert, P. A.;
2:75:5 Hole transport in the organic small molecule material alpha-NPD: evidence for the presence of correlated disorder
DOI:10.1063/1.3407561 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:30 AU: van Mensfoort, S. L. M.;Shabro, V.;de Vries, R. J.;Janssen, R. A. J.;Coehoorn, R.;
2:75:6 Extracting nondispersive charge carrier mobilities of organic semiconductors from simulations of small systems
DOI:10.1103/PhysRevB.82.193202 JN:PHYSICAL REVIEW B PY:2010 TC:20 AU: Lukyanov, Alexander;Andrienko, Denis;
2:75:7 Monte Carlo study of charge transport in organic sandwich-type single-carrier devices: Effects of Coulomb interactions
DOI:10.1103/PhysRevB.83.085206 JN:PHYSICAL REVIEW B PY:2011 TC:28 AU: van der Holst, J. J. M.;van Oost, F. W. A.;Coehoorn, R.;Bobbert, P. A.;
2:75:8 Numerical simulation of charge transport in disordered organic semiconductor devices
DOI:10.1063/1.3475505 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:31 AU: Knapp, E.;Haeusermann, R.;Schwarzenbach, H. U.;Ruhstaller, B.;
2:75:9 Challenges for in silico design of organic semiconductors
DOI:10.1039/c2jm30182b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Baumeier, Bjoern;May, Falk;Lennartz, Christian;Andrienko, Denis;
2:75:10 Stochastic modeling of molecular charge transport networks
DOI:10.1103/PhysRevB.86.184202 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Baumeier, Bjoern;Stenzel, Ole;Poelking, Carl;Andrienko, Denis;Schmidt, Volker;
2:75:11 Semi-analytic formulae of impedance spectroscopy in organic layers with Gaussian traps
DOI:10.1007/s00339-014-8291-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Xu, Guang-Fu;Sun, Jiu-Xun;Jin, Ke;Cai, Ling-Cang;
2:75:12 Built-in potential and validity of the Mott-Schottky analysis in organic bulk heterojunction solar cells
DOI:10.1103/PhysRevB.84.153201 JN:PHYSICAL REVIEW B PY:2011 TC:11 AU: Mingebach, M.;Deibel, C.;Dyakonov, V.;
2:75:13 Application of Molecular Simulation Techniques to the Study of Factors Affecting the Thin-Film Morphology of Small-Molecule Organic Semiconductors
DOI:10.1021/cm102231b JN:CHEMISTRY OF MATERIALS PY:2011 TC:27 AU: Clancy, Paulette;
2:75:14 Scaling theory for percolative charge transport in molecular semiconductors: Correlated versus uncorrelated energetic disorder
DOI:10.1103/PhysRevB.85.245205 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Cottaar, J.;Coehoorn, R.;Bobbert, P. A.;
2:75:15 Design Rules for Charge-Transport Efficient Host Materials for Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/ja305310r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:20 AU: May, Falk;Al-Helwi, Mustapha;Baumeier, Bjoern;Kowalsky, Wolfgang;Fuchs, Evelyn;Lennartz, Christian;Andrienko, Denis;
2:75:16 Extraction of the materials parameters that determine the mobility in disordered organic semiconductors from the current-voltage characteristics: Accuracy and limitations
DOI:10.1063/1.4795588 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: de Vries, R. J.;Badinski, A.;Janssen, R. A. J.;Coehoorn, R.;
2:75:17 Can Lattice Models Predict the Density of States of Amorphous Organic Semiconductors?
DOI:10.1103/PhysRevLett.109.136401 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:10 AU: May, Falk;Baumeier, Bjoern;Lennartz, Christian;Andrienko, Denis;
2:75:18 Molecular-scale simulation of electroluminescence in a multilayer white organic light-emitting diode
DOI:10.1038/NMAT3622 JN:NATURE MATERIALS PY:2013 TC:29 AU: Mesta, Murat;Carvelli, Marco;de Vries, Rein J.;van Eersel, Harm;van der Holst, Jeroen J. M.;Schober, Matthias;Furno, Mauro;Luessem, Bjoern;Leo, Karl;Loebl, Peter;Coehoorn, Reinder;Bobbert, Peter A.;
2:75:19 Predictive modeling of the current density and radiative recombination in blue polymer-based light-emitting diodes
DOI:10.1063/1.3553412 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: van Mensfoort, S. L. M.;Billen, J.;Carvelli, M.;Vulto, S. I. E.;Janssen, R. A. J.;Coehoorn, R.;
2:75:20 Numerical simulation of organic semiconductor devices with high carrier densities
DOI:10.1063/1.4768710 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Stodtmann, S.;Lee, R. M.;Weiler, C. K. F.;Badinski, A.;
2:75:21 Relationship between supramolecular assembly and charge-carrier mobility in perylenediimide derivatives: The impact of side chains
DOI:10.1039/c1jm10500k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: May, Falk;Marcon, Valentina;Hansen, Michael Ryan;Grozema, Ferdinand;Andrienko, Denis;
2:75:22 Relation between the built-in voltage in organic light-emitting diodes and the zero-field voltage as measured by electroabsorption
DOI:10.1103/PhysRevB.81.125203 JN:PHYSICAL REVIEW B PY:2010 TC:14 AU: de Vries, R. J.;van Mensfoort, S. L. M.;Janssen, R. A. J.;Coehoorn, R.;
2:75:23 Relation between the barrier interface and the built-in potential in pentacene/C-60 solar cell
DOI:10.1063/1.3456393 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Nolasco, J. C.;Sanchez-Diaz, Antonio;Cabre, R.;Ferre-Borrull, J.;Marsal, L. F.;Palomares, E.;Pallares, J.;
2:75:24 Study of charge-carrier relaxation in a disordered organic semiconductor by simulating impedance spectroscopy
DOI:10.1063/1.4880355 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Mesta, M.;Cottaar, J.;Coehoorn, R.;Bobbert, P. A.;
2:75:25 Numerical impedance analysis for organic semiconductors with exponential distribution of localized states
DOI:10.1063/1.3633109 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Knapp, Evelyne;Ruhstaller, Beat;
2:75:26 Diffusive capacitance in space charge limited organic diodes: Analysis of peak in capacitance-voltage characteristics
DOI:10.1063/1.4812487 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Tripathi, Durgesh C.;Mohapatra, Y. N.;
2:75:27 Universal Size-Dependent Conductance Fluctuations in Disordered Organic Semiconductors
DOI:10.1103/PhysRevLett.113.116604 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Masse, A.;Coehoorn, R.;Bobbert, P. A.;
2:75:28 Charge carrier injection into insulating media: Single-particle versus mean-field approach
DOI:10.1103/PhysRevB.81.125310 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Genenko, Yu. A.;Yampolskii, S. V.;Melzer, C.;Stegmaier, K.;von Seggern, H.;
2:75:29 Effects of energetic disorder on the low-frequency differential capacitance of organic light emitting diodes
DOI:10.1063/1.3701575 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Germs, W. C.;van Mensfoort, S. L. M.;de Vries, R. J.;Coehoorn, R.;
2:75:30 Monte Carlo study of efficiency roll-off of phosphorescent organic light-emitting diodes: Evidence for dominant role of triplet-polaron quenching
DOI:10.1063/1.4897534 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: van Eersel, H.;Bobbert, P. A.;Janssen, R. A. J.;Coehoorn, R.;
2:75:31 The role of shallow traps in dynamic characterization of organic semiconductor devices
DOI:10.1063/1.4739303 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:9 AU: Knapp, Evelyne;Ruhstaller, Beat;
2:75:32 Transport level in disordered organics: An analytic model and Monte-Carlo simulations
DOI:10.1063/1.4866326 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:7 AU: Nikitenko, V. R.;Strikhanov, M. N.;
2:75:33 Charge-carrier relaxation in disordered organic semiconductors studied by dark injection: Experiment and modeling
DOI:10.1103/PhysRevB.88.174204 JN:Algarabel, Pedro/K-8583-2014; Ibarra, Manuel Ricardo/K-1150-2014; Rodriguez Fernandez, Jesus/L-7960-2014;Morellon, Luis/0000-0003-3724-508X; Marcano Aguado,;Noelia/0000-0002-5331-9758; PY:100 TC:arabel, Pedro/0000-0002-4698-3378;;Ibarra, Manuel Ricardo/0000-0003-0681-8260;;0;0;0;0;0;1098-0121;WOS:000332161300004;;;J;Minar, Jiri;Gremaud, Benoit;From antiferromagnetic ordering to magnetic textures in the;two-dimensional Fermi-Hubbard model with synthetic spin-orbit;interactions;PHYSICAL REVIEW B;88;23;235130;10.1103/PhysRevB.88.235130;DEC 30 2013;2013;We study the interacting Fermi-Hubbard model in two spatial dimensions;with synthetic gauge coupling of the spin-orbit Rashba type, at;half-filling. Using real-space mean-field theory, we numerically;determine the phase as a function of the interaction strength for;different values of the gauge-field parameter. For a fixed value of the;gauge field, we observe that when the strength of the repulsive;interaction is increased, the system enters into an antiferromagnetic;phase, then undergoes a first-order phase transition to a noncollinear;magnetic phase. Depending on the gauge-field parameter, this phase;further evolves to the one predicted from the effective Heisenberg model;obtained in the limit of large interaction strength. We explain the;presence of the antiferromagnetic phase at small interaction from the;computation of the spin-spin susceptibility, which displays a divergence;at low temperatures for the antiferromagnetic ordering. We discuss, how;the divergence is related to the nature of the underlying Fermi;surfaces. Finally, the fact that the first-order phase transitions for;different gauge-field parameters occur at unrelated critical interaction;strengths arises from a Hofstadter-like situation, i.e., for different;magnetic phases, the mean-field Hamiltonians have different;translational symmetries.;1;0;0;0;1;1098-0121;WOS:000332163500001;;;J;Rochal, S. B.;Lorman, V. L.;Yuzyuk, Yu. I.;Two-dimensional elasticity determines the low-frequency dynamics of;single-and double-walled carbon nanotubes;PHYSICAL REVIEW B;88;23;235435;10.1103/PhysRevB.88.235435;DEC 30 2013;2013;We develop a continuous theory of low-frequency dynamics for nanotubes;with walls constituted by singleatom monolayer, the topological;elasticity of which is not related to its vanishing macroscopic;thickness. The applicability region of the theory proposed includes all;truly two-dimensional materials such as graphene and MoS2. New;comprehensive interpretation and analytical expressions for;low-frequency modes in single-walled carbon nanotube (SWCNT) are given.;The theory unambiguously relates the radial breathing modes of SWCNT and;breathinglike modes of the double-walled carbon nanotube (DWCNT). The;existing Raman data on DWCNTs are fitted better than in the frame of;previous models.;Yuzyuk, Yuri/A-1285-2009;0;0;0;0;0;1098-0121;WOS:000332163500006;;;J;Wagner, Markus R.;Callsen, Gordon;Reparaz, Juan S.;Kirste, Ronny;Hoffmann, Axel;Rodina, Anna V.;Schleife, Andre;Bechstedt, Friedhelm;Phillips, Matthew R.;Effects of strain on the valence band structure and exciton-polariton;energies in ZnO;PHYSICAL REVIEW B;88;23;235210;10.1103/PhysRevB.88.235210;DEC 30 2013;2013;The uniaxial stress dependence of the band structure and the;exciton-polariton transitions in wurtzite ZnO is thoroughly studied;using modern first-principles calculations based on the HSE+ G(0)W(0);approach, k center dot p modeling using the deformation potential;framework, and polarized photoluminescence measurements. The ordering of;the valence bands [A(Gamma(7)), B(Gamma(9)), C(Gamma(7))] is found to be;robust even for high uniaxial and biaxial strains. Theoretical results;for the uniaxial pressure coefficients and splitting rates of the A, B,;and C valence bands and their optical transitions are obtained including;the effects of the spin-orbit interaction. The excitonic deformation;potentials are derived and the stress rates for hydrostatic pressure are;determined based on the results for uniaxial and biaxial stress. In;addition, the theory for the stress dependence of the exchange;interaction and longitudinal-transversal splitting of the exciton;polaritons is developed using the basic exciton functions of the;quasicubic approximation and taking the interaction between all exciton;states into account. It is shown that the consideration of these effects;is crucial for an accurate description of the stress dependence of the;optical spectra in ZnO. The theoretical results are compared to;polarized photoluminescence measurements of different ZnO substrates as;function of uniaxial pressure and experimental values reported in the;literature demonstrating an excellent agreement with the computed;pressure coefficients.;Wagner, Markus/A-3582-2009;Wagner, Markus/0000-0002-7367-5629;3;0;1;0;3;1098-0121;WOS:000332163500004;;;J;Zhang, Jian-Min;Ming, Wenmei;Huang, Zhigao;Liu, Gui-Bin;Kou, Xufeng;Fan, Yabin;Wang, Kang L.;Yao, Yugui;Stability, electronic, and magnetic properties of the magnetically doped;topological insulators Bi2Se3, Bi2Te3, and Sb2Te3;PHYSICAL REVIEW B;88;23;235131;10.1103/PhysRevB.88.235131;DEC 30 2013;2013;Magnetic interaction with the gapless surface states in a topological;insulator (TI) has been predicted to give rise to a few exotic quantum;phenomena. However, the effective magnetic doping of TI is still;challenging in the experiment. Using first-principles calculations, the;magnetic doping properties (V, Cr, Mn, and Fe) in three strong TIs;(Bi2Se3, Bi2Te3, and Sb2Te3) are investigated. We find that for all;three TIs the cation-site substitutional doping is most energetically;favorable with the anion-rich environment as the optimal growth;condition. Further, our results show that under the nominal doping;concentration of 4%, Cr- and Fe-doped Bi2Se3, Bi2Te3, and Cr-doped;Sb2Te3 remain as insulators, while all the V-and Mn-doped TIs, and;Fe-doped Sb2Te3 become metal. We also show that the magnetic interaction;of Cr-doped Bi2Se3 tends to be ferromagnetic, while Fe-doped Bi2Se3 is;likely to be antiferromagnetic. Finally, we estimate the magnetic;coupling and the Curie temperature for the promising ferromagnetic;insulator (Cr-doped Bi2Se3) by Monte Carlo simulation. These findings;may provide important guidance for the magnetism incorporation in TIs;experimentally.;Yao, Yugui/A-8411-2012; Liu, Gui-Bin/A-2724-2009; Zhang, Jian-Min/A-7757-2012;Liu, Gui-Bin/0000-0001-5935-7555;;4;0;0;0;4;1098-0121;WOS:000332163500002;;;J;Zitko, R.;Hansen, D.;Perepelitsky, E.;Mravlje, J.;Georges, A.;Shastry, B. S.;Extremely correlated Fermi liquid theory meets dynamical mean-field;theory: Analytical insights into the doping-driven Mott transition;PHYSICAL REVIEW B;88;23;235132;10.1103/PhysRevB.88.235132;DEC 30 2013;2013;We consider a doped Mott insulator in the large dimensionality limit;within both the recently developed extremely correlated Fermi liquid;(ECFL) theory and the dynamical mean-field theory (DMFT). We show that;the general structure of the ECFL sheds light on the rich frequency;dependence of the DMFT self-energy. Using the leading Fermi liquid form;of the two key auxiliary functions introduced in the ECFL theory, we;obtain an analytical ansatz, which provides a good quantitative;description of the DMFT self-energy down to hole doping level delta;similar or equal to 0.2. In particular, the deviation from Fermi liquid;behavior and the corresponding particle-hole asymmetry developing at a;low-energy scale are well reproduced by this ansatz. The DMFT being;exact at large dimensionality, our study also provides a benchmark of;the ECFL in this limit. We find that the main features of the;self-energy and spectral line shape are well reproduced by the ECFL;calculations in the O(lambda(2)) minimal scheme, for not too low doping;level delta greater than or similar to 0.3. The DMFT calculations;reported here are performed using a state-of-the-art numerical;renormalization-group impurity solver, which yields accurate results;down to an unprecedentedly small doping level delta less than or similar;to 0.001.;1;0;0;0;1;1098-0121;WOS:000332163500003;;;J;Barros, M. S. M.;Nascimento Junior, A. J.;Macedo-Junior, A. F.;Ramos, J. G. G. S.;Barbosa, A. L. R.;Open chaotic Dirac billiards: Weak (anti)localization, conductance;fluctuations, and decoherence;PHYSICAL REVIEW B;88;24;245133;10.1103/PhysRevB.88.245133;DEC 30 2013;2013;In this paper, we investigate the transport properties of open chaotic;Dirac billiards and their intrinsic (chiral universal) symmetry classes.;The prominent examples of these systems are some categories of;topological insulators and graphene structures. We extend the;diagrammatic method of integration over the unitary group and obtain;analytical results for the semiclassical limit and for the high quantum;limit in the universal regime. We show the emergence of quantum;fingerprints characteristic of the chiral symmetries, which are;amplified in the presence of a single open channel in each electronic;terminals. We compare the chaotic Dirac billiards with the "Schrodinger;billiards" in a myriad of regimes, exhibiting the differences between;the chiral universal classes and the Wigner-Dyson classes. Two numerical;methods were used to confirm our analytical findings, yielding also the;distribution of conductances. We also investigate analytically the;effect of dephasing using the characteristic time scales of the chaotic;billiards and we show the appearance of peculiar numbers of chaos.;0;0;0;0;0;1098-0121;WOS:000332164700008;;;J;Cooke, D. G.;Jepsen, P. Uhd;Lek, Jun Yan;Lam, Yeng Ming;Sy, F.;Dignam, M. M.;Picosecond dynamics of internal exciton transitions in CdSe nanorods;PHYSICAL REVIEW B;88;24;241307;10.1103/PhysRevB.88.241307;DEC 30 2013;2013;The picosecond dynamics of excitons in colloidal CdSe nanorods are;directly measured via their 1s to 2p-like internal transitions by;ultrabroadband terahertz spectroscopy. Broadened absorption peaks from;both the longitudinal and transverse states are observed at 8.5 and 11;THz, respectively. The onset of exciton-LO phonon coupling appears as a;bleach in the optical conductivity spectra at the LO phonon energy for;times > 1 ps after excitation. Simulations show a suppressed exciton;temperature due to thermally excited hole states being rapidly captured;onto ligands or unpassivated surface states. The relaxation kinetics are;manipulated and the longitudinal transition is quenched by surface;ligand exchange with hole capturing pyridine.;Lam, Yeng Ming/A-2230-2011;Lam, Yeng Ming/0000-0001-9390-8074;1;0;0;0;1;1098-0121;WOS:000332164700002;;;J;Cote, R.;Barrette, Manuel;Validity of the two-component model of bilayer and trilayer graphene in;a magnetic field;PHYSICAL REVIEW B;88;24;245445;10.1103/PhysRevB.88.245445;DEC 30 2013;2013;The eigenstates of an electron in the chiral two-dimensional electron;gas (C2DEG) formed in an AB-stacked bilayer or an ABC-stacked trilayer;graphene is a spinor with four or six components, respectively. These;components give the amplitude of the wave function on the four or six;carbon sites in the unit cell of the lattice. In the tight-binding;approximation, the eigenenergies are thus found by diagonalizing a 4 x 4;or a 6 x 6 matrix. In the continuum approximation where the electron;wave vector k << 1/a(0), with a(0) the lattice constant of the graphene;sheets, a common approximation is the two-component (or "two-band");model(1) where the eigenstates for the bilayer and trilayer systems are;described by a two-component spinor that gives the amplitude of the wave;function on the two sites with low energy vertical bar E vertical bar <<;gamma(1) where gamma(1) is the hopping energy between sites that are;directly above one another in adjacent layers. The two-component model;has been used extensively to study the phase diagram of the C2DEG in a;magnetic field as well as its transport and optical properties. In this;paper, we use a numerical approach to compute the eigenstates and Landau;level energies of the full tight-binding model in the continuum;approximation and compare them with the prediction of the two-component;model when the magnetic field or an electrical bias between the;outermost layers is varied. Our numerical analysis shows that the;two-component model is a good approximation for bilayer graphene in a;wide range of magnetic field and bias but mostly for Landau level M = 0.;The applicability of the two-component model in trilayer graphene, even;for level M = 0, is much more restricted. In this case, the;two-component model fails to reproduce some of the level crossings that;occur between the sublevels of M = 0.;3;0;0;0;3;1098-0121;WOS:000332164700013;;;J;Gammelmark, Soren;Zinner, Nikolaj Thomas;Dipoles on a two-leg ladder;PHYSICAL REVIEW B;88;24;245135;10.1103/PhysRevB.88.245135;DEC 30 2013;2013;We study polar molecules with long-range dipole-dipole interactions;confined to move on a two-leg ladder for different orientations of the;molecular dipole moments with respect to the ladder. Matrix product;states are employed to calculate the many-body ground state of the;system as a function of lattice filling fractions, perpendicular hopping;between the legs, and dipole interaction strength. We show that the;system exhibits zigzag ordering when the dipolar interactions are;predominantly repulsive. As a function of dipole moment orientation with;respect to the ladder, we find that there is a critical angle at which;ordering disappears. This angle is slightly larger than the angle at;which the dipoles are noninteracting along a single leg. This behavior;should be observable using current experimental techniques.;2;0;0;0;2;1098-0121;WOS:000332164700010;;;J;Hofer, Patrick P.;Buettiker, Markus;Emission of time-bin entangled particles into helical edge states;PHYSICAL REVIEW B;88;24;241308;10.1103/PhysRevB.88.241308;DEC 30 2013;2013;We propose a single-particle source which emits into the helical edge;states of a two-dimensional quantum spin Hall insulator. Without;breaking time-reversal symmetry, this source acts like a pair of;noiseless single-electron emitters which each inject separately into a;chiral edge state. By locally breaking time-reversal symmetry, the;source becomes a proper single-particle emitter which exhibits shot;noise. Due to its intrinsic helicity, this system can be used to produce;time-bin entangled pairs of electrons in a controlled manner. The noise;created by the source contains information on the emitted wave packets;and is proportional to the concurrence of the emitted state.;Hofer, Patrick/O-1062-2013;Hofer, Patrick/0000-0001-6036-7291;7;0;0;0;7;1098-0121;WOS:000332164700003;;;J;Leon, C.;Latge, A.;Half-metallicity study of graphene nanoribbon bilayers under external;fields;PHYSICAL REVIEW B;88;24;245446;10.1103/PhysRevB.88.245446;DEC 30 2013;2013;Here we discuss the possibility of modulating energy gaps of graphene;nanoribbon bilayers, with zigzag edges, by applying electric fields. The;system is disposed in the Bernal configuration and is described by a;Hubbard Hamiltonian. We follow a Hartree-Fock mean-field theory to;calculate the electronic properties of the system. Under the action of a;transversal electric field, half-metallicity is found: One of the spin;bands increases the gap energy as the intensity of the field is;increased whereas the other decreases until achieving a null gap. For a;particular electric field range, the system exhibits metallic and;semiconducting features depending on the spin band. Half-metallicity is;enhanced due to an extra effect for the bilayer system: The presence of;a robust plateau-like in the gap versus field intensity diagram, for an;intermediate energy gap value of the semiconducting band. The;correlation of the gap plateau with local magnetizations and charge;numbers in the two layers is investigated. Further applied gate voltages;on the ribbons are considered to investigate the possibilities of;getting new physical responses for tilted electric field configurations.;Possible spintronic applications can be driven based on the differential;spin-band features achieved.;1;0;0;0;1;1098-0121;WOS:000332164700014;;;J;Lundgren, Rex;Fuji, Yohei;Furukawa, Shunsuke;Oshikawa, Masaki;Entanglement spectra between coupled Tomonaga-Luttinger liquids:;Applications to ladder systems and topological phases;PHYSICAL REVIEW B;88;24;245137;10.1103/PhysRevB.88.245137;DEC 30 2013;2013;We study the entanglement spectrum (ES) and entropy between two coupled;Tomonaga-Luttinger liquids (TLLs) on parallel periodic chains. This;problem gives access to the entanglement properties of various;interesting systems, such as spin ladders as well as two-dimensional;topological phases. By expanding interchain interactions to quadratic;order in bosonic fields, we are able to calculate the ES for both gapped;and gapless systems using only methods for free theories. In certain;gapless phases of coupled nonchiral TLLs, we interestingly find an ES;with a dispersion relation proportional to the square root of the;subsystem momentum, which we relate to a long-range interaction in the;entanglement Hamiltonian. We numerically demonstrate the emergence of;this unusual dispersion in a model of hard-core bosons on a ladder. In;gapped phases of coupled nonchiral TLLs, which are relevant to spin;ladders and topological insulators, we show that the ES consists of;linearly dispersing modes, which resembles the spectrum of a;single-chain TLL but is characterized by a modified TLL parameter. Based;on a calculation for coupled chiral TLLs, we are also able to provide a;very simple proof for the correspondence between the ES and the;edge-state spectrum in quantum Hall systems consistent with previous;numerical and analytical studies.;Oshikawa, Masaki/F-4992-2011; Furukawa, Shunsuke/E-4416-2013;Oshikawa, Masaki/0000-0002-7637-7432;;6;0;0;0;6;1098-0121;WOS:000332164700012;;;J;Moon, Pilkyung;Koshino, Mikito;Optical properties of the Hofstadter butterfly in the moire superlattice;PHYSICAL REVIEW B;88;24;241412;10.1103/PhysRevB.88.241412;DEC 30 2013;2013;We investigate the optical absorption spectrum and the selection rule;for the Hofstadter butterfly in twisted bilayer graphene under magnetic;fields. We demonstrate that the absorption spectrum exhibits a;self-similar recursive pattern reflecting the fractal nature of the;energy spectrum. We find that the optical selection rule has a nested;self-similar structure as well, and it is governed by the conservation;of the total angular momentum summed over different hierarchies.;Moon, Pilkyung/A-2930-2010;Moon, Pilkyung/0000-0003-3994-4255;2;0;0;0;2;1098-0121;WOS:000332164700005;;;J;Poirier, Mario;de Lafontaine, Mathieu;Bourbonnais, Claude;Pouget, Jean-Paul;Charge, spin, and lattice effects in the spin-Peierls ground state of;MEM(TCNQ)(2);PHYSICAL REVIEW B;88;24;UNSP 245134;10.1103/PhysRevB.88.245134;DEC 30 2013;2013;We report an investigation of charge, spin, and lattice effects in the;spin-Peierls state of the organic compound MEM(TCNQ)(2). The 16.5-GHz;dielectric function along the chain axis shows an enhancement below the;spin-Peierls transition temperature near 18 K consistent with the charge;coupling to the elastic strain involved in the transition. The velocity;of two elastic modes perpendicular to the chain axis presents anomalies;at the transition, which can be explained with a Landau free-energy;model including a linear-quadratic coupling energy term between the;appropriate elastic strain e and the spin-Peierls magnetic gap Delta(q).;The analysis of the dielectric and elastic features aims toward an order;parameter with an associated critical exponent beta similar to 0.36,;which is similar to the three-dimensional behavior seen in other;spin-Peierls materials. All these effects studied in a magnetic field up;to 18 Teslas appear also compatible with a mean-field model of a;quasi-one-dimensional spin-Peierls system.;0;0;0;0;0;1098-0121;WOS:000332164700009;;;J;Syzranov, S. V.;Rodionov, Ya. I.;Kugel, K. I.;Nori, F.;Strongly anisotropic Dirac quasiparticles in irradiated graphene;PHYSICAL REVIEW B;88;24;241112;10.1103/PhysRevB.88.241112;DEC 30 2013;2013;We study quasiparticle dynamics in graphene exposed to a linearly;polarized electromagnetic wave of very large intensity. We demonstrate;that low-energy transport in such system can be described by an;effective time-independent Hamiltonian, characterized by multiple Dirac;points in the first Brillouin zone. Around each Dirac point the spectrum;is anisotropic: the velocity along the polarization of the radiation;significantly exceeds the velocity in the perpendicular direction.;Moreover, in some of the points the transverse velocity oscillates as a;function of the radiation intensity. We find that the conductance of a;graphene p-n junction in the regime of strong irradiation depends on the;polarization as G(theta) proportional to vertical bar sin theta vertical;bar(3/2), where theta is the angle between the polarization and the p-n;interface, and oscillates as a function of the radiation intensity.;Nori, Franco/B-1222-2009;Nori, Franco/0000-0003-3682-7432;2;0;0;0;2;1098-0121;WOS:000332164700001;;;J;Toke, Csaba;Particle-hole symmetry and bifurcating ground-state manifold in the;quantum Hall ferromagnetic states of multilayer graphene;PHYSICAL REVIEW B;88;24;241411;10.1103/PhysRevB.88.241411;DEC 30 2013;2013;The orbital structure of the quantum Hall ferromagnetic states in the;zero-energy Landau level in chiral multilayer graphene (AB, ABC, ABCA,;etc. stackings) is determined by the exchange interaction with all;levels, including deep-lying states in the Dirac sea. This exchange;field favors orbitally coherent states with a U(1) orbital symmetry if;the filling factor nu is not a multiple of the number of layers. If;electrons fill the orbital sector of a fixed spin/valley component to;one-half, e.g., at nu = +/- 3, +/- 1 in the bilayer and at nu = +/- 2,;+/- 6 in the ABCA four-layer, there is a transition to a Z(2) x U(1);manifold. For weak interaction, the structure in the zero-energy Landau;band compensates for the different exchange interaction on the;sublattices in the Landau orbitals; on the other side, the ground state;comes in two copies that distribute charge on the sublattices;differently. We expect a sequence of similar bifurcations in multilayers;of Bernal stacking.;1;1;0;0;1;1098-0121;WOS:000332164700004;;;J;Tonegawa, S.;Hashimoto, K.;Ikada, K.;Tsuruhara, Y.;Lin, Y. -H.;Shishido, H.;Haga, Y.;Matsuda, T. D.;Yamamoto, E.;Onuki, Y.;Ikeda, H.;Matsuda, Y.;Shibauchi, T.;Cyclotron resonance study of quasiparticle mass and scattering rate in;the hidden-order and superconducting phases of URu2Si2;PHYSICAL REVIEW B;88;24;245131;10.1103/PhysRevB.88.245131;DEC 30 2013;2013;The observation of cyclotron resonance in ultraclean crystals of URu2Si2;[S. Tonegawa et al., Phys. Rev. Lett. 109, 036401 (2012)] provides;another route besides quantum oscillations to the determination of the;bulk electronic structure in the hidden-order phase. We report detailed;analyses of the resonance lines, which fully resolve the cyclotron mass;structure of the main Fermi surface sheets. A particular focus is given;to the anomalous splitting of the sharpest resonance line near the [110];direction under in-plane magnetic-field rotation, which implies peculiar;electronic structure in the hidden-order phase. The results under the;field rotation from [110] toward [001] direction reveal that the;splitting is a robust feature against field tilting from the basal;plane. This is in sharp contrast to the reported frequency branch alpha;in the quantum oscillation experiments showing a three-fold splitting;that disappears by a small field tilt, which can be explained by the;magnetic breakdown between the large hole sphere and small electron;pockets. Our analysis of the cyclotron resonance profiles reveals that;the heavier branch of the split line has a larger scattering rate,;providing evidence for the existence of hot-spot regions along the [110];direction. These results are consistent with the broken fourfold;rotational symmetry in the hidden-order phase, which can modify the;interband scattering in an asymmetric manner. We also extend our;measurements down to 0.7 K, which results in the observation of;cyclotron resonance in the superconducting state, where novel effects of;vortex dynamics may enter. We find that the cyclotron mass undergoes no;change in the superconducting state. In contrast, the quasiparticle;scattering rate shows a rapid decrease below the vortex-lattice melting;transition temperature, which supports the formation of quasiparticle;Bloch state in the vortex lattice phase.;Hashimoto, Kenichiro/C-4925-2012; Shibauchi, Takasada/B-9349-2008;Shibauchi, Takasada/0000-0001-5831-4924;2;1;0;0;2;1098-0121;WOS:000332164700006;;;J;Wang, Chenjie;Levin, Michael;Weak symmetry breaking in two-dimensional topological insulators;PHYSICAL REVIEW B;88;24;245136;10.1103/PhysRevB.88.245136;DEC 30 2013;2013;We show that there exist two-dimensional (2D) time-reversal invariant;fractionalized insulators with the property that both their boundary;with the vacuum and their boundary with a topological insulator can be;fully gapped without breaking time-reversal or charge conservation;symmetry. This result leads us to an apparent paradox: we consider a;geometry in which a disklike region made up of a topological insulator;is surrounded by an annular strip of a fractionalized insulator, which;is, in turn, surrounded by the vacuum. If we gap both boundaries of the;strip, we naively obtain an example of a gapped interface between a;topological insulator and the vacuum that does not break any;symmetries-an impossibility. The resolution of this paradox is that this;system spontaneously breaks time-reversal symmetry in an unusual way,;which we call weak symmetry breaking. In particular, we find that the;only order parameters that are sensitive to the symmetry breaking are;nonlocal operators that describe quasiparticle tunneling processes;between the two edges of the strip; expectation values of local order;parameters vanish exponentially in the limit of a wide strip. Also, we;find that the symmetry breaking in our system comes with a ground-state;degeneracy, but this ground-state degeneracy is topologically protected,;rather than symmetry protected. We show that this kind of symmetry;breaking can also occur at the edge of 2D fractional topological;insulators.;Wang, Chenjie/G-8652-2013;2;0;0;0;2;1098-0121;WOS:000332164700011;;;J;Zhang, Qingyun;Cheng, Yingchun;Gan, Li-Yong;Schwingenschloegl, Udo;Giant valley drifts in uniaxially strained monolayer MoS2;PHYSICAL REVIEW B;88;24;245447;10.1103/PhysRevB.88.245447;DEC 30 2013;2013;Using first-principles calculations, we study the electronic structure;of monolayer MoS2 under uniaxial strain. We show that the energy valleys;drift far off the corners of the Brillouin zone (K points), about 12;times the amount observed in graphene. Therefore, it is essential to;take this effect into consideration for a correct identification of the;band gap. The system remains a direct band gap semiconductor up to 4%;uniaxial strain, while the size of the band gap decreases from 1.73 to;1.54 eV. We also demonstrate that the splitting of the valence bands due;to inversion symmetry breaking and spin-orbit coupling is not sensitive;to strain.;Cheng, Yingchun/C-8895-2011; Gan, Liyong/D-8113-2013;3;0;0;0;3;1098-0121;WOS:000332164700015;;;J;Zhang, Wentao;Smallwood, Christopher L.;Jozwiak, Chris;Miller, Tristan L.;Yoshida, Yoshiyuki;Eisaki, Hiroshi;Lee, Dung-Hai;Lanzara, Alessandra;Signatures of superconductivity and pseudogap formation in;nonequilibrium nodal quasiparticles revealed by ultrafast angle-resolved;photoemission;PHYSICAL REVIEW B;88;24;245132;10.1103/PhysRevB.88.245132;DEC 30 2013;2013;We use time- and angle-resolved photoemission to measure the nodal;nonequilibrium electronic states in various dopings of;Bi2Sr2CaCu2O8+delta. We find that the initial pump-induced transient;signal of these ungapped states is strongly affected by the onset of the;superconducting gap at T-c, superconducting pairing fluctuations at T-p,;and the pseudogap at T*. Moreover, T-p marks a suggestive threshold in;the fluence-dependent transient signal, with the appearance of a;critical fluence below T-p that corresponds to the energy required to;break apart all Cooper pairs. These results challenge the notion of a;nodal-antinodal dichotomy in cuprate superconductors by establishing a;link between nodal quasiparticles and the cuprate phase diagram.;ZHANG, Wentao/B-3626-2011;4;1;0;0;4;1098-0121;WOS:000332164700007;;;J;Svintsov, D.;Vyurkov, V.;Ryzhii, V.;Otsuji, T.;Hydrodynamic electron transport and nonlinear waves in graphene;PHYSICAL REVIEW B;88;24;245444;10.1103/PhysRevB.88.245444;DEC 27 2013;2013;We derive the system of hydrodynamic equations governing the collective;motion of massless fermions in graphene. The obtained equations;demonstrate the lack of Galilean and Lorentz invariance and contain a;variety of nonlinear terms due to the quasirelativistic nature of;carriers. Using these equations, we show the possibility of soliton;formation in an electron plasma of gated graphene. The quasirelativistic;effects set an upper limit for soliton amplitude, which marks graphene;out of conventional semiconductors. The mentioned noninvariance of the;equations is revealed in spectra of plasma waves in the presence of;steady flow, which no longer obey the Doppler shift. The feasibility of;plasma-wave excitation by direct current in graphene channels is also;discussed.;Svintsov, Dmitry/I-1755-2014;0;0;0;0;0;1098-0121;WOS:000332160400002;;;J;Yan, Jun;Norskov, Jens K.;Calculated formation and reaction energies of 3d transition metal oxides;using a hierachy of exchange-correlation functionals;PHYSICAL REVIEW B;88;24;245204;10.1103/PhysRevB.88.245204;DEC 27 2013;2013;The formation and oxidation reaction energies of 16 transition metal;oxides (TMOs) are benchmarked against experiments with an increasing;complexity of the exchange-correlation (xc) functionals: PBE, PBE + U;with a single U for each transition metal element, PBE0 (25% exact;exchange included), EXX (100% exact exchange), and EXX + RPA (random;phase approximation for the correlation energy). Although rather;challenging on standard CPU computing facilities, the RPA calculations;were performed efficiently on graphic processing units (GPUs). For the;formation energies, the PBE + U, PBE0, EXX + RPA improves significantly;over PBE with mean absolute errors (MAE) of 0.83 (PBE), 0.39 (PBE + U),;0.34 (PBE0), and 0.39 (EXX + RPA) eV per oxygen. In addition, EXX+ RPA;improves over the other xc functionals on the oxidation reaction;energies, with MAE of 0.27 (PBE), 0.28 (PBE + U), 0.30 (PBE0), to 0.13;(EXX + RPA) eV per oxygen. The distinct trend observed for the;calculated oxidation reaction energies compared to the formation;energies is due to that the errors in formation energies for PBE and;EXX+ RPA are systematic; while for PBE + U and PBE0 the deviations have;both signs, so that the error cancellations between different valence;states work better for PBE and EXX + RPA. Finally, we compared the;performance of the EXX + RPA for total energies and G(0)W(0), which uses;the random phase approximation in constructing the W kernel, for band;gaps, and discuss a few challenges for the EXX + RPA method on TMOs.;0;0;0;0;0;1098-0121;WOS:000332160400001;;;J;Bahamon, D. A.;Neto, A. H. Castro;Pereira, Vitor M.;Effective contact model for geometry-independent conductance;calculations in graphene;PHYSICAL REVIEW B;88;23;235433;10.1103/PhysRevB.88.235433;DEC 27 2013;2013;A geometry-independent effective model for the contact self-energies is;proposed to calculate the quantum conductance of patterned graphene;devices using Green's functions. A Corbino disk, being the simplest;device where the contacts cannot be modeled as semi-infinite ribbons, is;chosen to illustrate this approach. This system's symmetry allows an;analytical solution against which numerical calculations on the lattice;can be benchmarked. The effective model perfectly describes the;conductance of Corbino disks at low-to-moderate energies, and is robust;against the size of the annular device region, the number of atoms on;the edge, external magnetic fields, or electronic disorder. The contact;model considered here affords an expedient, flexible, and;geometry-agnostic approach that easily allows the consideration of;device dimensions encompassing several million atoms, and realistic;radial dimensions of a few hundreds of nanometers.;Bahamon, Dario/G-1369-2012; Pereira, Vitor/D-4088-2009; Castro Neto, Antonio/C-8363-2014;Bahamon, Dario/0000-0003-3852-2085; Castro Neto,;Antonio/0000-0003-0613-4010;0;0;0;0;0;1098-0121;WOS:000332159200003;;;J;Hermann, Andreas;Ashcroft, N. W.;Hoffmann, Roald;Isotopic differentiation and sublattice melting in dense dynamic ice;PHYSICAL REVIEW B;88;21;214113;10.1103/PhysRevB.88.214113;DEC 27 2013;2013;The isotopes of hydrogen provide a unique exploratory laboratory for;examining the role of zero point energy (ZPE) in determining the;structural and dynamic features of the crystalline ices of water. There;are two critical regions of high pressure: (i) near 1 TPa and (ii) near;the predicted onset of metallization at around 5 TPa. At the lower;pressure of the two, we see the expected small isotopic effects on phase;transitions. Near metallization, however, the effects are much greater,;leading to a situation where tritiated ice could skip almost entirely a;phase available to the other isotopomers. For the higher pressure ices,;we investigate in some detail the enthalpics of a dynamic proton;sublattice, with the corresponding structures being quite ionic. The;resistance toward diffusion of single protons in the ground state;structures of high-pressure H2O is found to be large, in fact to the;point that the ZPE reservoir cannot overcome these. However, the;barriers toward a three-dimensional coherent or concerted motion of;protons can be much lower, and the ensuing consequences are explored.;Hermann, Andreas/E-8687-2010;Hermann, Andreas/0000-0002-8971-3933;1;0;0;0;1;1098-0121;WOS:000332157500001;;;J;Higashi, Yoichi;Nagai, Yuki;Machida, Masahiko;Hayashi, Nobuhiko;Field-angle resolved flux-flow resistivity as a phase-sensitive probe of;unconventional Cooper pairing;PHYSICAL REVIEW B;88;22;224511;10.1103/PhysRevB.88.224511;DEC 27 2013;2013;We theoretically investigate the applied magnetic field-angle dependence;of the flux-flow resistivity rho(f)(alpha(M)) for a uniaxially;anisotropic Fermi surface. rho(f) is related to the quasiparticle;scattering rate inside a vortex core, which reflects the sign change in;the superconducting pair potential. We find that rho(f)(alpha(M)) is;sensitive to the sign change in the pair potential and has its maximum;when the magnetic field is parallel to the gap-node direction. We;propose the measurement of the field-angle dependent oscillation of;rho(f)(alpha(M)) as a phase-sensitive field-angle resolved experiment.;Nagai, Yuki/B-6698-2011;Nagai, Yuki/0000-0001-5098-5440;0;0;0;0;0;1098-0121;WOS:000332158300001;;;J;Karakonstantakis, G.;Liu, L.;Thomale, R.;Kivelson, S. A.;Correlations and renormalization of the electron-phonon coupling in the;honeycomb Hubbard ladder and superconductivity in polyacene;PHYSICAL REVIEW B;88;22;224512;10.1103/PhysRevB.88.224512;DEC 27 2013;2013;We have performed extensive density matrix renormalization group (DMRG);studies of the Hubbard model on a honeycomb ladder. The band structure;(with Hubbard U = 0) exhibits an unusual quadratic band touching at;half-filling, which is associated with a quantum Lifshitz transition;from a band insulator to a metal. For one electron per site, nonzero U;drives the system into an insulating state in which there is no;pair-binding between added electrons; this implies that;superconductivity driven directly by the repulsive electron-electron;interactions is unlikely in the regime of small doping, x << 1. However,;the divergent density of states as x -> 0, the large values of the;phonon frequencies, and an unusual correlation induced enhancement of;the electron-phonon coupling imply that lightly doped polyacenes, which;approximately realize this structure, are good candidates for;high-temperature electron-phonon driven superconductivity.;1;1;0;0;1;1098-0121;WOS:000332158300002;;;J;Koerbel, Sabine;Elsaesser, Christian;Alignment of ferroelectric polarization and defect complexes in;copper-doped potassium niobate;PHYSICAL REVIEW B;88;21;214114;10.1103/PhysRevB.88.214114;DEC 27 2013;2013;Defect complexes consisting of Cu substitutionals on Nb sites and oxygen;vacancies in potassium niobate, KNbO3, are investigated with respect to;their contribution to ferroelectric hardening by means of;density-functional theory and classical atomistic simulations. We;determine the easy and hard directions for the ferroelectric;polarization created by these defect complexes, the energy differences;between easy and hard directions, and upper limits for the energy;barriers for switching the ferroelectric polarization between these;directions. The ferroelectric polarization preferentially aligns with;the defect complexes, which is expected to impede polarization switching;and hence to contribute to ferroelectric hardening.;1;0;0;0;1;1098-0121;WOS:000332157500002;;;J;Steger, Mark;Liu, Gangqiang;Nelsen, Bryan;Gautham, Chitra;Snoke, David W.;Balili, Ryan;Pfeiffer, Loren;West, Ken;Long-range ballistic motion and coherent flow of long-lifetime;polaritons;PHYSICAL REVIEW B;88;23;235314;10.1103/PhysRevB.88.235314;DEC 27 2013;2013;Exciton polaritons can be created in semiconductor microcavities. These;quasiparticles act as weakly interacting bosons with very light mass, of;the order of 10(-4) times the vacuum electron mass. Many experiments;have shown effects which can be viewed as due to a Bose-Einstein;condensate, or quasicondensate, of these particles. The lifetime of the;particles in most of those experiments has been of the order of a few;picoseconds, leading to significant nonequilibrium effects. By;increasing the cavity quality, we have made samples with longer;polariton lifetimes. With a photon lifetime on the order of 100-200 ps,;polaritons in these structures can not only come closer to reaching true;thermal equilibrium, a desired feature for many researchers working in;this field, but they can also travel much longer distances. We observe;the polaritons to ballistically travel on the order of 1 mm, and at;higher densities we see transport of a coherent condensate, or;quasicondensate, over comparable distances. In this paper we report a;quantitative analysis of the flow of the polaritons both in a low-;density, classical regime, and in the coherent regime at higher density.;Our analysis gives us a measure of the intrinsic lifetime for photon;decay from the microcavity and a measure of the strength of interactions;of the polaritons.;0;0;0;0;0;1098-0121;WOS:000332159200002;;;J;Sun, Dan;Wu, W.;Grigera, S. A.;Perry, R. S.;Mackenzie, A. P.;Julian, S. R.;Pressure study of nematicity and quantum criticality in Sr3Ru2O7 for an;in- plane field;PHYSICAL REVIEW B;88;23;235129;10.1103/PhysRevB.88.235129;DEC 27 2013;2013;We study the relationship between the nematic phases of Sr3Ru2O7 and;quantum criticality. At ambient pressure, one nematic phase is;associated with a metamagnetic quantum critical end point (QCEP) when;the applied magnetic field is near the c axis. We show, however, that;this metamagnetic transition does not produce the same nematic;signatures when the QCEP is reached by hydrostatic pressure with the;field applied in the ab plane. Moreover, a second nematic phase, that is;seen for field applied in the ab plane close to, but not right at, a;second metamagnetic anomaly, persists with minimal change to the highest;applied pressure, 16.55 kbar. Taken together our results suggest that;metamagnetic quantum criticality may not be necessary for the formation;of a nematic phase in Sr3Ru2O7.;0;0;0;0;0;1098-0121;WOS:000332159200001;;;J;Wierzbicki, M.;Swirkowicz, R.;Barnas, J.;Giant spin thermoelectric efficiency in ferromagnetic graphene;nanoribbons with antidots;PHYSICAL REVIEW B;88;23;235434;10.1103/PhysRevB.88.235434;DEC 27 2013;2013;Thermoelectric effects in zigzag graphene nanoribbons with parallel;alignment of the edge spin polarizations are investigated theoretically.;Spin and charge thermopower, electrical and heat conductance, and charge;and spin thermoelectric efficiency are calculated numerically for;pristine nanoribbons as well as for nanoribbons with periodic;one-dimensional lattice of structural defects in the form of antidots.;It is shown that structural defects reduce thermal conductance due to;phonons and open gaps in the corresponding electronic spectrum. This, in;turn, leads to a significant enhancement of the Seebeck and spin Seebeck;coefficients as well as of the thermoelectric efficiency. A giant;enhancement appears in certain regions of chemical potential (controlled;by doping or external gate) and survives at room temperatures.;1;0;0;0;1;1098-0121;WOS:000332159200004;;;J;Apalkov, Vadym;Stockman, Mark I.;Metal nanofilm in strong ultrafast optical fields;PHYSICAL REVIEW B;88;24;245438;10.1103/PhysRevB.88.245438;DEC 26 2013;2013;We predict that a metal nanofilm subjected to an ultrashort (near-single;oscillation) optical pulse of a high field amplitude greater than or;similar to 3 V/A at normal incidence undergoes an ultrafast (at subcycle;times less than or similar to 1 fs) transition to a state resembling;semimetal. Its reflectivity is greatly reduced, while its transmissivity;and the optical field inside the metal are greatly increased. Despite;the metal being a centrosymmetric medium, the strong pulse causes net;charge transfer in the direction determined by the carrier envelope;phase (CEP) of the pulse, which is opposite to the direction of the;maximum field.;2;0;0;0;2;1098-0121;WOS:000331756500005;;;J;Brems, Steven;Liu, Haoliang;Temst, Kristiaan;Van Haesendonck, Chris;Rotation sense of the magnetization in the Co/CoO exchange-bias system;probed with anisotropic magnetoresistance measurements;PHYSICAL REVIEW B;88;21;214427;10.1103/PhysRevB.88.214427;DEC 26 2013;2013;The possibility of tracking the average rotation sense of the;magnetization vector of a ferromagnetic layer upon magnetization;reversal by means of magnetotransport measurements is explored. It is;demonstrated that the rotation sense of the ferromagnetic magnetization;vector during a hysteresis loop can be determined for the;polycrystalline Co/CoO exchange bias system by measuring the anisotropic;magnetoresistance (AMR) with a specific choice of the measurement;geometry. The AMR measurements reveal that the rotation direction of the;magnetization vector can be reversed by performing an in-plane;hysteresis loop with a magnetic field perpendicular to the cooling;field. This reversal can be directly linked to the experimental fact;that after training, i.e., after performing hysteresis loops with a;field along the cooling field direction, the average orientation of the;uncompensated magnetization of the granular CoO antiferromagnet can be;largely rotated back to the initial orientation after field cooling by;applying a perpendicular field with the appropriate amplitude and;orientation.;1;0;0;0;1;1098-0121;WOS:000331751200005;;;J;Cuadra, J.;Sarkar, D.;Vina, L.;Hvam, J. M.;Nalitov, A.;Solnyshkov, D.;Malpuech, G.;Polarized emission in polariton condensates: Switching in a;one-dimensional natural trap versus inversion in two dimensions;PHYSICAL REVIEW B;88;23;235312;10.1103/PhysRevB.88.235312;DEC 26 2013;2013;We perform polarization resolved spectroscopy of two-and one-dimensional;microcavity-polariton condensates, which are formed by exciting the;system in the optical parametric oscillator configuration. We observe;polarization inversion for linearly polarized pumping parallel to the;wire in both the 1D and 2D systems. As the polarization plane of the;pump is rotated, the degree of linear polarization of the 2D system;oscillates between orthogonal polarizations with the same period as that;of the pump. However, the 1D system switches abruptly between two states;of high degree of linear polarization with half the period. Two;complementary models, based on semiclassical Boltzmann kinetic equations;and the Gross-Pitaevskii equation, respectively, obtain an excellent;agreement with the experimental results, providing a deep insight into;the mechanisms responsible for the polarization switching.;Vina, Luis/E-9415-2012;Vina, Luis/0000-0002-6376-6703;0;0;0;0;0;1098-0121;WOS:000331754500006;;;J;Das, Subrat Kumar;Singh, Viveka Nand;Majumdar, Pinaki;Magnon spectrum in the domain ferromagnetic state of antisite-disordered;double perovskites;PHYSICAL REVIEW B;88;21;214428;10.1103/PhysRevB.88.214428;DEC 26 2013;2013;In their ideal structure, double perovskites such as Sr2FeMoO6 have;alternating Fe and Mo along each cubic axis, and a homogeneous;ferromagnetic metallic ground state. Imperfect annealing leads to the;formation of structural domains. The moments on mislocated Fe atoms that;adjoin each other across the domain boundary have an antiferromagnetic;coupling between them. This leads to a peculiar magnetic state, with;ferromagnetic domains coupled antiferromagnetically. At a short distance;the system exhibits ferromagnetic correlation while at large length;scales the net moment is strongly suppressed due to interdomain;cancellation. We provide a detailed description of the spin-wave;excitations of this complex magnetic state, obtained within a 1/S;expansion, for a progressively higher degree of mislocation, i.e.,;antisite disorder. At a given wave vector the magnons propagate at;multiple energies, related, crudely, to "domain confined" modes with;which they have a large overlap. We provide a qualitative understanding;of the trend observed with growing antisite disorder, and contrast these;results to the much broader spectrum that one obtains for uncorrelated;antisites.;0;0;0;0;0;1098-0121;WOS:000331751200006;;;J;Dugaev, V. K.;Katsnelson, M. I.;Edge scattering of electrons in graphene: Boltzmann equation approach to;the transport in graphene nanoribbons and nanodisks;PHYSICAL REVIEW B;88;23;235432;10.1103/PhysRevB.88.235432;DEC 26 2013;2013;We discuss the contribution of edge scattering to the conductance of;graphene nanoribbons and nanoflakes. Using different possible types of;the boundary conditions for the electron wave function at the edge, we;found dependences of the momentum relaxation time and conductance on the;geometric sizes and on the carrier density. We also consider the case of;ballistic nanoribbon and nanodisk, for which the edge scattering is the;main mechanism of momentum relaxation.;3;0;0;0;3;1098-0121;WOS:000331754500008;;;J;Fossati, Paul C. M.;Van Brutzel, Laurent;Chartier, Alain;Crocombette, Jean-Paul;Simulation of uranium dioxide polymorphs and their phase transitions;PHYSICAL REVIEW B;88;21;214112;10.1103/PhysRevB.88.214112;DEC 26 2013;2013;In this article first-principles DFT calculations and molecular dynamics;simulations using empirical potentials have been used to study four;different polymorphs of uranium dioxide that appear under high;compressive and tensile deformations. It has been found, as expected,;that the ground-state structure is the fluorite-type structure (space;group Fm (3) over barm). Under high compressive deformation urania;transforms into cotunnite-type structure (space group Pnma), as already;known experimentally. The calculated transition pressure is 28 GPa in;agreement with the experimental data. Under tensile deformation urania;transforms into either scrutinyite-type structure (space group Pbcn) or;rutile-type (space group P4(2)/mnm) structure. These two phases are;almost energetically degenerate; hence it is impossible to distinguish;which phase is the most favorable. The transition pressure for both;phases is found to be equal to -10 GPa. Subsequently, assessment of four;of the most used empirical potentials for UO2-Morelon, Arima, Basak, and;Yakub-have been carried out comparing the equations of state with those;found with DFT calculations. The Morelon potential has been found to be;the most accurate to describe the different urania polymorphs. Using;this empirical potential and a dedicated minimization procedure,;complete transition pathways between the ground state (Fm (3) over barm);and both tensile structures (Pbcn or P4(2)/mnm) are described. Finally,;uniaxial tensile load molecular dynamics simulations have been;performed. It has been found that for load in the AU: ;FN Thomson Reuters Web of Science™;1.0;J;Bakr, M.;Souliou, S. M.;Blanco-Canosa, S.;Zegkinoglou, I.;Gretarsson, H.;Strempfer, J.;Loew, T.;Lin, C. T.;Liang, R.;Bonn, D. A.;Hardy, W. N.;Keimer, B.;Le Tacon, M.;Lattice dynamical signature of charge density wave formation in;underdoped YBa2Cu3O6+x;PHYSICAL REVIEW B;88;21;214517;10.1103/PhysRevB.88.214517;DEC 31 2013;2013;We report a detailed Raman scattering study of the lattice dynamics in;detwinned single crystals of the underdoped high-temperature;superconductor YBa2Cu3O6+x (x = 0.75, 0.6, 0.55, and 0.45). Whereas at;room temperature the phonon spectra of these compounds are similar to;that of optimally doped YBa2Cu3O6.99, additional Raman-active modes;appear upon cooling below similar to 170-200Kin underdoped crystals. The;temperature dependence of these new features indicates that they are;associated with the incommensurate charge density wave state recently;discovered using synchrotron x-ray scattering techniques on the same;single crystals. Raman scattering thus has the potential to explore the;evolution of this state under extreme conditions.;Zegkinoglou, Ioannis/H-2343-2013; Le Tacon, Mathieu/D-8023-2011;Le Tacon, Mathieu/0000-0002-5838-3724;6;0;0;0;6;1098-0121;WOS:000332165200002;;;J;Benedicto, Jessica;Centeno, Emmanuel;Polles, Remi;Moreau, Antoine;Ultimate resolution of indefinite metamaterial flat lenses;PHYSICAL REVIEW B;88;24;245138;10.1103/PhysRevB.88.245138;DEC 31 2013;2013;We propose an approach allowing a systematic optimization of lenses;based on hyperbolic metamaterials. The lensing properties of these;highly anisotropic materials are summed up in a complex effective index;extracted from the complex dispersion relation. The analytical;expression of this effective index in the homogenization regime or its;direct computation from the Bloch band diagram in the resonant regime;leads to hyperbolic metamaterials that outperform the state-of-art flat;lenses. We show that feasible metal-dielectric multilayers provide;superresolved images for visible light (around 400 nm) even when fully;taking absorption into account.;0;0;0;0;0;1098-0121;WOS:000332166700001;;;J;Biswas, P. K.;Amato, A.;Baines, C.;Khasanov, R.;Luetkens, H.;Lei, Hechang;Petrovic, C.;Morenzoni, E.;Low superfluid density and possible multigap superconductivity in the;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;88;22;224515;10.1103/PhysRevB.88.224515;DEC 31 2013;2013;The magnetic penetration depth lambda as a function of temperature in;Bi4O4S3 was studied by muon-spin-spectroscopy measurements. The;superfluid density of Bi4O4S3 is found to be very low. The dependence of;lambda (2) on temperature possibly suggests the existence of two;s-wave-type energy gaps with the zero-temperature values of 0.93 (3) and;0.09 (4) meV. The upturn in the temperature dependence of the upper;critical field close to T-c further supports multigap superconductivity;in Bi4O4S3. The presence of two superconducting energy gaps is;consistent with theoretical and other experimental studies. However, a;single-gap s-wave model fit with a gap of 0.88 (2) meV cannot be ruled;out completely. The value of lambda(T) at T = 0 K is estimated to be;lambda(0) = 861 (17) nm, one of the largest of all known layered;superconductors, reflecting a very low superfluid density.;Luetkens, Hubertus/G-1831-2011;4;0;0;0;4;1098-0121;WOS:000332166200005;;;J;Cao, G.;Qi, T. F.;Li, L.;Terzic, J.;Cao, V. S.;Yuan, S. J.;Tovar, M.;Murthy, G.;Kaul, R. K.;Evolution of magnetism in the single-crystal honeycomb iridates;(Na1-xLix)(2)IrO3;PHYSICAL REVIEW B;88;22;220414;10.1103/PhysRevB.88.220414;DEC 31 2013;2013;We report the successful synthesis of single crystals of the layered;iridate (Na1-xLix)(2)IrO3, 0 <= x <= 0.9, and a thorough study of its;structural, magnetic, thermal, and transport properties. This compound;allows a controlled interpolation between Na2IrO3 and Li2IrO3, while;maintaining the quantum magnetism of the honeycomb Ir4+ planes. The;measured phase diagram demonstrates a suppression of the Neel;temperature T-N at an intermediate x, indicating that the magnetic;orders in Na2IrO3 and Li2IrO3 are distinct. X-ray data show that for x;approximate to 0.7, when T-N is suppressed the most, the honeycomb;structure is least distorted, leading to the speculation that at this;intermediate doping of the material is closest to the spin liquid that;has been sought after in Na2IrO3 and Li2IrO3. By analyzing our magnetic;data with a single-ion theoretical model we also show that the trigonal;splitting on the Ir4+ ions changes sign from Na2IrO3 to Li2IrO3.;8;0;0;0;8;1098-0121;WOS:000332166200001;;;J;Farr, Warrick G.;Creedon, Daniel L.;Goryachev, Maxim;Benmessai, Karim;Tobar, Michael E.;Ultrasensitive microwave spectroscopy of paramagnetic impurities in;sapphire crystals at millikelvin temperatures;PHYSICAL REVIEW B;88;22;224426;10.1103/PhysRevB.88.224426;DEC 31 2013;2013;Progress in the emerging field of engineered quantum systems requires;the development of devices that can act as quantum memories. The;realization of such devices by doping solid-state cavities with;paramagnetic ions imposes a tradeoff between ion concentration and;cavity coherence time. Here, we investigate an alternative approach;involving interactions between photons and naturally occurring impurity;ions in ultrapure crystalline microwave cavities exhibiting;exceptionally high quality factors. We implement a hybrid whispering;gallery/electron spin resonance method to perform rigorous spectroscopy;of an undoped single-crystal sapphire resonator over the frequency range;8-19 GHz, and at external applied DC magnetic fields up to 0.9 T.;Measurements of high-purity sapphire cooled close to 100 mK reveal the;presence of Fe3+, Cr3+, and V2+ impurities. A host of electron;transitions are measured and identified, including the two-photon;classically forbidden quadrupole transition (Delta m(s) = 2) for Fe3+,;as well as hyperfine transitions of V2+.;Tobar, Michael/C-9763-2009; Creedon, Daniel/A-8772-2010; Goryachev, Maxim/K-5851-2013;Creedon, Daniel/0000-0003-2912-3381; Goryachev,;Maxim/0000-0002-0257-4054;5;0;0;0;5;1098-0121;WOS:000332166200004;;;J;Joseph, B.;Bendele, M.;Simonelli, L.;Maugeri, L.;Pyon, S.;Kudo, K.;Nohara, M.;Mizokawa, T.;Saini, N. L.;Local structural displacements across the structural phase transition in;IrTe2: Order-disorder of dimers and role of Ir-Te correlations;PHYSICAL REVIEW B;88;22;224109;10.1103/PhysRevB.88.224109;DEC 31 2013;2013;We have studied local structure of IrTe2 by Ir L-3-edge extended x-ray;absorption fine structure (EXAFS) measurements as a function of;temperature to investigate origin of the observed structural phase;transition at T-s similar to 270 K. The EXAFS results show an appearance;of longer Ir-Te bond length (Delta R similar to 0.05 angstrom) at T <;T-s. We have found Ir-Ir dimerization, characterized by distinct Ir-Ir;bond lengths (Delta R similar to 0.13 angstrom), existing both above and;below T-s. The results suggest that the phase transition in IrTe2 should;be an order-disorder-like transition of Ir-Ir dimers assisted by Ir-Te;bond correlations, thus indicating important role of the interaction;between the Ir 5d and Te 5p orbitals in this transition.;KUDO, Kazutaka/B-1468-2011; NOHARA, Minoru/B-1476-2011;3;0;0;0;3;1098-0121;WOS:000332166200003;;;J;Kobayashi, Keita;Machida, Masahiko;Ota, Yukihiro;Nori, Franco;Massless collective excitations in frustrated multiband superconductors;PHYSICAL REVIEW B;88;22;224516;10.1103/PhysRevB.88.224516;DEC 31 2013;2013;We study collective excitations in three- and four-band superconductors;with interband frustration, which causes neither 0 nor pi interband;phases in the superconducting state. Using a low-energy spin Hamiltonian;originating from a multiband tight-binding model, we find that mass;reduction of a Leggett mode occurs in a wide parameter region of this;four-band system. As a limiting case, we have a massless Leggett mode.;This massless mode is related to the fact that the mean-field energy;does not depend on a relative phase of superconducting order parameters.;In other words, we find a link of the massless mode with a degeneracy;between a time-reversal-symmetry-breaking state (neither 0 nor pi;phases) and a time-reversal-symmetric state (either 0 or pi phases).;Therefore, the mass of collective modes characterizes well the;time-reversal symmetry in frustrated multiband superconductors.;Nori, Franco/B-1222-2009;Nori, Franco/0000-0003-3682-7432;2;0;0;0;2;1098-0121;WOS:000332166200006;;;J;Ohtsubo, Yoshiyuki;Yaji, Koichiro;Hatta, Shinichiro;Okuyama, Hiroshi;Aruga, Tetsuya;Two-dimensional states localized in subsurface layers of Ge(111);PHYSICAL REVIEW B;88;24;245310;10.1103/PhysRevB.88.245310;DEC 31 2013;2013;The origin of the two-dimensional surface states localized in subsurface;regions of the Ge(111) substrate has been studied by;density-functional-theory calculations, which were compared with the;experimental results of angle-resolved photoelectron spectroscopy. For;the Bi/Ge(111)-(root 3 x root 3)R30 degrees, Br/Ge(111)-(1x1), and;Tl/Ge(111)-(1x1) surfaces, we found that the surface states are;classified into three groups. The energy dispersion and the orbital;character for each band implies the relationship between the subsurface;states and the bulk heavy-hole, light-hole, and spin-orbit split-off;bands. These results indicate that the subsurface states originate from;the bulk bands that are perturbed due to the truncation of the;three-dimensional periodicity at the surface.;Okuyama, Hiroshi/H-7570-2014;1;0;0;0;1;1098-0121;WOS:000332166700002;;;J;Oiwake, M.;Ootsuki, D.;Noji, T.;Hatakeda, T.;Koike, Y.;Horio, M.;Fujimori, A.;Saini, N. L.;Mizokawa, T.;Electronic structure and phase separation of superconducting and;nonsuperconducting KxFe2-ySe2 revealed by x-ray photoemission;spectroscopy;PHYSICAL REVIEW B;88;22;224517;10.1103/PhysRevB.88.224517;DEC 31 2013;2013;We have investigated the electronic structure of superconducting (SC);and nonsuperconducting (non-SC) KxFe2-ySe2 using x-ray photoemission;spectroscopy (XPS). The spectral shape of the Fe 2p XPS is found to;depend on the amount of Fe vacancies. The Fe 2p(3/2) peak of the SC and;non-SC Fe-rich samples is accompanied by a shoulder structure on the;lower binding energy side, which can be attributed to the metallic phase;embedded in the Fe2+ insulating phase. The absence of the shoulder;structure in the non-SC Fe-poor sample allows us to analyze the Fe 2p;spectra using a FeSe4 cluster model. The Fe 3d-Se 4p charge-transfer;energy of the Fe2+ insulating phase is found to be similar to 2.3 eV;which is smaller than the Fe 3d-Fe 3d Coulomb interaction of similar to;3.5 eV. This indicates that the Fe2+ insulating state is the;charge-transfer type in the Zaanen-Sawatzky-Allen scheme. We also find a;substantial change in the valence-band XPS as a function of Fe content;and temperature. The metallic state at the Fermi level is seen in the SC;and non-SC Fe-rich samples and tends to be enhanced with cooling in the;SC sample.;0;0;0;0;0;1098-0121;WOS:000332166200007;;;J;Park, Keeseong;Nomura, Yusuke;Arita, Ryotaro;Llobet, Anna;Louca, Despina;Local strain and anharmonicity in the bonding of Bi2Se3-xTex topological;insulators;PHYSICAL REVIEW B;88;22;224108;10.1103/PhysRevB.88.224108;DEC 31 2013;2013;Using neutron diffraction and the pair density function analysis, the;local atomic structure of the three-dimensional Bi2Se3-xTex (x = 0, 1,;2, and 3) topological insulator is investigated. The substitution of Te;for Se in Bi2Se3-xTex (x = 0, 1, 2, and 3) is not random and its;preferred site is at the edges of the quintuple layer. This generates a;local strain due to the atom size mismatch between Se and Te. The site;preference is surprising given that the Bi to chalcogen bonds are;strongest when the ions are at the edges than in the middle layer. The;(Se/Te) atoms in the middle sublayer of the quintuple are coupled more;softly to the Bi atoms than those of the edges and have lower Debye;temperatures. This suggests that the atomic properties within the;quintuple layer are different than those at the edges. Additionally, the;results from band structure and density of state calculations are;reported to show the dependence of doping and temperature.;Arita, Ryotaro/D-5965-2012; Llobet, Anna/B-1672-2010;Arita, Ryotaro/0000-0001-5725-072X;;0;0;0;0;0;1098-0121;WOS:000332166200002;;;J;Pogorelov, Y. G.;Santos, M. C.;Loktev, V. M.;Impurity effects on electronic transport in ferropnictide;superconductors;PHYSICAL REVIEW B;88;22;224518;10.1103/PhysRevB.88.224518;DEC 31 2013;2013;Effects of impurities and disorder on transport properties by electronic;quasiparticles in superconducting iron pnictides are theoretically;considered. The most prominent new features compared to the case of pure;material should appear at high enough impurity concentration when a;specific narrow band of conducting quasiparticle states can develop;within the superconducting gap, around the position of localized;impurity level by a single impurity center. The predicted specific;threshold effects in the frequency-dependent optical conductivity and;temperature-dependent thermal conductivity and also in Seebeck and;Peltier coefficients can have interesting potentialities for practical;applications.;0;0;0;0;0;1098-0121;WOS:000332166200008;;;J;Reich, K. V.;Chen, T.;Efros, Al. L.;Shklovskii, B. I.;Photoluminescence in arrays of doped semiconductor nanocrystals;PHYSICAL REVIEW B;88;24;245311;10.1103/PhysRevB.88.245311;DEC 31 2013;2013;We study the dependence of the quantum yield of photoluminescence of a;dense, periodic array of semiconductor nanocrystals (NCs) on the level;of doping and NC size. Electrons introduced to NCs via doping quench;photoluminescence by the Auger process, so that practically only NCs;without electrons contribute to the photoluminescence. Computer;simulation and analytical theory are used to find a fraction of such;empty NCs as a function of the average number of donors per NC and NC;size. For an array of small spherical NCs, the quantization gap between;1S and 1P levels leads to transfer of electrons from NCs with large;number of donors to those without donors. As a result, empty NCs become;extinct, and photoluminescence is quenched abruptly at an average number;of donors per NC close to 1.8. The relative intensity of;photoluminescence is shown to correlate with the type of hopping;conductivity of an array of NCs.;2;0;0;0;2;1098-0121;WOS:000332166700003;;;J;Rousse, Gwenaelle;Rodriguez-Carvajal, Juan;Wurm, Calin;Masquelier, Christian;Spiral magnetic structure in the iron diarsenate LiFeAs2O7: A neutron;diffraction study;PHYSICAL REVIEW B;88;21;214433;10.1103/PhysRevB.88.214433;DEC 31 2013;2013;The magnetic structure of LiFeAs2O7 (monoclinic, space group C2) has;been solved using neutron powder diffraction. This compound presents an;antiferromagnetic behavior characterized by a long-range ordering;observed in the neutron diffraction patterns below the Neel temperature;(T-N = 35 K). The magnetic structure is found to be incommensurate with;respect to the nuclear structure, the magnetic peaks being indexed with;a propagation vector k = (0.709, 0, 0.155). The magnetic moments form a;general spiral (helical-cycloidal) arrangement with a constant magnetic;moment of 4.21 mu B. The magnetic structure is discussed in terms of;super-super exchange interactions involving two oxygen atoms belonging;to an AsO4 tetrahedron, and compared with the magnetic structure of the;di-phosphate analogue LiFeP2O7. The presence of triangular super-super;exchange paths is believed to be at the origin of this incommensurate;magnetic structure. The potential of LiFeAs2O7 as a possible;multiferroic material is discussed.;Rodriguez-Carvajal, Juan/C-4362-2008;Rodriguez-Carvajal, Juan/0000-0001-5582-2632;1;0;0;0;1;1098-0121;WOS:000332165200001;;;J;Smith, Peter M.;Kennett, Malcolm P.;Disorder effects on superconducting tendencies in the checkerboard;Hubbard model;PHYSICAL REVIEW B;88;21;214518;10.1103/PhysRevB.88.214518;DEC 31 2013;2013;The question of whether spatially inhomogeneous hopping in the two;dimensional Hubbard model can lead to enhancement of superconductivity;has been tackled by a number of authors in the context of the;checkerboard Hubbard model (CHM). We address the effects of disorder on;superconducting properties of the CHM by using exact diagonalization;calculations for both potential and hopping disorder. We characterize;the superconducting tendencies of the model by focusing on the;pair-binding energy, the spin gap, and d-wave pairing order parameter.;We find that superconducting tendencies, particularly the pair-binding;energy, are more robust to disorder when there is inhomogeneous hopping;than for the uniform Hubbard model. We also study all possible staggered;potentials for an eight-site CHM cluster and relate the behavior of;these configurations to the disordered system.;Kennett, Malcolm/I-2898-2012;1;0;0;0;1;1098-0121;WOS:000332165200003;;;J;Cortes-Huerto, R.;Sondon, T.;Saul, A.;Role of temperature in the formation and growth of gold monoatomic;chains: A molecular dynamics study;PHYSICAL REVIEW B;88;23;235438;10.1103/PhysRevB.88.235438;DEC 31 2013;2013;The effect of temperature on the formation and growth of monoatomic;chains is investigated by extensive molecular dynamics simulations using;a semiempirical potential based on the second-moment approximation to;the tight-binding Hamiltonian. Gold nanowires, with an aspect ratio of;similar to 13 and a cross section of similar to 1 nm(2), are stretched;at a rate of 3 m/s in the range of temperatures 5-600 K with 50 initial;configurations per temperature. A detailed study on the probability to;form monoatomic chains (MACs) is presented. Two domains are apparent in;our simulations: one at T < 100 K, where MACs develop from crystalline;disorder at the constriction, and the other at T > 100 K, where MACs;form as a consequence of plastic deformation of the nanowire. Our;results show that the average length of the formed MACs maximizes at T =;150 K, which is supported by simple energy arguments.;0;0;0;0;0;1098-0121;WOS:000332166400004;;;J;Despoja, V.;Loncaric, I.;Mowbray, D. J.;Marusic, L.;Quasiparticle spectra and excitons of organic molecules deposited on;substrates: G(0)W(0)-BSE approach applied to benzene on graphene and;metallic substrates;PHYSICAL REVIEW B;88;23;235437;10.1103/PhysRevB.88.235437;DEC 31 2013;2013;We present an alternative methodology for calculating the quasiparticle;energy, energy loss, and optical spectra of a molecule deposited on;graphene or a metallic substrate. To test the accuracy of the method it;is first applied to the isolated benzene (C6H6) molecule. The;quasiparticle energy levels and especially the energies of the benzene;excitons (triplet, singlet, optically active and inactive) are in very;good agreement with available experimental results. It is shown that the;vicinity of the various substrates [pristine/doped graphene or (jellium);metal surface] reduces the quasiparticle highest occupied molecular;orbital-lowest unoccupied molecular orbital (HOMO-LUMO) gap by an amount;that slightly depends on the substrate type. This is consistent with the;simple image theory predictions. It is even shown that the substrate;does not change the energy of the excitons in the isolated molecule. We;prove (in terms of simple image theory) that energies of the excitons;are indeed influenced by two mechanisms which cancel each other. We;demonstrate that the benzene singlet optically active (E-1u) exciton;couples to real electronic excitations in the substrate. This causes it;substantial decay, such as Gamma approximate to 174 meV for pristine;graphene and Gamma approximate to 362 meV for metal surfaces as the;substrate. However, we find that doping graphene does not influence the;E-1u exciton decay rate.;Mowbray, Duncan/A-5531-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Loncaric, Ivor/J-6677-2014;Mowbray, Duncan/0000-0002-8520-0364; Loncaric, Ivor/0000-0002-5554-4641;2;0;0;0;2;1098-0121;WOS:000332166400003;;;J;Dutt, Prasenjit apq;Le Hur, Karyn;Strongly correlated thermoelectric transport beyond linear response;PHYSICAL REVIEW B;88;23;235133;10.1103/PhysRevB.88.235133;DEC 31 2013;2013;We investigate nonlinear thermoelectric transport through quantum;impurity systems with strong on-site interactions. We show that the;steady-state transport through interacting quantum impurities in contact;with electron reservoirs at significantly different temperatures can be;captured by an effective-equilibrium density matrix, expressed compactly;in terms of the Lippmann-Schwinger operators of the system. In addition,;the reservoirs can be maintained at arbitrary chemical potentials. The;interplay between the temperature gradient and bias voltage gives rise;to a nontrivial breaking of particle-hole symmetry in the strongly;correlated regime, manifest in the Abrikosov-Suhl localized electron;resonance. This purely many-body effect, which is in agreement with;experimental results, is beyond the purview of mean-field arguments.;2;0;0;0;2;1098-0121;WOS:000332166400001;;;J;Li, Yunpu;King, Jonathan P.;Reimer, Jeffrey A.;Meriles, Carlos A.;Near-band-gap photoinduced nuclear spin dynamics in semi-insulating;GaAs: Hyperfine- and quadrupolar-driven relaxation;PHYSICAL REVIEW B;88;23;235211;10.1103/PhysRevB.88.235211;DEC 31 2013;2013;Understanding and manipulating spin polarization and transport in the;vicinity of semiconductor-hosted defects is a problem of present;technological and fundamental importance. Here, we use high-field;magnetic resonance to monitor the relaxation dynamics of spin-3/2 nuclei;in semi-insulating GaAs. Our experiments benefit from the conditions;created in the limit of low illumination intensities, where intermittent;occupation of the defect site by photoexcited electrons leads to;electric field gradient fluctuations and concomitant spin relaxation of;the neighboring quadrupolar nuclei. We find indication of a;heterogeneous distribution of polarization, governed by different;classes of defects activated by either weak or strong laser excitation.;Upon application of a train of light pulses of variable repetition rate;and on/off ratio, we uncover an intriguing regime of mesoscale nuclear;spin diffusion restricted by long-range, nonuniform electric field;gradients. Given the slow time scale governing nuclear spin evolution,;such optically induced polarization patterns could be exploited as a;contrast mechanism to expose dark lattice defects or localized charges;with nanoscale resolution.;0;0;0;0;0;1098-0121;WOS:000332166400002;;;J;Adolff, Christian F.;Haenze, Max;Vogel, Andreas;Weigand, Markus;Martens, Michael;Meier, Guido;Self-organized state formation in magnonic vortex crystals;PHYSICAL REVIEW B;88;22;224425;10.1103/PhysRevB.88.224425;DEC 30 2013;2013;We study the polarization-state formation in magnonic vortex crystals;via scanning transmission x-ray microscopy. Self-organized state;formation is observed by adiabatic reduction of a high-frequency field;excitation. The emerging polarization patterns are shown to depend on;the frequency of excitation and the strength of the dipolar interaction;between the elements. In spite of the complexity of the investigated;system, global order caused by local interactions creates polarization;states with a high degree of symmetry. A fundamental dipole model and;coupled equations of motion are adopted to analytically describe the;experimental results. The emerging states can be predicted by a;fundamental stability criterion based on the excitability of eigenmodes;in the crystal. Micromagnetic simulations give additional insight into;the underlying processes.;2;0;0;0;2;1098-0121;WOS:000332162300008;;;J;Berridge, A. M.;Green, A. G.;Nonequilibrium conductivity at quantum critical points;PHYSICAL REVIEW B;88;22;220512;10.1103/PhysRevB.88.220512;DEC 30 2013;2013;Quantum criticality provides an important route to revealing universal;nonequilibrium behavior. A canonical example of a critical point is the;Bose-Hubbard model, which we study under the application of an electric;field. A Boltzmann transport formalism and is an element of expansion;are used to obtain the nonequilibrium conductivity and current noise.;This approach allows us to explicitly identify how a universal;nonequilibrium steady state is maintained, by identifying the;rate-limiting step in balancing Joule heating and dissipation to a heat;bath. It also reveals that the nonequilibrium distribution function is;very far from a thermal distribution.;1;0;0;0;1;1098-0121;WOS:000332162300004;;;J;Bojesen, Troels Arnfred;Babaev, Egor;Sudbo, Asle;Time reversal symmetry breakdown in normal and superconducting states in;frustrated three-band systems;PHYSICAL REVIEW B;88;22;220511;10.1103/PhysRevB.88.220511;DEC 30 2013;2013;We discuss the phase diagram and phase transitions in U(1) x Z(2);three-band superconductors with broken time reversal symmetry. We find;that beyond mean-field approximation and for sufficiently strong;frustration of interband interactions there appears an unusual metallic;state precursory to a superconducting phase transition. In that state,;the system is not superconducting. Nonetheless, it features a;spontaneously broken Z(2) time reversal symmetry. By contrast, for weak;frustration of interband coupling the energy of a domain wall between;different Z(2) states is low and thus fluctuations restore broken time;reversal symmetry in the superconducting state at low temperatures.;2;0;0;0;2;1098-0121;WOS:000332162300003;;;J;Gracia-Salgado, Rogelio;Garcia-Chocano, Victor M.;Torrent, Daniel;Sanchez-Dehesa, Jose;Negative mass density and rho-near-zero quasi-two-dimensional;metamaterials: Design and applications;PHYSICAL REVIEW B;88;22;224305;10.1103/PhysRevB.88.224305;DEC 30 2013;2013;We report the design and the characterization of artificial structures;made of periodical distributions of structured cylindrical scatterers;embedded in a two-dimensional (2D) waveguide. For certain values of;their geometrical parameters they show simultaneously negative effective;bulk modulus and negative effective mass density. Here our analysis is;focused on the frequencies where they behave like materials with;negative density or density near zero (DNZ). The scattering units;consist of a rigid cylindrical core surrounded by an anisotropic shell;divided in angular sectors. The units are embedded in a 2D waveguide;whose height is smaller than the length of the cylinders, which makes;the structure quasi-2D. We have obtained the dispersion relation of the;surface acoustic waves excited at frequencies with negative effective;density. Also, we report phenomena associated with their DNZ behavior,;such as tunneling through narrow channels, control of the radiation;field, perfect transmission through sharp corners, and power splitting.;Preliminary experiments performed on samples with millimeter-scale;dimensions demonstrated their single-negative behavior, with the main;drawback being the strong losses measured at the frequencies where the;negative behavior is observed.;sanchez-dehesa, jose/L-9726-2014;1;0;0;0;1;1098-0121;WOS:000332162300006;;;J;Klar, D.;Brena, B.;Herper, H. C.;Bhandary, S.;Weis, C.;Krumme, B.;Schmitz-Antoniak, C.;Sanyal, B.;Eriksson, O.;Wende, H.;Oxygen-tuned magnetic coupling of Fe-phthalocyanine molecules to;ferromagnetic Co films;PHYSICAL REVIEW B;88;22;224424;10.1103/PhysRevB.88.224424;DEC 30 2013;2013;The coupling of submonolayer coverages of Fe-phthalocyanine molecules on;bare and oxygen-covered ferromagnetic Co(001) films was studied by;x-ray-absorption spectroscopy, especially the x-ray magnetic circular;dichroism, in combination with density functional theory. We observe;that the magnetic moments of the paramagnetic molecules are aligned even;at room temperature, resulting from a magnetic coupling to the;substrate. While the magnetization of the Fe ions directly adsorbed on;the Co surface is parallel to the magnetization of the Co film, the;introduction of an oxygen interlayer leads to an antiparallel alignment.;As confirmed by theory, the coupling strength is larger for the system;FePc/Co than for FePc/O/Co, causing a stronger temperature dependence of;the Fe magnetization for the latter system. Furthermore, the;calculations reveal that the coupling mechanism changes due to the O;layer from mostly direct exchange to Co of the bare surface to a 180;degrees antiferromagnetic superexchange via the O atoms. Finally, by;comparing the experimental x-ray-absorption spectra at the N K edge with;the corresponding calculations, the contribution of the individual;orbitals has been determined and the two inequivalent N atoms of the;molecules could be distinguished.;Wende, Heiko/J-8505-2012; Schmitz-Antoniak, Carolin/C-2234-2009;Schmitz-Antoniak, Carolin/0000-0002-8450-3515;3;0;0;0;3;1098-0121;WOS:000332162300007;;;J;Moor, Andreas;Volkov, Anatoly F.;Efetov, Konstantin B.;Time-dependent equation for the magnetic order parameter near the;quantum critical point in multiband superconductors with a spin-density;wave;PHYSICAL REVIEW B;88;22;224513;10.1103/PhysRevB.88.224513;DEC 30 2013;2013;Using a simple two-band model for Fe-based pnictides and the generalized;Eilenberger equation, we present a microscopic derivation of a;time-dependent equation for the amplitude of the spin-density wave near;the quantum critical point where it turns to zero. This equation;describes the dynamics of the magnetic (m), as well as the;superconducting order parameter (Delta). It is valid at low temperatures;T and small m (T, m << Delta) in a region of coexistence of both order;parameters, m and Delta. The boundary of this region is found in the;space of the nesting parameter {mu(0), mu(f)}, where mu(0) describes the;relative position of the electron and the hole pockets on the energy;scale and mu(phi) accounts for the ellipticity of the electron pocket.;At low T the number of quasiparticles is small due to the presence of;the energy gap Delta, and therefore the quasiparticles do not play a;role in the relaxation of m. This circumstance allows one to derive the;time-dependent equation for m in contrast to the case of conventional;superconductors for which the time-dependent Ginzburg-Landau equation;can be derived near T-c only in some special cases (high concentration;of paramagnetic impurities) [L. P. Gor'kov and G. M. Eliashberg, Sov.;Phys. JETP 27, 328 (1968)]. In the stationary case the derived equation;is valid at arbitrary temperatures. We find a solution of the stationary;equation which describes a domain wall in the magnetic structure. In the;center of the domain wall the superconducting order parameter has a;maximum, which means a local enhancement of superconductivity. Using the;derived time-dependent equation for m, we investgate also the stability;of a uniform commensurate spin-density wave (SDW) and obtain the values;of {mu(0), mu(f)} at which the first-order transition into the state;with m = 0 takes place or the transition to the state with an;inhomogeneous SDW occurs.;DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000332162300009;;;J;Singh, Yogesh;Tokiwa, Y.;Dong, J.;Gegenwart, P.;Spin liquid close to a quantum critical point in Na4Ir3O8;PHYSICAL REVIEW B;88;22;10.1103/PhysRevB.88.220413;DEC 30 2013;2013;Na4Ir3O8 is a candidate material for a three-dimensional quantum spin;liquid on the hyperkagome lattice. We present thermodynamic measurements;of heat capacity C and thermal conductivity kappa on high-quality;polycrystalline samples of Na4Ir3O8 down to T = 500 and 75 mK,;respectively. Absence of long-range magnetic order down to T = 75 mK;strongly supports claims of a spin-liquid ground state. The constant;magnetic susceptibility chi below T approximate to 25 K and the presence;of a small but finite linear-T term in C(T) suggest the presence of;gapless spin excitations. Additionally, the magnetic Gruneisen ratio;shows a divergence as T -> 0 K and a scaling behavior, which clearly;demonstrates that Na4Ir3O8 is situated close to a zero-field QCP.;Dong, Jinkui/J-3603-2013;2;0;0;0;2;1098-0121;WOS:000332162300002;;;J;Taen, Toshihiro;Ohtake, Fumiaki;Akiyama, Hiroki;Inoue, Hiroshi;Sun, Yue;Pyon, Sunseng;Tamegai, Tsuyoshi;Pair-breaking effects induced by 3-MeV proton irradiation in;Ba1-xKxFe2As2;PHYSICAL REVIEW B;88;22;224514;10.1103/PhysRevB.88.224514;DEC 30 2013;2013;Pair-breaking effects induced by 3-MeV proton irradiations are examined;in underdoped, optimally doped, and overdoped Ba1-xKxFe2As2 single;crystals in terms of suppression of the superconducting critical;temperature T-c. The small residual resistivity (RR) in as-grown;crystals shows the presence of negligible intrinsic scatterings, which;makes this material a model system for studying the effect of;artificially introduced scatterings. The RR and Tc change linearly with;the proton dose. As in the case of proton irradiation in Co-doped;BaFe2As2, we do not detect any low-temperature upturns in resistivity;attributable to magnetic scattering or localization. Regardless of K;doping levels, the critical value of the normalized scattering rate is;much higher than that expected in s(perpendicular to)-wave;superconductors.;悦, 孙/B-1373-2013;悦, 孙/0000-0002-5189-5460;3;0;0;0;3;1098-0121;WOS:000332162300010;;;J;Yan, Ming;Kakay, Attila;Andreas, Christian;Hertel, Riccardo;Spin-Cherenkov effect and magnonic Mach cones;PHYSICAL REVIEW B;88;22;220412;10.1103/PhysRevB.88.220412;DEC 30 2013;2013;We report on the Cherenkov-type excitation of spin waves (SWs) in;ferromagnets. Our micromagnetic simulations show that a localized;magnetic field pulse moving sufficiently fast along the surface of a;ferromagnet generates a SW boom, with a Mach-type cone of propagating;wave fronts. The SWs are formed when the velocity of the source exceeds;the propagation speed of SWs. Unlike the single cone of the usual;Cherenkov effect, we find that the magnetic Mach cone consists of two;wave fronts with different wave numbers. In patterned thin strips, this;magnetic analog of the Cherenkov effect should enable the excitation of;SWs with well-defined and velocity-dependent frequency. It thereby;provides a promising route towards tunable SW generation, with important;potential for applications in magnonic devices.;2;0;0;0;2;1098-0121;WOS:000332162300001;;;J;Yang, Lusann;Ceder, Gerbrand;Data-mined similarity function between material compositions;PHYSICAL REVIEW B;88;22;224107;10.1103/PhysRevB.88.224107;DEC 30 2013;2013;A new method for assessing the similarity of material compositions is;described. A similarity measure is important for the classification and;clustering of compositions. The similarity of the material compositions;is calculated utilizing a data-mined ionic substitutional similarity;based upon the probability with which two ions will substitute for each;other within the same structure prototype. The method is validated via;the prediction of crystal structure prototypes for oxides from the;Inorganic Crystal Structure Database, selecting the correct prototype;from a list of known prototypes within five guesses 75% of the time. It;performs particularly well on the quaternary oxides, selecting the;correct prototype from a list of known prototypes on the first guess 65%;of the time.;1;0;0;0;1;1098-0121;WOS:000332162300005;;;J;Bartelt, Norman C.;Nie, Shu;Starodub, Elena;Bernal-Villamil, Ivan;Gallego, Silvia;Vergara, Lucia;McCarty, Kevin F.;de la Figuera, Juan;Order-disorder phase transition on the (100) surface of magnetite;PHYSICAL REVIEW B;88;23;235436;10.1103/PhysRevB.88.235436;DEC 30 2013;2013;Using low-energy electron diffraction, we show that the room-temperature;(root 2 x root 2) R45 degrees reconstruction of Fe3O4(100) reversibly;disorders at similar to 450 degrees C. Short-range order persists above;the transition, suggesting that the transition is second order and;Ising-like. We interpret the transition in terms of a model in which;subsurface Fe3+ is replaced by Fe2+ as the temperature is raised. This;model reproduces the structure of antiphase boundaries previously;observed with scanning tunneling microscopy, as well as the continuous;nature of the transition. To account for the observed transition;temperature, the energy cost of each charge rearrangement is 82 meV.;de la Figuera, Juan/E-7046-2010; Gallego Queipo, Silvia/J-3411-2012;de la Figuera, Juan/0000-0002-7014-4777;;1;0;0;0;1;1098-0121;WOS:000332163500007;;;J;Cazorla, Claudio;Iniguez, Jorge;Insights into the phase diagram of bismuth ferrite from quasiharmonic;free-energy calculations;PHYSICAL REVIEW B;88;21;214430;10.1103/PhysRevB.88.214430;DEC 30 2013;2013;We have used first-principles methods to investigate the phase diagram;of multiferroic bismuth ferrite (BiFeO3 or BFO), revealing the energetic;and vibrational features that control the occurrence of various relevant;structures. More precisely, we have studied the relative stability of;four low-energy BFO polymorphs by computing their free energies within;the quasiharmonic approximation, introducing a practical scheme that;allows us to account for the main effects of spin disorder. As expected,;we find that the ferroelectric ground state of the material (with R3c;space group) transforms into an orthorhombic paraelectric phase (Pnma);upon heating. We show that this transition is not significantly affected;by magnetic disorder, and that the occurrence of the Pnma structure;relies on its being vibrationally (although not elastically) softer than;the R3c phase. We also investigate a representative member of the family;of nanotwinned polymorphs recently predicted for BFO [S. Prosandeev et;al., Adv. Funct. Mater. 23, 234 (2013)] and discuss their possible;stabilization at the boundaries separating the R3c and Pnma regions in;the corresponding pressure-temperature phase diagram. Finally, we;elucidate the intriguing case of the so-called supertetragonal phases of;BFO: Our results explain why such structures have never been observed in;the bulk material, despite their being stable polymorphs of very low;energy. Quantitative comparison with experiment is provided whenever;possible, and the relative importance of various physical effects;(zero-point motion, spin fluctuations, thermal expansion) and technical;features (employed exchange-correlation energy density functional) is;discussed. Our work attests the validity and usefulness of the;quasiharmonic scheme to investigate the phase diagram of this complex;oxide, and prospective applications are discussed.;Iniguez, Jorge/B-6856-2009;Iniguez, Jorge/0000-0001-6435-3604;0;0;0;0;0;1098-0121;WOS:000332161300005;;;J;Chandrasekaran, Anand;Damjanovic, Dragan;Setter, Nava;Marzari, Nicola;Defect ordering and defect-domain-wall interactions in PbTiO3: A;first-principles study;PHYSICAL REVIEW B;88;21;214116;10.1103/PhysRevB.88.214116;DEC 30 2013;2013;The properties of ferroelectric materials, such as lead zirconate;titanate (PZT), are heavily influenced by the interaction of defects;with domain walls. These defects are either intrinsic or are induced by;the addition of dopants. We study here PbTiO3 (the end member of a key;family of solid solutions) in the presence of acceptor (Fe) and donor;(Nb) dopants, and the interactions of the different defects and defect;associates with the domain walls. For the case of iron acceptors, the;calculations point to the formation of defect associates involving an;iron substitutional defect and a charged oxygen vacancy (Fe-Ti'-V-O '').;This associate exhibits a strong tendency to align in the direction of;the bulk polarization; in fact, ordering of defects is also observed in;pure PbTiO3 in the form of lead-oxygen divacancies. Conversely,;calculations on donor-doped PbTiO3 do not indicate the formation of;polar defect complexes involving donor substitutions. Last, it is;observed that both isolated defects in donor-doped materials and defect;associates in acceptor-doped materials are more stable at 180 degrees.;domain walls. However, polar defect complexes lead to asymmetric;potentials at domain walls due to the interaction of the defect;polarization with the bulk polarization. The relative pinning;characteristics of different defects are then compared, to develop an;understanding of defect-domain-wall interactions in both doped and pure;PbTiO3. These results may also help in understanding hardening and;softening mechanisms in PZT.;Damjanovic, Dragan/A-8231-2008;Damjanovic, Dragan/0000-0002-9596-7438;3;1;0;0;3;1098-0121;WOS:000332161300002;;;J;Choi, Minseok;Janotti, Anderson;Van de Walle, Chris G.;Native point defects in LaAlO3: A hybrid functional study;PHYSICAL REVIEW B;88;21;214117;10.1103/PhysRevB.88.214117;DEC 30 2013;2013;We investigate the electronic structure of defects in LaAlO3 (LAO) and;their effects on electronic properties of bulk and heterostructures. Our;calculations indicate that vacancies have lower formation energies than;interstitials and antisites. The La vacancy (V-La) and the Al vacancy;(V-Al) are deep acceptors, while the oxygen vacancy (VO) is a deep;donor. The impact of these defects on the performance of;metal-oxide-semiconductor devices is analyzed by placing the LAO band;edges and defect levels with respect to the band edges of GaN, InGaAs,;and Si. V-O introduces levels in the gap or in the vicinity of the;semiconductor conduction band, resulting in carrier traps and/or leakage;current through the gate oxide, while V-La and V-Al are sources of;negative fixed charges. We also discuss how oxygen vacancies in LAO can;influence the observed two-dimensional electron gas (2DEG) in;LaAlO3/SrTiO3 heterostructures. We conclude that V-O in the LAO layer;may provide electrons that fill compensating surface states, resulting;in higher 2DEG densities, at least for modest LAO layer thicknesses.;Van de Walle, Chris/A-6623-2012;Van de Walle, Chris/0000-0002-4212-5990;4;0;0;0;4;1098-0121;WOS:000332161300003;;;J;Haham, Noam;Konczykowski, Marcin;Kuiper, Bouwe;Koster, Gertjan;Klein, Lior;Testing dependence of anomalous Hall effect on resistivity in SrRuO3 by;its increase with electron irradiation;PHYSICAL REVIEW B;88;21;214431;10.1103/PhysRevB.88.214431;DEC 30 2013;2013;We measure the anomalous Hall effect (AHE) in several patterns of the;itinerant ferromagnet SrRuO3 before and after the patterns are;irradiated with electrons. The irradiation increases the resistivity of;the patterns due to the introduction of point defects and we find that;the AHE coefficient R-s scales with the total resistivity before and;after irradiation which indicates that the AHE is determined by the;total resistivity. We discuss possible origins of slight deviations from;scaling that are observed at low temperature, particularly below 70 K.;0;0;0;0;0;1098-0121;WOS:000332161300006;;;J;Heinhold, R.;Williams, G. T.;Cooil, S. P.;Evans, D. A.;Allen, M. W.;Influence of polarity and hydroxyl termination on the band bending at;ZnO surfaces;PHYSICAL REVIEW B;88;23;235315;10.1103/PhysRevB.88.235315;DEC 30 2013;2013;Surface sensitive synchrotron x-ray photoelectron spectroscopy (XPS) and;real-time in situ XPS were used to study the thermal stability of the;hydroxyl termination and downward band bending on the polar surfaces of;ZnO single crystals. On the O-polar face, the position of the Fermi;level could be reversibly cycled between the conduction band and the;band gap over an energetic distance of approximately 0.8 eV (similar to;1/4 of the band gap) by controlling the surface H coverage using simple;ultrahigh vacuum (UHV) heat treatments up to 750 degrees C, dosing with;H2O/H-2 and atmospheric exposure. A metallic to semiconductorlike;transition in the electronic nature of the O-polar face was observed at;an H coverage of approximately 0.9 monolayers. For H coverage less than;this, semiconducting (depleted) O-polar surfaces were created that were;reasonably stable in UHV conditions. In contrast, the downward band;bending on the Zn-polar face was significantly more resilient, and;depleted surfaces could not be prepared by heat treatment alone.;3;0;0;0;3;1098-0121;WOS:000332163500005;;;J;Levy, Peter M.;Yang, Hongxin;Chshiev, Mairbek;Fert, Albert;Spin Hall effect induced by Bi impurities in Cu: Skew scattering and;side-jump;PHYSICAL REVIEW B;88;21;214432;10.1103/PhysRevB.88.214432;DEC 30 2013;2013;The spin Hall effect (SHE) has recently turned out to be an interesting;tool for the conversion between charge and spin currents, the conversion;factor being characterized by the spin Hall angle Phi(H). Large spin;Hall angles have been now measured in heavy metals like W(Phi(H) =;-0.33) and Cu doped with Bi impurities (Phi(H) = -0.24). In this article;we express the contributions to the SHE induced by skew scattering and;scattering with side-jump from Bi impurities in Cu, and we use ab initio;calculations of the electronic structure of CuBi alloys to estimate the;values of these two contributions. The predominant effect comes from;skew scattering; the spin Hall angle is negative in agreement with;experiments, but the calculated amplitude is smaller.;Chshiev, Mairbek/A-9742-2008; Yang, HongXin/H-5719-2012;Chshiev, Mairbek/0000-0001-9232-7622;;0;0;0;0;0;1098-0121;WOS:000332161300007;;;J;Lu, Wenlai;Yang, Ping;Song, Wen Dong;Chow, Gan Moog;Chen, Jing Sheng;Control of oxygen octahedral rotations and physical properties in SrRuO3;films;PHYSICAL REVIEW B;88;21;214115;10.1103/PhysRevB.88.214115;DEC 30 2013;2013;Control of octahedral rotations in the ABO(3) perovskite oxides has been;of great interest due to its potential in rationally discovering and;designing new multifunctional phases. In this study, we show that;octahedral rotations of the SrRuO3 films can be controlled by oxygen;vacancies as well as by interfacial coupling, which further determines;the physical properties. Half-integer reflections using high-resolution;synchrotron x-ray diffraction were carried out to determine the;octahedral rotation pattern of SrRuO3 films on SrTiO3 substrates. The;transition of RuO6 rotation pattern accompanied by the structural change;from monoclinic P2(1)/m to tetragonal F4/mmc can be understood from the;preference of oxygen vacancies in the SrO atomic plane and the coupling;of octahedra across the interface between film and substrate. The field;angle dependence of magnetoresistance further confirmed the structural;phase transition with changes in octahedral rotations. The monoclinic;phase has the uniaxial magnetic easy axis 30 away from the [001];direction towards the [010] direction while the tetragonal phase has;uniaxial magnetic easy axis along the fourfold axis which is;perpendicular to the film surface. This study demonstrates the ability;to control the octahedral rotations in perovskite films and its;importance when designing thin films and multilayers with desired;functional property.;Chen, Jingsheng/D-9107-2011; Yang, Ping/C-5612-2008;1;0;0;0;1;1098-0121;WOS:000332161300001;;;J;Marcano, N.;Algarabel, P. A.;Rodriguez Fernandez, J.;Magen, C.;Morellon, L.;Singh, Niraj K.;Gschneidner, K. A., Jr.;Pecharsky, V. K.;Ibarra, M. R.;Effects of pressure on the magnetic-structural and Griffiths-like;transitions in Dy5Si3Ge;PHYSICAL REVIEW B;88;21;214429;10.1103/PhysRevB.88.214429;DEC 30 2013;2013;Magnetization studies have been performed on a polycrystalline sample of;Dy5Si3Ge as a function of an applied magnetic field (up to 50 kOe) and;hydrostatic pressure (up to 10 kbar) in the 5-300 K temperature range.;The anomalous behavior of the magnetic susceptibility indicates that a;Griffiths-like phase exists at low magnetic fields and pressures up to;10 kbar. We present evidence that the high-temperature second-order;ferromagnetic transition can be coupled with the low-temperature;first-order crystallographic transformation into a single first-order;magnetic-crystallographic transformation using a magnetic field and;hydrostatic pressure as tuning parameters. The effect of pressure on the;Griffiths-like phase is reported and analyzed in the framework of the;complex competition between the interslab and intraslab magnetic;interactions.;Magen, Cesar/A-2825-2013; Morellon, Luis/K-6922-2014; Marcano Aguado, Noelia/F-9446-2010;
2:75:34 Structural Analysis of Pentacene Thin Film Growth on Polycrystalline O-x-Au Surfaces Using Scanning Tunneling Microscopy
DOI:10.1021/nn9015218 JN:ACS NANO PY:2010 TC:5 AU: Zheng, Yi;Wee, Andrew Thye Shen;Chandrasekhar, Natarajan;
2:75:35 Mobility determination using frequency dependence of imaginary part of impedance (Im Z) for organic and polymeric thin films
DOI:10.1063/1.3544935 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Tripathi, Durgesh C.;Tripathi, Awnish K.;Mohapatra, Y. N.;
2:75:36 Self-consistent model of unipolar transport in organic semiconductor diodes: Accounting for a realistic density-of-states distribution
DOI:10.1063/1.3569839 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Yampolskii, S. V.;Genenko, Yu. A.;Melzer, C.;von Seggern, H.;
2:75:37 Advanced percolation solution for hopping conductivity
DOI:10.1103/PhysRevB.87.235204 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Nenashev, A. V.;Jansson, F.;Oelerich, J. O.;Huemmer, D.;Dvurechenskii, A. V.;Gebhard, F.;Baranovskii, S. D.;
2:75:38 Charge injection barrier and interface dipole formation in pentacene/semimetal heterostructures
DOI:10.1063/1.3486166 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Hatch, Richard C.;Sanchez, Casey W.;Hoechst, Hartmut;
2:75:39 The effect of the trap density and depth on the current bistability in organic bistable devices
DOI:10.1063/1.3626071 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Jung, Jae Hun;Kim, Tae Whan;
2:75:40 Interpretation of trap-limited mobility in space-charge limited current in organic layers with exponential density of traps
DOI:10.1063/1.3622615 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:11 AU: Montero, Jose M.;Bisquert, Juan;
2:75:41 Optimum experimental design for extended Gaussian disorder modeled organic semiconductor devices
DOI:10.1063/1.4794365 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Weiler, C. K. F.;Koerkel, S.;
2:75:42 Transient space-charge-perturbed currents of N,N '-diphenyl-N,N '-bis(1-naphthyl)-1,1 '-biphenyl-4,4 '-diamine and N,N '-diphenyl-N,N '-bis(3-methylphenyl)-1,1 '-biphenyl-4,4 '-diamine in diode structures
DOI:10.1063/1.4875690 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Li, Haoyuan;Duan, Lian;Zhang, Deqiang;Qiu, Yong;
2:75:43 The time-of-flight experiment and the average transit-time
DOI:10.1063/1.4759357 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Rocha, Rodrigo P.;Freire, Jose A.;
2:76:1 Elucidating the nanoscale origins of organic electronic function by conductive atomic force microscopy
DOI:10.1039/c3tc32050b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Mativetsky, Jeffrey M.;Loo, Yueh-Lin;Samori, Paolo;
2:76:2 Nanostructure and Optoelectronic Characterization of Small Molecule Bulk Heterojunction Solar Cells by Photoconductive Atomic Force Microscopy
DOI:10.1002/adfm.201000799 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:55 AU: Dang, Xuan-Dung;Tamayo, Arnold B.;Seo, Junghwa;Hoven, Corey V.;Walker, Bright;Nguyen, Thuc-Quyen;
2:76:3 Mapping Nanoscale Variations in Photochemical Damage of Polymer/Fullerene Solar Cells with Dissipation Imaging
DOI:10.1021/nn404920t JN:ACS NANO PY:2013 TC:4 AU: Cox, Phillip A.;Waldow, Dean A.;Dupper, Torin J.;Jesse, Stephen;Ginger, David S.;
2:76:4 pi-Extended TTF: a versatile molecule for organic electronics
DOI:10.1039/c2jm15710a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:43 AU: Brunetti, Fulvio G.;Luis Lopez, Juan;Atienza, Carmen;Martin, Nazario;
2:76:5 Single Nanowire OPV Properties of a Fullerene-Capped P3HT Dyad Investigated Using Conductive and Photoconductive AFM
DOI:10.1021/nn204565h JN:ACS NANO PY:2012 TC:24 AU: Kamkar, Daniel A.;Wang, Mingfeng;Wudl, Fred;Thuc-Quyen Nguyen;
2:76:6 Nanoscale Characterization of Tetrabenzoporphyrin and Fullerene-Based Solar Cells by Photoconductive Atomic Force Microscopy
DOI:10.1002/adma.201003644 JN:ADVANCED MATERIALS PY:2011 TC:35 AU: Guide, Michele;Dang, Xuan-Dung;Thuc-Quyen Nguyen;
2:76:7 Understanding TiO2 Size-Dependent Electron Transport Properties of a Graphene-TiO2 Photoanode in Dye-Sensitized Solar Cells Using Conducting Atomic Force Microscopy
DOI:10.1002/adma.201303327 JN:ADVANCED MATERIALS PY:2013 TC:11 AU: He, Ziming;Hung Phan;Liu, Jing;Thuc-Quyen Nguyen;Tan, Timothy Thatt Yang;
2:76:8 Self-Assembly and Charge-Transport Properties of a Polythiophene-Fullerene Triblock Copolymer
DOI:10.1002/adma.200902696 JN:ADVANCED MATERIALS PY:2010 TC:43 AU: Dante, Mark;Yang, Changduk;Walker, Bright;Wudl, Fred;Nguyen, Thuc-Quyen;
2:76:9 Simultaneous Study of Exciton Diffusion/Dissociation and Charge Transport in a Donor-Acceptor Bilayer: Pentacene on a C-60-terminated Self-Assembled Monolayer
DOI:10.1002/adma.201302934 JN:ADVANCED MATERIALS PY:2013 TC:2 AU: Park, Byoungnam;Cho, Seong Eun;Kim, Youngjun;Lee, Won Jin;You, Nam-Ho;In, Insik;Reichmanis, Elsa;
2:76:10 Spectroscopic Imaging of Photopotentials and Photoinduced Potential Fluctuations in a Bulk Heterojunction Solar Cell Film
DOI:10.1021/nn300941f JN:ACS NANO PY:2012 TC:12 AU: Luria, Justin L.;Hoepker, Nikolas;Bruce, Robert;Jacobs, Andrew R.;Groves, Chris;Marohn, John A.;
2:76:11 Origin of Nanoscale Variations in Photoresponse of an Organic Solar Cell
DOI:10.1021/nl9040516 JN:NANO LETTERS PY:2010 TC:38 AU: Hamadani, Behrang H.;Jung, Suyong;Haney, Paul M.;Richter, Lee J.;Zhitenev, Nikolai B.;
2:76:12 Solution-Processed Nanostructured Benzoporphyrin with Polycarbonate Binder for Photovoltaics
DOI:10.1002/adma.201100028 JN:ADVANCED MATERIALS PY:2011 TC:22 AU: Ku, Sung-Yu;Liman, Christopher D.;Cochran, Justin E.;Toney, Michael F.;Chabinyc, Michael L.;Hawker, Craig J.;
2:76:13 Imaging of nanoscale charge transport in bulk heterojunction solar cells
DOI:10.1063/1.3595669 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Hamadani, Behrang H.;Gergel-Hackett, Nadine;Haney, Paul M.;Zhitenev, Nikolai B.;
2:76:14 Hetero-layered organic photovoltaic devices fabricated using soluble pentacene photoprecursors
DOI:10.1016/j.solmat.2013.02.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Motoyama, Takao;Kiyota, Tatsuro;Yamada, Hiroko;Nakayama, Ken-ichi;
2:76:15 Measurement of nanoscale external quantum efficiency of conjugated polymer:fullerene solar cells by photoconductive atomic force microscopy
DOI:10.1063/1.3483613 JN:APPLIED PHYSICS LETTERS PY:2010 TC:16 AU: Dang, Xuan-Dung;Mikhailovsky, Alexander;Nguyen, Thuc-Quyen;
2:76:16 An Amorphous Mesophase Generated by Thermal Annealing for High-Performance Organic Photovoltaic Devices
DOI:10.1002/adma.201200490 JN:ADVANCED MATERIALS PY:2012 TC:20 AU: Tanaka, Hideyuki;Abe, Yoko;Matsuo, Yutaka;Kawai, Junya;Soga, Iwao;Sato, Yoshiharu;Nakamura, Eiichi;
2:76:17 Nanostructure determines the intensity-dependence of open-circuit voltage in plastic solar cells
DOI:10.1063/1.3482009 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:14 AU: Reid, Obadiah G.;Xin, Hao;Jenekhe, Samson A.;Ginger, David S.;
2:76:18 Submicrosecond Time Resolution Atomic Force Microscopy for Probing Nanoscale Dynamics
DOI:10.1021/nl203956q JN:NANO LETTERS PY:2012 TC:17 AU: Giridharagopal, Rajiv;Rayermann, Glennis E.;Shao, Guozheng;Moore, David T.;Reid, Obadiah G.;Tillack, Andreas F.;Masiello, David. J.;Ginger, David S.;
2:76:19 Self-Assembly of a Fullerene Poly(3-hexylthiophene) Dyad
DOI:10.1002/smll.201001364 JN:SMALL PY:2011 TC:9 AU: Wang, Mingfeng;Heeger, Alan J.;Wudl, Fred;
2:76:20 Structural and optoelectronic properties of hybrid bulk-heterojunction materials based on conjugated small molecules and mesostructured TiO2
DOI:10.1063/1.4883001 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Hung Phan;Jahnke, Justin P.;Chmelka, Bradley F.;Thuc-Quyen Nguyen;
2:76:21 Investigation of defects by admittance spectroscopy measurements in poly (3-hexylthiophene):(6,6)-phenyl C-61-butyric acid methyl ester organic solar cells degraded under air exposure
DOI:10.1063/1.3658023 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:23 AU: Khelifi, Samira;Decock, Koen;Lauwaert, Johan;Vrielinck, Henk;Spoltore, Donato;Piersimoni, Fortunato;Manca, Jean;Belghachi, Abderrahmane;Burgelman, Marc;
2:76:22 A simultaneous achievement of high performance and extended thermal stability of bulk-heterojunction polymer solar cells using a polythiophene-fullerene block copolymer
DOI:10.1016/j.solmat.2012.04.035 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:1 AU: Yun, Myoung Hee;Kim, Jonggi;Yang, Changduk;Kim, Jin Young;
2:76:23 Ab initio electronic structure calculations of solid, solution-processed metallotetrabenzoporphyrins
DOI:10.1063/1.3699371 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Shea, Patrick B.;Kanicki, Jerzy;
2:76:24 Solution-processed zinc tetrabenzoporphyrin thin-films and transistors
DOI:10.1016/j.tsf.2012.01.034 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Shea, Patrick B.;Yamada, Hiroko;Ono, Noboru;Kanicki, Jerzy;
2:76:25 Investigation of trap states and mobility in organic semiconductor devices by dielectric spectroscopy: Oxygen-doped P3HT:PCBM solar cells
DOI:10.1103/PhysRevB.86.235201 JN:PHYSICAL REVIEW B PY:2012 TC:6 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;Decomposition kinetics of Fe-Cr solid solutions during thermal aging;PHYSICAL REVIEW B;86;22;224109;10.1103/PhysRevB.86.224109;DEC 17 2012;2012;The decomposition of Fe-Cr solid solutions during thermal aging is;modeled by atomistic kinetic Monte Carlo simulations, using a rigid;lattice approximation with pair interactions that depend on the local;composition and temperature. The pair interactions are fitted on ab;initio calculations of mixing energies and vacancy migration barriers at;0 K. The entropic contributions to the mixing of Fe-Cr alloys and to the;vacancy formation and migration free energies are taken into account.;The model reproduces the change in sign of the mixing energy with the;alloy composition and gives realistic thermodynamic and kinetic;properties, including an asymmetrical miscibility gap at low temperature;and diffusion coefficients in good agreement with available experimental;data. Simulations of short-range ordering and alpha-alpha' decomposition;are performed at 773 and 813 K for Cr concentrations between 10% and;50%. They are compared with experimental kinetics based on;three-dimensional atom probe and neutron scattering measurements. The;possible effect of magnetic properties on diffusion in the alpha and;alpha' phases, and therefore on the decomposition kinetics, is;emphasized. DOI: 10.1103/PhysRevB.86.224109;soisson, frederic/B-2917-2009; Lujan Center, LANL/G-4896-2012;soisson, frederic/0000-0001-6435-6119;;6;0;0;0;6;1098-0121;WOS:000312364700001;;;J;Moon, Eun-Gook;Xu, Cenke;Exotic continuous quantum phase transition between Z(2) topological spin;liquid and Neel order;PHYSICAL REVIEW B;86;21;214414;10.1103/PhysRevB.86.214414;DEC 17 2012;2012;Recent numerical simulations with different techniques have all;suggested the existence of a continuous quantum phase transition between;the Z(2) topological spin-liquid phase and a conventional Neel order.;Motivated by this numerical progress, we propose a candidate theory for;such Z(2)-Neel transition. We first argue on general grounds that, for a;SU(2)-invariant system, this transition can not be interpreted as the;condensation of spinons in the Z(2) spin-liquid phase. Then, we propose;that such Z(2)-Neel transition is driven by proliferating the bound;state of the bosonic spinon and vison excitation of the Z(2) spin;liquid, i.e., the so-called (e, m)-type excitation. Universal critical;exponents associated with this exotic transition are computed using 1/N;expansion. This theory predicts that at the Z(2)-Neel transition, there;is an emergent quasi-long-range power-law correlation of columnar;valence bond solid order parameter.;6;0;0;0;6;1098-0121;WOS:000312364200003;;;J;Moskvin, A. S.;Gippius, A. A.;Tkachev, A. V.;Mahajan, A. V.;Chakrabarty, T.;Presniakov, I. A.;Sobolev, A. V.;Demazeau, G.;Direct evidence of non-Zhang-Rice Cu3+ centers in La2Li0.5Cu0.5O4;PHYSICAL REVIEW B;86;24;241107;10.1103/PhysRevB.86.241107;DEC 17 2012;2012;A well-isolated Zhang-Rice (ZR) singlet as a ground state of the Cu3+;center in hole-doped cuprates is a leading paradigm in modern theories;of high-temperature superconductivity. However, a dramatic temperature;evolution of the Li-6,Li-7 NMR signal in La2Li0.5Cu0.5O4, a system with;a regular lattice of well-isolated Cu3+ centers, reveals significant;magnetic fluctuations and suggests a quasidegeneracy to be a generic;property of their ground state at variance with the simple ZR model. We;argue for a competition of the ZR state with nearby states formed by a;"doped" hole occupying purely oxygen nonbonding a(2g)(pi) and e(u)(pi);orbitals rather than a conventional b(1g)(d(x2-y2))Cu 3d-O 2p hybrid.;The temperature variation of the Li-6,Li-7 NMR line shape and;spin-lattice relaxation rate point to a gradual slowing down of some;magnetic order parameter's fluctuations without distinct signatures of a;phase transition down to T = 2 K. This behavior agrees with a stripelike;ferrodistortive fluctuating Ammm order in a two-dimensional structure of;the (CuLi)O-2 planes accompanied by unconventional oxygen orbital;antiferromagnetic fluctuations. DOI: 10.1103/PhysRevB.86.241107;Gippius, Andrey/D-1139-2010; Sobolev, Alexey/C-3832-2009;Sobolev, Alexey/0000-0002-8085-5425;0;0;0;0;0;1098-0121;WOS:000312365800002;;;J;Nguyen, P. D.;Kepaptsoglou, D. M.;Erni, R.;Ramasse, Q. M.;Olsen, A.;Quantum confinement of volume plasmons and interband transitions in;germanium nanocrystals;PHYSICAL REVIEW B;86;24;245316;10.1103/PhysRevB.86.245316;DEC 17 2012;2012;The plasmonic properties of individual quantum-sized Ge nanocrystals;(NCs) were observed and systematically analyzed by aberration-corrected;scanning transmission electron microscopy (STEM) and electron energy;loss spectroscopy (EELS). For this purpose, Ge NCs embedded in an SiO2;matrix with controllable size, density, and structure were fabricated;using magnetron sputtering. The size dependence of the Ge plasmon;energies in the size range of 5-9 nm is shown to be well depicted by the;so-called medium quantum confinement (QC) model, with an effective mass;of 0.57m(0) (contrary to expectations of a stronger quantum effect). In;the very low-loss region of the EEL spectra, an apparent blue shift of;the E-2 interband transition peak up to 2 eV and a strong reduction in;the oscillator strength were measured for the NCs in the size range of;4-6 nm. It indicates for this smaller size range a transition to a QC;regime where the band structure and the density of states are modified;dramatically. These trends are explained by a combination of low-loss;and core-loss EELS results, which show that the Ge NCs are surrounded;uniformly by nearly stoichiometric SiO2. This local chemistry is shown;to provide an infinite potential barrier and to confine electrons and;holes in the spherically shaped Ge NCs. In addition to pure QC effects;in the Ge NCs, the SiO2 matrix thus plays an important role in the;strength of the observed QC and interband transitions. DOI:;10.1103/PhysRevB.86.245316;2;0;0;0;2;1098-0121;WOS:000312365800010;;;J;Roedl, Claudia;Bechstedt, Friedhelm;Optical and energy-loss spectra of the antiferromagnetic transition;metal oxides MnO, FeO, CoO, and NiO including quasiparticle and;excitonic effects;PHYSICAL REVIEW B;86;23;235122;10.1103/PhysRevB.86.235122;DEC 17 2012;2012;We calculate the frequency-dependent dielectric function for the series;of antiferromagnetic transition metal oxides (TMOs) from MnO to NiO;using many-body perturbation theory. Quasiparticle, excitonic, and;local-field effects are taken into account by solving the Bethe-Salpeter;equation in the framework of collinear spin polarization. The optical;spectra are based on electronic structures which have been obtained;using density-functional theory with a hybrid functional containing;screened exchange (HSE03) and a subsequent quasiparticle calculation in;the GW approximation to describe exchange and correlation effects;adequately. These sophisticated quasiparticle band structures are mapped;to electronic structures resulting from the computationally less;expensive GGA + U + Delta scheme that includes an on-site interaction U;and a scissors shift Delta and allows us to calculate the large number;of electronic states that is necessary to construct the Bethe-Salpeter;Hamiltonian. For an accurate description of the optical spectra, an;appropriate treatment of the strong electron-hole attraction is;mandatory to obtain agreement with the experimentally observed;absorption-peak positions. The itinerant s and p states as well as the;localized transition metal 3d states have to be considered on an equal;footing. We find that a purely atomic picture is not suitable to;understand the optical absorption spectra of the TMOs. Reflectivity;spectra, absorption coefficients, and loss functions at vanishing;momentum transfer are computed in a wide spectral range and discussed in;light of the available experimental data. DOI:;10.1103/PhysRevB.86.235122;8;1;0;0;8;1098-0121;WOS:000312365200002;;;J;Schlickeiser, F.;Atxitia, U.;Wienholdt, S.;Hinzke, D.;Chubykalo-Fesenko, O.;Nowak, U.;Temperature dependence of the frequencies and effective damping;parameters of ferrimagnetic resonance;PHYSICAL REVIEW B;86;21;214416;10.1103/PhysRevB.86.214416;DEC 17 2012;2012;Recent experiments on all-optical switching in GdFeCo and CoGd have;raised the question about the importance of the angular momentum or the;magnetization compensation point for ultrafast magnetization dynamics.;We investigate the dynamics of ferrimagnets by means of computer;simulations as well as analytically. The results from atomistic modeling;are explained by a theory based on the two-sublattice;Landau-Lifshitz-Bloch equation. Similarly to the experimental results;and unlike predictions based on the macroscopic Landau-Lifshitz;equation, we find an increase in the effective damping at temperatures;approaching the Curie temperature. Further results for the temperature;dependence of the frequencies and effective damping parameters of the;normal modes represent an improvement of former approximated solutions,;building a better basis for comparison to recent experiments.;Atxitia, Unai/A-8870-2010;4;0;0;0;4;1098-0121;WOS:000312364200005;;;J;Smith, R. F.;Minich, R. W.;Rudd, R. E.;Eggert, J. H.;Bolme, C. A.;Brygoo, S. L.;Jones, A. M.;Collins, G. W.;Orientation and rate dependence in high strain-rate compression of;single-crystal silicon;PHYSICAL REVIEW B;86;24;245204;10.1103/PhysRevB.86.245204;DEC 17 2012;2012;High strain-rate ((epsilon)over dot similar to 10(6)-10(9) s(-1));compression of single crystal Si reveals strong orientation- and;rate-dependent precursor stresses. At these high compression rates, the;peak elastic stress, sigma(E_Peak), for Si [100], [110], and [111];exceeds twice the Hugoniot elastic limit. Near the loading surface, the;rate at which Si evolves from uniaxial compression to a;three-dimensional relaxed state is exponentially dependent on;sigma(E_Peak) and independent of initial crystal orientation. At later;times, the high elastic wave speed results in a temporal decoupling of;the elastic precursor from the main inelastic wave. A rapid;high-(epsilon)over dot increase in the measured elastic stress at the;onset of inelastic deformation is consistent with a transition from;dislocation flow mediated by thermal activation to a phonon drag regime.;DOI: 10.1103/PhysRevB.86.245204;3;0;0;0;3;1098-0121;WOS:000312365800006;;;J;Svensson, S. P.;Sarney, W. L.;Hier, H.;Lin, Y.;Wang, D.;Donetsky, D.;Shterengas, L.;Kipshidze, G.;Belenky, G.;Band gap of InAs1-xSbx with native lattice constant;PHYSICAL REVIEW B;86;24;245205;10.1103/PhysRevB.86.245205;DEC 17 2012;2012;The band gap energy of the alloy InAsSb has been studied as a function;of composition with special emphasis on minimization of strain-induced;artifacts. The films were grown by molecular beam epitaxy on GaSb;substrates with compositionally graded buffer layers that were designed;to produce strain-free films. The compositions were precisely determined;by high-resolution x-ray diffraction. Evidence for weak, long-range,;group-V ordering was detected in materials exhibiting residual strain;and relaxation. In contrast, unstrained films having the nondistorted;cubic form showed no evidence of group-V ordering. The photoluminescence;(PL) peak positions therefore corresponds to the inherent band gap of;unstrained, unrelaxed, InAsSb. PL peaks were recorded for compositions;up to 46% Sb, reaching a peak wavelength of 10.3 mu m, observed under;low excitation at T = 13 K. The alloy band gap energies determined from;PL maxima are described with a bowing parameter of 0.87 eV, which is;significantly larger than measured for InAsSb in earlier work. The;sufficiently large bowing parameter and the ability to grow the alloys;without ordering allows direct band gap InAsSb to be a candidate;material for low-temperature long-wavelength infrared detector;applications. DOI: 10.1103/PhysRevB.86.245205;8;0;0;0;8;1098-0121;WOS:000312365800007;;;J;Thirupathaiah, S.;Evtushinsky, D. V.;Maletz, J.;Zabolotnyy, V. B.;Kordyuk, A. A.;Kim, T. K.;Wurmehl, S.;Roslova, M.;Morozov, I.;Buechner, B.;Borisenko, S. V.;Weak-coupling superconductivity in electron-doped NaFe0.95Co0.05As;revealed by ARPES;PHYSICAL REVIEW B;86;21;214508;10.1103/PhysRevB.86.214508;DEC 17 2012;2012;We report a systematic study on the electronic structure and;superconducting (SC) gaps in electron-doped NaFe0.95Co0.05As;superconductor using angle-resolved photoemission spectroscopy. Holelike;Fermi sheets are at the zone center and electronlike Fermi sheets are at;the zone corner, and are mainly contributed by xz and yz orbital;characters. Our results reveal a Delta/KBTc in the range of 1.8-2.1,;suggesting a weak-coupling superconductivity in these compounds. Gap;closing above the transition temperature (T-c) shows the absence of;pseudogaps. Gap evolution with temperature follows the BCS gap equation;near the Gamma, Z, and M high symmetry points. Furthermore, an almost;isotropic superconductivity along the k(z) direction in the momentum;space is observed by varying the excitation energies.;Wurmehl, Sabine/A-5872-2009; Morozov, Igor/C-4329-2011; Borisenko, Sergey/G-6743-2012; Roslova, Maria/F-7352-2013;Borisenko, Sergey/0000-0002-5046-4829;;6;0;0;0;6;1098-0121;WOS:000312364200007;;;J;Tsuda, Kenji;Sano, Rikiya;Tanaka, Michiyoshi;Nanoscale local structures of rhombohedral symmetry in the orthorhombic;and tetragonal phases of BaTiO3 studied by convergent-beam electron;diffraction;PHYSICAL REVIEW B;86;21;214106;10.1103/PhysRevB.86.214106;DEC 17 2012;2012;The symmetries of the rhombohedral, orthorhombic, and tetragonal phases;of barium titanate (BaTiO3) are investigated using convergent-beam;electron diffraction. Nanometer-sized local structures with rhombohedral;symmetry are observed in both the orthorhombic and tetragonal phases.;This indicates that an order-disorder character exists in phase;transformations of BaTiO3. The nanostructures in these phases are;discussed in terms of an order-disorder model with off-centered Ti in;the < 111 > directions.;6;0;0;0;6;1098-0121;WOS:000312364200001;;;J;Ulstrup, Soren;Frederiksen, Thomas;Brandbyge, Mads;Nonequilibrium electron-vibration coupling and conductance fluctuations;in a C-60 junction;PHYSICAL REVIEW B;86;24;245417;10.1103/PhysRevB.86.245417;DEC 17 2012;2012;We investigate chemical bond formation and conductance in a molecular;C-60 junction under finite bias voltage using first-principles;calculations based on density functional theory and nonequilibrium;Green's functions (DFT-NEGF). At the point of contact formation we;identify a remarkably strong coupling between the C-60 motion and the;molecular electronic structure. This is only seen for positive sample;bias, although the conductance itself is not strongly polarity;dependent. The nonequilibrium effect is traced back to a sudden shift in;the position of the voltage drop with a small C-60 displacement.;Combined with a vibrational heating mechanism we construct a model from;our results that explain the polarity-dependent two-level conductance;fluctuations observed in recent scanning tunneling microscopy (STM);experiments [N. Neel et al., Nano Lett. 11, 3593 (2011)]. These findings;highlight the significance of nonequilibrium effects in chemical bond;formation/breaking and in electron-vibration coupling in molecular;electronics. DOI: 10.1103/PhysRevB.86.245417;Frederiksen, Thomas/D-3545-2011; Brandbyge, Mads/C-6095-2008; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Frederiksen, Thomas/0000-0001-7523-7641;;4;0;0;0;4;1098-0121;WOS:000312365800012;;;J;Urdaniz, M. C.;Barral, M. A.;Llois, A. M.;Magnetic exchange coupling in 3d-transition-metal atomic chains adsorbed;on Cu2N/Cu(001);PHYSICAL REVIEW B;86;24;245416;10.1103/PhysRevB.86.245416;DEC 17 2012;2012;Covalent substrates can give rise to a variety of magnetic interaction;mechanisms among adsorbed transition-metal atoms building atomic;nanostructures. We show this by calculating the ground state magnetic;configuration of monoatomic 3d chains deposited on a monolayer of Cu2N;grown on Cu(001) as a function of d filling and of adsorption sites of;these nanostructures. DOI: 10.1103/PhysRevB.86.245416;1;0;0;0;1;1098-0121;WOS:000312365800011;;;J;Vaz, Eduardo;Kyriakidis, Jordan;Resonant regimes in the Fock-space coherence of multilevel quantum dots;PHYSICAL REVIEW B;86;23;235310;10.1103/PhysRevB.86.235310;DEC 17 2012;2012;The coherence between quantum states with different particle numbers-the;Fock-space coherence-qualitatively differs from the more common;Hilbert-space coherence between states with equal particle numbers. For;a quantum dot with multiple channels available for transport, we find;the conditions for decoupling the dynamics of the Fock-space coherence;from both the Hilbert-space coherence as well as the population;dynamics. We further find specific energy and coupling regimes where a;long-lived resonance in the Fock-space coherence of the system is;realized, even where no resonances are found either in the populations;or Hilbert-space coherence. Numerical calculations show this resonance;remains robust in the presence of both boson-mediated relaxation and;transport through the quantum dot. DOI: 10.1103/PhysRevB.86.235310;1;0;0;0;1;1098-0121;WOS:000312365200009;;;J;Ward, D. K.;Zhou, X. W.;Wong, B. M.;Doty, F. P.;Zimmerman, J. A.;Analytical bond-order potential for the Cd-Zn-Te ternary system;PHYSICAL REVIEW B;86;24;245203;10.1103/PhysRevB.86.245203;DEC 17 2012;2012;Cd-Zn-Te ternary alloyed semiconductor compounds are key materials in;radiation detection and photovoltaic applications. Currently,;crystalline defects such as dislocations limit the performance of these;materials. Atomistic simulations are a powerful method for exploring;crystalline defects at a resolution unattainable by experimental;techniques. To enable accurate atomistic simulations of defects in the;Cd-Zn-Te systems, we develop a full Cd-Zn-Te ternary bond-order;potential. This Cd-Zn-Te potential has numerous unique advantages over;other potential formulations: (1) It is analytically derived from;quantum mechanical theories and is therefore more likely to be;transferable to environments that are not explicitly tested. (2) A;variety of elemental and compound configurations (with coordination;varying from 1 to 12) including small clusters, bulk lattices, defects,;and surfaces are explicitly considered during parameterization. As a;result, the potential captures structural and property trends close to;those seen in experiments and quantum mechanical calculations and;provides a good description of melting temperature, defect;characteristics, and surface reconstructions. (3) Most importantly, this;potential is validated to correctly predict the crystalline growth of;the ground-state structures for Cd, Zn, Te elements as well as CdTe,;ZnTe, and Cd1-xZnxTe compounds during highly challenging molecular;dynamics vapor deposition simulations. DOI: 10.1103/PhysRevB.86.245203;Wong, Bryan/B-1663-2009;Wong, Bryan/0000-0002-3477-8043;7;0;0;0;7;1098-0121;WOS:000312365800005;;;J;Williams, M. E.;Sims, H.;Mazumdar, D.;Butler, W. H.;Effects of 3d and 4d transition metal substitutional impurities on the;electronic properties of CrO2;PHYSICAL REVIEW B;86;23;235124;10.1103/PhysRevB.86.235124;DEC 17 2012;2012;We present first-principles-based density functional theory calculations;of the electronic and magnetic structure of CrO2 with 3d and 4d;substitutional impurities. We find that the half-metallicity of CrO2;remains intact for the ground state of all of the calculated;substitutions. We also observe two periodic trends as a function of the;number of valence electrons: if the substituted atom has six or fewer;valence electrons, the number of down spin electrons associated with the;impurity ion is zero, resulting in ferromagnetic alignment of the;impurity magnetic moment with the magnetization of the CrO2 host. For;substituent atoms with eight to ten valence electrons (with the;exception of Ni), the number of down-spin electrons contributed by the;impurity ion remains fixed at three as the number contributed to the;majority increases from one to three resulting in antiferromagnetic;alignment between impurity moment and host magnetization. In impurities;with seven valence electrons, the zero down-spin and threse down-spin;configurations are very close in energy. At 11 valence electrons, the;energy is minimized when the substituent ion contributes five down-spin;electrons. The moments on the 4d impurities, particularly Nb and Mo,;tend to be delocalized compared with those of the 3ds. DOI:;10.1103/PhysRevB.86.235124;0;0;0;0;0;1098-0121;WOS:000312365200004;;;J;Yan, Xin-Zhong;Ting, C. S.;Possible broken inversion and time-reversal symmetry state of electrons;in bilayer graphene;PHYSICAL REVIEW B;86;23;235126;10.1103/PhysRevB.86.235126;DEC 17 2012;2012;With the two-band continuum model, we study the broken inversion and;time-reversal symmetry state of electrons with finite-range repulsive;interactions in bilayer graphene. In the state, there are overlapped;loop currents in each layer. With the analytical solution to the;mean-field Hamiltonian, we obtain the electronic spectra. The ground;state is gapped. In the presence of the magnetic field B, the energy gap;grows with increasing B, in excellent agreement with the experimental;observation. Such an energy-gap behavior originates from the;disappearance of a Landau level of n = 0 and 1 states. The present;result resolves explicitly the puzzle of the gap dependence of B. DOI:;10.1103/PhysRevB.86.235126;6;0;0;0;6;1098-0121;WOS:000312365200006;;;J;Yin, Z. P.;Haule, K.;Kotliar, G.;Fractional power-law behavior and its origin in iron-chalcogenide and;ruthenate superconductors: Insights from first-principles calculations;(vol 86, 195141, 2012);PHYSICAL REVIEW B;86;23;239904;10.1103/PhysRevB.86.239904;DEC 17 2012;2012;2;0;0;0;2;1098-0121;WOS:000312365200014;;;J;Zhigadlo, N. D.;Weyeneth, S.;Katrych, S.;Moll, P. J. W.;Rogacki, K.;Bosma, S.;Puzniak, R.;Karpinski, J.;Batlogg, B.;High-pressure flux growth, structural, and superconducting properties of;LnFeAsO (Ln = Pr, Nd, Sm) single crystals;PHYSICAL REVIEW B;86;21;214509;10.1103/PhysRevB.86.214509;DEC 17 2012;2012;Single crystals of the LnFeAsO (Ln1111, Ln = Pr, Nd, and Sm) family with;lateral dimensions up to 1 mm were grown from NaAs and KAs flux at high;pressure. The crystals are of good structural quality and become;superconducting when O is partially substituted by F (PrFeAsO1-xFx and;NdFeAsO1-xFx) or when Fe is substituted by Co (SmFe1-xCoxAsO). From;magnetization measurements, we estimate the temperature dependence and;anisotropy of the upper critical field and the critical current density;of underdoped PrFeAsO0.7F0.3 crystal with T-c approximate to 25 K.;Single crystals of SmFe1-xCoxAsO with maximal T-c up to 16.3 K for x;approximate to 0.08 were grown. From transport and magnetic;measurements, we estimate the critical fields and their anisotropy and;find these superconducting properties to be quite comparable to the ones;in SmFeAsO1-xFx with a much higher T-c approximate to 50 K. The;magnetically measured critical current densities are as high as 10(9);A/m(2) at 2 K up to 7 T, with indication of the usual fishtail effect.;The upper critical field estimated from resistivity measurements is;anisotropic with slopes of similar to - 8.7 T/K (H parallel to ab plane);and similar to - 1.7 T/K (H parallel to c axis). This anisotropy;(similar to 5) is similar to that in other Ln1111 crystals with various;higher T-c's.;Puzniak, Roman/N-1643-2013;Puzniak, Roman/0000-0001-5636-5541;7;0;0;0;7;1098-0121;WOS:000312364200008;;;J;Zhu, Guobao;Yang, Shengyuan A.;Fang, Cheng;Liu, W. M.;Yao, Yugui;Theory of orbital magnetization in disordered systems;PHYSICAL REVIEW B;86;21;214415;10.1103/PhysRevB.86.214415;DEC 17 2012;2012;We present a general formula of the orbital magnetization of disordered;systems based on the Keldysh Green's function theory in the;gauge-covariant Wigner space. In our approach, the gauge invariance of;physical quantities is ensured from the very beginning, and the vertex;corrections are easily included. Our formula applies not only for;insulators but also for metallic systems where the quasiparticle;behavior is usually strongly modified by the disorder scattering. In the;absence of disorders, our formula recovers the previous results obtained;from the semiclassical theory and the perturbation theory. As an;application, we calculate the orbital magnetization of a weakly;disordered two-dimensional electron gas with Rashba spin-orbit coupling.;We find that for the short-range disorder scattering, its major effect;is to the shifting of the distribution of orbital magnetization;corresponding to the quasiparticle energy renormalization.;Yao, Yugui/A-8411-2012; Yang, Shengyuan/L-2848-2014;6;0;1;0;7;1098-0121;WOS:000312364200004;;;J;Zhukov, E. A.;Yugov, O. A.;Yugova, I. A.;Yakovlev, D. R.;Karczewski, G.;Wojtowicz, T.;Kossut, J.;Bayer, M.;Resonant spin amplification of resident electrons in CdTe/(Cd,Mg)Te;quantum wells subject to tilted magnetic fields;PHYSICAL REVIEW B;86;24;245314;10.1103/PhysRevB.86.245314;DEC 17 2012;2012;Electron spin coherence in CdTe/(Cd,Mg)Te quantum wells is studied;experimentally and theoretically in tilted external magnetic fields;generated by a superconducting vector magnet. The long-lived spin;coherence is measured by pump-probe Kerr rotation in the resonant spin;amplification (RSA) regime. The shape of RSA signals is very sensitive;to weak magnetic field components deviating from the Voigt or Faraday;geometries. DOI: 10.1103/PhysRevB.86.245314;Yugova, Irina/F-6823-2011;Yugova, Irina/0000-0003-0020-3679;3;0;0;0;3;1098-0121;WOS:000312365800008;;;J;Adelstein, Nicole;Mun, B. Simon;Ray, Hannah L.;Ross, Philip N., Jr.;Neaton, Jeffrey B.;De Jonghe, Lutgard C.;Structure and electronic properties of cerium orthophosphate: Theory and;experiment (vol 83, 205104, 2011);PHYSICAL REVIEW B;86;23;239903;10.1103/PhysRevB.86.239903;DEC 14 2012;2012;Mun, Bongjin /G-1701-2013;0;0;0;0;0;1098-0121;WOS:000312365100009;;;J;Bagchi, Debarshee;Mohanty, P. K.;Thermally driven classical Heisenberg model in one dimension;PHYSICAL REVIEW B;86;21;214302;10.1103/PhysRevB.86.214302;DEC 14 2012;2012;We study thermal transport in a classical one-dimensional Heisenberg;model employing a discrete-time odd-even precessional update scheme.;This dynamics equilibrates a spin chain for any arbitrary temperature;and finite value of the integration time step Delta t. We rigorously;show that in presence of driving, the system attains local thermal;equilibrium, which is a strict requirement of Fourier law. In the;thermodynamic limit, heat current for such a system obeys Fourier law;for all temperatures, as has been recently shown [A. V. Savin, G. P.;Tsironis, and X. Zotos, Phys. Rev. B 72, 140402(R) (2005)]. Finite;systems, however, show an apparent ballistic transport which crosses;over to a diffusive one as the system size is increased. We provide;exact results for current and energy profiles in zero- and;infinite-temperature limits. DOI: 10.1103/PhysRevB.86.214302;3;0;0;0;3;1098-0121;WOS:000312364100001;;;J;Barasinski, A.;Kamieniarz, G.;Drzewinski, A.;Magnetization-based assessment of correlation energy in canted;single-chain magnets;PHYSICAL REVIEW B;86;21;214412;10.1103/PhysRevB.86.214412;DEC 14 2012;2012;We demonstrate numerically that for the strongly anisotropic;homometallic S = 2 canted single-chain magnet described by the quantum;antiferromagnetic Heisenberg model, the correlation energy and exchange;coupling constant can be directly estimated from the;in-field-magnetization profile found along the properly selected;crystallographic direction. In the parameter space defined by the;spherical angles (phi, theta) determining the axes orientation, four;regions are identified with different sequences of the characteristic;field-dependent magnetization profiles representing the;antiferromagnetic, metamagnetic, and weak ferromagnetic type behavior.;These sequences provide a criterion for the applicability of the;anisotropic quantum Heisenberg model to a given experimental system. Our;analysis shows that the correlation energy decreases linearly with field;and vanishes for a given value H-cr, which defines a special coordinates;in the metamagnetic profile relevant for the zero-field correlation;energy and magnetic coupling. For the single-chain magnet formed by the;strongly anisotropic manganese(III) acetate meso-tetraphenylporphyrin;complexes coupled to the phenylphosphinate ligands, the experimental;metamagnetic-type magnetization curve in the c direction yields an;accurate estimate of the values of correlation energy Delta(xi)/k(B) =;7.93 K and exchange coupling J/k(B) = 1.20 K. DOI:;10.1103/PhysRevB.86.214412;1;0;0;0;1;1098-0121;WOS:000312364100004;;;J;Brinzari, T. V.;Chen, P.;Tung, L. -C.;Kim, Y.;Smirnov, D.;Singleton, J.;Miller, Joel. S.;Musfeldt, J. L.;Magnetoelastic coupling in [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] molecule-based;magnet;PHYSICAL REVIEW B;86;21;214411;10.1103/PhysRevB.86.214411;DEC 14 2012;2012;Infrared and Raman vibrational spectroscopies were employed to explore;the lattice dynamics of [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] through the;field- and temperature-driven magnetic transitions. The high field work;reveals systematic changes in the C equivalent to N stretching mode and;Cr-containing phonons as the system is driven away from the;antiferromagnetic state. The magnetic intersublattice coalescence;transition at B-c similar or equal to 0.08 T, on the contrary, is purely;magnetic and takes place with no lattice involvement. The variable;temperature spectroscopy affirms overall [Cr(CN)(6)](3-) flexibility;along with stronger intermolecular interactions at low temperature.;Based on a displacement pattern analysis, we discuss the local lattice;distortions in terms of an adaptable chromium environment. These;findings provide deeper understanding of spin-lattice coupling in;[Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] and may be useful in the development of;technologically important molecule-based magnets. DOI:;10.1103/PhysRevB.86.214411;4;2;0;0;4;1098-0121;WOS:000312364100003;;;J;Chan, Tzu-Liang;Capacitance of metallic and semiconducting nanowires examined by;first-principles calculations;PHYSICAL REVIEW B;86;24;245414;10.1103/PhysRevB.86.245414;DEC 14 2012;2012;The capacitance of Al < 110 > and P-doped Si < 110 > nanowires a few;nanometers in diameter are examined by first-principles calculations.;During charging, the metallic nanowire expels the charge to its surface,;and its capacitance stays relatively constant. For the semiconducting;nanowire, depletion of conduction electrons can lead to an increase in;the work function, which results in a drop in the capacitance when;charged beyond a threshold. This study is made possible by developing a;formalism for total energy calculations of charged periodic systems with;a specific electrostatic boundary condition. DOI:;10.1103/PhysRevB.86.245414;1;0;0;0;1;1098-0121;WOS:000312365400006;;;J;Dias, R. G.;del Rio, Lidia;Goltsev, A. V.;Interplay between potential and spin-flip scattering in systems with;depleted density of states;PHYSICAL REVIEW B;86;23;235120;10.1103/PhysRevB.86.235120;DEC 14 2012;2012;We study the behavior of a magnetic impurity in systems with a depleted;density of states by use of the spin-1/2 single-impurity Anderson model;and the equation of motion approach. We calculate the impurity spectral;function and study the role of potential and spin-flip scattering. We;show that in these systems, if the hybridization is larger than a;critical value, a narrow virtual bound resonance emerges. The resonance;peak appears much below the Fermi energy and is dominated by the;contribution of potential scattering of conduction electrons by the;magnetic impurity while spin-flip scattering only gives a nonsingular;temperature-dependent contribution to this peak. These results are in;contrast to behavior of impurities in normal metals where it is;spin-flip scattering that is responsible for the Kondo peak near the;Fermi level while potential scattering gives a nonsignificant;renormalization of the exchange coupling. We also show that the virtual;bound resonance leads to a strong renormalization of the effective;exchange coupling between conduction and impurity spins. The narrow;virtual bound resonance can be observed in graphene with magnetic;impurities where its spectral weight and position is strongly influenced;by the van Hove singularity. DOI: 10.1103/PhysRevB.86.235120;Universidade Aveiro, Departamento Fisica/E-4128-2013; Dias, Ricardo/J-6007-2013;Dias, Ricardo/0000-0002-5128-5531;0;0;0;0;0;1098-0121;WOS:000312365100001;;;J;Ganeshan, Sriram;Abanov, Alexander G.;Averin, Dmitri V.;Fractional quantum Hall interferometers in a strong tunneling regime:;The role of compactness in edge fields;PHYSICAL REVIEW B;86;23;235309;10.1103/PhysRevB.86.235309;DEC 14 2012;2012;We consider multiple-point tunneling in the interferometers formed;between edges of electron liquids with, in general, different filling;factors in the regime of the fractional quantum Hall effect (FQHE). We;derive an effective matrix Caldeira-Leggett model for the multiple;tunneling contacts connecting the chiral single-mode FQHE edges. It is;shown that the compactness of the Wen-Frohlich chiral boson fields;describing the FQHE edge modes plays a crucial role in eliminating the;spurious nonlocality of the electron transport properties of the FQHE;interferometers arising in the regime of strong tunneling. DOI:;10.1103/PhysRevB.86.235309;0;0;0;0;0;1098-0121;WOS:000312365100004;;;J;Giannazzo, F.;Deretzis, I.;La Magna, A.;Roccaforte, F.;Yakimova, R.;Electronic transport at monolayer-bilayer junctions in epitaxial;graphene on SiC;PHYSICAL REVIEW B;86;23;235422;10.1103/PhysRevB.86.235422;DEC 14 2012;2012;Two-dimensional maps of the electronic conductance in epitaxial graphene;grown on SiC were obtained by calibrated conductive atomic force;microscopy. The correlation between morphological and electrical maps;revealed the local conductance degradation in epitaxial graphene over;the SiC substrate steps or at the junction between monolayer (1L) and;bilayer (2L) graphene regions. The effect of steps strongly depends on;the charge transfer phenomena between the step sidewall and graphene,;whereas the resistance increase at the 1L/2L junction is a purely;quantum-mechanical effect independent on the interaction with the;substrate. First-principles transport calculations indicate that the;weak wave-function coupling between the 1L pi/pi* bands with the;respective first bands of the 2L region gives rise to a strong;suppression of the conductance for energies within +/- 0.48 eV from the;Dirac point. Conductance degradation at 1L/2L junctions is therefore a;general issue for large area graphene with a certain fraction of;inhomogeneities in the layer number, including graphene grown by;chemical vapor deposition on metals. DOI: 10.1103/PhysRevB.86.235422;Materials, Semiconductor/I-6323-2013;11;0;0;0;11;1098-0121;WOS:000312365100005;;;J;Hintzsche, L. E.;Fang, C. M.;Watts, T.;Marsman, M.;Jordan, G.;Lamers, M. W. P. E.;Weeber, A. W.;Kresse, G.;Density functional theory study of the structural and electronic;properties of amorphous silicon nitrides: Si3N4-x:H;PHYSICAL REVIEW B;86;23;235204;10.1103/PhysRevB.86.235204;DEC 14 2012;2012;We present ab initio density functional theory studies for;stoichiometric as well as nonstoichiometric amorphous silicon nitride,;varying the stoichiometry between Si3N4.5 and Si3N3. Stoichiometric;amorphous Si3N4 possesses the same local structure as crystalline Si3N4,;with Si being fourfold coordinated and N being threefold coordinated.;Only few Si-Si and N-N bonds and other defects are found in;stoichiometric silicon nitride, and the electronic properties are very;similar to the crystalline bulk. In over-stoichiometric Si3N4+x, the;additional N results in N-N bonds, whereas in under-stoichiometric;Si3N4-x the number of homopolar Si-Si bonds increases with decreasing N;content. Analysis of the structure factor and the local coordination of;the Si atoms indicates a slight tendency towards Si clustering, although;at the investigated stoichiometries, phase separation is not observed.;In the electronic properties, the conduction-band minimum is dominated;by Si states, whereas the valence-band maximum is made up by lone pair N;states. Towards Si rich samples, the character of the valence-band;maximum becomes dominated by Si states corresponding to Si-Si bonding;linear combinations. Adding small amounts of hydrogen, as typically used;in passivating layers of photovoltaic devices, has essentially no impact;on the overall structural and electronic properties. DOI:;10.1103/PhysRevB.86.235204;Fang, Chang Ming/E-9213-2013;3;0;0;0;3;1098-0121;WOS:000312365100002;;;J;Joung, Daeha;Khondaker, Saiful I.;Efros-Shklovskii variable-range hopping in reduced graphene oxide sheets;of varying carbon sp(2) fraction;PHYSICAL REVIEW B;86;23;235423;10.1103/PhysRevB.86.235423;DEC 14 2012;2012;We investigate the low-temperature electron transport properties of;chemically reduced graphene oxide (RGO) sheets with different carbon;sp(2) fractions of 55% to 80%. We show that in the low-bias (Ohmic);regime, the temperature (T) dependent resistance (R) of all the devices;follow Efros-Shklovskii variable range hopping (ES-VRH) R similar to;exp[(T-ES/T)(1/2)] with T-ES decreasing from 3.1 x 10(4) to 0.42 x 10(4);K and electron localization length increasing from 0.46 to 3.21 nm with;increasing sp(2) fraction. From our data, we predict that for the;temperature range used in our study, Mott-VRH may not be observed even;at 100% sp(2) fraction samples due to residual topological defects and;structural disorders. From the localization length, we calculate a;band-gap variation of our RGO from 1.43 to 0.21 eV with increasing sp(2);fraction from 55 to 80%, which agrees remarkably well with theoretical;predictions. We also show that, in the high bias non-Ohmic regime at low;temperature, the hopping is field driven and the data follow R similar;to exp[(E0/E)(1/2)] providing further evidence of ES-VRH. DOI:;10.1103/PhysRevB.86.235423;14;0;0;0;14;1098-0121;WOS:000312365100006;;;J;Kim, Se-Heon;Homyk, Andrew;Walavalkar, Sameer;Scherer, Axel;High-Q impurity photon states bounded by a photonic band pseudogap in an;optically thick photonic crystal slab;PHYSICAL REVIEW B;86;24;245114;10.1103/PhysRevB.86.245114;DEC 14 2012;2012;We show that, taking a two-dimensional photonic crystal slab system as;an example, surprisingly high quality factors (Q) over 10(5) are;achievable, even in the absence of a rigorous photonic band gap. We find;that the density of in-plane Bloch modes can be controlled by creating;additional photon feedback from a finite-size photonic-crystal boundary;that serves as a low-Q resonator. This mechanism enables significant;reduction in the coupling strength between the bound state and the;extended Bloch modes by more than a factor of 40. DOI:;10.1103/PhysRevB.86.245114;Walavalkar, Sameer/B-3196-2013; Kim, Se-Heon/C-5498-2008;Walavalkar, Sameer/0000-0002-7628-9600;;2;0;0;0;2;1098-0121;WOS:000312365400001;;;J;Kravets, A. F.;Timoshevskii, A. N.;Yanchitsky, B. Z.;Bergmann, M. A.;Buhler, J.;Andersson, S.;Korenivski, V.;Temperature-controlled interlayer exchange coupling in strong/weak;ferromagnetic multilayers: A thermomagnetic Curie switch;PHYSICAL REVIEW B;86;21;214413;10.1103/PhysRevB.86.214413;DEC 14 2012;2012;We investigate interlayer exchange coupling based on driving a;strong/weak/strong ferromagnetic trilayer through the Curie point of the;weakly ferromagnetic spacer, with exchange coupling between the strongly;ferromagnetic outer layers that can be switched on and off, or varied;continuously in magnitude by controlling the temperature of the;material. We use Ni-Cu alloys of varied composition as the spacer;material and model the effects of proximity-induced magnetism and the;interlayer exchange coupling through the spacer from first principles,;taking into account not only thermal spin disorder but also the;dependence of the atomic moment of Ni on the nearest-neighbor;concentration of the nonmagnetic Cu. We propose and demonstrate a;gradient-composition spacer, with a lower Ni concentration at the;interfaces, for greatly improved effective-exchange uniformity and;significantly improved thermomagnetic switching in the structure. The;reported multilayer materials can form the base for a variety of;magnetic devices, such as sensors, oscillators, and memory elements;based on thermomagnetic Curie switching. DOI: 10.1103/PhysRevB.86.214413;Korenivski, Vladislav/N-7355-2014;Korenivski, Vladislav/0000-0003-2339-1692;4;0;0;0;4;1098-0121;WOS:000312364100005;;;J;Little, C. E.;Anufriev, R.;Iorsh, I.;Kaliteevski, M. A.;Abram, R. A.;Brand, S.;Tamm plasmon polaritons in multilayered cylindrical structures;PHYSICAL REVIEW B;86;23;235425;10.1103/PhysRevB.86.235425;DEC 14 2012;2012;It is shown that cylindrical Bragg reflector structures with either a;metal core, a metal cladding, or both can support Tamm plasmon;polaritons (TPPs) that can propagate axially along the interface between;the metallic layer and the adjacent dielectric. A transfer matrix;formalism for cylindrical multilayered structures is used in association;with cavity phase matching considerations to design structures that;support Tamm plasmon polaritons at specified frequencies, and to explore;the field distributions and the dispersion relations of the excitations.;The cylindrical TPPs can exist in both the TE and TM polarizations for;the special cases of modes with either azimuthal isotropy or zero axial;propagation constant and also as hybrid cylindrical modes when neither;of those conditions applies. In the cases considered the TPPs have low;effective masses and low group velocities. Also, when there is both;metallic core and cladding, near degenerate modes localized at each;metallic interface can couple to produce symmetric and antisymmetric;combinations whose frequency difference is in the terahertz regime. DOI:;10.1103/PhysRevB.86.235425;Brand, Stuart/A-1658-2009;Brand, Stuart/0000-0002-1757-5017;3;0;0;0;3;1098-0121;WOS:000312365100008;;;J;Machida, Manabu;Iitaka, Toshiaki;Miyashita, Seiji;ESR intensity and the Dzyaloshinsky-Moriya interaction of the nanoscale;molecular magnet V-15;PHYSICAL REVIEW B;86;22;224412;10.1103/PhysRevB.86.224412;DEC 14 2012;2012;The intensity of electron spin resonance (ESR) of the nanoscale;molecular magnet V-15 is studied. We calculate the temperature;dependence of the intensity at temperatures from high to low. In;particular, we find that the low-temperature ESR intensity is;significantly affected by the Dzyaloshinsky-Moriya interaction. DOI:;10.1103/PhysRevB.86.224412;1;0;0;0;1;1098-0121;WOS:000312364500003;;;J;Meinert, Markus;Friedrich, Christoph;Reiss, Guenter;Bluegel, Stefan;GW study of the half-metallic Heusler compounds Co2MnSi and Co2FeSi;PHYSICAL REVIEW B;86;24;245115;10.1103/PhysRevB.86.245115;DEC 14 2012;2012;Quasiparticle spectra of potentially half-metallic Co2MnSi and Co2FeSi;Heusler compounds have been calculated within the one-shot GW;approximation in an all-electron framework without adjustable;parameters. For Co2FeSi the many-body corrections are crucial: a;pseudogap opens and good agreement of the magnetic moment with;experiment is obtained. Otherwise, however, the changes with respect to;the density-functional-theory starting point are moderate. For both;cases we find that photoemission and x-ray absorption spectra are well;described by the calculations. By comparison with the GW density of;states, we conclude that the Kohn-Sham eigenvalue spectrum provides a;reasonable approximation for the quasiparticle spectrum of the Heusler;compounds considered in this work. DOI: 10.1103/PhysRevB.86.245115;Reiss, Gunter/A-3423-2010; Meinert, Markus/E-8794-2011; Blugel, Stefan/J-8323-2013; Friedrich, Christoph/L-5029-2013;Reiss, Gunter/0000-0002-0918-5940; Blugel, Stefan/0000-0001-9987-4733;;Friedrich, Christoph/0000-0002-3315-7536;7;1;0;0;7;1098-0121;WOS:000312365400002;;;J;Misiorny, Maciej;Weymann, Ireneusz;Barnas, Jozef;Underscreened Kondo effect in S=1 magnetic quantum dots: Exchange,;anisotropy, and temperature effects;PHYSICAL REVIEW B;86;24;245415;10.1103/PhysRevB.86.245415;DEC 14 2012;2012;We present a theoretical analysis of the effects of uniaxial magnetic;anisotropy and contact-induced exchange field on the underscreened Kondo;effect in S = 1 magnetic quantum dots coupled to ferromagnetic leads.;First, by using the second-order perturbation theory we show that the;coupling to spin-polarized electrode results in an effective exchange;field B-eff and an effective magnetic anisotropy D-eff. Second, we;confirm these findings by using the numerical renormalization group;method, which is employed to study the dependence of the quantum-dot;spectral functions, as well as quantum-dot spin, on various parameters;of the system. We show that the underscreened Kondo effect is generally;suppressed due to the presence of effective exchange field and can be;restored by tuning the anisotropy constant, when vertical bar D-eff;vertical bar = |B-eff vertical bar. The Kondo effect can also be;restored by sweeping an external magnetic field, and the restoration;occurs twice in a single sweep. From the distance between the restored;Kondo resonances one can extract the information about both the exchange;field and the effective anisotropy. Finally, we calculate the;temperature dependence of linear conductance for the parameters where;the Kondo effect is restored and show that the restored Kondo resonances;display a universal scaling of S = 1/2 Kondo effect. DOI:;10.1103/PhysRevB.86.245415;3;0;0;0;3;1098-0121;WOS:000312365400007;;;J;Monette, Gabriel;Nateghi, Nima;Masut, Remo A.;Francoeur, Sebastien;Menard, David;Plasmonic enhancement of the magneto-optical response of MnP;nanoclusters embedded in GaP epilayers;PHYSICAL REVIEW B;86;24;245312;10.1103/PhysRevB.86.245312;DEC 14 2012;2012;We report on the magneto-optical activity of MnP nanoclusters embedded;in GaP epilayers and MnP thin film as a function of temperature,;magnetic field, and wavelength in the near infrared and visible. The;measured Faraday rotation originates from the ferromagnetic;magnetization of the metallic MnP phase and exhibits a hysteretic;behavior as a function of an externally applied magnetic field closely;matching that of the magnetization. The Faraday rotation spectrum of MnP;shows a magnetoplasmonic resonance whose energy depends on the MnP;filling factor and surrounding matrix permittivity. At resonance, the;measured rotary power for the epilayer systems increases by a factor of;2 compared to that of the MnP film in terms of degrees of rotation per;MnP thickness for an applied magnetic field of 410 mT. We propose an;effective medium model, which qualitatively reproduces the Faraday;rotation and the magnetocircular dichroism spectra, quantitatively;determines the spectral shift induced by variations in the MnP volume;fraction, and demonstrates the influence of the shape and orientation;distributions of ellipsoidal MnP nanoclusters on the magneto-optical;activity and absorption spectra. DOI: 10.1103/PhysRevB.86.245312;Menard, David/A-6862-2010; Francoeur, Sebastien/E-6614-2011; Masut, Remo/I-3727-2014;Menard, David/0000-0003-2207-3422;;2;0;0;0;2;1098-0121;WOS:000312365400003;;;J;Morgan, Steven W.;Oganesyan, Vadim;Boutis, Gregory S.;Multispin correlations and pseudothermalization of the transient density;matrix in solid-state NMR: Free induction decay and magic echo;PHYSICAL REVIEW B;86;21;214410;10.1103/PhysRevB.86.214410;DEC 14 2012;2012;Quantum unitary evolution typically leads to thermalization of generic;interacting many-body systems. There are very few known general methods;for reversing this process, and we focus on the magic echo, a;radio-frequency pulse sequence known to approximately "rewind" the time;evolution of dipolar coupled homonuclear spin systems in a large;magnetic field. By combining analytic, numerical, and experimental;results, we systematically investigate factors leading to the;degradation of magic echoes, as observed in reduced revival of mean;transverse magnetization. Going beyond the conventional analysis based;on mean magnetization, we use a phase-encoding technique to measure the;growth of spin correlations in the density matrix at different points in;time following magic echoes of varied durations and compare the results;to those obtained during a free induction decay. While considerable;differences are documented at short times, the long-time behavior of the;density matrix appears to be remarkably universal among the types of;initial states considered: simple low-order multispin correlations are;observed to decay exponentially at the same rate, seeding the onset of;increasingly complex high-order correlations. This manifestly athermal;process is constrained by conservation of the second moment of the;spectrum of the density matrix and proceeds indefinitely, assuming;unitary dynamics. DOI: 10.1103/PhysRevB.86.214410;3;0;0;0;3;1098-0121;WOS:000312364100002;;;J;Sung, N. H.;Roh, C. J.;Kim, K. S.;Cho, B. K.;Possible multigap superconductivity and magnetism in single crystals of;superconducting La2Pt3Ge5 and Pr2Pt3Ge5;PHYSICAL REVIEW B;86;22;224507;10.1103/PhysRevB.86.224507;DEC 14 2012;2012;We herein describe our investigation of the superconducting and magnetic;properties of the rare-earth ternary germanide intermetallic compounds;La2Pt3Ge5 and Pr2Pt3Ge5. Single crystals of La2Pt3Ge5 and Pr2Pt3Ge5 were;synthesized using the high-temperature metal flux method. Both types of;crystal formed in a U2Co3Si5-type orthorhombic structure (space group;Ibam). La2Pt3Ge5 showed the onset of superconducting phase transition at;T-c = 8.1 K, which, to the best of our knowledge, is the highest Tc of;all the R2M3X5 (R = rare-earth elements, M = transition metal, and X =;s-p metal) superconductors, and from the specific heat data, it was;found to have multigap superconductivity. Pr2Pt3Ge5 showed both a;superconducting phase transition at T-c = 7.8 K and two;antiferromagnetic transitions at T-N1 = 3.5 K and T-N2 = 4.2 K, which;indicates the coexistence of superconductivity and magnetism. However,;the correlation between the superconductivity and the magnetism was too;weak to be observed. In its normal state, Pr2Pt3Ge5 revealed strong;magnetic anisotropy, probably due to the crystalline electric field;effect. DOI: 10.1103/PhysRevB.86.224507;1;0;0;0;1;1098-0121;WOS:000312364500004;;;J;Suzuki, Takafumi;Sato, Masahiro;Gapless edge states and their stability in two-dimensional quantum;magnets;PHYSICAL REVIEW B;86;22;224411;10.1103/PhysRevB.86.224411;DEC 14 2012;2012;We study the nature of edge states in extrinsically and spontaneously;dimerized states of two-dimensional spin-1/2 antiferromagnets, by;performing quantum Monte Carlo simulation. We show that a gapless edge;mode emerges in the wide region of the dimerized phases, and the;critical exponent of spin correlators along the edge deviates from the;value of Tomonaga-Luttinger liquid (TLL) universality in large but;finite systems at low temperatures. We also demonstrate that the gapless;nature at edges is stable against several perturbations such as external;magnetic field, easy-plane XXZ anisotropy, Dzyaloshinskii-Moriya;interaction, and further-neighbor exchange interactions. The edge states;exhibit non-TLL behavior, depending strongly on model parameters and;kinds of perturbations. Possible ways of detecting these edge states are;discussed. Properties of edge states we show in this paper could also be;used as reference points to study other edge states of more exotic;gapped magnetic phases such as spin liquids. DOI:;10.1103/PhysRevB.86.224411;0;0;0;0;0;1098-0121;WOS:000312364500002;;;J;Tian, H. Y.;Chan, K. S.;Wang, J.;Efficient spin injection in graphene using electron optics;PHYSICAL REVIEW B;86;24;245413;10.1103/PhysRevB.86.245413;DEC 14 2012;2012;We investigate theoretically spin injection efficiency from the;ferromagnetic graphene to normal graphene (FG/NG) based on electron;optics, where the magnetization in the FG is assumed from the magnetic;proximity effect. Based on a graphene lattice model, we demonstrated;that one spin-species electron flow from a point source could be nearly;suppressed through the FG-NG interface, when the total internal;reflection effect occurs with the help of an additional barrier masking;the Klein tunneling, while the opposite spin-species electron flow could;even be collimated due to the negative refraction under suitable;parameters. Not only at the focusing point is the efficient spin;injection achieved, but in the whole NG region the spin injection;efficiency can also be maintained at a high level. It is also shown that;the nonideal FG-NG interface could reduce the spin injection efficiency;since the electron optics phenomena are weakened owing to the;interfacial backscattering. Our findings may shed light on making;graphene-based spin devices in the spintronics field. DOI:;10.1103/PhysRevB.86.245413;3;0;2;0;3;1098-0121;WOS:000312365400005;;;J;Vasko, F. T.;Mitin, V. V.;Ryzhii, V.;Otsuji, T.;Interplay of intra- and interband absorption in a disordered graphene;PHYSICAL REVIEW B;86;23;235424;10.1103/PhysRevB.86.235424;DEC 14 2012;2012;The absorption of heavily doped graphene in the terahertz and;midinfrared spectral regions is considered, taking into account both the;elastic scattering due to finite-range disorder and the variations of;concentration due to long-range disorder. The interplay between intra-;and interband transitions is analyzed for the high-frequency regime of;response, near the Pauli blocking threshold. The gate voltage and;temperature dependencies of the absorption efficiency are calculated. It;is demonstrated that for typical parameters, the smearing of the;interband absorption edge is determined by a partly screened;contribution to long-range disorder while the intraband absorption is;determined by finite-range scattering. The latter yields the spectral;dependencies which deviate from those following from the Drude formula.;The obtained dependencies are in agreement with recent experimental;results. The comparison of the results of our calculations with the;experimental data provides a possibility to extract the disorder;characteristics. DOI: 10.1103/PhysRevB.86.235424;10;0;0;0;10;1098-0121;WOS:000312365100007;;;J;Violante, C.;Conte, A. Mosca;Bechstedt, F.;Pulci, O.;Geometric, electronic, and optical properties of the Si(111)2x1 surface:;Positive and negative buckling;PHYSICAL REVIEW B;86;24;245313;10.1103/PhysRevB.86.245313;DEC 14 2012;2012;The Si(111)2x1 is among the most investigated surfaces. Nonetheless,;several issues are still not understood. Its reconstruction is well;explained in terms of the Pandey model with a slight buckling (tilting);of the topmost atoms; two different isomers of the surface,;conventionally named positive and negative buckling, exist. Usually,;scanning tunneling microscopy (STM) experiments identify the positive;buckling isomer as the stable reconstruction at room temperature.;However, at low temperatures and for high n doping of the substrate,;recent scanning tunneling spectroscopy (STS) measurements found the;coexistence of positive and negative buckling on the Si(111) 2x1;surface. In this work, state-of-the-art ab initio methods, based on;density functional theory and on many-body perturbation theory, have;been used to obtain structural, electronic, and optical properties of;Si(111) 2x1 positive and negative buckling. The theoretical reflectance;anisotropy spectra (RAS), with the inclusion of the excitonic effects,;can provide a way to deepen the understanding of the coexistence of the;isomers. DOI: 10.1103/PhysRevB.86.245313;5;0;0;0;5;1098-0121;WOS:000312365400004;;;J;Yuge, Tatsuro;Sagawa, Takahiro;Sugita, Ayumu;Hayakawa, Hisao;Geometrical pumping in quantum transport: Quantum master equation;approach;PHYSICAL REVIEW B;86;23;235308;10.1103/PhysRevB.86.235308;DEC 14 2012;2012;For an open quantum system, we investigate the pumped current induced by;a slow modulation of control parameters on the basis of the quantum;master equation and full counting statistics. We find that the average;and the cumulant generating function of the pumped quantity are;characterized by the geometrical Berry-phase-like quantities in the;parameter space, which is associated with the generator of the master;equation. From our formulation, we can discuss the geometrical pumping;under the control of the chemical potentials and temperatures of;reservoirs. We demonstrate the formulation by spinless electrons in;coupled quantum dots. We show that the geometrical pumping is prohibited;for the case of noninteracting electrons if we modulate only;temperatures and chemical potentials of reservoirs, while the;geometrical pumping occurs in the presence of an interaction between;electrons. DOI: 10.1103/PhysRevB.86.235308;5;0;0;0;5;1098-0121;WOS:000312365100003;;;J;Zhang, Yanning;Wang, Hui;Wu, Ruqian;First-principles determination of the rhombohedral magnetostriction of;Fe100-xAlx and Fe100-xGax alloys;PHYSICAL REVIEW B;86;22;224410;10.1103/PhysRevB.86.224410;DEC 14 2012;2012;Through systematic density functional calculations using the full;potential linearized augmented plane-wave (FLAPW) method, the;rhombohedral magnetostriction (lambda(111)) of Fe100-xAlx and Fe100-xGax;alloys are studied for x up to 25. Theoretical calculations;satisfactorily reproduce the main features of experimental;lambda(111)(x) curves, except for dilute alloys with x < 5. Detailed;analyses on electronic and structural properties indicate the importance;of availability and symmetry of dangling bonds for the sign change of;lambda(111) around x = 16. In addition, the impurity induced local;distortion might be a possible reason for the disagreement between;theory and experiment for lambda(111) of the bulk bcc Fe. DOI:;10.1103/PhysRevB.86.224410;ZHANG, YANNING/A-3316-2013; Wu, Ruqian/C-1395-2013;0;0;0;0;0;1098-0121;WOS:000312364500001;;;J;Al Attar, Hameed A.;Monkman, Andrew P.;Controlled energy transfer between isolated donor-acceptor molecules;intercalated in thermally self-ensemble two-dimensional hydrogen bonding;cages;PHYSICAL REVIEW B;86;23;235420;10.1103/PhysRevB.86.235420;DEC 13 2012;2012;Thermally assembled hydrogen bonding cages which are neither size nor;guest specific have been developed using a poly (vinyl alcohol) (PVA);host. A water-soluble conjugated polymer;poly(2,5-bis(3-sulfonatopropoxy)-1,4-phenylene, disodium;salt-alt-1,4-phenylene) (PPP-OPSO3) as a donor and;tris(2,2-bipyridyl)-ruthenium(II) [Ru(bpy)(3)(2+)] as an acceptor have;been isolated and trapped in such a PVA matrix network. This is a unique;system that shows negligible exciton diffusion and the donor and;acceptor predominantly interact by a direct single step excitation;transfer process (DSSET). Singlet and triplet exciton quenching have;been studied. Time-resolved fluorescence lifetime measurement at;different acceptor concentrations has enabled us to determine the;dimensionality of the energy-transfer process within the PVA scaffold.;Our results reveal that the PVA hydrogen bonding network effectively;isolates the donor-acceptor molecules in a two-dimensional layer;structure (lamella) leading to the condition where a precise control of;the energy and charge transfer is possible.;Monkman, Andy/B-1521-2013;Monkman, Andy/0000-0002-0784-8640;0;0;0;0;0;1098-0121;WOS:000312291900005;;;J;Anzenberg, Eitan;Perkinson, Joy C.;Madi, Charbel S.;Aziz, Michael J.;Ludwig, Karl F., Jr.;Nanoscale surface pattern formation kinetics on germanium irradiated by;Kr+ ions;PHYSICAL REVIEW B;86;24;10.1103/PhysRevB.86.245412;DEC 13 2012;2012;Nanoscale surface topography evolution on Ge surfaces irradiated by 1;keV Kr+ ions is examined in both directions perpendicular and parallel;to the projection of the ion beam on the surface. Grazing incidence;small angle x-ray scattering is used to measure in situ the evolution of;surface morphology via the linear dispersion relation. A transition from;smoothing (stability) to pattern-forming instability is observed at a;critical ion incidence angle of approximately 62 degrees with respect to;the surface normal. The linear theory quadratic coefficients which;determine the surface stability/instability are determined as a function;of bombardment angle. The Ge surface evolution during Kr+ irradiation is;qualitatively similar to that observed for Ar+ irradiation of Si.;However, in contrast to the case of Si under Ar+ irradiation, the;critical angle separating stability and instability for Ge under Kr+;irradiation cannot be quantitatively reproduced by the simple;Carter-Vishnyakov mass redistribution model. DOI:;10.1103/PhysRevB.86.245412;5;0;0;0;5;1098-0121;WOS:000312292600006;;;J;Arnardottir, K. B.;Kyriienko, O.;Shelykh, I. A.;Hall effect for indirect excitons in an inhomogeneous magnetic field;PHYSICAL REVIEW B;86;24;245311;10.1103/PhysRevB.86.245311;DEC 13 2012;2012;We study the effect of an inhomogeneous out-of-plane magnetic field on;the behavior of two-dimensional (2D) spatially indirect excitons. Due to;the difference of the magnetic field acting on electrons and holes, the;total Lorentz force affecting the center of mass motion of an indirect;exciton appears. Consequently, an indirect exciton acquires an effective;charge proportional to the gradient of the magnetic field. The;appearance of the Lorentz force causes the Hall effect for neutral;bosons, which can be detected by measurement of the spatially;inhomogeneous blueshift of the photoluminescence using a counterflow;experiment. DOI: 10.1103/PhysRevB.86.245311;Kyriienko, Oleksandr/M-5163-2014;Kyriienko, Oleksandr/0000-0002-6259-6570;2;0;0;0;2;1098-0121;WOS:000312292600004;;;J;Baek, S. -H.;Loew, T.;Hinkov, V.;Lin, C. T.;Keimer, B.;Buechner, B.;Grafe, H. -J.;Evidence of a critical hole concentration in underdoped YBa2Cu3Oy single;crystals revealed by Cu-63 NMR;PHYSICAL REVIEW B;86;22;220504;10.1103/PhysRevB.86.220504;DEC 13 2012;2012;We report a Cu-63 NMR investigation in detwinned YBa2Cu3Oy single;crystals, focusing on the highly underdoped regime (y = 6.35-6.6).;Measurements of both the spectra and the spin-lattice relaxation rates;of Cu-63 uncover the emergence of static order at a well-defined onset;temperature T-0 with an as yet unknown order parameter. While T-0 is;rapidly suppressed with increasing hole doping concentration p, the spin;pseudogap was identified only near and above the doping content at which;T-0 -> 0. Our data indicate the presence of a critical hole doping p(c);similar to 0.1, which may control both the static order at p < p(c) and;the spin pseudogap at p > p(c). DOI: 10.1103/PhysRevB.86.220504;Baek, Seung-Ho/F-4733-2011;Baek, Seung-Ho/0000-0002-0059-8255;6;1;0;0;6;1098-0121;WOS:000312291200001;;;J;Bieri, Samuel;Serbyn, Maksym;Senthil, T.;Lee, Patrick A.;Paired chiral spin liquid with a Fermi surface in S=1 model on the;triangular lattice;PHYSICAL REVIEW B;86;22;224409;10.1103/PhysRevB.86.224409;DEC 13 2012;2012;Motivated by recent experiments on Ba3NiSb2O9, we investigate possible;quantum spin liquid ground states for spin S = 1 Heisenberg models on;the triangular lattice. We use variational Monte Carlo techniques to;calculate the energies of microscopic spin liquid wave functions where;spin is represented by three flavors of fermionic spinon operators.;These energies are compared with the energies of various competing;three-sublattice ordered states. Our approach shows that the;antiferromagnetic Heisenberg model with biquadratic term and single-ion;anisotropy does not have a low-temperature spin liquid phase. However,;for an SU(3)-invariant model with sufficiently strong ring-exchange;terms, we find a paired chiral quantum spin liquid with a Fermi surface;of deconfined spinons that is stable against all types of ordering;patterns we considered. We discuss the physics of this exotic spin;liquid state in relation to the recent experiment and suggest new ways;to test this scenario. DOI: 10.1103/PhysRevB.86.224409;Bieri, Samuel/L-1045-2013;11;0;0;0;11;1098-0121;WOS:000312291200002;;;J;Busch, M.;Seifert, J.;Meyer, E.;Winter, H.;Evidence for longitudinal coherence in fast atom diffraction;PHYSICAL REVIEW B;86;24;241402;10.1103/PhysRevB.86.241402;DEC 13 2012;2012;Angular distributions for grazing scattering of keV H atoms from an;Al2O3(11 (2) over bar0) surface were recorded. These distributions;reveal defined diffraction patterns which can be understood in terms of;quantum scattering from well-ordered surfaces. From the observation of;so-called Laue circles, we conclude a high degree of longitudinal;coherence for fast atom diffraction at surfaces which allows one to;resolve periodicity intervals of several 100 angstrom. We demonstrate;this feature in scattering experiments from the reconstructed (12 x 4);phase of an Al2O3(11 (2) over bar0) surface obtained after annealing at;temperatures of about 2000 K. DOI: 10.1103/PhysRevB.86.241402;4;0;0;0;4;1098-0121;WOS:000312292600002;;;J;Chen, Chien-Chun;Jiang, Huaidong;Rong, Lu;Salha, Sara;Xu, Rui;Mason, Thomas G.;Miao, Jianwei;Reply to "Comment on 'Three-dimensional imaging of a phase object from a;single sample orientation using an optical laser'";PHYSICAL REVIEW B;86;22;226102;10.1103/PhysRevB.86.226102;DEC 13 2012;2012;In a technical comment to our paper [Phys. Rev. B 84, 224104 (2011)],;Wei and Liu criticized our work without providing theoretical,;numerical, or experimental evidence. Furthermore, we believe they;misinterpreted our matrix rank analysis of ankylography and their;statements about our experiment are inaccurate. Below is our detailed;point-by-point response to their criticisms. DOI:;10.1103/PhysRevB.86.226102;Rong, Lu/L-6195-2014;Rong, Lu/0000-0003-4614-6411;0;0;0;0;0;1098-0121;WOS:000312291200004;;;J;Dubail, J.;Read, N.;Rezayi, E. H.;Edge-state inner products and real-space entanglement spectrum of trial;quantum Hall states;PHYSICAL REVIEW B;86;24;245310;10.1103/PhysRevB.86.245310;DEC 13 2012;2012;We consider the trial wave functions for the fractional quantum Hall;effect that are given by conformal blocks, and construct their;associated edge excited states in full generality. The inner products;between these edge states are computed in the thermodynamic limit,;assuming generalized screening (i.e., short-range correlations only);inside the quantum Hall droplet and using the language of boundary;conformal field theory (boundary CFT). These inner products take;universal values in this limit: they are equal to the corresponding;inner products in the bulk two-dimensional chiral CFT which underlies;the trial wave function. This is a bulk/edge correspondence; it shows;the equality between equal-time correlators along the edge and the;correlators of the bulk CFT up to a Wick rotation. This approach is then;used to analyze the entanglement spectrum of the ground state obtained;with a bipartition A boolean OR B in real space. Starting from our;universal result for inner products in the thermodynamic limit, we;tackle corrections to scaling using standard field-theoretic and;renormalization- group arguments. We prove that generalized screening;implies that the entanglement Hamiltonian H-E = -ln rho(A) is;isospectral to an operator that is local along the cut between A and B.;We also show that a similar analysis can be carried out for particle;partition. We discuss the close analogy between the formalism of trial;wave functions given by conformal blocks and tensor product states, for;which results analogous to ours have appeared recently. Finally, the;edge theory and entanglement spectrum of p(x) +/- ip(y) paired;superfluids are treated in a similar fashion in the Appendixes. DOI:;10.1103/PhysRevB.86.245310;Read, Nicholas/J-6030-2012;14;0;0;0;14;1098-0121;WOS:000312292600003;;;J;He, Jiangang;Franchini, Cesare;Screened hybrid functional applied to 3d(0)-> 3d(8) transition-metal;perovskites LaMO3 (M = Sc-Cu): Influence of the exchange mixing;parameter on the structural, electronic, and magnetic properties;PHYSICAL REVIEW B;86;23;235117;10.1103/PhysRevB.86.235117;DEC 13 2012;2012;We assess the performance of the Heyd-Scuseria-Ernzerhof (HSE) screened;hybrid density functional scheme applied to the perovskite family LaMO3;(M = Sc-Cu) and discuss the role of the mixing parameter alpha [which;determines the fraction of exact Hartree-Fock exchange included in the;density functional theory (DFT) exchange-correlation functional] on the;structural, electronic, and magnetic properties. The physical complexity;of this class of compounds, manifested by the largely varying electronic;characters (band/Mott-Hubbard/charge-transfer insulators and metals),;magnetic orderings, structural distortions (cooperative Jahn-Teller-type;instabilities), as well as by the strong competition between;localization/delocalization effects associated with the gradual filling;of the t(2g) and e(g) orbitals, symbolize a critical and challenging;case for theory. Our results indicate that HSE is able to provide a;consistent picture of the complex physical scenario encountered across;the LaMO3 series and significantly improve the standard DFT description.;The only exceptions are the correlated paramagnetic metals LaNiO3 and;LaCuO3, which are found to be treated better within DFT. By fitting the;ground-state properties with respect to alpha, we have constructed a set;of "optimum" values of alpha from LaScO3 to LaCuO3: it is found that the;optimum mixing parameter decreases with increasing filling of the d;manifold (LaScO3: 0.25; LaTiO3 and LaVO3: 0.10-0.15; LaCrO3, LaMnO3, and;LaFeO3: 0.15; LaCoO3: 0.05; LaNiO3 and LaCuO3: 0). This trend can be;nicely correlated with the modulation of the screening and dielectric;properties across the LaMO3 series, thus providing a physical;justification to the empirical fitting procedure. Finally, we show that;by using this set of optimum mixing parameter, HSE predict dielectric;constants in very good agreement with the experimental ones.;17;1;1;0;17;1098-0121;WOS:000312291900002;;;J;Imura, Ken-Ichiro;Yoshimura, Yukinori;Takane, Yositake;Fukui, Takahiro;Spherical topological insulator;PHYSICAL REVIEW B;86;23;235119;10.1103/PhysRevB.86.235119;DEC 13 2012;2012;The electronic spectrum on the spherical surface of a topological;insulator reflects an active property of the helical surface state that;stems from a constraint on its spin on a curved surface. The induced;spin connection can be interpreted as an effective vector potential;associated with a fictitious magnetic monopole induced at the center of;the sphere. The strength of the induced magnetic monopole is found to be;g = +/-2 pi, being the smallest finite (absolute) value compatible with;the Dirac quantization condition. We have established an explicit;correspondence between the bulk Hamiltonian and the effective Dirac;operator on the curved spherical surface. An explicit construction of;the surface spinor wave functions implies a rich spin texture possibly;realized on the surface of topological insulator nanoparticles. The;electronic spectrum inferred by the obtained effective surface Dirac;theory, confirmed also by the bulk tight-binding calculation, suggests a;specific photoabsorption/emission spectrum of such nanoparticles.;Imura, Ken/D-6633-2013;6;0;0;0;6;1098-0121;WOS:000312291900004;;;J;Kamburov, D.;Shayegan, M.;Winkler, R.;Pfeiffer, L. N.;West, K. W.;Baldwin, K. W.;Anisotropic Fermi contour of (001) GaAs holes in parallel magnetic;fields;PHYSICAL REVIEW B;86;24;241302;10.1103/PhysRevB.86.241302;DEC 13 2012;2012;We report a severe, spin-dependent, Fermi contour anisotropy induced by;parallel magnetic field in a high-mobility (001) GaAs two-dimensional;hole system. Employing commensurability oscillations created by a;unidirectional, surface-strain-induced, periodic potential modulation,;we directly probe the anisotropy of the two spin subband Fermi contours.;Their areas are obtained from the Fourier transform of the Shubnikov-de;Haas oscillations. Our findings are in semiquantitative agreement with;the results of parameter-free calculations of the energy bands. DOI:;10.1103/PhysRevB.86.241302;5;0;0;0;5;1098-0121;WOS:000312292600001;;;J;Kourtis, Stefanos;Venderbos, Joern W. F.;Daghofer, Maria;Fractional Chern insulator on a triangular lattice of strongly;correlated t(2g) electrons;PHYSICAL REVIEW B;86;23;235118;10.1103/PhysRevB.86.235118;DEC 13 2012;2012;We discuss the low-energy limit of three-orbital Kondo-lattice and;Hubbard models describing t(2g) orbitals on a triangular lattice near;half-filling. We analyze how very flat single-particle bands with;nontrivial topological character, a Chern number C = +/-1, arise both in;the limit of infinite on-site interactions as well as in more realistic;regimes. Exact diagonalization is then used to investigate an effective;one-orbital spinless-fermion model at fractional fillings including;nearest-neighbor interaction V; it reveals signatures of fractional;Chern insulator (FCI) states for several filling fractions. In addition;to indications based on energies, e. g., flux insertion and fractional;statistics of quasiholes, Chern numbers are obtained. It is shown that;FCI states are robust against disorder in the underlying magnetic;texture that defines the topological character of the band. We also;investigate competition between a FCI state and a charge density wave;(CDW) and discuss the effects of particle-hole asymmetry and;Fermi-surface nesting. FCI states turn out to be rather robust and do;not require very flat bands, but can also arise when filling or an;absence of Fermi-surface nesting disfavor the competing CDW.;Nevertheless, very flat bands allow FCI states to be induced by weaker;interactions than those needed for more dispersive bands.;Daghofer, Maria/C-5762-2008;Daghofer, Maria/0000-0001-9434-8937;10;0;0;0;10;1098-0121;WOS:000312291900003;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;23;230001;10.1103/PhysRevB.86.230001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312291900001;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;21;210001;10.1103/PhysRevB.86.210001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700001;;;J;Ochoa, H.;Castro Neto, A. H.;Fal'ko, V. I.;Guinea, F.;Spin-orbit coupling assisted by flexural phonons in graphene;PHYSICAL REVIEW B;86;24;245411;10.1103/PhysRevB.86.245411;DEC 13 2012;2012;We analyze the couplings between spins and phonons in graphene. We;present a complete analysis of the possible couplings between spins and;flexural, out-of-plane, vibrations. From tight-binding models, we obtain;analytical and numerical estimates of their strength. We show that;dynamical effects, induced by quantum and thermal fluctuations,;significantly enhance the spin-orbit gap. DOI:;10.1103/PhysRevB.86.245411;Guinea, Francisco/A-7122-2008; Castro Neto, Antonio/C-8363-2014;Guinea, Francisco/0000-0001-5915-5427; Castro Neto,;Antonio/0000-0003-0613-4010;9;1;0;0;9;1098-0121;WOS:000312292600005;;;J;Suewattana, Malliga;Singh, David J.;Limpijumnong, Sukit;Crystal structure and cation off-centering in Bi(Mg1/2Ti1/2)O-3 (vol 86,;064105, 2012);PHYSICAL REVIEW B;86;21;219903;10.1103/PhysRevB.86.219903;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700002;;;J;Wei, Haiqing;Liu, Shiyuan;Comment on "Three-dimensional imaging of a phase object from a single;sample orientation using an optical laser";PHYSICAL REVIEW B;86;22;226101;10.1103/PhysRevB.86.226101;DEC 13 2012;2012;A recent article by Chen et al. [Phys. Rev. B 84, 224104 (2011)];purports a "matrix rank analysis" and an optical experiment in support;of the three-dimensional (3D) imaging technique called "ankylography.";However, the mathematical analysis does not appear to be conclusive, and;the one used in the experiment is more a 3D-supported scattering object;of actually 2D complexity than a 3D-distributed scattering object of;truly 3D complexity. Consequently, the article provides little support;to the "ankylography" technique. DOI: 10.1103/PhysRevB.86.226101;Liu, Shiyuan/H-1463-2012;Liu, Shiyuan/0000-0002-0756-1439;1;0;0;0;1;1098-0121;WOS:000312291200003;;;J;Bobes, Omar;Zhang, Kun;Hofsaess, Hans;Ion beam induced surface patterns due to mass redistribution and;curvature-dependent sputtering;PHYSICAL REVIEW B;86;23;235414;10.1103/PhysRevB.86.235414;DEC 12 2012;2012;Recently it was reported that ion-induced mass redistribution would;solely determine nano pattern formation on ion-irradiated surfaces. We;investigate the pattern formation on amorphous carbon thin films;irradiated with Xe ions of energies between 200 eV and 10 keV. Sputter;yield as well as number of displacements within the collision cascade;vary strongly as function of ion energy and allow us to investigate the;contributions of curvature-dependent erosion according to the;Bradley-Harper model as well as mass redistribution according to the;Carter-Vishnyakov model. We find parallel ripple orientations for an ion;incidence angle of 60 degrees and for all energies. A transition to;perpendicular pattern orientation or a rather flat surface occurs around;80 degrees for energies between 1 keV and 10 keV. Our results are;compared with calculations based on both models. For the calculations we;extract the shape and size of Sigmund's energy ellipsoid (parameters a,;sigma, mu), the angle-dependent sputter yield, and the mean mass;redistribution distance from the Monte Carlo simulations with program;SDTrimSP. The calculated curvature coefficients S-x and S-y describing;the height evolution of the surface show that mass redistribution is;dominant for parallel pattern formation in the whole energy regime.;Furthermore, the angle where the parallel pattern orientation starts to;disappear is related to curvature-dependent sputtering. In addition, we;investigate the case of Pt erosion with 200 eV Ne ions, where mass;redistribution vanishes. In this case, we observe perpendicular ripple;orientation in accordance with curvature-dependent sputtering and the;predictions of the Bradley-Harper model.;10;0;0;0;10;1098-0121;WOS:000312291600004;;;J;Bradlyn, Barry;Goldstein, Moshe;Read, N.;Kubo formulas for viscosity: Hall viscosity, Ward identities, and the;relation with conductivity;PHYSICAL REVIEW B;86;24;245309;10.1103/PhysRevB.86.245309;DEC 12 2012;2012;Motivated by recent work on Hall viscosity, we derive from first;principles the Kubo formulas for the stress-stress response function at;zero wave vector that can be used to define the full complex;frequency-dependent viscosity tensor, both with and without a uniform;magnetic field. The formulas in the existing literature are frequently;incomplete, incorrect, or lack a derivation; in particular, Hall;viscosity is overlooked. Our approach begins from the response to a;uniform external strain field, which is an active time-dependent;coordinate transformation in d space dimensions. These transformations;form the group GL(d, R) of invertible matrices, and the infinitesimal;generators are called strain generators. These enable us to express the;Kubo formula in different ways, related by Ward identities; some of;these make contact with the adiabatic transport approach. The importance;of retaining contact terms, analogous to the diamagnetic term in the;familiar Kubo formula for conductivity, is emphasized. For;Galilean-invariant systems, we derive a relation between the stress;response tensor and the conductivity tensor that is valid at all;frequencies and in both the presence and absence of a magnetic field. In;the presence of a magnetic field and at low frequency, this yields a;relation between the Hall viscosity, the q(2) part of the Hall;conductivity, the inverse compressibility (suitably defined), and the;diverging part of the shear viscosity (if any); this relation;generalizes a result found recently by others. We show that the correct;value of the Hall viscosity at zero frequency can be obtained (at least;in the absence of low-frequency bulk and shear viscosity) by assuming;that there is an orbital spin per particle that couples to a perturbing;electromagnetic field as a magnetization per particle. We study several;examples as checks on our formulation. We also present formulas for the;stress response that directly generalize the Berry (adiabatic) curvature;expressions for zero-frequency Hall conductivity or viscosity to the;full tensors at all frequencies. DOI: 10.1103/PhysRevB.86.245309;Read, Nicholas/J-6030-2012;21;0;0;0;21;1098-0121;WOS:000312292400010;;;J;Calvo, Hernan L.;Classen, Laura;Splettstoesser, Janine;Wegewijs, Maarten R.;Interaction-induced charge and spin pumping through a quantum dot at;finite bias;PHYSICAL REVIEW B;86;24;245308;10.1103/PhysRevB.86.245308;DEC 12 2012;2012;We investigate charge and spin transport through an adiabatically;driven, strongly interacting quantum dot weakly coupled to two metallic;contacts with finite bias voltage. Within a kinetic equation approach,;we identify coefficients of response to the time-dependent external;driving and relate these to the concepts of charge and spin emissivities;previously discussed within the time-dependent scattering matrix;approach. Expressed in terms of auxiliary vector fields, the response;coefficients allow for a straightforward analysis of recently predicted;interaction-induced pumping under periodic modulation of the gate and;bias voltage [Reckermann et al., Phys. Rev. Lett. 104, 226803 (2010)].;We perform a detailed study of this effect and the related adiabatic;Coulomb blockade spectroscopy, and, in particular, extend it to spin;pumping. Analytic formulas for the pumped charge and spin in the regimes;of small and large driving amplitude are provided for arbitrary bias. In;the absence of a magnetic field, we obtain a striking, simple relation;between the pumped charge at zero bias and at bias equal to the Coulomb;charging energy. At finite magnetic field, there is a possibility to;have interaction-induced pure spin pumping at this finite bias value,;and generally, additional features appear in the pumped charge. For;large-amplitude adiabatic driving, the magnitude of both the pumped;charge and spin at the various resonances saturates at values which are;independent of the specific shape of the pumping cycle. Each of these;values provides an independent, quantitative measure of the junction;asymmetry. DOI: 10.1103/PhysRevB.86.245308;Calvo, Hernan/D-9825-2011; Wegewijs, Maarten/A-3512-2012; Splettstoesser, Janine/B-4003-2012;Wegewijs, Maarten/0000-0002-2972-3822;;6;0;1;0;6;1098-0121;WOS:000312292400009;;;J;Drummond, David;Pryadko, Leonid P.;Shtengel, Kirill;Suppression of hyperfine dephasing by spatial exchange of double quantum;dots;PHYSICAL REVIEW B;86;24;245307;10.1103/PhysRevB.86.245307;DEC 12 2012;2012;We examine the logical qubit system of a pair of electron spins in;double quantum dots. Each electron experiences a different hyperfine;interaction with the local nuclei of the lattice, leading to a relative;phase difference, and thus decoherence. Methods such as nuclei;polarization, state narrowing, and spin-echo pulses have been proposed;to delay decoherence. Instead we propose to suppress hyperfine dephasing;by the adiabatic rotation of the dots in real space, leading to the same;average hyperfine interaction. We show that the additional effects due;to the motion in the presence of spin-orbit coupling are still smaller;than the hyperfine interaction, and result in an infidelity below 10(-4);after ten decoupling cycles. We discuss a possible experimental setup;and physical constraints for this proposal. DOI:;10.1103/PhysRevB.86.245307;0;0;0;0;0;1098-0121;WOS:000312292400008;;;J;Estienne, B.;Regnault, N.;Bernevig, B. A.;D-algebra structure of topological insulators;PHYSICAL REVIEW B;86;24;241104;10.1103/PhysRevB.86.241104;DEC 12 2012;2012;In the quantum Hall effect, the density operators at different wave;vectors generally do not commute and give rise to the Girvin-MacDonald-;Plazmann (GMP) algebra, with important consequences such as ground-state;center-of-mass degeneracy at fractional filling fraction, and;W1+infinity symmetry of the filled Landau levels. We show that the;natural generalization of the GMP algebra to higher-dimensional;topological insulators involves the concept of a D commutator. For;insulators in even-dimensional space, the D commutator is isotropic and;closes, and its structure factors are proportional to the D/2 Chern;number. In odd dimensions, the algebra is not isotropic, contains the;weak topological insulator index (layers of the topological insulator in;one fewer dimension), and does not contain the Chern-Simons theta form.;This algebraic structure paves the way towards the identification of;fractional topological insulators through the counting of their;excitations. The possible relation to D-dimensional volume-preserving;diffeomorphisms and parallel transport of extended objects is also;discussed. DOI: 10.1103/PhysRevB.86.241104;7;0;0;0;7;1098-0121;WOS:000312292400001;;;J;Gingrich, E. C.;Quarterman, P.;Wang, Yixing;Loloee, R.;Pratt, W. P., Jr.;Birge, Norman O.;Spin-triplet supercurrent in Co/Ni multilayer Josephson junctions with;perpendicular anisotropy;PHYSICAL REVIEW B;86;22;224506;10.1103/PhysRevB.86.224506;DEC 12 2012;2012;We have measured spin-triplet supercurrent in Josephson junctions of the;form S/F'/F/F'/S, where S is superconducting Nb, F' is a thin Ni layer;with in-plane magnetization, and F is a Ni/[Co/Ni](n) multilayer with;out-of-plane magnetization. The supercurrent in these junctions decays;very slowly with F-layer thickness and is much larger than in similar;junctions not containing the two F' layers. Those two features are the;characteristic signatures of spin-triplet supercurrent, which is;maximized by the orthogonality of the magnetizations in the F and F';layers. Magnetic measurements confirm the out-of-plane anisotropy of the;Co/Ni multilayers. These samples have their critical current optimized;in the as-prepared state, which will be useful for future applications.;DOI: 10.1103/PhysRevB.86.224506;7;1;0;0;7;1098-0121;WOS:000312291100001;;;J;Golub, Anatoly;Grosfeld, Eytan;Charge resistance in a Majorana RC circuit;PHYSICAL REVIEW B;86;24;241105;10.1103/PhysRevB.86.241105;DEC 12 2012;2012;We investigate the dynamical charge response in a "Majorana Coulomb box";realized by two Majorana bound states hosted at the ends of a mesoscopic;topological superconductor. One side of the wire is coupled to a normal;lead and low frequency gate voltage is applied to the system. There is;no dc current; the system can be considered as an RC quantum circuit. We;calculate the effective capacitance and charge relaxation resistance.;The latter is in agreement with the Korringa-Shiba formula where,;however, the charge relaxation resistance is equal to h/2e(2). This;value corresponds to the strong Coulomb blockade limit described by a;resonant model formulated by Fu [Phys. Rev. Lett. 104, 056402 (2010)].;We also performed direct calculations using the latter model and defined;its parameters by direct comparison with our perturbation theory;results. DOI: 10.1103/PhysRevB.86.241105;4;1;0;0;4;1098-0121;WOS:000312292400002;;;J;Guenter, T.;Rubano, A.;Paparo, D.;Lilienblum, M.;Marrucci, L.;Granozio, F. Miletto;di Uccio, U. Scotti;Jany, R.;Richter, C.;Mannhart, J.;Fiebig, M.;Spatial inhomogeneities at the LaAlO3/SrTiO3 interface: Evidence from;second harmonic generation;PHYSICAL REVIEW B;86;23;235418;10.1103/PhysRevB.86.235418;DEC 12 2012;2012;Phase-sensitive, spatially resolved optical second-harmonic-generation;experiments were performed on LaAlO3/SrTiO3 heterostructures. Lateral;inhomogeneities on a length scale of approximate to 30 mu m are found;when a one-unit-cell-thick epitaxial monolayer of LaAlO3 is grown on;TiO2-terminated SrTiO3 single crystals. The inhomogeneity is absent in;samples with LaAlO3 layers of more than one unit cell. The results are;discussed in the framework of electronic, oxidic, and chemical;inhomogeneities.;Marrucci, Lorenzo/A-4331-2012; Richter, Christoph/A-6172-2013;Marrucci, Lorenzo/0000-0002-1154-8966; Richter,;Christoph/0000-0002-6591-1118;7;0;0;0;7;1098-0121;WOS:000312291600008;;;J;Huang, Zhoushen;Arovas, Daniel P.;Entanglement spectrum and Wannier center flow of the Hofstadter problem;PHYSICAL REVIEW B;86;24;245109;10.1103/PhysRevB.86.245109;DEC 12 2012;2012;We examine the quantum entanglement spectra and Wannier functions of the;square lattice Hofstadter model. Consistent with previous work on;entanglement spectra of topological band structures, we find that the;entanglement levels exhibit a spectral flow similar to that of the full;system's energy spectrum. While the energy spectra are continuous, with;cylindrical boundary conditions the entanglement spectra exhibit;discontinuities associated with the passage of an energy edge state;through the Fermi level. We show how the entanglement spectrum can be;understood by examining the band projectors of the full system and their;behavior under adiabatic pumping. In so doing we make connections with;the original work by Thouless, Kohmoto, Nightingale, and den Nijs (TKNN);[Phys. Rev. Lett. 49, 405 (1982)] on topological two-dimensional band;structures and their Chern numbers. Finally, we consider Wannier states;and their adiabatic flows and draw connections to the entanglement;properties. DOI: 10.1103/PhysRevB.86.245109;5;0;0;0;5;1098-0121;WOS:000312292400003;;;J;Humeniuk, Stephan;Roscilde, Tommaso;Quantum Monte Carlo calculation of entanglement Renyi entropies for;generic quantum systems;PHYSICAL REVIEW B;86;23;235116;10.1103/PhysRevB.86.235116;DEC 12 2012;2012;We present a general scheme for the calculation of the Renyi entropy of;a subsystem in quantum many-body models that can be efficiently;simulated via quantum Monte Carlo. When the simulation is performed at;very low temperature, the above approach delivers the entanglement Renyi;entropy of the subsystem, and it allows us to explore the crossover to;the thermal Renyi entropy as the temperature is increased. We implement;this scheme explicitly within the stochastic series expansion as well as;within path-integral Monte Carlo, and apply it to quantum spin and;quantum rotor models. In the case of quantum spins, we show that;relevant models in two dimensions with reduced symmetry (XX model or;hard-core bosons, transverse-field Ising model at the quantum critical;point) exhibit an area law for the scaling of the entanglement entropy.;23;0;0;0;23;1098-0121;WOS:000312291600002;;;J;Jacobs, Th;Katterwe, S. O.;Motzkau, H.;Rydh, A.;Maljuk, A.;Helm, T.;Putzke, C.;Kampert, E.;Kartsovnik, M. V.;Krasnov, V. M.;Electron-tunneling measurements of low-T-c single-layer;Bi2+xSr2-yCuO6+delta: Evidence for a scaling disparity between;superconducting and pseudogap states;PHYSICAL REVIEW B;86;21;214506;10.1103/PhysRevB.86.214506;DEC 12 2012;2012;We experimentally study intrinsic tunneling and high magnetic field (up;to 65 T) transport characteristics of the single-layer cuprate;Bi2+xSr2-yCuO6+delta, with a very low superconducting critical;temperature T-c less than or similar to 4 K. It is observed that the;superconducting gap, the collective bosonic mode energy, the upper;critical field, and the fluctuation temperature range are scaling down;with T-c, while the corresponding pseudogap characteristics remain the;same as in high-T-c cuprates with 20 to 30 times higher T-c. The;observed disparity of the superconducting and pseudogap scales clearly;reveals their different origins. DOI: 10.1103/PhysRevB.86.214506;Kartsovnik, Mark/E-3598-2013; Rydh, Andreas/A-7068-2012;Kartsovnik, Mark/0000-0002-3011-0169; Rydh, Andreas/0000-0001-6641-4861;4;1;0;0;4;1098-0121;WOS:000312290600002;;;J;Klinovaja, Jelena;Ferreira, Gerson J.;Loss, Daniel;Helical states in curved bilayer graphene;PHYSICAL REVIEW B;86;23;235416;10.1103/PhysRevB.86.235416;DEC 12 2012;2012;We study spin effects of quantum wires formed in bilayer graphene by;electrostatic confinement. With a proper choice of the confinement;direction, we show that in the presence of magnetic field, spin orbit;interaction induced by curvature, and intervalley scattering, bound;states emerge that are helical. The localization length of these helical;states can be modulated by the gate voltage which enables the control of;the tunnel coupling between two parallel wires. Allowing for proximity;effect via an s-wave superconductor, we show that the helical modes give;rise to Majorana fermions in bilayer graphene.;J. Ferreira, Gerson/K-1948-2013; Klinovaja, Jelena/L-2510-2013; Loss, Daniel/A-3721-2008;J. Ferreira, Gerson/0000-0002-4933-3119; Loss,;Daniel/0000-0001-5176-3073;17;0;0;0;17;1098-0121;WOS:000312291600006;;;J;Lee, Wei-Cheng;Phillips, Philip W.;Non-Fermi liquid due to orbital fluctuations in iron pnictide;superconductors;PHYSICAL REVIEW B;86;24;245113;10.1103/PhysRevB.86.245113;DEC 12 2012;2012;We study the influence of quantum fluctuations on the electron;self-energy in the normal state of iron pnictide superconductors using a;five-orbital tight-binding model with generalized Hubbard on-site;interactions. Within a one-loop treatment, we find that an overdamped;collective mode develops at low frequency in channels associated with;quasi-one-dimensional d(xz) and d(yz) bands. When the critical point for;the C-4-symmetry-broken phase (structural phase transition) is;approached, the overdamped collective modes soften, and acquire;increased spectral weight, resulting in non-Fermi-liquid behavior at the;Fermi surface characterized by a frequency dependence of the imaginary;part of the electron self-energy of the form. omega(lambda), 0 < lambda;< 1. We argue that this non-Fermi-liquid behavior is responsible for the;recently observed zero-bias enhancement in the tunneling signal in;point-contact spectroscopy. A key experimental test of this proposal is;the absence of non-Fermi-liquid behavior in the hole-doped materials.;Our result suggests that quantum criticality plays an important role in;understanding the normal-state properties of iron pnictide;superconductors. DOI: 10.1103/PhysRevB.86.245113;11;0;0;0;11;1098-0121;WOS:000312292400007;;;J;McKenna, Keith P.;Blumberger, Jochen;Crossover from incoherent to coherent electron tunneling between defects;in MgO;PHYSICAL REVIEW B;86;24;245110;10.1103/PhysRevB.86.245110;DEC 12 2012;2012;Long-range electron tunneling is a fundamental process that is critical;to the performance of oxide materials in microelectronics, energy;generation, and photocatalysis, but extremely challenging to probe;experimentally. Here we devise a computational approach that allows one;to probe the mechanism and calculate the rate of electron transfer (ET);in such materials from first principles. Application to ET between;defects in MgO reveals that the activation energy for ET depends;strongly on defect separation, an effect not usually taken into account;in semiempirical models of ET processes in oxides. Importantly, for;distances below a critical defect separation (6 angstrom), the nature of;ET changes from incoherent to coherent tunneling, suggesting that;existing empirical models require essential modifications. These;calculations extend first-principles modeling of ET in oxides to the;regime of long-range incoherent transport, an outstanding problem;important for modeling many processes of technological relevance. DOI:;10.1103/PhysRevB.86.245110;Blumberger, Jochen/L-5949-2013; McKenna, Keith/A-5084-2010;6;1;0;0;6;1098-0121;WOS:000312292400004;;;J;Mol, L. A. S.;Pereira, A. R.;Moura-Melo, W. A.;Extending spin ice concepts to another geometry: The artificial;triangular spin ice (vol 85, 184410, 2012);PHYSICAL REVIEW B;86;21;219902;10.1103/PhysRevB.86.219902;DEC 12 2012;2012;Mol, Lucas/D-9575-2013;Mol, Lucas/0000-0002-5001-0499;0;0;0;0;0;1098-0121;WOS:000312290600003;;;J;Palotas, Krisztian;Mandi, Gabor;Szunyogh, Laszlo;Orbital-dependent electron tunneling within the atom superposition;approach: Theory and application to W(110);PHYSICAL REVIEW B;86;23;235415;10.1103/PhysRevB.86.235415;DEC 12 2012;2012;We introduce an orbital-dependent electron tunneling model and implement;it within the atom superposition approach for simulating scanning;tunneling microscopy (STM) and spectroscopy (STS). Applying our method,;we analyze the convergence and the orbital contributions to the;tunneling current and the corrugation of constant-current STM images;above the W(110) surface. In accordance with a previous study [Heinze et;al., Phys. Rev. B 58, 16432 (1998)], we find atomic contrast reversal;depending on the bias voltage. Additionally, we analyze this effect;depending on the tip-sample distance using different tip models and find;two qualitatively different behaviors based on the tip orbital;composition. As an explanation, we highlight the role of the real-space;shape of the orbitals involved in the tunneling. STM images calculated;by our model agree well with those obtained using Tersoff and Hamann's;and Bardeen's approaches. The computational efficiency of our model is;remarkable as the k-point samplings of the surface and tip Brillouin;zones do not affect the computation time, in contrast to the Bardeen;method.;Palotas, Krisztian/C-5338-2009;5;0;0;0;5;1098-0121;WOS:000312291600005;;;J;Rodrigues, J. N. B.;Peres, N. M. R.;Lopes dos Santos, J. M. B.;Scattering by linear defects in graphene: A continuum approach;PHYSICAL REVIEW B;86;21;214206;10.1103/PhysRevB.86.214206;DEC 12 2012;2012;We study the low-energy electronic transport across periodic extended;defects in graphene. In the continuum low-energy limit, such defects act;as infinitessimally thin stripes separating two regions where the Dirac;Hamiltonian governs the low-energy phenomena. The behavior of these;systems is defined by the boundary condition imposed by the defect on;the massless Dirac fermions. We demonstrate how this low-energy boundary;condition can be computed from the tight-binding model of the defect;line. For simplicity we consider defect lines oriented along the zigzag;direction, which requires the consideration of only one copy of the;Dirac equation. Three defect lines of this kind are studied and shown to;be mappable between them: the pentagon-only, the zz(558), and the;zz(5757) defect lines. In addition, in this same limit, we calculate the;conductance across such defect lines with size L and find it to be;proportional to k(F)L at low temperatures. DOI:;10.1103/PhysRevB.86.214206;6;0;0;0;6;1098-0121;WOS:000312290600001;;;J;Saloriutta, Karri;Uppstu, Andreas;Harju, Ari;Puska, Martti J.;Ab initio transport fingerprints for resonant scattering in graphene;PHYSICAL REVIEW B;86;23;235417;10.1103/PhysRevB.86.235417;DEC 12 2012;2012;We have recently shown that by using a scaling approach for randomly;distributed topological defects in graphene, reliable estimates for;transmission properties of macroscopic samples can be calculated based;even on single-defect calculations [A. Uppstu et al., Phys. Rev. B 85,;041401 (2012)]. We now extend this approach of energy-dependent;scattering cross sections to the case of adsorbates on graphene by;studying hydrogen and carbon adatoms as well as epoxide and hydroxyl;groups. We show that a qualitative understanding of resonant scattering;can be gained through density functional theory results for a;single-defect system, providing a transmission "fingerprint";characterizing each adsorbate type. This information can be used to;reliably predict the elastic mean free path for moderate defect;densities directly using ab initio methods. We present tight-binding;parameters for carbon and epoxide adsorbates, obtained to match the;density-functional theory based scattering cross sections.;Puska, Martti/E-7362-2012; Harju, Ari/C-2828-2009;Harju, Ari/0000-0002-2233-2896;4;0;0;0;4;1098-0121;WOS:000312291600007;;;J;Schuster, R.;Pyon, S.;Knupfer, M.;Azuma, M.;Takano, M.;Takagi, H.;Buechner, B.;Angle-dependent spectral weight transfer and evidence of a;symmetry-broken in-plane charge response in Ca1.9Na0.1CuO2Cl2;PHYSICAL REVIEW B;86;24;245112;10.1103/PhysRevB.86.245112;DEC 12 2012;2012;We report about the energy and momentum dependent charge response in;Ca1.9Na0.1CuO2Cl2 employing electron energy-loss spectroscopy. Along the;diagonal of the Brillouin zone (BZ) we find a plasmon peak-indicating;the presence of metallic states in this momentum region-which emerges as;a consequence of substantial spectral-weight transfer from excitations;across the charge-transfer (CT) gap and is the two-particle;manifestation of the small Fermi pocket or arc observed with;photoemission in this part of the BZ. In contrast, the spectrum along;the [100] direction is almost entirely dominated by CT excitations,;reminiscent of the insulating parent compound. We argue that the;observed polarization dependent shape of the spectrum is suggestive of a;breaking of the underlying tetragonal lattice symmetry, possibly due to;fluctuating nematic order in the charge channel. In addition we find the;plasmon bandwidth to be suppressed compared to optimally doped cuprates.;DOI: 10.1103/PhysRevB.86.245112;Takagi, Hidenori/B-2935-2010; PYON, Sunseng/B-2618-2011; Azuma, Masaki/C-2945-2009;0;0;0;0;0;1098-0121;WOS:000312292400006;;;J;Swingle, Brian;Experimental signatures of three-dimensional fractional topological;insulators;PHYSICAL REVIEW B;86;24;245111;10.1103/PhysRevB.86.245111;DEC 12 2012;2012;In this paper we explore experimental signatures of fractional;topological insulators in three dimensions. These are states of matter;with a fully gapped bulk that host exotic gapless surface states and;fractionally charged quasiparticles. They are partially characterized by;a nontrivial magneto-electric response while preserving time reversal.;We describe how these phases appear in a variety of probes including;photoemmission, tunneling, and quantum oscillations. We also discuss the;effects of doping and proximate superconductivity. We argue that despite;our current theoretical inability to predict materials where such phases;will be realized, they should be relatively easy to detect;experimentally. DOI:10.1103/PhysRevB.86.245111;0;0;0;0;0;1098-0121;WOS:000312292400005;;;J;Thomas, Mark;Romito, Alessandro;Decoherence effects on weak value measurements in double quantum dots;PHYSICAL REVIEW B;86;23;235419;10.1103/PhysRevB.86.235419;DEC 12 2012;2012;We study the effect of decoherence on a weak value measurement in a;paradigm system consisting of a double quantum dot continuously measured;by a quantum point contact. Fluctuations of the parameters controlling;the dot state induce decoherence. We find that, for measurements longer;than the decoherence time, weak values are always reduced within the;range of the eigenvalues of the measured observable. For measurements at;shorter time scales, the measured weak value strongly depends on the;interplay between the decoherence dynamics of the system and the;detector backaction. In particular, depending on the postselected state;and the strength of the decoherence, a more frequent classical readout;of the detector might lead to an enhancement of weak values.;Romito, Alessandro/L-3564-2013;Romito, Alessandro/0000-0003-3082-6279;1;0;0;0;1;1098-0121;WOS:000312291600009;;;J;Witczak-Krempa, William;Sachdev, Subir;Quasinormal modes of quantum criticality;PHYSICAL REVIEW B;86;23;235115;10.1103/PhysRevB.86.235115;DEC 12 2012;2012;We study charge transport of quantum critical points described by;conformal field theories in 2 + 1 space-time dimensions. The transport;is described by an effective field theory on an asymptotically anti-de;Sitter space-time, expanded to fourth order in spatial and temporal;gradients. The presence of a horizon at nonzero temperatures implies;that this theory has quasinormal modes with complex frequencies. The;quasinormal modes determine the poles and zeros of the conductivity in;the complex frequency plane, and so fully determine its behavior on the;real frequency axis, at frequencies both smaller and larger than the;absolute temperature. We describe the role of particle-vortex or S;duality on the conductivity, specifically how it maps poles to zeros and;vice versa. These analyses motivate two sum rules obeyed by the quantum;critical conductivity: the holographic computations are the first to;satisfy both sum rules, while earlier Boltzmann-theory computations;satisfy only one of them. Finally, we compare our results with the;analytic structure of the O(N) model in the large-N limit, and other;CFTs.;Sachdev, Subir/A-8781-2013;Sachdev, Subir/0000-0002-2432-7070;13;0;0;0;13;1098-0121;WOS:000312291600001;;;J;Zielke, Robert;Braunecker, Bernd;Loss, Daniel;Cotunneling in the v=5/2 fractional quantum Hall regime;PHYSICAL REVIEW B;86;23;235307;10.1103/PhysRevB.86.235307;DEC 12 2012;2012;We show that cotunneling in the 5/2 fractional quantum Hall regime;allows us to test the Moore-Read wave function, proposed for this;regime, and to probe the nature of the fractional charge carriers. We;calculate the cotunneling current for electrons that tunnel between two;quantum Hall edge states via a quantum dot and for quasiparticles with;fractional charges e/4 and e/2 that tunnel via an antidot. While;electron cotunneling is strongly suppressed, the quasiparticle tunneling;shows signatures characteristic of the Moore-Read state. For comparison,;we also consider cotunneling between Laughlin states, and find that;electron transport between Moore-Read states and between Laughlin states;at filling factor 1/3 have identical voltage dependences.;Loss, Daniel/A-3721-2008;Loss, Daniel/0000-0001-5176-3073;0;0;0;0;0;1098-0121;WOS:000312291600003;;;J;de Andres, P. L.;Guinea, F.;Katsnelson, M. I.;Density functional theory analysis of flexural modes, elastic constants,;and corrugations in strained graphene;PHYSICAL REVIEW B;86;24;245409;10.1103/PhysRevB.86.245409;DEC 11 2012;2012;Ab initio density functional theory has been used to analyze flexural;modes, elastic constants, and atomic corrugations on single-and bi-layer;graphene. Frequencies of flexural modes are sensitive to compressive;stress; its variation under stress can be related to the anomalous;thermal expansion via a simple model based in classical elasticity;theory [P. L. de Andres, F. Guinea, and M. I. Katsnelson, Phys. Rev. B;86, 144103 (2012)]. Under compression, flexural modes are responsible;for a long-wavelength rippling with a large amplitude and a marked;anharmonic behavior. This is compared with corrugations created by;thermal fluctuations and the adsorption of a light impurity (hydrogen).;Typical values for the later are in the sub-Angstrom regime, while;maximum corrugations associated to bending modes quickly increase up to;a few Angstroms under a compressive stress, due to the intrinsic;instability of flexural modes. DOI: 10.1103/PhysRevB.86.245409;Katsnelson, Mikhail/D-4359-2012; Guinea, Francisco/A-7122-2008; de Andres, Pedro/B-2043-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Guinea, Francisco/0000-0001-5915-5427;;8;1;0;0;8;1098-0121;WOS:000312292100004;;;J;Glaessl, M.;Axt, V. M.;Polarization dependence of phonon influences in exciton-biexciton;quantum dot systems;PHYSICAL REVIEW B;86;24;245306;10.1103/PhysRevB.86.245306;DEC 11 2012;2012;We report on a strong dependence of the phonon-induced damping of Rabi;dynamics in an optically driven exciton-biexciton quantum dot system on;the polarization of the exciting pulse. While for a fixed pulse;intensity the damping is maximal for linearly polarized excitation, it;decreases with increasing ellipticity of the polarization. This finding;is most remarkable considering that the carrier-phonon coupling is spin;independent. In addition to simulations based on a numerically exact;real-time path-integral approach, we present an analysis within a;weak-coupling theory that allows for analytical expressions for the;pertinent damping rates. We demonstrate that an efficient coupling to;the biexciton state is of central importance for the reported;polarization dependencies. Further, we discuss influences of various;system parameters and show that, for finite biexciton binding energies,;Rabi scenarios differ qualitatively from the widely studied two-level;dynamics. DOI: 10.1103/PhysRevB.86.245306;2;0;0;0;2;1098-0121;WOS:000312292100003;;;J;Ishioka, J.;Fujii, T.;Katono, K.;Ichimura, K.;Kurosawa, T.;Oda, M.;Tanda, S.;Reply to "Comment on 'Charge-parity symmetry observed through Friedel;oscillations in chiral charge-density waves' ";PHYSICAL REVIEW B;86;24;247102;10.1103/PhysRevB.86.247102;DEC 11 2012;2012;We are responding to the Comment by J. Wezel on our paper. This study;was developed from our previous work [Ishioka et al., Phys. Rev. Lett.;105, 176401 (2010)]. In the PRL paper, H-CDW was defined as a new;parameter for expressing CDW chirality for the first time. In his;Comment, he claims that H-CDW is ill defined. He also claims that the;initial phase phi of the CDW wave function is a more appropriate;parameter for expressing chiral CDW, despite our early introduction of;phi to explain the experimental data described in the PRL paper.;However, we conclude that H-CDW can distinguish the CDW chirality by its;sign. Moreover, by considering different H-CDW signs, we had succeeded;in demonstrating the difference of the spatial distributions of CDWs as;shown in Fig. 4 of the PRB paper [Phys. Rev. B 84, 245125 (2011)]. In;our Reply, we discuss the validity of H-CDW. We show that his argument;regarding the identification of the CDW with the opposite sign of q is;wrong, since the logic is inapplicable to a wave function with a nonzero;phi. We also discuss the applicability of H-CDW to two- or;three-dimensional CDWs in transition metal dichalcogenides. DOI:;10.1103/PhysRevB.86.247102;0;0;0;0;0;1098-0121;WOS:000312292100007;;;J;Kallos, Efthymios;Chremmos, Ioannis;Yannopapas, Vassilios;Resonance properties of optical all-dielectric metamaterials using;two-dimensional multipole expansion;PHYSICAL REVIEW B;86;24;245108;10.1103/PhysRevB.86.245108;DEC 11 2012;2012;We examine the electromagnetic response of metamaterial unit elements;consisting of dielectric rods embedded in a nonmagnetic background;medium. We establish a theoretical framework in which the response is;described through the electric and magnetic multipole moments that are;simultaneously generated via the polarization currents that are excited;upon the incidence of plane waves. The corresponding dipole and;quadrupole polarizabilities are then calculated as a function of the Mie;scattering coefficients, and their resonances are mapped for the case of;dielectric cylindrical rods as a function of the geometry and the;material parameters used. The results provide critical insight into the;anisotropic response of two-dimensional rod-type metamaterials and can;be used as a unified methodology in the calculation of exotic effective;electromagnetic parameters involved in phenomena such as optical;magnetism. DOI: 10.1103/PhysRevB.86.245108;5;0;0;0;5;1098-0121;WOS:000312292100001;;;J;Lim, Linda Y.;Lany, Stephan;Chang, Young Jun;Rotenberg, Eli;Zunger, Alex;Toney, Michael F.;Angle-resolved photoemission and quasiparticle calculation of ZnO: The;need for d band shift in oxide semiconductors;PHYSICAL REVIEW B;86;23;235113;10.1103/PhysRevB.86.235113;DEC 11 2012;2012;ZnO is a prototypical semiconductor with occupied d(10) bands that;interact with the anion p states and is thus challenging for electronic;structure theories. Within the context of these theories, incomplete;cancellation of the self-interaction energy results in a Zn d band that;is too high in energy, resulting in upwards repulsion of the valence;band maximum (VBM) states, and an unphysical reduction of the band gap.;Methods such as GW should significantly reduce the self-interaction;error, and in order to evaluate such calculations, we measured;high-resolution and resonant angle-resolved photoemission spectroscopy;(ARPES) and compared these to several electronic structure calculations.;We find that, in a standard GW calculation, the d bands remain too high;in energy by more than 1 eV irrespective of the Hamiltonian used for;generating the input wave functions, causing a slight underestimation of;the band gap due to the p-d repulsion. We show that a good agreement;with the ARPES data over the full valence band spectrum is obtained,;when the Zn-d band energy is shifted down by applying an on-site;potential V-d for Zn-d states during the GW calculations to match the;measured d band position. The magnitude of the GW quasiparticle energy;shift relative to the initial density functional calculation is of;importance for the prediction of charged defect formation energies,;band-offsets, and ionization potentials. DOI: 10.1103/PhysRevB.86.235113;Zunger, Alex/A-6733-2013; Lim, Ying Wen Linda/A-8608-2012; Rotenberg, Eli/B-3700-2009; Chang, Young Jun/N-3440-2014;Rotenberg, Eli/0000-0002-3979-8844; Chang, Young Jun/0000-0001-5538-0643;15;0;0;0;15;1098-0121;WOS:000312291700002;;;J;Liu, Tao;Lee, Kenneth E.;Wang, Qi Jie;Microscopic density matrix model for optical gain of terahertz quantum;cascade lasers: Many-body, nonparabolicity, and resonant tunneling;effects;PHYSICAL REVIEW B;86;23;235306;10.1103/PhysRevB.86.235306;DEC 11 2012;2012;Intersubband semiconductor-Bloch equations are investigated by;incorporating many-body Coulomb interaction, nonparabolicity, and;coherence of resonant tunneling transport in a quantitative way based on;the density matrix theory. The calculations demonstrate the importance;of these parameters on optical properties, especially the optical gain;spectrum, of terahertz (THz) quantum cascade lasers (QCLs). The results;show that the lasing frequency at gain peak calculated by the proposed;microscopic density matrix model is closer to the experimentally;measured result, compared with that calculated by the existing;macroscopic density matrix model. Specifically, both the many-body;interaction and nonparabolicity effects red-shift the gain spectrum and;reduce the gain peak. In addition, as the injection-coupling strength;increases, the gain peak value is enhanced and the spectrum is slightly;broadened, while an increase of the extraction-coupling strength reduces;the gain peak value and broadens the gain spectrum. The dependence of;optical gain of THz QCLs on device parameters such as external;electrical bias, dephasing rate, doping density, and temperature is also;systematically studied in details. This model provides a more;comprehensive picture of the optical properties of THz QCLs from a;microscopic point of view and potentially enables a more accurate and;faster prediction and calculation of the device performance, e. g., gain;spectra, current-voltage characteristics, optical output powers, and;nonlinear amplitude-phase coupling. DOI: 10.1103/PhysRevB.86.235306;Wang, Qi Jie/E-6987-2010;5;0;0;0;5;1098-0121;WOS:000312291700004;;;J;Pedersen, Jesper Goor;Gunst, Tue;Markussen, Troels;Pedersen, Thomas Garm;Graphene antidot lattice waveguides;PHYSICAL REVIEW B;86;24;245410;10.1103/PhysRevB.86.245410;DEC 11 2012;2012;We introduce graphene antidot lattice waveguides: nanostructured;graphene where a region of pristine graphene is sandwiched between;regions of graphene antidot lattices. The band gaps in the surrounding;antidot lattices enable localized states to emerge in the central;waveguide region. We model the waveguides via a position-dependent mass;term in the Dirac approximation of graphene and arrive at analytical;results for the dispersion relation and spinor eigenstates of the;localized waveguide modes. To include atomistic details we also use a;tight-binding model, which is in excellent agreement with the analytical;results. The waveguides resemble graphene nanoribbons, but without the;particular properties of ribbons that emerge due to the details of the;edge. We show that electrons can be guided through kinks without;additional resistance and that transport through the waveguides is;robust against structural disorder. DOI: 10.1103/PhysRevB.86.245410;Goor Pedersen, Jesper/C-3965-2008; Gunst, Tue/C-6575-2013; Markussen, Troels/B-7800-2012;Goor Pedersen, Jesper/0000-0002-8411-240X; Gunst,;Tue/0000-0002-3000-5940; Markussen, Troels/0000-0003-1192-4025;9;0;0;0;9;1098-0121;WOS:000312292100005;;;J;Ramos, J. G. G. S.;Barbosa, A. L. R.;Bazeia, D.;Hussein, M. S.;Lewenkopf, C. H.;Generalized correlation functions for conductance fluctuations and the;mesoscopic spin Hall effect;PHYSICAL REVIEW B;86;23;235112;10.1103/PhysRevB.86.235112;DEC 11 2012;2012;We study the spin Hall conductance fluctuations in ballistic mesoscopic;systems. We obtain universal expressions for the spin and charge current;fluctuations, cast in terms of current-current autocorrelation;functions. We show that the latter are conveniently parametrized as;deformed Lorentzian shape lines, functions of an external applied;magnetic field and the Fermi energy. We find that the charge current;fluctuations show quite unique statistical features at the;symplectic-unitary crossover regime. Our findings are based on an;evaluation of the generalized transmission coefficients correlation;functions within the stub model and are amenable to experimental test.;DOI: 10.1103/PhysRevB.86.235112;1, INCT/G-5846-2013; Informacao quantica, Inct/H-9493-2013; Lewenkopf, Caio/A-1791-2014;Lewenkopf, Caio/0000-0002-2053-2798;1;0;0;0;1;1098-0121;WOS:000312291700001;;;J;Ruth, Marcel;Meier, Cedrik;Scaling coefficient for three-dimensional grain coalescence of ZnO on;Si(111);PHYSICAL REVIEW B;86;22;224108;10.1103/PhysRevB.86.224108;DEC 11 2012;2012;Grain-rotation-induced coalescence is a well-known growth mechanism of;granular/polycrystalline systems in two dimensions. In three-dimensional;(3D) crystals there are more degrees of freedom, and influences of the;substrate play an important role. In the present work we analyze the 3D;coalescence of ZnO grains on Si(111) by thermal annealing under O-2;atmosphere. Atomic force microscopy and electron backscatter diffraction;measurements reveal a significant increase in the mean grain diameter;and a reorientation that matches the substrate orientation. This;structural reorganization leads to a substantial enhancement of the;electronic layer quality. We describe the grain growth with a diffusive;model and find a volume scaling coefficient of 1.5. This proves that the;additional degrees of freedom significantly accelerate grain-rotation;induced coalescence in three dimensions. DOI: 10.1103/PhysRevB.86.224108;Meier, Cedrik/E-4877-2011;Meier, Cedrik/0000-0002-3787-3572;4;0;0;0;4;1098-0121;WOS:000312291300001;;;J;van den Berg, T. L.;Lombardo, P.;Kuzian, R. O.;Hayn, R.;Orbital polaron in double-exchange ferromagnets;PHYSICAL REVIEW B;86;23;235114;10.1103/PhysRevB.86.235114;DEC 11 2012;2012;We investigate the spectral properties of the two-orbital Hubbard model,;including the pair hopping term, by means of the dynamical mean field;method. This Hamiltonian describes materials in which ferromagnetism is;realized by the double-exchange mechanism, as for instance manganites,;nickelates, or diluted magnetic semiconductors. The spectral function of;the unoccupied states is characterized by a specific equidistant three;peak structure. We emphasize the importance of the double hopping term;on the spectral properties. We show the existence of a ferromagnetic;phase due to electron doping near n = 1 by the double-exchange;mechanism. A quasiparticle excitation at the Fermi energy is found that;we attribute to what we will call an orbital polaron. We derive an;effective spin-pseudospin Hamiltonian for the two-orbital;double-exchange model at n = 1 filling to explain the existence and;dynamics of this quasiparticle. DOI: 10.1103/PhysRevB.86.235114;Kuzian, Roman/C-9079-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Kuzian, Roman/0000-0002-6672-7224;;1;0;0;0;1;1098-0121;WOS:000312291700003;;;J;van Wezel, Jasper;Comment on "Charge-parity symmetry observed through Friedel oscillations;in chiral charge-density waves";PHYSICAL REVIEW B;86;24;247101;10.1103/PhysRevB.86.247101;DEC 11 2012;2012;In their publication [Phys. Rev. B 84, 245125 (2011)], Ishioka et al.;discuss the recently discovered chiral charge-density wave state in;1T-TiSe2 in terms of a parameter H-CDW, whose sign is suggested to;correspond to the handedness of the chiral order. Here, we point out;that H-CDW, as defined by Ishioka et al., cannot be used to characterize;chirality in that way. An alternative measure of chirality for the;specific case of 1T-TiSe2 is suggested. DOI: 10.1103/PhysRevB.86.247101;2;0;0;0;2;1098-0121;WOS:000312292100006;;;J;Wan, Li;Iacovella, Christopher R.;Nguyen, Trung D.;Docherty, Hugh;Cummings, Peter T.;Confined fluid and the fluid-solid transition: Evidence from absolute;free energy calculations;PHYSICAL REVIEW B;86;21;214105;10.1103/PhysRevB.86.214105;DEC 11 2012;2012;The debate on whether an organic fluid nanoconfined by mica sheets will;undergo a fluid-to-solid transition as the fluid film thickness is;reduced below a critical value has lasted over two decades. Extensive;experimental and simulation investigations have thus far left this;question only partially addressed. In this work, we adapt and apply;absolute free energy calculations to analyze the phase behavior of a;simple model for nanoconfined fluids, consisting of spherical;Lennard-Jones (LJ) molecules confined between LJ solid walls, which we;use in combination with grand-canonical molecular dynamics simulations.;Absolute Helmholtz free energy calculations of the simulated;nanoconfined systems directly support the existence of order-disorder;phase transition as a function of decreasing wall separation, providing;results in close agreement with previous experiments and detailed;atomistic simulations. DOI: 10.1103/PhysRevB.86.214105;Iacovella, Christopher/D-2050-2011; Cummings, Peter/B-8762-2013;Cummings, Peter/0000-0002-9766-2216;5;0;0;0;5;1098-0121;WOS:000312290000001;;;J;Zaletel, Michael P.;Mong, Roger S. K.;Exact matrix product states for quantum Hall wave functions;PHYSICAL REVIEW B;86;24;245305;10.1103/PhysRevB.86.245305;DEC 11 2012;2012;We show that the model wave functions used to describe the fractional;quantum Hall effect have exact representations as matrix product states;(MPS). These MPS can be implemented numerically in the orbital basis of;both finite and infinite cylinders, which provides an efficient way of;calculating arbitrary observables. We extend this approach to the;charged excitations and numerically compute their Berry phases. Finally,;we present an algorithm for numerically computing the real-space;entanglement spectrum starting from an arbitrary orbital basis MPS,;which allows us to study the scaling properties of the real-space;entanglement spectra on infinite cylinders. The real-space entanglement;spectrum obeys a scaling form dictated by the edge conformal field;theory, allowing us to accurately extract the two entanglement;velocities of the Moore-Read state. In contrast, the orbital space;spectrum is observed to scale according to a complex set of power laws;that rule out a similar collapse. DOI: 10.1103/PhysRevB.86.245305;16;0;0;0;16;1098-0121;WOS:000312292100002;;;J;Berdiyorov, G. R.;Chao, X. H.;Peeters, F. M.;Wang, H. B.;Moshchalkov, V. V.;Zhu, B. Y.;Magnetoresistance oscillations in superconducting strips: A;Ginzburg-Landau study;PHYSICAL REVIEW B;86;22;224504;10.1103/PhysRevB.86.224504;DEC 10 2012;2012;Within the time-dependent Ginzburg-Landau theory we study the dynamic;properties of current-carrying superconducting strips in the presence of;a perpendicular magnetic field. We found pronounced voltage peaks as a;function of the magnetic field, the amplitude of which depends both on;sample dimensions and external parameters. These voltage oscillations;are a consequence of moving vortices, which undergo alternating static;and dynamic phases. At higher fields or for high currents, the;continuous motion of vortices is responsible for the monotonic;background on which the resistance oscillations due to the entry of;additional vortices are superimposed. Mechanisms for such;vortex-assisted resistance oscillations are discussed. Qualitative;changes in the magnetoresistance curves are observed in the presence of;random defects, which affect the dynamics of vortices in the system.;Zhu, Bei Yi/C-1506-2011; Moshchalkov, Victor/I-7232-2013; Wang, HB/M-7461-2013;2;0;0;0;2;1098-0121;WOS:000312064300004;;;J;Bogan, A.;Hatke, A. T.;Studenikin, S. A.;Sachrajda, A.;Zudov, M. A.;Pfeiffer, L. N.;West, K. W.;Microwave-induced resistance oscillations in tilted magnetic fields;PHYSICAL REVIEW B;86;23;235305;10.1103/PhysRevB.86.235305;DEC 10 2012;2012;We have studied the effect of an in-plane magnetic field on;microwave-induced resistance oscillations in a high mobility;two-dimensional electron system. We have found that the oscillation;amplitude decays exponentially with an in-plane component of the;magnetic field B-parallel to. While these findings cannot be accounted;for by existing theories, our analysis suggests that the decay can be;explained by a B-parallel to-induced correction to the quantum;scattering rate, which is quadratic in B-parallel to.;Zudov, Michael/A-3013-2008;7;1;0;0;7;1098-0121;WOS:000312064700005;;;J;Dahl, J.;Kuzmin, M.;Adell, J.;Balasubramanian, T.;Laukkanen, P.;Formation of polar InN with surface Fermi level near the valence band;maximum by means of ammonia nitridation;PHYSICAL REVIEW B;86;24;245304;10.1103/PhysRevB.86.245304;DEC 10 2012;2012;Development of InN films for devices is hindered due to metallic In;clusters, formed readily during growth, and unintentional n-type;conductivity of the nominally undoped films, including surface;electron-accumulation layers via the Fermi level pinning into the;conduction band. Plasma nitridation eliminates even large In clusters;from the surface by changing them to two-dimensional InN [Yamaguchi and;Nanishi, Appl. Phys. Expr. 2, 051001 (2009)]. Here we utilized a similar;approach, that is, nitridation of In-covered surfaces with ammonia (NH3);to grow thin, up to 25 nm thick polar InN films on Si(111) and GaN(0001);substrates. By means of scanning tunneling microscopy and spectroscopy,;as well as photoelectron spectroscopy, we show that this simple NH3;nitridation provides the hitherto not reported formation of polar;InN(000-1) films with the surface Fermi level close to the valence band;maximum, as recent calculations [Belabbes et al., Phys. Rev. B 84,;205304 (2011)] predict. DOI: 10.1103/PhysRevB.86.245304;1;0;0;0;1;1098-0121;WOS:000312065400006;;;J;Ghosh, Sankha;English, Niall J.;Ab initio study on optoelectronic properties of interstitially versus;substitutionally doped titania;PHYSICAL REVIEW B;86;23;235203;10.1103/PhysRevB.86.235203;DEC 10 2012;2012;Density functional theory calculations were performed for Cr, N, and C;monodoping in both rutile and anatase phases of crystalline titania. The;formation and binding energies, electronic structure, and optical;properties were determined. It was found that although C has a;predominant preference for occupying a lattice O-site, N has higher;preference for interstitial occupancy in the vicinity of an O atom in;anatase, whereas both prefer to maintain interstitial occupancy in;rutile, albeit with both N and C exhibiting a relatively higher;preference for anatase over rutile. Furthermore, Cr is more;energetically stable in the rutile phase relative to anatase for;substitutional doping, albeit with comparable formation energies for;both interstitial and substitutional doping. Interstitial C-impurities;were observed to occupy the oxygen lattice sites in anatase, but not in;rutile. In terms of N-doping, it was found that interstitial doping;exhibits higher visible light photoactivity than substitutional doping.;1;0;0;0;1;1098-0121;WOS:000312064700003;;;J;Howie, Ross T.;Scheler, Thomas;Guillaume, Christophe L.;Gregoryanz, Eugene;Proton tunneling in phase IV of hydrogen and deuterium;PHYSICAL REVIEW B;86;21;214104;10.1103/PhysRevB.86.214104;DEC 10 2012;2012;Using in situ optical spectroscopy we have investigated the temperature;stability of the mixed atomic and molecular phases IV of dense deuterium;and hydrogen. Through a series of low-temperature experiments at high;pressures, we observe phase III-to-IV transformation, imposing;constraints on the P-T phase diagrams. The spectral features of the;phase IV-III transition and differences in appearances of the isotopes;Raman spectra strongly indicate the presence of proton tunneling in;phase IV. No differences between isotopes were observed in absorption;spectroscopic studies, resulting in identical values for the band gap.;The extrapolation of the combined band gap yields 375 GPa as the minimum;transition pressure to the metallic state of hydrogen (deuterium). The;minute changes in optical spectra above 275 GPa might suggest the;presence of a new solid modification of hydrogen (deuterium), closely;related structurally to phase IV. DOI: 10.1103/PhysRevB. 86.214104;15;1;0;0;15;1098-0121;WOS:000312063700001;;;J;Hrahsheh, Fawaz;Hoyos, Jose A.;Vojta, Thomas;Rounding of a first-order quantum phase transition to a strong-coupling;critical point;PHYSICAL REVIEW B;86;21;214204;10.1103/PhysRevB.86.214204;DEC 10 2012;2012;We investigate the effects of quenched disorder on first-order quantum;phase transitions on the example of the N-color quantum Ashkin-Teller;model. By means of a strong-disorder renormalization group, we;demonstrate that quenched disorder rounds the first-order quantum phase;transition to a continuous one for both weak and strong coupling between;the colors. In the strong-coupling case, we find a distinct type of;infinite-randomness critical point characterized by additional internal;degrees of freedom. We investigate its critical properties in detail and;find stronger thermodynamic singularities than in the random transverse;field Ising chain. We also discuss the implications for higher spatial;dimensions as well as unusual aspects of our renormalization-group;scheme. DOI: 10.1103/PhysRevB.86.214204;Hoyos, Jose/F-2742-2012;2;0;0;0;2;1098-0121;WOS:000312063700002;;;J;Huevonen, D.;Zhao, S.;Ehlers, G.;Mansson, M.;Gvasaliya, S. N.;Zheludev, A.;Excitations in a quantum spin liquid with random bonds;PHYSICAL REVIEW B;86;21;214408;10.1103/PhysRevB.86.214408;DEC 10 2012;2012;We present the results of an inelastic neutron-scattering study on two;bond disordered quasi-two-dimensional quantum magnets;(C4H12N2)Cu-2(Cl1-xBrx)(6) with x = 0.035 and 0.075. We observe an;increase of spin gap, a reduction of magnon bandwidth, and a decrease of;magnon lifetimes compared to the x = 0 sample. Additional magnon damping;is observed at higher energies away from the zone center, which is found;to follow the density of single-particle states. DOI:;10.1103/PhysRevB.86.214408;Instrument, CNCS/B-4599-2012; Ehlers, Georg/B-5412-2008; Huvonen, Dan/A-6664-2008; Mansson, Martin/C-1134-2014;8;0;0;0;8;1098-0121;WOS:000312063700005;;;J;Hwang, Kyusung;Park, Kwon;Kim, Yong Baek;Influence of Dzyaloshinskii-Moriya interactions on magnetic structure of;a spin-1/2 deformed kagome lattice antiferromagnet;PHYSICAL REVIEW B;86;21;214407;10.1103/PhysRevB.86.214407;DEC 10 2012;2012;Motivated by the recent neutron-scattering experiment on Rb2Cu3SnF12;[Nature Phys. 6, 865 (2010)], we investigate the effect of;Dzyaloshinskii-Moriya interactions in a theoretical model for the;magnetic structure of this material. Considering the valence bond solid;ground state, which has a 12-site unit cell, we develop the bond;operator mean-field theory. It is shown that the Dzyaloshinskii-Moriya;interactions significantly modify the triplon dispersions around the;Gamma point and cause a shift of the spin-gap (the minimum triplon gap);position from the K to Gamma point in the first Brillouin zone. The spin;gap is also evaluated in exact diagonalization studies on a 24-site;cluster. We discuss a magnetic transition induced by the;Dzyaloshinskii-Moriya interactions in the bond operator framework.;Moreover, the magnetization process under external magnetic fields is;studied within the exact diagonalization approach. We find that the;results of both approaches are consistent with the experimental;findings. DOI: 10.1103/PhysRevB.86.214407;3;0;0;0;3;1098-0121;WOS:000312063700004;;;J;Ignacio, M.;Pierre-Louis, O.;Impalement dynamics and Brownian motion of solid islands on nanopillars;PHYSICAL REVIEW B;86;23;235410;10.1103/PhysRevB.86.235410;DEC 10 2012;2012;We study the dynamics of solid islands deposited on nanopillars using;kinetic Monte Carlo simulations. The islands are initially placed on the;top of the pillars, in the so-called Cassie-Baxter state. For high;pillars, the dynamics is divided into two phases. The first phase;corresponds to the deterministic and irreversible impalement of the;island. The dynamics of this phase is governed by surface diffusion.;Once the island has collapsed, a second phase is observed where the;island exhibits Brownian motion along the pillars, characterized by a;diffusion constant D-i and a kinetic coefficient K-i accounting for the;interaction of the island with the top of the pillars. The random walk;stops when the island reaches the bottom of the substrate, where it;sticks irreversibly. When the island wettability is small, the island;diffusion constant D-i is controlled by adatom diffusion, and scales as;the inverse of the number of atoms in the island. In contrast, for large;wettabilities, we observe that D-i oscillates as the island size is;increased. The minimum of the oscillations corresponds to;nucleation-limited dynamics, where D-i is independent of the island;size. We also determine the time for partial irreversible collapse on;shorter pillars, leading to the so-called Wenzel state. Finally, we;discuss the orders of magnitude of the typical duration of these;processes.;2;0;0;0;2;1098-0121;WOS:000312064700007;;;J;Jarlborg, T.;Barbiellini, B.;Markiewicz, R. S.;Bansil, A.;Different doping from apical and planar oxygen vacancies in;Ba2CuO4-delta and La2CuO4-delta: First-principles band structure;calculations;PHYSICAL REVIEW B;86;23;235111;10.1103/PhysRevB.86.235111;DEC 10 2012;2012;First-principles band structure calculations for large supercells of;Ba2CuO4-delta and La2CuO4-delta with different distributions and;concentrations of oxygen vacancies show that the effective doping on;copper sites strongly depends on where the vacancy is located. A vacancy;within the Cu layer produces a weak doping effect while a vacancy;located at an apical oxygen site acts as a stronger electron dopant on;the copper layers and gradually brings the electronic structure close to;that of La2-xSrxCuO4. These effects are robust and only depend;marginally on lattice distortions. Our results show that deoxygenation;can reduce the effect of traditional La/Sr or La/Nd substitutions. Our;study clearly identifies location of the dopant in the crystal structure;as an important factor in doping of the cuprate planes.;6;0;0;0;6;1098-0121;WOS:000312064700002;;;J;Kunimori, K.;Nakamura, M.;Nohara, H.;Tanida, H.;Sera, M.;Nishioka, T.;Matsumura, M.;Unusual magnetic order in CeT2Al10 (T = Ru, Os) in comparison with;localized NdFe2Al10;PHYSICAL REVIEW B;86;24;245106;10.1103/PhysRevB.86.245106;DEC 10 2012;2012;We have investigated the magnetic properties in the well localized;compound NdFe2Al10 and the Kondo semiconductor CeT2Al10 (T = Ru, Os) to;clarify the origin of the unusual magnetic order in CeT2Al10. In;NdFe2Al10, the experimental results of the magnetic properties could be;reproduced very well by the mean-field calculation for the;two-sublattice model. In CeT2Al10 we could reproduce the anisotropic;magnetic susceptibility in the paramagnetic region above 60-100 K very;well by the mean-field calculation for the two-sublattice model;introducing an anisotropic exchange interaction and the recently;determined crystalline electric field (CEF) level scheme from Strigari;et al. [Phys. Rev. B 86, 081105 (2012)]. However, in the;antiferromagnetic (AFM) ordered state, we could not reproduce the;experimental results at all in the framework of the mean-field;calculation for the two-sublattice model. We propose that although the;magnetic properties in the paramagnetic region above 60-100 K could be;understood well by a localized picture, the ordered state could not, and;that the c-f hybridization, especially along the a axis, is associated;with the unusual magnetic order in CeT2Al10. DOI:;10.1103/PhysRevB.86.245106;Tanida, Hiroshi/E-1878-2013;14;0;0;0;14;1098-0121;WOS:000312065400003;;;J;Lee, Jin Bae;Hong, Won G.;Kim, Hae Jin;Jaglicic, Z.;Jazbec, S.;Wencka, M.;Jelen, A.;Dolinsek, J.;Canted antiferromagnetism on a nanodimensional spherical surface;geometry: The case of MnCO3 small hollow nanospheres;PHYSICAL REVIEW B;86;22;224407;10.1103/PhysRevB.86.224407;DEC 10 2012;2012;Canted antiferromagnetism on a nanodimensional spherical surface;geometry was investigated on manganese carbonate MnCO3 small hollow;nanospheres of mean diameter 7.0 +/- 0.3 nm and shell thickness of 0.7;nm, by performing magnetic measurements and specific heat study, in;comparison to the bulk form of the same material. Contrary to the;expectation that small magnetic nanoparticles become superparamagnetic,;the phase transition to the canted antiferromagnetic (AFM) state in the;MnCO3 hollow nanospheres is preserved and retains, at a qualitative;level, all the features of the canted AFM state of the bulk material. At;a quantitative level, some significant differences between the hollow;nanospheres and the bulk were observed, which can all be explained by;the weakened interspin interactions in the hollow nanospheres due to;reduced atomic coordination by the neighboring atoms. This makes the;canted AFM structure of the hollow nanospheres more soft and fragile;with respect to external forces like the magnetic field, as compared to;the rigid and robust structure of the bulk material.;1;0;0;0;1;1098-0121;WOS:000312064300002;;;J;Levkivskyi, Ivan P.;Froehlich, Juerg;Sukhorukov, Eugene V.;Theory of fractional quantum Hall interferometers;PHYSICAL REVIEW B;86;24;245105;10.1103/PhysRevB.86.245105;DEC 10 2012;2012;Interference of fractionally charged quasiparticles is expected to lead;to Aharonov-Bohm oscillations with periods larger than the flux quantum.;However, according to the Byers-Yang theorem, observables of an;electronic system are invariant under an adiabatic insertion of a;quantum of singular flux. We resolve this seeming paradox by considering;a microscopic model of electronic interferometers made from a quantum;Hall liquid at filling factor 1/m with the shape of a Corbino disk. In;such interferometers, the quantum Hall edge states are utilized in place;of optical beams, the quantum point contacts play the role of beam;splitters connecting different edge channels, and Ohmic contacts;represent a source and drain of quasiparticle currents. Depending on the;position of Ohmic contacts, one distinguishes interferometers of;Fabry-Perot (FP) and Mach-Zehnder (MZ) type. An approximate ground state;of such interferometers is described by a Laughlin-type wave function,;and low-energy excitations are incompressible deformations of this;state. We construct a low-energy effective theory by restricting the;microscopic Hamiltonian of electrons to the space of incompressible;deformations and show that the theory of the quantum Hall edge so;obtained is a generalization of a chiral conformal field theory. In our;theory, a quasiparticle tunneling operator is found to be a;single-valued function of tunneling point coordinates, and its phase;depends on the topology determined by the positions of Ohmic contacts.;We describe strong coupling of the edge states to Ohmic contacts and the;resulting quasiparticle current through the interferometer with the help;of a master equation. We find that the coherent contribution to the;average quasiparticle current through MZ interferometers does not vanish;after summation over quasiparticle degrees of freedom. However, it;acquires oscillations with the electronic period, in agreement with the;Byers-Yang theorem. Importantly, our theory does not rely on any ad hoc;constructions, such as Klein factors, etc. When the magnetic flux;through an FP interferometer is varied with a modulation gate, current;oscillations have the quasiparticle periodicity, thus allowing for;spectroscopy of quantum Hall edge states. DOI:;10.1103/PhysRevB.86.245105;2;0;0;0;2;1098-0121;WOS:000312065400002;;;J;Li, Chun-Mei;Luo, Hu-Bin;Hu, Qing-Miao;Yang, Rui;Johansson, Borje;Vitos, Levente;Role of magnetic and atomic ordering in the martensitic transformation;of Ni-Mn-In from a first-principles study;PHYSICAL REVIEW B;86;21;214205;10.1103/PhysRevB.86.214205;DEC 10 2012;2012;The composition-dependent lattice parameters, crystal structure, elastic;properties, magnetic moment, and electronic structure of Ni2Mn1+xIn1-x;(0 <= x <= 0.6) are studied by using first-principles calculations. It;is shown that the martensitic phase transition (MPT) from cubic L2(1) to;tetragonal L1(0) accompanies theMn(Mn)-Mn-In ferromagnetic (FM) to;antiferromagnetic (AFM) transition, at around the critical composition x;= 0.32, in agreement with the experimental measurement. The Mn-In atomic;disorder leads to decreasing stability of the martensite relative to the;austenite, which depresses the MPT. The shear elastic constant C' of the;parent phase first decreases slightly with increasing x and then remains;almost unchanged above x = 0.32, indicating C' alone cannot account for;the increase of the MPT temperature with x. The total magnetic moments;for the L2(1) phase are in good agreement with those determined by;experiments, whereas for the L1(0) phase they are slightly larger than;the experimental data due to the possibleMn-In atomic disorder in the;sample. The calculated density of states demonstrate that the covalent;bonding between the minority spin states of Ni and In plays an important;role in both the magnetic and structural stability. DOI:;10.1103/PhysRevB.86.214205;Hu, Qing-Miao/D-3345-2014;5;0;0;0;5;1098-0121;WOS:000312063700003;;;J;Liu, Bin;Seko, Atsuto;Tanaka, Isao;Cluster expansion with controlled accuracy for the MgO/ZnO pseudobinary;system via first-principles calculations;PHYSICAL REVIEW B;86;24;245202;10.1103/PhysRevB.86.245202;DEC 10 2012;2012;Using the cluster analysis of the structure population (CASP) method,;error of cluster expansion (CE) can be controlled. Combining the CASP-CE;with a systematic set of first-principles total energies, a model;wide-gap pseudobinary system with simple crystal structures MgO-ZnO is;revisited. Ground-state structures are exhaustively searched for both;rocksalt and wurtzite structures. A few structures as yet unreported are;found. The vibrational contribution to the Gibbs free-energy is;evaluated by first-principles phonon calculations within the;quasiharmonic approximation. Monte Carlo simulations are then made to;compute grand potentials of two structures using the thermodynamic;integration. DOI: 10.1103/PhysRevB.86.245202;Tanaka, Isao/B-5941-2009; Liu, Bin/N-9955-2014;1;1;0;0;1;1098-0121;WOS:000312065400005;;;J;Liu, Pan;Santana, Juan A. Colon;Dai, Qilin;Wang, Xianjie;Dowben, Peter A.;Tang, Jinke;Sign of the superexchange coupling between next-nearest neighbors in EuO;PHYSICAL REVIEW B;86;22;224408;10.1103/PhysRevB.86.224408;DEC 10 2012;2012;The sign of the superexchange coupling J(2) between next-nearest;neighboring Eu2+ magnetic moments in EuO is a matter subject to debate.;We have obtained evidence that this coupling is of antiferromagnetic;nature (J(2) < 0). EuO thin films grown at different temperatures;suggest that lattice expansion results in enhancement of T-C as clearly;observed in stoichiometric EuO films grown on CaF2 substrates. Resonant;photoemission spectroscopy provides compelling evidence of strong;hybridization between O 2p and Eu 5d6s6p weighted bands, suggesting that;strong superexchange may be mediated by oxygen, thus consistent with the;observed antiferromagnetic behavior between the next-nearest neighboring;Eu atoms via nearest neighbor oxygen in EuO.;Dai, Qilin/K-1437-2013;2;0;0;0;2;1098-0121;WOS:000312064300003;;;J;Luisier, Mathieu;Atomistic modeling of anharmonic phonon-phonon scattering in nanowires;PHYSICAL REVIEW B;86;24;245407;10.1103/PhysRevB.86.245407;DEC 10 2012;2012;Phonon transport is simulated in ultrascaled nanowires in the presence;of anharmonic phonon-phonon scattering. A modified valence-force-field;model containing four types of bond deformation is employed to describe;the phonon band structure. The inclusion of five additional bond;deformation potentials allows us to account for anharmonic effects.;Phonon-phonon interactions are introduced through inelastic scattering;self-energies solved in the self-consistent Born approximation in the;nonequilibrium Green's function formalism. After calibrating the model;with experimental data, the thermal current, resistance, and;conductivity of < 100 >-, < 110 >-, and < 111 >-oriented Si nanowires;with different lengths and temperatures are investigated in the presence;of anharmonic phonon-phonon scattering and compared to their ballistic;limit. It is found that all the simulated thermal currents exhibit a;peak at temperatures around 200 K if phonon scattering is turned on;while they monotonically increase when this effect is neglected.;Finally, phonon transport through Si-Ge-Si nanowires is considered. DOI:;10.1103/PhysRevB.86.245407;12;1;0;0;12;1098-0121;WOS:000312065400007;;;J;Nemirovskii, Sergey K.;Fluctuations of the vortex line density in turbulent flows of quantum;fluids;PHYSICAL REVIEW B;86;22;224505;10.1103/PhysRevB.86.224505;DEC 10 2012;2012;We present an analytical study of fluctuations of the vortex line;density (VLD) in turbulent flows of;quantum fluids. Two cases are considered. The first is the;counterflowing (Vinen) turbulence, where the vortex lines are;disordered, and the evolution of quantity L(t) obeys the Vinen equation.;The second case is the fluctuations of the VLD in a single vortex;bundle, which develops inside the domain of the concentrated;normal-fluid vorticity. The dynamics of the vortex bundle is described;by the Hall-Vinen-Bekarevich-Khalatnikov (HVBK) equations. The latter;case is of special interest, because the set of the quantum vortex;bundles is believed to mimic classical hydrodynamic turbulence. In;steady states the VLD is related to the normal velocity as L = (rho;gamma/rho(s))(2)upsilon(2)(n) for the Vinen case. In the vortex bundle;case, which appears inside the domain of a concentrated vorticity of;normal fluid, the stationary quantity L can be found from the matching;of velocities and is described by L = vertical bar del x v(n)vertical;bar/kappa. In nonstationary situations, and particularly in the;fluctuating turbulent flow, there is a retardation between the;instantaneous value of the normal velocity and the quantity L. This;retardation tends to decrease in accordance with the inner dynamics,;which has a relaxation character. In both cases, the relaxation dynamics;of the VLD is related to fluctuations of the relative velocity. However,;for the Vinen case the rate of temporal change for L(t) is directly;dependent upon delta v(ns), whereas for HVBK dynamics it depends on del;x delta v(ns). Therefore, for the disordered case the spectrum coincides with the spectrum omega(-5/3). In the;case of the bundle arrangement, the spectrum of the VLD varies (at;different temperatures) from omega(1/3) to omega(-5/3) dependencies.;This conclusion may serve as a basis for the experimental determination;of what kind of turbulence is implemented in different types of;generation.;0;0;0;0;0;1098-0121;WOS:000312064300005;;;J;Peelaers, H.;Van de Walle, C. G.;Effects of strain on band structure and effective masses in MoS2;PHYSICAL REVIEW B;86;24;241401;10.1103/PhysRevB.86.241401;DEC 10 2012;2012;We use hybrid density functional theory to explore the band structure;and effective masses of MoS2, and the effects of strain on the;electronic properties. Strain allows engineering the magnitude as well;as the nature (direct versus indirect) of the band gap. Deformation;potentials that quantify these changes are reported. The calculations;also allow us to investigate the transition in band structure from bulk;to monolayer, and the nature and degeneracy of conduction-band valleys.;Investigations of strain effects on effective masses reveal that small;uniaxial stresses can lead to large changes in the hole effective mass.;DOI: 10.1103/PhysRevB.86.241401;Van de Walle, Chris/A-6623-2012;Van de Walle, Chris/0000-0002-4212-5990;56;3;0;0;56;1098-0121;WOS:000312065400001;;;J;Phien, Ho N.;Vidal, Guifre;McCulloch, Ian P.;Infinite boundary conditions for matrix product state calculations;PHYSICAL REVIEW B;86;24;245107;10.1103/PhysRevB.86.245107;DEC 10 2012;2012;We propose a formalism to study dynamical properties of a quantum;many-body system in the thermodynamic limit by studying a finite system;with "infinite boundary conditions" where both finite-size effects and;boundary effects have been eliminated. For one-dimensional systems,;infinite boundary conditions are obtained by attaching two boundary;sites to a finite system, where each of these two sites effectively;represents a semi-infinite extension of the system. One can then use;standard finite-size matrix product state techniques to study a region;of the system while avoiding many of the complications normally;associated with finite-size calculations such as boundary Friedel;oscillations. We illustrate the technique with an example of time;evolution of a local perturbation applied to an infinite;(translationally invariant) ground state, and use this to calculate the;spectral function of the S = 1 Heisenberg spin chain. This approach is;more efficient and more accurate than conventional simulations based on;finite-size matrix product state and density-matrix;renormalization-group approaches. DOI: 10.1103/PhysRevB.86.245107;McCulloch, Ian/A-6037-2011;McCulloch, Ian/0000-0002-8983-6327;6;0;0;0;6;1098-0121;WOS:000312065400004;;;J;Polyakov, O. P.;Corbetta, M.;Stepanyuk, O. V.;Oka, H.;Saletsky, A. M.;Sander, D.;Stepanyuk, V. S.;Kirschner, J.;Spin-dependent Smoluchowski effect;PHYSICAL REVIEW B;86;23;235409;10.1103/PhysRevB.86.235409;DEC 10 2012;2012;Electron charge near atomically sharp corrugations at the surfaces of a;solid tends to spill out and smoothen the abrupt variation of the;positions of the positively charged atomic nuclei. The reason is that;electrons are much less localized than nuclei. This has been discussed;already some 70 years ago by Smoluchowski [R. Smoluchowski, Phys. Rev.;60, 661 (1941)], and the corresponding effect of charge redistribution;near surface corrugations bears his name. The Smoluchowski effect;focuses on the total electron charge density. It neglects that;electrons-in addition to charge-also carry a spin. We discuss;spin-dependent electron spill out and demonstrate in a combined;theoretical and experimental work that compelling consequences for;spin-polarization and spin-dependent transport arise at the edges of;magnetic nanostructures due to the spin-dependent Smoluchowski effect.;We find a variation of the tunnel magnetoresistance ratio of more than;20% on a length scale of a few atomic diameters.;3;0;0;0;3;1098-0121;WOS:000312064700006;;;J;Rajeswaran, B.;Khomskii, D. I.;Zvezdin, A. K.;Rao, C. N. R.;Sundaresan, A.;Field-induced polar order at the Neel temperature of chromium in;rare-earth orthochromites: Interplay of rare-earth and Cr magnetism;PHYSICAL REVIEW B;86;21;214409;10.1103/PhysRevB.86.214409;DEC 10 2012;2012;We report field-induced switchable polarization (P similar to 0.2-0.8 mu;C/cm(2)) below the Neel temperature of chromium (T-N(Cr)) in weakly;ferromagnetic rare-earth orthochromites, RCrO3 (R = rare earth) but only;when the rare-earth ion is magnetic. Intriguingly, the polarization in;ErCrO3 (T-C = 133 K) disappears at a spin-reorientation (Morin);transition (T-SR similar to 22 K) below which the weak ferromagnetism;associated with the Cr sublattice also disappears, demonstrating the;crucial role of weak ferromagnetism in inducing the polar order.;Further, the polarization (P) is strongly influenced by an applied;magnetic field, indicating a strong magnetoelectric effect. We suggest;that the polar order occurs in RCrO3, due to the combined effect of the;poling field that breaks the symmetry and the exchange field on the R;ion from the Cr sublattice that stabilizes the polar state. We propose;that a similar mechanism could work in the isostructural rare-earth;orthoferrites RFeO3 as well. DOI: 10.1103/PhysRevB.86.214409;Athinarayanan, Sundaresan/B-2176-2010; Zvezdin, Anatoly/K-2072-2013;24;1;0;0;24;1098-0121;WOS:000312063700006;;;J;Rhim, Jun-Won;Park, Kwon;Self-similar occurrence of massless Dirac particles in graphene under a;magnetic field;PHYSICAL REVIEW B;86;23;235411;10.1103/PhysRevB.86.235411;DEC 10 2012;2012;Intricate interplay between the periodicity of the lattice structure and;that of the cyclotron motion gives rise to a well-known self-similar;fractal structure of the energy eigenvalue, known as the Hofstadter;butterfly, for an electron moving in lattice under magnetic field.;Connected with the n = 0 Landau level, the central band of the;Hofstadter butterfly is especially interesting in the honeycomb lattice.;While the entire Hofstadter butterfly can be in principle obtained by;solving Harper's equations numerically, the weak-field limit, most;relevant for experiment, is intractable owing to the fact that the size;of the Hamiltonian matrix, which needs to be diagonalized, diverges. In;this paper, we develop an effective Hamiltonian method that can be used;to provide an accurate analytic description of the central Hofstadter;band in the weak-field regime. One of the most important discoveries;obtained in this work is that massless Dirac particles always exist;inside the central Hofstadter band no matter how small the magnetic flux;may become. In other words, with its bandwidth broadened by the lattice;effect, the n = 0 Landau level contains massless Dirac particles within;itself. In fact, by carefully analyzing the self-similar recursive;pattern of the central Hofstadter band, we conclude that massless Dirac;particles should occur under arbitrary magnetic field. As a corollary,;the central Hofstadter band also contains a self-similar structure of;recursive Landau levels associated with such massless Dirac particles.;To assess the experimental feasibility of observing massless Dirac;particles inside the central Hofstadter band, we compute the width of;the central Hofstadter band as a function of magnetic field in the;weak-field regime.;5;0;0;0;5;1098-0121;WOS:000312064700008;;;J;Robinson, Zachary R.;Tyagi, Parul;Mowll, Tyler R.;Ventrice, Carl A., Jr.;Hannon, James B.;Argon-assisted growth of epitaxial graphene on Cu(111);PHYSICAL REVIEW B;86;23;235413;10.1103/PhysRevB.86.235413;DEC 10 2012;2012;The growth of graphene by catalytic decomposition of ethylene on Cu(111);in an ultrahigh vacuum system was investigated with low-energy electron;diffraction, low-energy electron microscopy, and atomic force;microscopy. Attempts to form a graphene overlayer using ethylene at;pressures as high as 10 mTorr and substrate temperatures as high as 900;degrees C resulted in almost no graphene growth. By using an argon;overpressure, the growth of epitaxial graphene on Cu(111) was achieved.;The suppression of graphene growth without the use of an argon;overpressure is attributed to Cu sublimation at elevated temperatures.;During the initial stages of growth, a random distribution of rounded;graphene islands is observed. The predominant rotational orientation of;the islands is within +/- 1 degrees of the Cu(111) substrate lattice.;Robinson, Zachary/B-5128-2013;11;1;0;0;11;1098-0121;WOS:000312064700010;;;J;Sheps, Tatyana;Brocious, Jordan;Corso, Brad L.;Guel, O. Tolga;Whitmore, Desire;Durkaya, Goeksel;Potma, Eric O.;Collins, Philip G.;Four-wave mixing microscopy with electronic contrast of individual;carbon nanotubes;PHYSICAL REVIEW B;86;23;235412;10.1103/PhysRevB.86.235412;DEC 10 2012;2012;We review an extensive study of the factors that influence the intensity;of coherent, nonlinear four-wave mixing (FWM) in carbon nanotubes, with;particular attention to the variability inherent to single-walled carbon;nanotubes (SWNTs). Through a combination of spatial imaging and;spectroscopy applied to hundreds of individual SWNTs in optoelectronic;devices, the FWM response is shown to vary systematically with;free-carrier concentration. This dependence is manifested both in the;intrinsic SWNT band structure and also by extrinsic and environmental;effects. We demonstrate the sensitivity of the SWNT FWM signal by;investigating SWNTs transferred from one substrate to another, before;and after the introduction of chemical damage, and with chemical and;electrostatic doping. The results demonstrate FWM as a sensitive;technique for interrogating SWNT optoelectronic properties.;3;0;0;0;3;1098-0121;WOS:000312064700009;;;J;Tian, Zhiting;Esfarjani, Keivan;Chen, Gang;Enhancing phonon transmission across a Si/Ge interface by atomic;roughness: First-principles study with the Green's function method;PHYSICAL REVIEW B;86;23;235304;10.1103/PhysRevB.86.235304;DEC 10 2012;2012;Knowledge on phonon transmittance as a function of phonon frequency and;incidence angle at interfaces is vital for multiscale modeling of heat;transport in nanostructured materials. Although thermal conductivity;reduction in nanostructured materials can usually be described by phonon;scattering due to interface roughness, we show how a Green's function;method in conjunction with the Landauer formalism suggests that;interface roughness induced by atomic mixing can increase phonon;transmission and interfacial thermal conductance. This is an attempt to;incorporate first-principles force constants derived from ab initio;density-functional theory (DFT) into Green's function calculation for;infinitely large three-dimensional crystal structure. We also;demonstrate the importance of accurate force constants by comparing the;phonon transmission and thermal conductance using force constants;obtained from semiempirical Stillinger-Weber potential and;first-principles DFT calculations.;Chen, Gang/J-1325-2014;Chen, Gang/0000-0002-3968-8530;14;0;0;0;14;1098-0121;WOS:000312064700004;;;J;Uhm, Sang Hoon;Yeom, Han Woong;Electron-phonon interaction of one-dimensional and two-dimensional;surface states in indium adlayers on the Si(111) surface;PHYSICAL REVIEW B;86;24;245408;10.1103/PhysRevB.86.245408;DEC 10 2012;2012;We performed angle-resolved photoelectron spectroscopy measurements on;one-and two-dimensional (1D and 2D) metallic surface states in indium;layers on the Si(111) surface as a function of temperature. The;temperature dependence of surface-state energy widths was used to;estimate the electron-phonon coupling constant lambda. The 2D metallic;surface states of the root 7 x root 3-In layer above one monolayer;exhibit lambda = 0.8 similar to 1.0, similar to the value of bulk indium;0.9. This is discussed in the light of a recent structure model with a;double indium layer and the relatively high superconducting transition;temperature of this surface. On the other hand, the lambda's of two 1D;surface states of the 4 x 1-In surface with one monolayer of indium are;much higher than that of root 7 x root 3-In, reaching 1.8, which is the;largest ever reported for a surface state. The origin of the enhanced;electron-phonon coupling and its relationship to the charge-density-wave;phase transition of this surface are discussed. DOI:;10.1103/PhysRevB.86.245408;1;0;0;0;1;1098-0121;WOS:000312065400008;;;J;Vekilova, O. Yu.;Simak, S. I.;Ponomareva, A. V.;Abrikosov, I. A.;Influence of Ni on the lattice stability of Fe-Ni alloys at multimegabar;pressures;PHYSICAL REVIEW B;86;22;224107;10.1103/PhysRevB.86.224107;DEC 10 2012;2012;The lattice stability trends of the primary candidate for Earth's core;material, the Fe-Ni alloy, were examined from first principles. We;employed the exact muffin-tin orbital method (EMTO) combined with the;coherent potential approximation (CPA) for the treatment of alloying;effects. It was revealed that high pressure reverses the trend in the;relative stabilities of the body-centered cubic (bcc), face-centered;cubic (fcc), and hexagonal close-packed (hcp) phases observed at ambient;conditions. In the low pressure region the increase of Ni concentration;in the Fe-Ni alloy enhances the bcc phase destabilization relative to;the more close-packed fcc and hcp phases. However, at 300 GPa (Earth's;core pressure), the effect of Ni addition is opposite. The reverse of;the trend is associated with the suppression of the ferromagnetism of Fe;when going from ambient pressures to pressure conditions corresponding;to those of Earth's core. The first-principles results are explained in;the framework of the canonical band model.;0;0;0;0;0;1098-0121;WOS:000312064300001;;;J;Wang, Kang;Light wave states in quasiperiodic metallic structures;PHYSICAL REVIEW B;86;23;235110;10.1103/PhysRevB.86.235110;DEC 10 2012;2012;We investigate the light wave states in the octagonal and decagonal;quasiperiodic metallic structures by considering their respective;approximants at different orders. The mechanisms underlying the light;wave behaviors are studied in relation to various structure parameters;and configurations. We show that the formation of the first passbands,;that delimit the photonic band gaps and determine the plasma gaps,;involves only the lowest frequency resonance modes inside the fat tiles,;and that light localization occurs due to resonances in high symmetry;local centers as well as in the fragments of such centers, formed by the;skinny tiles. The structure filling rate affects the localized state;frequencies relative to the first passbands, as well as the plasma;frequency levels, by modulating the frequency levels of the resonance;modes and the widths of the passbands. The results of this study can be;generalized to other metallic quasiperiodic and related structures.;1;0;0;0;1;1098-0121;WOS:000312064700001;;;J;Singh, Shashi B.;Yang, L. T.;Wang, Y. F.;Shao, Y. C.;Chiang, C. W.;Chiou, J. W.;Lin, K. T.;Chen, S. C.;Wang, B. Y.;Chuang, C. H.;Ling, D. C.;Pong, W. F.;Tsai, M. H.;Tsai, H. M.;Pao, C. W.;Shiu, H. W.;Chen, C. H.;Lin, H.-J.;Lee, J. F.;Yamane, H.;Kosugi, N.;Correlation between p-type conductivity and electronic structure of;Cr-deficient CuCr1-xO2 (x = 0-0.1);PHYSICAL REVIEW B;86;24;241103;10.1103/PhysRevB.86.241103;DEC 7 2012;2012;The correlation between the p-type hole conduction and the electronic;structures of Cr-deficient CuCr1-xO2 (x = 0-0.1) compounds was;investigated using O K-, Cu, and Cr L-3,L-2-edge x-ray absorption;near-edge structure (XANES), scanning photoelectron microscopy, and;x-ray emission spectroscopy measurements. XANES spectra reveal a gradual;increase in the Cu valence from Cu1+ to Cu2+ with increasing Cr;deficiency x, whereas, the valence of Cr remains constant as Cr3+. These;results indicate that the p-type conductivity in the CuCr1-xO2 samples;is enhanced by a Cu1+-O-Cu2+ rather than a Cr3+-Cr4+ or direct;Cu1+-O-Cu2+ holemechanism. Remarkable Cr-deficiency-induced changes in;the densities of Cu 3d, Cu 3d-O 2p, andO2p states at or near the;valence-band maximum or the Fermi level were also observed. In addition,;a crossover of conductionmechanism from thermally activated (TA) hopping;to a combination of TA and Mott's three-dimensional variable range;hopping occurs around 250 K.;Yamane, Hiroyuki/K-5297-2013;0;0;0;0;0;1098-0121;WOS:000312025700004;;;J;Bossy, Jacques;Ollivier, Jacques;Schober, Helmut;Glyde, H. R.;Excitations of amorphous solid helium;PHYSICAL REVIEW B;86;22;224503;10.1103/PhysRevB.86.224503;DEC 7 2012;2012;We present neutron scattering measurements of the dynamic structure;factor S(Q,omega) of amorphous solid helium confined in 47-angstrom pore;diameter MCM-41 at pressure 48.6 bars. At low temperature T = 0.05 K, we;observe S(Q,omega) of the confined quantum amorphous solid plus the bulk;polycrystalline solid between the MCM-41 powder grains. No liquidlike;phonon-roton modes, other sharply defined modes at low energy (omega <;1.0 meV), or modes unique to a quantum amorphous solid that might;suggest superflow are observed. Rather, the S(Q, omega) of confined;amorphous and bulk polycrystalline solid appear to be very similar. At;higher temperature (T > 1 K), the amorphous solid in the MCM-41 pores;melts to a liquid which has a broad S(Q,omega) peaked near omega similar;or equal to 0, characteristic of normal liquid He-4 under pressure.;Expressions for the S(Q,omega) of amorphous and polycrystalline solid;helium are presented and compared. In previous measurements of liquid;He-4 confined in MCM-41 at lower pressure, the intensity in the liquid;roton mode decreases with increasing pressure until the roton vanishes;at the solidification pressure (38 bars), consistent with no roton in;the solid observed here.;2;0;0;0;2;1098-0121;WOS:000321857700002;;;J;Joly, Yves;Collins, S. P.;Grenier, Stephane;Tolentino, Helio C. N.;De Santis, Maurizio;Birefringence and polarization rotation in resonant x-ray diffraction;PHYSICAL REVIEW B;86;22;220101;10.1103/PhysRevB.86.220101;DEC 7 2012;2012;Birefringence can contribute to x-ray resonant Bragg diffraction and;likely explains recent novel data collected on CuO. We prove these;statements using ab initio simulations which reproduce the experimental;polarization effects quantitatively. We show that an unrotated;polarization signal-ruled out in resonant magnetic scattering within the;electric dipole approximation-arises from the dynamic change in;polarization inside the material. We are able to reproduce all the;related behavior with circular polarization and its dependence on the;angle of rotation about the Bragg wave vector. We provide a tool to;disentangle the various physical origins of the polarization rotation,;providing a more complete understanding of the illuminated material.;TOLENTINO, HELIO/J-1894-2014; Grenier, Stephane/N-1986-2014;TOLENTINO, HELIO/0000-0003-4032-5988; Grenier,;Stephane/0000-0001-8370-7375;12;1;0;0;12;1098-0121;WOS:000321857700001;;;J;Kovacs, Istvan A.;Igloi, Ferenc;Cardy, John;Corner contribution to percolation cluster numbers;PHYSICAL REVIEW B;86;21;214203;10.1103/PhysRevB.86.214203;DEC 7 2012;2012;We study the number of clusters in two-dimensional (2d) critical;percolation, N-Gamma, which intersect a given subset of bonds, Gamma. In;the simplest case, when Gamma is a simple closed curve, N-Gamma is;related to the entanglement entropy of the critical diluted quantum;Ising model, in which Gamma represents the boundary between the;subsystem and the environment. Due to corners in Gamma there are;universal logarithmic corrections to N-Gamma, which are calculated in;the continuum limit through conformal in-variance, making use of the;Cardy-Peschel formula. The exact formulas are confirmed by large scale;Monte Carlo simulations. These results are extended to anisotropic;percolation where they confirm a result of discrete holomorphicity.;Kovacs, Istvan/A-8447-2013;5;0;0;0;5;1098-0121;WOS:000312023100003;;;J;Komsa, Hannu-Pekka;Krasheninnikov, Arkady V.;Effects of confinement and environment on the electronic structure and;exciton binding energy of MoS2 from first principles;PHYSICAL REVIEW B;86;24;241201;10.1103/PhysRevB.86.241201;DEC 7 2012;2012;Using GW first-principles calculations for few-layer and bulk MoS2, we;study the effects of quantum confinement on the electronic structure of;this layered material. By solving the Bethe-Salpeter equation, we also;evaluate the exciton energy in these systems. Our results are in;excellent agreement with the available experimental data. Exciton;binding energy is found to dramatically increase from 0.1 eV in the bulk;to 1.1 eV in the monolayer. The fundamental band gap increases as well,;so that the optical transition energies remain nearly constant. We also;demonstrate that environments with different dielectric constants have a;profound effect on the electronic structure of the monolayer. Our;results can be used for engineering the electronic properties of MoS2;and other transition-metal dichalcogenides and may explain the;experimentally observed variations in the mobility of monolayer MoS2.;Krasheninnikov, Arkady/M-3020-2013;Krasheninnikov, Arkady/0000-0003-0074-7588;50;4;0;0;50;1098-0121;WOS:000312025700003;;;J;Ciuchi, S.;Fratini, S.;Electronic transport and quantum localization effects in organic;semiconductors;PHYSICAL REVIEW B;86;24;245201;10.1103/PhysRevB.86.245201;DEC 7 2012;2012;We explore the charge transport mechanism in organic semiconductors;based on a model that accounts for the thermal intermolecular disorder;at work in pure crystalline compounds, as well as extrinsic sources of;disorder that are present in current experimental devices. Starting from;the Kubo formula, we describe a theoretical framework that relates the;time-dependent quantum dynamics of electrons to the frequency-dependent;conductivity. The electron mobility is then calculated through a;relaxation time approximation that accounts for quantum localization;corrections beyond Boltzmann theory, and allows us to efficiently;address the interplay between highly conducting states in the band range;and localized states induced by disorder in the band tails. The;emergence of a "transient localization" phenomenon is shown to be a;general feature of organic semiconductors that is compatible with the;bandlike temperature dependence of the mobility observed in pure;compounds. Carrier trapping by extrinsic disorder causes a crossover to;a thermally activated behavior at low temperature, which is;progressively suppressed upon increasing the carrier concentration, as;is commonly observed in organic field-effect transistors. Our results;establish a direct connection between the localization of the electronic;states and their conductive properties, formalizing phenomenological;considerations that are commonly used in the literature.;Fratini, Simone/A-4692-2009;Fratini, Simone/0000-0002-4750-3241;4;0;0;0;4;1098-0121;WOS:000312025700001;;;J;Huang, Bing;Lee, Hoonkyung;Defect and impurity properties of hexagonal boron nitride: A;first-principles calculation;PHYSICAL REVIEW B;86;24;245406;10.1103/PhysRevB.86.245406;DEC 7 2012;2012;In this paper, we have systematically studied the structural and;electronic properties of vacancy defects and carbon impurity in;hexagonal boron nitride (h-BN) by using both normal GGA calculations and;advanced hybrid functional calculations. Our calculations show that the;defect configurations and the local bond lengths around defects are;sensitive to their charge states. The highest negative defect charge;states are largely determined by the nearly-free-electron state at the;conduction band minimum of BN. Generally, the in-gap defect levels;obtained from hybrid functional calculations are much deeper than those;obtained from normal GGA calculations. The formation energies of neutral;defects calculated by hybrid functional and GGA are close to each other,;but the defect transition energy levels are quite different between GGA;and hybrid functional calculations. Finally, we show that the charged;defect configurations as well as the transition energy levels exhibit;interesting layer effects.;Huang, Bing/D-8941-2011;Huang, Bing/0000-0001-6735-4637;8;0;0;0;8;1098-0121;WOS:000312025700002;;;J;Maassen, T.;Vera-Marun, I. J.;Guimaraes, M. H. D.;van Wees, B. J.;Contact-induced spin relaxation in Hanle spin precession measurements;PHYSICAL REVIEW B;86;23;235408;10.1103/PhysRevB.86.235408;DEC 7 2012;2012;In the field of spintronics the "conductivity mismatch" problem remains;an important issue. Here the difference between the resistance of;ferromagnetic electrodes and a (high resistive) transport channel causes;injected spins to be backscattered into the leads and to lose their spin;information. We study the effect of the resulting contact-induced spin;relaxation on spin transport, in particular on nonlocal Hanle precession;measurements. As the Hanle line shape is modified by the contact-induced;effects, the fits to Hanle curves can result in incorrectly determined;spin transport properties of the transport channel. We quantify this;effect that mimics a decrease of the spin relaxation time of the channel;reaching more than four orders of magnitude and a minor increase of the;diffusion coefficient by less than a factor of two. Then we compare the;results to spin transport measurements on graphene from the literature.;We further point out guidelines for a Hanle precession fitting procedure;that allows the reliable extraction of spin transport properties from;measurements.;Vera-Marun, Ivan/A-4704-2013; Guimaraes, Marcos/K-1940-2013;Vera-Marun, Ivan/0000-0002-6347-580X;;14;1;0;0;14;1098-0121;WOS:000312024900002;;;J;Murch, K. W.;Ginossar, E.;Weber, S. J.;Vijay, R.;Girvin, S. M.;Siddiqi, I.;Quantum state sensitivity of an autoresonant superconducting circuit;PHYSICAL REVIEW B;86;22;220503;10.1103/PhysRevB.86.220503;DEC 7 2012;2012;When a frequency chirped excitation is applied to a classical high-Q;nonlinear oscillator, its motion becomes dynamically synchronized to the;drive and large oscillation amplitude is observed, provided the drive;strength exceeds the critical threshold for autoresonance. We;demonstrate that when such an oscillator is strongly coupled to a;quantized superconducting qubit, both the effective nonlinearity and the;threshold become a nontrivial function of the qubit-oscillator detuning.;Moreover, the autoresonant threshold is dependent on the quantum state;of the qubit and may be used to realize a high-fidelity, latching;readout whose speed is not limited by the oscillator Q.;1;0;0;0;1;1098-0121;WOS:000312024300001;;;J;Ondrejkovic, P.;Kempa, M.;Vysochanskii, Y.;Saint-Gregoire, P.;Bourges, P.;Rushchanskii, K. Z.;Hlinka, J.;Neutron scattering study of ferroelectric Sn2P2S6 under pressure;PHYSICAL REVIEW B;86;22;224106;10.1103/PhysRevB.86.224106;DEC 7 2012;2012;Ferroelectric phase transition in the semiconductor Sn2P2S6 single;crystal has been studied by means of neutron scattering in the;pressure-temperature range adjacent to the anticipated tricritical;Lifshitz point (p approximate to 0.18 GPa, T approximate to 296 K). The;observations reveal a direct ferroelectric-paraelectric phase transition;in the whole investigated pressure range (0.18-0.6 GPa). These results;are in a clear disagreement with phase diagrams assumed in numerous;earlier works, according to which a hypothetical intermediate;incommensurate phase extends over several or even tens of degrees in the;0.5 GPa pressure range. Temperature dependence of the anisotropic;quasielastic diffuse scattering suggests that polarization fluctuations;present above T-C are strongly reduced in the ordered phase. Still, the;temperature dependence of the ((2) over bar 00) Bragg reflection;intensity at p = 0.18 GPa can be remarkably well modeled assuming the;order-parameter amplitude growth according to the power law with;logarithmic corrections predicted for a uniaxial ferroelectric;transition at the tricritical Lifshitz point.;Hlinka, Jiri/G-5985-2014; Ondrejkovic, Petr/G-6654-2014; Kempa, Martin/G-8830-2014;1;0;0;0;1;1098-0121;WOS:000312024300002;;;J;Svindrych, Z.;Janu, Z.;Kozlowski, A.;Honig, J. M.;Low-temperature magnetic anomaly in magnetite;PHYSICAL REVIEW B;86;21;214406;10.1103/PhysRevB.86.214406;DEC 7 2012;2012;We have studied experimentally the responses of high-quality single;crystals of stoichiometric synthetic magnetite to applied weak dc and ac;magnetic fields in the range of 6-60 K, far below the Verwey transition.;The results can be compared to so-called magnetic after effects (MAE);measurements, which are the most extensive magnetic measurements of;magnetite at these temperatures. We present a novel point of view on the;relaxation phenomena encountered at these temperatures-the;low-temperature anomaly, addressing the striking difference between the;results of conventional ac susceptibility measurements and those;accompanying MAE measurements, i.e., periodic excitations with strong;magnetic pulses. We also draw a connection between this anomaly and the;so-called glasslike transition, and discuss possible mechanisms;responsible for these effects.;janu, zdenek/G-9113-2014;0;0;0;0;0;1098-0121;WOS:000312023100001;;;J;Tarantini, C.;Lee, S.;Kametani, F.;Jiang, J.;Weiss, J. D.;Jaroszynski, J.;Folkman, C. M.;Hellstrom, E. E.;Eom, C. B.;Larbalestier, D. C.;Artificial and self-assembled vortex-pinning centers in superconducting;Ba(Fe1-xCox)(2)As-2 thin films as a route to obtaining very high;critical-current densities;PHYSICAL REVIEW B;86;21;214504;10.1103/PhysRevB.86.214504;DEC 7 2012;2012;We report on the superior vortex pinning of single-and multilayer;Ba(Fe1-xCox)(2)As-2 thin films with self-assembled c-axis and;artificially introduced ab-plane pins. Ba(Fe1-xCox)(2)As-2 can accept a;very high density of pins (15-20 vol %) without T-c suppression. The;matching field is greater than 12 T, producing a significant enhancement;of the critical current density J(c), an almost isotropic J(c) (theta,;20 T) > 10(5) A/cm(2), and global pinning force density F-p of similar;to 50 GN/m(3). This scenario strongly differs from the high-temperature;superconducting cuprates where the addition of pins without Tc;suppression is limited to 2-4 vol %, leading to small H-Irr enhancements;and improved J(c) only below 3-5 T.;Lee, Sanghan/C-8876-2012; Eom, Chang-Beom/I-5567-2014;7;2;0;0;7;1098-0121;WOS:000312023100002;;;J;Xia, Junchao;Carter, Emily A.;Density-decomposed orbital-free density functional theory for covalently;bonded molecules and materials;PHYSICAL REVIEW B;86;23;235109;10.1103/PhysRevB.86.235109;DEC 7 2012;2012;We propose a density decomposition scheme using a Wang-Govind-Carter-;(WGC-) based kinetic energy density functional (KEDF) to accurately and;efficiently simulate various covalently bonded molecules and materials;within orbital-free (OF) density functional theory (DFT). By using a;local, density-dependent scale function, the total density is decomposed;into a highly localized density within covalent bond regions and a;flattened delocalized density, with the former described by semilocal;KEDFs and the latter treated by the WGC KEDF. The new model predicts;reasonable equilibrium volumes, bulk moduli, and phase-ordering energies;for various semiconductors compared to Kohn-Sham (KS) DFT benchmarks.;The decomposition formalism greatly improves numerical stability and;accuracy, while retaining computational speed compared to simply;applying the original WGC KEDF to covalent materials. The surface energy;of Si(100) and various diatomic molecule properties can be stably;calculated and also agree well with KSDFT benchmarks. This;linear-scaled, computationally efficient, density-partitioned,;multi-KEDF scheme opens the door to large-scale simulations of;molecules, semiconductors, and insulators with OFDFT.;7;0;0;0;7;1098-0121;WOS:000312024900001;;;J;Zhao, Yang;Gong, Shou-Shu;Wang, Yong-Jun;Su, Gang;Low-energy effective theory and two distinct critical phases in a;spin-1/2 frustrated three-leg spin tube;PHYSICAL REVIEW B;86;22;224406;10.1103/PhysRevB.86.224406;DEC 7 2012;2012;Motivated by the crystal structures of [(CuCl(2)tachH)(3)Cl]Cl-2 and;Ca3Co2O6, we develop a low-energy effective theory using the;bosonization technique for a spin-1/2 frustrated three-leg spin tube;with trigonal prism units in two limit cases. The features obtained with;the effective theory are numerically elucidated by the density matrix;renormalization group method. Three different quantum phases in the;ground state of the system, say, one gapped dimerized phase and two;distinct gapless phases, are identified, where the two gapless phases;are found to have the conformal central charge c = 1 and 3/2,;respectively. Spin gaps, spin and dimer correlation functions, and the;entanglement entropy are obtained. In particular, it is disclosed that;the critical phase with c = 3/2 is the consequence of spin frustrations,;which might belong to the SU(2)(k=2) Wess-Zumino-Witten-Novikov;universality class, and is induced by the twist term in the bosonized;Hamiltonian density.;Su, Gang/G-6092-2011;Su, Gang/0000-0002-8149-4342;1;1;0;0;1;1098-0121;WOS:000312024300003;;;J;Vucicevic, J.;Goerbig, M. O.;Milovanovic, M. V.;d-wave superconductivity on the honeycomb bilayer;PHYSICAL REVIEW B;86;21;214505;10.1103/PhysRevB.86.214505;DEC 7 2012;2012;We introduce a microscopic model on the honeycomb bilayer, which in the;small-momentum limit captures the usual (quadratic dispersion in the;kinetic term) description of bilayer graphene. In the limit of strong;interlayer hopping it reduces to an effective honeycomb monolayer model;with also third-neighbor hopping. We study interaction effects in this;effective model, focusing on possible superconducting instabilities. We;find d(x2-y2) superconductivity in the strong-coupling limit of an;effective tJ -model-like description that gradually transforms into d +;id time-reversal symmetry-breaking superconductivity at weak couplings.;In this limit the small-momentum order-parameter expansion is (k(x) +;ik(y) )(2) [or (k(x) + ik(y) )(2)] in both valleys of the effective;low-energy description. The relevance of our model and investigation for;the physics of bilayer graphene is also discussed.;5;0;0;0;5;1098-0121;WOS:000312023100004;;;J;Etzioni, Yoav;Horovitz, Baruch;Le Doussal, Pierre;Rings and Coulomb boxes in dissipative environments;PHYSICAL REVIEW B;86;23;235406;10.1103/PhysRevB.86.235406;DEC 6 2012;2012;We study a particle on a ring in the presence of a dissipative;Caldeira-Leggett environment and derive its response to a dc field. We;show how this non-equilibrium response is related to a flux averaged;equilibrium response. We find, through a two-loop renormalization group;analysis, that a large dissipation parameter eta flows to a fixed point;eta(R) = (h) over bar/(2 pi). We also reexamine the mapping of this;problem to that of the Coulomb box and show that the relaxation;resistance, of recent interest, is quantized for large eta. For finite;eta > eta(R) we find that a certain average of the relaxation resistance;is quantized. We propose a Coulomb-box experiment to measure a quantized;noise. DOI: 10.1103/PhysRevB.86.235406;1;0;0;0;1;1098-0121;WOS:000312024600004;;;J;Fontana, Yannik;Grzela, Grzegorz;Bakkers, Erik P. A. M.;Rivas, Jaime Gomez;Mapping the directional emission of quasi-two-dimensional photonic;crystals of semiconductor nanowires using Fourier microscopy;PHYSICAL REVIEW B;86;24;245303;10.1103/PhysRevB.86.245303;DEC 6 2012;2012;Controlling the dispersion and directionality of the emission of;nanosources is one of the major goals of nanophotonics research. This;control will allow the development of highly efficient nanosources even;at the single-photon level. One of the ways to achieve this goal is to;couple the emission to Bloch modes of periodic structures. Here, we;present the first measurements of the directional emission from nanowire;photonic crystals by using Fourier microscopy. With this technique, we;efficiently collect and resolve the directional emission of nanowires;within the numerical aperture of a microscope objective. The light;emission from a heterostructure grown in each nanowire is governed by;the photonic (Bloch) modes of the photonic crystal. We also demonstrate;that the directionality of the emission can be easily controlled by;infiltrating the photonic crystal with a high refractive index liquid.;This work opens new possibilities for the control of the emission of;sources in nanowires.;5;0;0;0;5;1098-0121;WOS:000312025300005;;;J;Fujimori, Shin-ichi;Ohkochi, Takuo;Okane, Tetsuo;Saitoh, Yuji;Fujimori, Atsushi;Yamagami, Hiroshi;Haga, Yoshinori;Yamamoto, Etsuji;Onuki, Yoshichika;Itinerant nature of U 5f states in uranium mononitride revealed by;angle-resolved photoelectron spectroscopy;PHYSICAL REVIEW B;86;23;235108;10.1103/PhysRevB.86.235108;DEC 6 2012;2012;The electronic structure of the antiferromagnet uranium nitride (UN) has;been studied by angle-resolved photoelectron spectroscopy (ARPES) using;soft x-rays (h nu = 420-520 eV). Strongly dispersive bands with large;contributions from the U 5f states were observed in ARPES spectra and;form Fermi surfaces. The band structure as well as the Fermi surfaces in;the paramagnetic phase are well explained by the band-structure;calculation treating all the U 5f electrons as being itinerant,;suggesting that an itinerant description of the U 5f states is;appropriate for this compound. On the other hand, changes in the;spectral function due to the antiferromagnetic transition were very;small. The shapes of the Fermi surfaces in a paramagnetic phase are;highly three-dimensional, and the nesting of Fermi surfaces is unlikely;as the origin of the magnetic ordering. DOI: 10.1103/PhysRevB.86.235108;2;0;0;0;2;1098-0121;WOS:000312024600002;;;J;Hosseini, Mir Vahid;Zareyan, Malek;Unconventional superconducting states of interlayer pairing in bilayer;and trilayer graphene;PHYSICAL REVIEW B;86;21;214503;10.1103/PhysRevB.86.214503;DEC 6 2012;2012;We develop a theory for interlayer pairing of chiral electrons in;graphene materials which results in an unconventional superconducting;state with an s-wave spin-triplet order parameter. In a pure bilayer;graphene, this superconductivity exhibits a gapless property with an;exotic effect of temperature-induced condensation causing an increase of;the pairing amplitude with increasing temperature. We find that a finite;doping opens a gap in the excitation spectrum and weakens this anomalous;temperature dependence. We further explore the possibility of realizing;a variety of pairing patterns with different topologies of the Fermi;surface, by tuning the difference in the doping of the two layers. In;trilayer graphene, the interlayer superconductivity is characterized by;a two-component order parameter which can be used to define two distinct;phases in which only one of the components is nonvanishing. For ABA;stacking the stable state is determined by a competition between these;two phases. On variation of the relative amplitude of the corresponding;coupling strength, a first-order phase transition can occur between;these two phases. For ABC stacking, we find that the two phases coexist;with the possibility of a similar phase transition, which turns out to;be second order. DOI: 10.1103/PhysRevB.86.214503;1;0;0;0;1;1098-0121;WOS:000312022700003;;;J;Kajihara, Y.;Inui, M.;Matsuda, K.;Nagao, T.;Ohara, K.;Density fluctuations at the continuous liquid-liquid phase transition in;chalcogen systems;PHYSICAL REVIEW B;86;21;214202;10.1103/PhysRevB.86.214202;DEC 6 2012;2012;We have carried out density and small-angle x-ray scattering;measurements on a typical liquid chalcogen (Te, Se) system to;investigate its continuous liquid-liquid phase transition. With;increasing temperature, the zero-wave-number structure factor S(0) shows;a maximum in the middle of the transition region where the density;exhibits negative thermal expansion. This is direct evidence of density;fluctuations induced by the liquid-liquid phase transition. When the;sample is pressurized to 100 MPa, the density and S(0) curves shift to;the lower temperature side, which is consistent with the shift of the;structural transition. We discuss the similarity between liquid Te and;liquid water from the viewpoint of fluctuations induced by the;liquid-liquid transition. DOI: 10.1103/PhysRevB.86.214202;1;0;0;0;1;1098-0121;WOS:000312022700001;;;J;Khuntia, P.;Strydom, A. M.;Wu, L. S.;Aronson, M. C.;Steglich, F.;Baenitz, M.;Field-tuned critical fluctuations in YFe2Al10: Evidence from;magnetization, Al-27 NMR, and NQR investigations;PHYSICAL REVIEW B;86;22;220401;10.1103/PhysRevB.86.220401;DEC 6 2012;2012;We report magnetization, specific heat, and NMR investigations on;YFe2Al10 over a wide range of temperature and magnetic field and zero;field (NQR) measurements. Magnetic susceptibility, specific heat, and;spin-lattice relaxation rate divided by T (1/T1T) follow a weak power;law (similar to T-0.4) temperature dependence, which is a signature of;the critical fluctuations of Fe moments. The value of the;Sommerfeld-Wilson ratio and the linear relation between 1/T1T and.;suggest the existence of ferromagnetic correlations in this system. No;magnetic ordering down to 50 mK in C-p(T)/T and the unusual T and H;scaling of the bulk and NMR data are associated with a magnetic;instability which drives the system to quantum criticality. The magnetic;properties of the system are tuned by field wherein ferromagnetic;fluctuations are suppressed and a crossover from quantum critical to;Fermi-liquid behavior is observed with increasing magnetic field.;Khuntia, Panchanan /E-4270-2010;5;1;0;0;5;1098-0121;WOS:000312023600001;;;J;Marsh, J.;Camley, R. E.;Two-wave mixing in nonlinear magnetization dynamics: A perturbation;expansion of the Landau-Lifshitz-Gilbert equation;PHYSICAL REVIEW B;86;22;224405;10.1103/PhysRevB.86.224405;DEC 6 2012;2012;Recent experiments have shown that two electromagnetic waves can be;mixed together by a nonlinear process in magnetic materials and can;produce a wide variety of output waves, each with a different frequency.;A perturbation expansion of the Landau-Lifschitz-Gilbert equation is;presented which provides qualitative and quantitative understanding of;this process. The results of this expansion are compared to both;experiment and direct numerical solutions.;1;0;0;0;1;1098-0121;WOS:000312023600004;;;J;Norris, Scott A.;Stress-induced patterns in ion-irradiated silicon: Model based on;anisotropic plastic flow;PHYSICAL REVIEW B;86;23;235405;10.1103/PhysRevB.86.235405;DEC 6 2012;2012;We present a model for the effect of stress on thin amorphous films that;develop atop ion-irradiated silicon, based on the mechanism of;ion-induced anisotropic plastic flow. Using only parameters directly;measured or known to high accuracy, the model exhibits remarkably good;agreement with the wavelengths of experimentally observed patterns and;agrees qualitatively with limited data on ripple propagation speed. The;predictions of the model are discussed in the context of other;mechanisms recently theorized to explain the wavelengths, including;extensive comparison with an alternate model of stress. DOI:;10.1103/PhysRevB.86.235405;14;0;0;0;14;1098-0121;WOS:000312024600003;;;J;Ostlin, A.;Chioncel, L.;Vitos, L.;One-particle spectral function and analytic continuation for many-body;implementation in the exact muffin-tin orbitals method;PHYSICAL REVIEW B;86;23;235107;10.1103/PhysRevB.86.235107;DEC 6 2012;2012;We investigate one of the most common analytic continuation techniques;in condensed matter physics, namely the Pade approximant. Aspects;concerning its implementation in the exact muffin-tin orbitals (EMTO);method are scrutinized with special regard towards making it stable and;free of artificial defects. The electronic structure calculations are;performed for solid hydrogen, and the performance of the analytical;continuation is assessed by monitoring the density of states constructed;directly and via the Pade approximation. We discuss the difference;between the k-integrated and k-resolved analytical continuations, as;well as describing the use of random numbers and pole residues to;analyze the approximant. It is found that the analytic properties of the;approximant can be controlled by appropriate modifications, making it a;robust and reliable tool for electronic structure calculations. At the;end, we propose a route to perform analytical continuation for the;EMTO+dynamical mean field theory method. DOI: 10.1103/PhysRevB.86.235107;0;0;0;0;0;1098-0121;WOS:000312024600001;;;J;Rauch, D.;Suellow, S.;Bleckmann, M.;Klemke, B.;Kiefer, K.;Kim, M. S.;Aronson, M. C.;Bauer, E.;Magnetic phase diagram of CePt3B1-xSix;PHYSICAL REVIEW B;86;24;245104;10.1103/PhysRevB.86.245104;DEC 6 2012;2012;We present a study of the main bulk properties (susceptibility,;magnetization, resistivity, and specific heat) of CePt3B1-xSix, an;alloying system that crystallizes in a noncentrosymmetric lattice, and;derive the magnetic phase diagram. The materials at the end point of the;alloying series have previously been studied, with CePt3B established as;a material with two different magnetic phases at low temperatures;(antiferromagnetic below T-N = 7.8 K, weakly ferromagnetic below T-C;approximate to 5 K), while CePt3Si is a heavy fermion superconductor;(T-c = 0.75 K) coexisting with antiferromagnetism (T-N = 2.2 K). From;our experiments we conclude that the magnetic phase diagram is divided;into two regions. In the region of low Si content (up to x similar to;0.7) the material properties resemble those of CePt3B. Upon increasing;the Si concentration further the magnetic ground state continuously;transforms into that of CePt3Si. In essence, we argue that CePt3B can be;understood as a low pressure variant of CePt3Si.;Kiefer, Klaus/J-3544-2013; Klemke, Bastian/J-4746-2013;Kiefer, Klaus/0000-0002-5178-0495; Klemke, Bastian/0000-0003-4560-6025;0;0;0;0;0;1098-0121;WOS:000312025300004;;;J;Schoenecker, Stephan;Richter, Manuel;Koepernik, Klaus;Eschrig, Helmut;Ferromagnetic elements by epitaxial growth: A density functional;prediction (vol 85, 024407, 2012);PHYSICAL REVIEW B;86;21;219901;10.1103/PhysRevB.86.219901;DEC 6 2012;2012;0;0;0;0;0;1098-0121;WOS:000312022700004;;;J;Sedlmeier, Katrin;Elsaesser, Sebastian;Neubauer, David;Beyer, Rebecca;Wu, Dan;Ivek, Tomislav;Tomic, Silvia;Schlueter, John A.;Dressel, Martin;Absence of charge order in the dimerized kappa-phase BEDT-TTF salts;PHYSICAL REVIEW B;86;24;245103;10.1103/PhysRevB.86.245103;DEC 6 2012;2012;Utilizing infrared vibrational spectroscopy we have investigated;dimerized two-dimensional organic salts in order to search for possible;charge redistribution that might constitute electronic dipoles and;ferroelectricity: the quantum spin liquid kappa-(BEDT-TTF)(2)Cu-2(CN)(3);[BEDT-TTF: bis-(ethylenedithio)tetrathiafulvalene], the;antiferromagnetic Mott insulator kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Cl, and;the superconductor kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Br. None of them;exhibit any indication of charge disproportionation. Upon cooling to low;temperatures all BEDT-TTF molecules remain homogeneously charged within;+/- 0.005e. No modification in the charge distribution is observed;around T = 6 K where a low-temperature anomaly has been reported for the;spin-liquid material kappa-(BEDT-TTF)(2)Cu-2(CN)(3). In this compound;the in-plane optical response and vibrational coupling are rather;anisotropic, indicating that the tilt of the BEDT-TTF molecules in c;direction and their coupling to the anion layers has to be considered in;the explanation of the electromagnetic properties.;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;14;0;0;0;14;1098-0121;WOS:000312025300003;;;J;Siloi, I.;Troiani, F.;Towards the chemical tuning of entanglement in molecular nanomagnets;PHYSICAL REVIEW B;86;22;224404;10.1103/PhysRevB.86.224404;DEC 6 2012;2012;Antiferromagnetic spin rings represent prototypical realizations of;highly correlated, low-dimensional systems. Here we theoretically show;how the introduction of magnetic defects by controlled chemical;substitutions results in a strong spatial modulation of spin-pair;entanglement within each ring. Entanglement between local degrees of;freedom (individual spins) and collective ones (total ring spins) are;shown to coexist in exchange-coupled ring dimers, as can be deduced from;general symmetry arguments. We verify the persistence of these features;at finite temperatures, and discuss them in terms of experimentally;accessible observables.;Troiani, Filippo/B-4787-2011;5;0;0;0;5;1098-0121;WOS:000312023600003;;;J;Sreenivasulu, G.;Petrov, V. M.;Fetisov, L. Y.;Fetisov, Y. K.;Srinivasan, G.;Magnetoelectric interactions in layered composites of piezoelectric;quartz and magnetostrictive alloys;PHYSICAL REVIEW B;86;21;214405;10.1103/PhysRevB.86.214405;DEC 6 2012;2012;Mechanical strain mediated magnetoelectric effects are studied in;bilayers and trilayers of piezoelectric quartz and magnetostrictive;permendur (P), an alloy of Fe-Co-V. It is shown that the magnetoelectric;voltage coefficient (MEVC), proportional to the ratio of the;piezoelectric coupling coefficient to the permittivity, is higher in;quartz-based composites than for traditional ferroelectrics-based ME;composites. In bilayers of X-cut single crystal quartz and permendur,;the MEVC varies from 1.5 V/cm Oe at 20 Hz to similar to 185 V/cm Oe at;bending resonance or electromechanical resonance corresponding to;longitudinal acoustic modes. In symmetric X-cut quartz-P trilayers, the;MEVC similar to 4.8 V/cm Oe at 20 Hz and similar to 175 V/cm Oe at;longitudinal acoustic resonance. Trilayers of Y-cut quartz and permendur;show ME coupling under a shear strain with an MEVC that is an order of;magnitude smaller than for longitudinal strain in samples with X-cut;quartz. A model for low-frequency and resonance ME effects which allows;for explicit expressions of MEVC and resonance frequencies is provided;and calculated. MEVCs are in general agreement with measured values.;Magnetoelectric composites with quartz have the desired characteristics;such as the absence of ferroelectric hysteresis and pyroelectric losses;and could potentially replace ferroelectrics in composite-based magnetic;sensors, transducers, and high-frequency devices. DOI:;10.1103/PhysRevB.86.214405;Gollapudi, Sreenivasulu/G-9832-2012;Gollapudi, Sreenivasulu/0000-0002-6136-7119;8;0;0;0;8;1098-0121;WOS:000312022700002;;;J;Syzranov, S. V.;Yevtushenko, O. M.;Efetov, K. B.;Fermionic and bosonic ac conductivities at strong disorder;PHYSICAL REVIEW B;86;24;241102;10.1103/PhysRevB.86.241102;DEC 6 2012;2012;We study the ac conduction in a system of fermions or bosons strongly;localized in a disordered array of sites with short-range interactions;at frequencies larger than the intersite tunneling but smaller than the;characteristic fluctuation of the on-site energy. While the main;contribution sigma(0)(omega) to the conductivity comes from local;dipole-type excitations on close pairs of sites, coherent processes on;three or more sites lead to an interference correction sigma(1)(omega),;which depends on the statistics of the charge carriers and can be;suppressed by a magnetic field. For bosons the correction is always;positive, while for fermions it can be positive or negative depending on;whether the conduction is dominated by effective single-particle or;single-hole processes. We calculate the conductivity explicitly assuming;a constant density of states of single-site excitations. Independently;of the statistics, sigma(0)(omega) = const. For bosons, sigma(1)(omega);proportional to log(C/omega). For fermions, sigma(1)(omega) proportional;to log[max(A,omega)/omega] - log[max(B,omega)/omega], where the first;and the second term are, respectively, the particle and hole;contributions, A and B being the particle and hole energy cutoffs. The;ac magnetoresistance has the same sign as sigma(1)(omega).;Efetov, Konstantin/H-8852-2013;0;0;0;0;0;1098-0121;WOS:000312025300001;;;J;Troeppner, C.;Schmitt, T.;Reuschl, M.;Hammer, L.;Schneider, M. A.;Mittendorfer, F.;Redinger, J.;Podloucky, R.;Weinert, M.;Incommensurate Moire overlayer with strong local binding: CoO(111);bilayer on Ir(100);PHYSICAL REVIEW B;86;23;235407;10.1103/PhysRevB.86.235407;DEC 6 2012;2012;Incommensurate relaxed overlayer Moire structures are often interpreted;as systems with weak lateral variations of the binding potential and;thus no structural modulations in the overlayer material. We discuss;here the example of a CoO(111) bilayer on Ir(100), which is a relaxed;overlayer with strong structural response to the lateral modulation of;interface properties but nevertheless is incommensurate. By means of;density functional theory (DFT) calculations, we quantitatively;reproduce all the structural parameters of the CoO(111) bilayer on;Ir(100) as proposed by a recent low-energy electron diffraction analysis;[Ebensperger et al., Phys. Rev. B 81, 235405 (2010)]. The calculations;predict energetic degeneracies with respect to registry shifts of the;CoO(111) film along [01 (1) over bar]. Large-scale, low-temperature;scanning tunneling microscopy topographies reveal that the true;structure of the film is incommensurate in this direction, exhibiting a;one-dimensional Moire pattern with a period of about 9.4 a(Ir). From DFT;calculations for limiting (periodic) models, we can sample the potential;landscape of the cobalt and oxygen atoms in the Moire structure across;the Ir(100) unit cell. We find that despite the non-commensurability of;the film, the binding to the substrate is site specific with strong;attraction and repulsion points for both cobalt and oxygen atoms,;leading to severe local distortions in the film. The lateral modulation;of the structural elements within the oxide film can be understood as a;combination of the lateral variation in the Co-Ir binding potential and;additional O-Ir binding. DOI: 10.1103/PhysRevB.86.235407;Schneider, M. Alexander/C-6241-2013; Hammer, Lutz/D-9863-2013; Schneider, M. Alexander/B-4444-2012; Mittendorfer, Florian/L-5929-2013;Schneider, M. Alexander/0000-0002-8607-3301;;3;0;0;0;3;1098-0121;WOS:000312024600005;;;J;Tyunina, M.;Dejneka, A.;Chvostova, D.;Levoska, J.;Plekh, M.;Jastrabik, L.;Phase transitions in ferroelectric Pb0.5Sr0.5TiO3 films probed by;spectroscopic ellipsometry;PHYSICAL REVIEW B;86;22;224105;10.1103/PhysRevB.86.224105;DEC 6 2012;2012;Phase transitions occurring in 130-nm-thick films of;perovskite-structure ferroelectric Pb0.5Sr0.5TiO3 are experimentally;studied by combining spectroscopic ellipsometry and low-frequency;dielectric analysis. Polycrystalline and polydomain epitaxial films with;relaxed misfit strain and columnar microstructure are investigated. The;paraelectric and the ferroelectric states, and the temperatures and;widths of the paraelectric-to-ferroelectric phase transitions, are;identified from the temperature evolution of refractive index measured;in transparency range. The temperatures at which transitions start on;cooling are found to be considerably higher than the temperatures of the;dielectric peaks. In contrast to the broad dielectric peaks, the;transition width of 60 K in the polycrystalline film and that of 20 K in;the polydomain epitaxial film are revealed. The discrepancies between;optical and dielectric data are explained by the influence of extrinsic;factors on the low-frequency response of the thin-film capacitors. It is;suggested that fundamental mechanisms of ferroelectric phase transitions;in thin films can be revealed by studies of thermo-optical properties.;Dejneka, Alexandr/G-6384-2014; Jastrabik, Lubomir /H-1217-2014; Chvostova, Dagmar/G-9360-2014;6;0;0;0;6;1098-0121;WOS:000312023600002;;;J;Zeng, Hualing;Zhu, Bairen;Liu, Kai;Fan, Jiahe;Cui, Xiaodong;Zhang, Q. M.;Low-frequency Raman modes and electronic excitations in atomically thin;MoS2 films;PHYSICAL REVIEW B;86;24;241301;10.1103/PhysRevB.86.241301;DEC 6 2012;2012;Atomically thin MoS2 crystals have been recognized as;quasi-two-dimensional semiconductors with remarkable physical;properties. We report our Raman scattering measurements on multilayer;and monolayer MoS2, especially in the low-frequency range (<50 cm(-1)).;We find two low-frequency Raman modes with a contrasting thickness;dependence. When increasing the number of MoS2 layers, one mode shows a;significant increase in frequency while the other decreases following a;1/N (N denotes the number of unit layers) trend. With the aid of;first-principles calculations we assign the former as the shear mode;E-2g(2). The latter is distinguished as the compression vibrational;mode, similar to the surface vibration of other epitaxial thin films.;The opposite evolution of the two modes with thickness demonstrates;vibrational modes in an atomically thin crystal as well as a more;precise way to characterize the thickness of atomically thin MoS2 films.;In addition, we observe a broad feature around 38 cm(-1) (5 meV) which;is visible only under near-resonance excitation and pinned at a fixed;energy, independent of thickness. We interpret the feature as an;electronic Raman scattering associated with the spin-orbit coupling;induced splitting in a conduction band at K points in their Brillouin;zone.;Liu, Kai/K-4157-2012; Cui, Xiaodong/C-2023-2009; Zeng, Hualing/J-4411-2014;Cui, Xiaodong/0000-0002-2013-8336;;19;1;0;0;19;1098-0121;WOS:000312025300002;;;J;Anand, V. K.;Johnston, D. C.;Observation of a phase transition at 55 K in single-crystal CaCu1.7As2;PHYSICAL REVIEW B;86;21;214501;10.1103/PhysRevB.86.214501;DEC 5 2012;2012;We present the structural, magnetic, thermal and ab-plane electronic;transport properties of single crystals of CaCu1.7As2 grown by the;self-flux technique that were investigated by powder x-ray diffraction,;magnetic susceptibility chi, isothermal magnetization M, specific heat;C-p, and electrical resistivity rho measurements as a function of;temperature T and magnetic field H. X-ray diffraction analysis of;crushed crystals at room temperature confirm the collapsed tetragonal;ThCr2Si2-type structure with similar to 15% vacancies on the Cu sites as;previously reported, corresponding to the composition CaCu1.7As2. The;chi(T) data are diamagnetic, anisotropic, and nearly independent of T.;The chi is larger in the ab plane than along the c axis, as also;observed previously for SrCu2As2 and for pure and doped BaFe2As2. The;C-p(T) and rho(T) data indicate metallic sp-band character. In contrast;to the rho(T) and C-p(T) data that do not show any evidence for phase;transitions below 300 K, the rho(T) data exhibit a sharp decrease on;cooling below a temperature T-t = 54-56 K, depending on the crystal. The;chi(T) data show no hysteresis on warming and cooling through T-t and;the transition thus appears to be second order. The phase transition may;arise from spatial ordering of the vacancies on the Cu sublattice. The;T-t is found to be independent of H for H <= 8 T. A positive;magnetoresistance is observed below T-t that increases with decreasing T;and attains a value in H = 8.0 T of 8.7% at T = 1.8 K.;Anand, Vivek Kumar/J-3381-2013;Anand, Vivek Kumar/0000-0003-2023-7040;5;0;0;0;5;1098-0121;WOS:000311910400003;;;J;Avetisyan, Siranush;Pietilaeinen, Pekka;Chakraborty, Tapash;Strong enhancement of Rashba spin-orbit coupling with increasing;anisotropy in the Fock-Darwin states of a quantum dot (vol 85, 153301,;2012);PHYSICAL REVIEW B;86;23;239901;10.1103/PhysRevB.86.239901;DEC 5 2012;2012;1;0;0;0;1;1098-0121;WOS:000311911500005;;;J;Berman, Oleg L.;Kezerashvili, Roman Ya.;Ziegler, Klaus;Superfluidity and collective properties of excitonic polaritons in;gapped graphene in a microcavity;PHYSICAL REVIEW B;86;23;235404;10.1103/PhysRevB.86.235404;DEC 5 2012;2012;We predict the formation and superfluidity of polaritons in an optical;microcavity formed by excitons in gapped graphene embedded there and;microcavity photons. The Rabi splitting related to the creation of an;exciton in a graphene layer in the presence of the band gap is obtained.;It is demonstrated that the Rabi splitting decreases when the energy gap;increases, while the larger value of the dielectric constant of the;microcavity gives a smaller value for the Rabi splitting. The analysis;of collective excitations as well as the sound velocity is presented. We;show that the superfluid density n(s) and temperature of the;Kosterlitz-Thouless phase transition T-c are decreasing functions of the;energy gap.;2;0;0;0;2;1098-0121;WOS:000311911500004;;;J;Bernu, S.;Fertey, P.;Itie, J. -P.;Berger, H.;Foury-Leylekian, P.;Pouget, J. -P.;Vanishing of the metal-insulator Peierls transition in pressurized BaVS3;PHYSICAL REVIEW B;86;23;235105;10.1103/PhysRevB.86.235105;DEC 5 2012;2012;BaVS3 presents a metal-to-insulator (MI) transition at ambient pressure;due to the stabilization of a 2k(F) commensurate charge density wave;(CDW) Peierls ground state built on the dz(2) V orbitals. The MI;transition vanishes under pressure at a quantum critical point (QCP);where the electronic properties exhibit a non-Fermi liquid behavior. In;this paper, we determine the CDW phase diagram under pressure and show;that it combines both the vanishing of the second-order Peierls;transition and a commensurate-incommensurate first-order delocking;transition of the 2k(F) wave vector. We explain quantitatively the drop;of the MI critical temperature by the decrease of the electron-hole pair;lifetime of the CDW condensate due to an enhancement of the;hybridization between the dz(2) and e(t(2g)) levels of the V under;pressure.;0;0;0;0;0;1098-0121;WOS:000311911500001;;;J;Bobaru, S.;Gaudry, E.;de Weerd, M. -C.;Ledieu, J.;Fournee, V.;Competing allotropes of Bi deposited on the Al13Co4(100) alloy surface;PHYSICAL REVIEW B;86;21;214201;10.1103/PhysRevB.86.214201;DEC 5 2012;2012;The growth and stability of Bi thin films on the Al13Co4(100) surface;has been investigated from the submonolayer to high-coverage regime by;scanning tunneling microscopy (STM) and low-energy electron diffraction;(LEED) for temperatures ranging from 57 to 633 K. Initially, Bi;adsorption leads to the formation of a pseudomorphic monolayer, followed;by the growth of islands of different heights with increasing coverage.;The in-plane structure, island height, and island morphology indicate;that these islands adopt either a pseudocubic (110) or hexagonal (111);orientation normal to the surface. The (110)-oriented islands correspond;to bilayer stacking (either two or four monolayers in height) while the;(111)-oriented islands correspond to either three-or four-layer;stacking. The in-plane orientation of (110) islands with respect to the;substrate is random, while (111) islands adopt one of four possible;orientations. In addition, the (111) islands show a moire structure. The;fact that Bi islands grow with either (110) or (111) orientation;simultaneously on the same substrate relates to a subtle energy balance;between both orientations according to ab initio calculations, allowing;both structures to coexist. The island density dependence versus both;deposition temperature and flux, their most frequent structure type,;reshaping effects, and chemical reactivity of the different allotropes;are also discussed in this paper.;Gaudry, Emilie/G-9682-2011; Ledieu, Julian/F-1430-2010;2;0;0;0;2;1098-0121;WOS:000311910400002;;;J;Czarnik, Piotr;Cincio, Lukasz;Dziarmaga, Jacek;Projected entangled pair states at finite temperature: Imaginary time;evolution with ancillas;PHYSICAL REVIEW B;86;24;245101;10.1103/PhysRevB.86.245101;DEC 5 2012;2012;A projected entangled pair state (PEPS) with ancillas is evolved in;imaginary time. This tensor network represents a thermal state of a;two-dimensional (2D) lattice quantum system. A finite-temperature phase;diagram of the 2D quantum Ising model in a transverse field is obtained;as a benchmark application.;2;0;0;0;2;1098-0121;WOS:000311912300002;;;J;de Jong, Maarten;Olmsted, David L.;van de Walle, Axel;Asta, Mark;First-principles study of the structural and elastic properties of;rhenium-based transition-metal alloys;PHYSICAL REVIEW B;86;22;224101;10.1103/PhysRevB.86.224101;DEC 5 2012;2012;Structural, energetic, and elastic properties of hexagonal-close-packed;rhenium-based transition-metal alloys are computed by density-functional;theory. The practical interest in these materials stems from the;attractive combination of mechanical properties displayed by rhenium for;structural applications requiring the combination of high melting;temperature and low-temperature ductility. Single-crystal elastic;constants, atomic volumes, axial c/a ratios, and dilute heats of;solution for Re-X alloys are computed, considering all possible;transition-metal solute species X. Calculated elastic constants are used;to compute values of a commonly considered intrinsic-ductility parameter;K/G, where K is the bulk modulus and G denotes the Voigt average of the;shear modulus, as well as the anisotropies in the Young's modulus and;shear modulus. The calculated properties show clear trends as a function;of d-band filling, which can be rationalized through tight-binding;theory. The results indicate that solutes to the left of rhenium in the;periodic table show a tendency to increase the intrinsic ductility;parameter, a trend that correlates with an increase of the c/a ratio;towards the ideal value associated optimal close packing. The Young's;modulus shows a trend towards increasing isotropy with alloying of;solutes X to the left of Re, while the shear modulus shows the opposite;trend but with an overall weaker dependence on solute additions. DOI:;10.1103/PhysRevB.86.224101;van de Walle, Axel/L-5676-2013;van de Walle, Axel/0000-0002-3415-1494;0;0;0;0;0;1098-0121;WOS:000311910900001;;;J;Fingerhut, Benjamin P.;Richter, Marten;Luo, Jun-Wei;Zunger, Alex;Mukamel, Shaul;Dissecting biexciton wave functions of self-assembled quantum dots by;double-quantum-coherence optical spectroscopy;PHYSICAL REVIEW B;86;23;235303;10.1103/PhysRevB.86.235303;DEC 5 2012;2012;Biexcitons feature prominently in various scenarios for utilization of;quantum dots (QDs) for enhancing the efficiencies of solar cells, and;for the generation of entangled photon pairs in single QD sources.;Two-dimensional double quantum coherence (2D-DQC) nonlinear optical;spectra provide novel spectroscopic signatures of such states beyond;global intensity and lifetime characteristics which are available by;more conventional techniques. We report the simulation of a prototype;2D-DQC optical experiment of a self-assembled InAs/GaAs dot. The;simulations consider the QD in different charged states and are based on;a state-of-the-art atomistic many-body pseudopotential method for the;calculation of the electronic structure and transition dipole matrix;elements. Comparison of the spectra of negatively charged, neutral, and;positively charged QD reveals optical signatures of their electronic;excitations. This technique directly accesses the biexciton (XX);energies as well as the projections of their wave functions on the;single-exciton manifold. These signals also provide a unique tool for;probing the charged state of the QD and thus the occupation of the;quantum state. Signatures of Pauli blockade of the creation of certain;single and two excitons due to charges on the particles are observed.;For all quantum states of the QD, the spectra reveal a strong;multiconfiguration character of the biexciton wave functions. Peak;intensities can be explained by interference of the contributing;Liouville space pathways.;Zunger, Alex/A-6733-2013; LUO, JUNWEI/B-6545-2013; LUO, JUN-WEI/A-8491-2010; Richter, Marten/B-7790-2008;Richter, Marten/0000-0003-4160-1008;2;0;0;0;2;1098-0121;WOS:000311911500003;;;J;Haskins, Justin B.;Moriarty, John A.;Hood, Randolph Q.;Polymorphism and melt in high-pressure tantalum;PHYSICAL REVIEW B;86;22;224104;10.1103/PhysRevB.86.224104;DEC 5 2012;2012;Recent small-cell (<150 atom) quantum molecular dynamics (QMD);simulations for Ta based on density functional theory (DFT) have;predicted a hexagonal omega (hex-omega)phase more stable than the normal;bcc phase at high temperature (T) and pressure (P) above 70 GPa [;Burakovsky et al., Phys. Rev. Lett. 104, 255702 (2010)]. Here we examine;possible high-T, P polymorphism in Ta with complementary DFT-based model;generalized pseudopotential theory (MGPT) multi-ion interatomic;potentials, which allow accurate treatment of much larger system sizes;(up to similar to 80000 atoms). We focus on candidate bcc, A15, fcc,;hcp, and hex-omega phases for the high-T, P phase diagram to 420 GPa,;studying the mechanical and relative thermodynamic stability of these;phases for both small and large computational cells. Our MGPT potentials;fully capture the T = 0 DFT energetics of these phases, while MGPT-MD;simulations demonstrate that the higher-energy fcc, hcp, and hex-omega;structures are only mechanically stabilized at high temperature by;large, size-dependent, anharmonic vibrational effects, with the;stability of the hex-omega phase also being found to be a sensitive;function of its c/a ratio. Both two-phase and Z-method melting;techniques have been used in MGPT-MD simulations to determine relative;phase stability and its size dependence. In the large-cell limit, the;two-phase method yields accurate equilibrium melt curves for all five;phases, with bcc producing the highest melt temperatures at all;pressures and hence being the most stable phase of those considered. The;two-phase bcc melt curve is also in good agreement with dynamic;experimental data as well as with the MGPT melt curve calculated from;bcc and liquid free energies. In contrast, we find that the Z method;produces only an upper bound to the equilibrium melt curve in the;large-cell limit. For the bcc and hex-omega structures, however, this is;a close upper bound within 5% of the two-phase results, although for the;A15, fcc, and hcp structures, the Z-melt curves are 25%-35% higher in;temperature than the two-phase results. Nonetheless, the Z method has;allowed us to study melt size effects in detail. We find these effects;to be either small or modest for the cubic bcc, A15, and fcc structures,;but to have a large impact on the hexagonal hcp and hex-omega melt;curves, which are dramatically pushed above that of bcc for simulation;cells less than 150 atoms. The melt size effects are driven by and;closely correlated with similar size effects on the mechanical stability;and the vibrational anharmonicity. We further show that for the same;simulation cell sizes and choice of c/a ratio, the MGPT-MD bcc and;hex-omega melt curves are in good agreement with the QMD results, so the;QMD prediction is confirmed in the small-cell limit. But in the;large-cell limit, the MGPT-MD hex-omega melt curve is always lowered;below that of bcc for any choice of c/a, so bcc is the most stable;phase. We conclude that for the non-bcc Ta phases studied, one requires;simulation cells of at least 250-500 atoms to be free of size effects;impacting mechanical and thermodynamic phase stability. DOI:;10.1103/PhysRevB.86.224104;8;0;0;0;8;1098-0121;WOS:000311910900004;;;J;Iwazaki, Yoshiki;Suzuki, Toshimasa;Mizuno, Youichi;Tsuneyuki, Shinji;Doping-induced phase transitions in ferroelectric BaTiO3 from;first-principles calculations;PHYSICAL REVIEW B;86;21;214103;10.1103/PhysRevB.86.214103;DEC 5 2012;2012;Carrier-electron-induced phase transition from tetragonal to cubic;phases in BaTiO3 is studied using first-principles calculation. Our;results show that the disappearance of the ferroelectric phase is an;intrinsic effect resulting from carrier electron doping in BaTiO3. We;further clarify that the lattice disorder induced by donor dopants such;as oxygen vacancies and substitutionally doped Nb5+ at Ti4+ sites;accelerates the disappearance of the tetragonal phase in BaTiO3.;7;0;0;0;7;1098-0121;WOS:000311910400001;;;J;Koshelev, A. E.;Phase diagram of Josephson junction between s and s(+/-) superconductors;in the dirty limit;PHYSICAL REVIEW B;86;21;214502;10.1103/PhysRevB.86.214502;DEC 5 2012;2012;The s(+/-) state in which the order parameter has different signs in;different bands is a leading candidate for the superconducting state in;the iron-based superconductors. We investigate a Josephson junction;between s and s(+/-) superconductors within microscopic theory.;Frustration, caused by interaction of the s-wave gap parameter with the;opposite-sign gaps of the s(+/-) superconductor, leads to nontrivial;phase diagram. When the partial Josephson coupling energy between the;s-wave superconductor and one of the s(+/-) bands dominates, s-wave gap;parameter aligns with the order parameter in this band. In this case,;the partial Josephson energies have different signs corresponding to;signs of the gap parameters. In the case of strong frustration,;corresponding to almost complete compensation of the total Josephson;energy, a nontrivial time-reversal-symmetry breaking (TRSB) state;realizes. In this state, all gap parameters become essentially complex.;As a consequence, this state provides realization for so-called;phi-junction with finite phase difference in the ground state. The width;of the TRSB state region is determined by the second harmonic in;Josephson current, proportional to sin(2 phi f), which appears in the;second order with respect to the boundary transparency. Using the;microscopic theory, we establish a range of parameters where different;states are realized. Our analysis shows insufficiency of the simple;phenomenological approach for treatment of this problem.;Koshelev, Alexei/K-3971-2013;Koshelev, Alexei/0000-0002-1167-5906;3;0;0;0;3;1098-0121;WOS:000311910400004;;;J;Krueger, Peter;Koutiri, Issam;Bourgeois, Sylvie;First-principles study of hexagonal tungsten trioxide: Nature of lattice;distortions and effect of potassium doping;PHYSICAL REVIEW B;86;22;224102;10.1103/PhysRevB.86.224102;DEC 5 2012;2012;A density functional theory study is reported on pure and potassium;doped tungsten trioxide. The nature of lattice distortions in the;hexagonal phase is analyzed and a new symmetry group is proposed. The;structure and stability of cubic, monoclinic, and hexagonal phases is;studied as a function of potassium doping and an approximate phase;diagram is derived. KxWO3 undergoes a monoclinic to hexagonal phase;transition at x similar to 3%. DOI: 10.1103/PhysRevB.86.224102;1;0;0;0;1;1098-0121;WOS:000311910900002;;;J;Landsgesell, S.;Abou-Ras, D.;Alber, D.;Prokes, K.;Wolf, T.;Direct evidence of chemical and crystallographic phase separation in;K0.65Fe1.74Se2;PHYSICAL REVIEW B;86;22;224502;10.1103/PhysRevB.86.224502;DEC 5 2012;2012;In the present work, we report on a chemical phase separation in;crystalline superconducting K0.65Fe1.74Se2, investigated by means of;magnetization experiments, scanning electron microscopy, electron;backscatter diffraction, and energy-dispersive x-ray spectrometry. It is;shown that the crystal consists of platelets oriented in < 100 > with an;approximated volume fraction of about 30% in the surrounding < 001 >;oriented matrix. The platelets (the matrix) are depleted in K (Fe) and;enriched in Fe (K). Chemical phase separation is demonstrated by a;stable, antiferromagnetic K0.8Fe1.6Se2 matrix, and KxFe2-y Se-2;platelets inducing superconductivity. This time-driven, chemical phase;separation is therefore responsible for various coexistent magnetic and;electrical properties measured in KxFeySe2 samples. DOI:;10.1103/PhysRevB.86.224502;Landsgesell, Sven/B-1467-2013; Prokes, Karel/J-5438-2013;Landsgesell, Sven/0000-0002-2469-3548; Prokes, Karel/0000-0002-7034-1738;10;0;0;0;10;1098-0121;WOS:000311910900005;;;J;Liu, Wei;Carrasco, Javier;Santra, Biswajit;Michaelides, Angelos;Scheffler, Matthias;Tkatchenko, Alexandre;Benzene adsorbed on metals: Concerted effect of covalency and van der;Waals bonding;PHYSICAL REVIEW B;86;24;245405;10.1103/PhysRevB.86.245405;DEC 5 2012;2012;The adsorption of aromatic molecules on metal surfaces plays a key role;in condensed matter physics and functional materials. Depending on the;strength of the interaction between the molecule and the surface, the;binding is typically classified as either physisorption or;chemisorption. Van der Waals (vdW) interactions contribute significantly;to the binding in physisorbed systems, but the role of the vdW energy in;chemisorbed systems remains unclear. Here we study the interaction of;benzene with the (111) surface of transition metals, ranging from weak;adsorption (Ag and Au) to strong adsorption (Pt, Pd, Ir, and Rh). When;vdW interactions are accurately accounted for, the barrier to adsorption;predicted by standard density-functional theory (DFT) calculations;essentially vanishes, producing a metastable precursor state on Pt and;Ir surfaces. Notably, vdW forces contribute more to the binding of;covalently bonded benzene than they do when benzene is physisorbed.;Comparison to experimental data demonstrates that some of the recently;developed methods for including vdW interactions in DFT allow;quantitative treatment of both weakly and strongly adsorbed aromatic;molecules on metal surfaces, extending the already excellent performance;found for molecules in the gas phase.;Michaelides, Angelos/K-8727-2012; Santra, Biswajit/C-4818-2008; Tkatchenko, Alexandre/E-7148-2011;Santra, Biswajit/0000-0003-3609-2106; Tkatchenko,;Alexandre/0000-0002-1012-4854;52;2;0;0;52;1098-0121;WOS:000311912300005;;;J;Ou, Xin;Koegler, Reinhard;Zhou, Hong-Bo;Anwand, Wolfgang;Grenzer, Joerg;Huebner, Rene;Voelskow, Matthias;Butterling, Maik;Zhou, Shengqiang;Skorupa, Wolfgang;Release of helium from vacancy defects in yttria-stabilized zirconia;under irradiation;PHYSICAL REVIEW B;86;22;224103;10.1103/PhysRevB.86.224103;DEC 5 2012;2012;Fission gas retention or release has a critical impact on the function;of advanced nuclear materials. Helium trapping in, and release from,;radiation defects induced by neutrons and by a decay in YSZ;(yttria-stabilized zirconia) is experimentally simulated using;synchronized Zr+ and He+ dual ion beam irradiation. The measured damage;profiles consist of two peaks which agree well with the calculated;profiles of implantation induced excess point defects. This special;implantation related effect has to be carefully considered in the;evaluation of experimental investigations which simulate isotropic;irradiation effects such as a decay. First-principles calculations show;that helium is energetically favorable to be trapped by Zr vacancies in;YSZ. Implanted helium alone in YSZ is accumulated in undesirable helium;bubbles and results in local surface swelling and lift-off. However,;under dual beam irradiation helium is released from vacancy defects and;is out-diffused at room temperature. Helium is mobilized by a;vacancy-assisted trapping/detrapping mechanism induced by the;simultaneous Zr+ ion implantation. This behavior avoids the deleterious;helium bubble formation and contributes to the suitable application;characteristics of YSZ which result in its excellent radiation hardness.;DOI: 10.1103/PhysRevB.86.224103;Zhou, Shengqiang/C-1497-2009;Zhou, Shengqiang/0000-0002-4885-799X;3;0;2;0;3;1098-0121;WOS:000311910900003;;;J;Pauly, C.;Bihlmayer, G.;Liebmann, M.;Grob, M.;Georgi, A.;Subramaniam, D.;Scholz, M. R.;Sanchez-Barriga, J.;Varykhalov, A.;Bluegel, S.;Rader, O.;Morgenstern, M.;Probing two topological surface bands of Sb2Te3 by spin-polarized;photoemission spectroscopy;PHYSICAL REVIEW B;86;23;235106;10.1103/PhysRevB.86.235106;DEC 5 2012;2012;Using high-resolution spin-and angle-resolved photoemission;spectroscopy, we map the electronic structure and spin texture of the;surface states of the topological insulator Sb2Te3. In combination with;density functional calculations (DFT), we directly show that Sb2Te3;exhibits a partially occupied, single spin-Dirac cone around the Fermi;energy E-F, which is topologically protected. DFT obtains a spin;polarization of the occupied Dirac cone states of 80-90%, which is in;reasonable agreement with the experimental data after careful background;subtraction. Furthermore, we observe a strongly spin-orbit split surface;band at lower energy. This state is found at E - E-F similar or equal to;-0.8 eV at the (Gamma) over bar point, disperses upward, and disappears;at about E - E-F = -0.4 eV into two different bulk bands. Along the;(Gamma) over bar-(K) over bar direction, the band is located within a;spin-orbit gap. According to an argument given by Pendry and Gurman in;1975, such a gap must contain a surface state, if it is located away;from the high-symmetry points of the Brillouin zone. Thus, the novel;spin-split state is protected by symmetry, too.;Bihlmayer, Gustav/G-5279-2013; Rader, Oliver/H-8498-2013; Sanchez-Barriga, Jaime/I-3493-2013; Varykhalov, Andrei/I-3571-2013; Blugel, Stefan/J-8323-2013; Liebmann, Marcus/G-6254-2012; Morgenstern, Markus/K-7785-2013;Bihlmayer, Gustav/0000-0002-6615-1122; Rader,;Oliver/0000-0003-3639-0971; Sanchez-Barriga, Jaime/0000-0001-9947-6700;;Varykhalov, Andrei/0000-0002-7901-3562; Blugel,;Stefan/0000-0001-9987-4733; Liebmann, Marcus/0000-0003-4787-0129;;Morgenstern, Markus/0000-0002-3993-6880;15;0;0;0;15;1098-0121;WOS:000311911500002;;;J;Silveirinha, Mario G.;Engheta, Nader;Metamaterial-inspired model for electron waves in bulk semiconductors;PHYSICAL REVIEW B;86;24;245302;10.1103/PhysRevB.86.245302;DEC 5 2012;2012;Based on an analogy with electromagnetic metamaterials, we develop an;effective medium description for the propagation of electron matter;waves in bulk semiconductors with a zinc-blende structure. It is;formally demonstrated that even though departing from a different;starting point, our theory gives results for the energy stationary;states consistent with Bastard's envelope-function approximation in the;long-wavelength limit. Using the proposed approach, we discuss the time;evolution of a wave packet in a bulk semiconductor with a zero-gap and;linear energy-momentum dispersion.;4;0;0;0;4;1098-0121;WOS:000311912300004;;;J;Valla, T.;Ji, Huiwen;Schoop, L. M.;Weber, A. P.;Pan, Z. -H.;Sadowski, J. T.;Vescovo, E.;Fedorov, A. V.;Caruso, A. N.;Gibson, Q. D.;Muechler, L.;Felser, C.;Cava, R. J.;Topological semimetal in a Bi-Bi2Se3 infinitely adaptive superlattice;phase;PHYSICAL REVIEW B;86;24;241101;10.1103/PhysRevB.86.241101;DEC 5 2012;2012;We report spin-and angle-resolved photoemission studies of a topological;semimetal from the infinitely adaptive series between elemental Bi and;Bi2Se3. The compound, based on Bi4Se3, is a 1:1 natural superlattice of;alternating Bi-2 layers and Bi2Se3 layers; the inclusion of S allows the;growth of large crystals, with the formula Bi4Se2.6S0.4. The crystals;cleave along the interfaces between the Bi-2 and Bi2Se3 layers, with the;surfaces obtained having alternating Bi or Se termination. The resulting;terraces, observed by photoemission electron microscopy, create avenues;suitable for the study of one-dimensional topological physics. The;electronic structure, determined by spin-and angle-resolved;photoemission spectroscopy, shows the existence of a surface state that;forms a large, hexagonally shaped Fermi surface around the Gamma point;of the surface Brillouin zone, with the spin structure indicating that;this material is a topological semimetal.;Felser, Claudia/A-5779-2009; Schoop, Leslie/A-4627-2013; Muchler, Lukas/A-4628-2013; Ji, Huiwen/O-5145-2014;Schoop, Leslie/0000-0003-3459-4241;;15;2;0;0;15;1098-0121;WOS:000311912300001;;;J;Witczak-Krempa, William;Ghaemi, Pouyan;Senthil, T.;Kim, Yong Baek;Universal transport near a quantum critical Mott transition in two;dimensions;PHYSICAL REVIEW B;86;24;245102;10.1103/PhysRevB.86.245102;DEC 5 2012;2012;We discuss the universal-transport signatures near a zero-temperature;continuous Mott transition between a Fermi liquid and a quantum spin;liquid in two spatial dimensions. The correlation-driven transition;occurs at fixed filling and involves fractionalization of the electron:;upon entering the spin liquid, a Fermi surface of neutral spinons;coupled to an internal gauge field emerges. We present a controlled;calculation of the value of the zero-temperature universal resistivity;jump predicted to occur at the transition. More generally, the behavior;of the universal scaling function that collapses the temperature-and;pressure-dependent resistivity is derived, and is shown to bear a strong;imprint of the emergent gauge fluctuations. We further predict a;universal jump of the thermal conductivity across the Mott transition,;which derives from the breaking of conformal invariance by the damped;gauge field, and leads to a violation of the Wiedemann-Franz law in the;quantum critical region. A connection to the quasitriangular organic;salts is made, where such a transition might occur. Finally, we present;some transport results for the pure rotor O(N) conformal field theory.;10;0;0;0;10;1098-0121;WOS:000311912300003;;;J;Apostolov, Stanislav;Levchenko, Alex;Josephson current and density of states in proximity circuits with;s(+)-superconductors;PHYSICAL REVIEW B;86;22;224501;10.1103/PhysRevB.86.224501;DEC 4 2012;2012;We study the emergent proximity effect in mesoscopic circuits that;involve a conventional superconductor and an unconventional pnictide;superconductor separated by a diffusive normal or ferromagnetic wire.;The focus is placed on revealing signatures of the proposed s(+)-state;of pnictides from the proximity-induced density of states and Josephson;current. We find analytically a universal result for the density of;states that exhibits both the Thouless gap at low energies and peculiar;features near the superconducting gap edges at higher energies. The;latter may be used to discriminate between s(+)- and s(++) symmetry;scenarios in scanning tunneling spectroscopy experiments. We also;calculate Josephson current-phase relationships for different junction;configurations, which are found to display robust 0-pi transitions for a;wide range of parameters.;3;0;0;0;3;1098-0121;WOS:000311910600005;;;J;Balci, Sinan;Kocabas, Coskun;Ates, Simge;Karademir, Ertugrul;Salihoglu, Omer;Aydinli, Atilla;Tuning surface plasmon-exciton coupling via thickness dependent plasmon;damping;PHYSICAL REVIEW B;86;23;235402;10.1103/PhysRevB.86.235402;DEC 4 2012;2012;In this paper, we report experimental and theoretical investigations on;tuning of the surface plasmon-exciton coupling by controlling the;plasmonic mode damping, which is defined by the plasmonic layer;thickness. The results reveal the formation of plasmon-exciton hybrid;state characterized by a tunable Rabi splitting with energies ranging;from 0 to 150 meV. Polarization-dependent spectroscopic reflection;measurements were employed to probe the dispersion of the coupled;system. The transfer matrix method and analytical calculations were used;to model the self-assembled J-aggregate/metal multilayer structures in;excellent agreement with experimental observations.;Kocabas, Coskun/C-6018-2013;6;0;0;0;6;1098-0121;WOS:000311911100002;;;J;Belashchenko, K. D.;Glasbrenner, J. K.;Wysocki, A. L.;Spin injection from a half-metal at finite temperatures;PHYSICAL REVIEW B;86;22;224402;10.1103/PhysRevB.86.224402;DEC 4 2012;2012;Spin injection from a half-metallic electrode in the presence of thermal;spin disorder is analyzed using a combination of random matrix theory,;spin-diffusion theory, and explicit simulations for the tight-binding;s-d model. It is shown that efficient spin injection from a half-metal;is possible as long as the effective resistance of the normal metal does;not exceed a characteristic value, which does not depend on the;resistance of the half-metallic electrode but, rather, is controlled by;spin-flip scattering at the interface. This condition can be formulated;as alpha less than or similar to l/l(sf)(N) T-c(-1) where a is the;relative deviation of the magnetization from saturation, l and l(sf)(N);are the mean-free path and the spin-diffusion length in the nonmagnetic;channel, and T-c is the transparency of the tunnel barrier at the;interface (if present). The general conclusions are confirmed by;tight-binding s-d model calculations. A rough estimate suggests that;efficient spin injection from true half-metallic ferromagnets into;silicon or copper may be possible at room temperature across a;transparent interface.;Wysocki, Aleksander/D-6928-2013;1;0;0;0;1;1098-0121;WOS:000311910600003;;;J;Bessas, D.;Sergueev, I.;Wille, H. -C.;Persson, J.;Ebling, D.;Hermann, R. P.;Lattice dynamics in Bi2Te3 and Sb2Te3: Te and Sb density of phonon;states;PHYSICAL REVIEW B;86;22;224301;10.1103/PhysRevB.86.224301;DEC 4 2012;2012;The lattice dynamics in Bi2Te3 and Sb2Te3 were investigated both;microscopically and macroscopically using Sb-121 and Te-125 nuclear;inelastic scattering, x-ray diffraction, and heat capacity measurements.;In combination with earlier inelastic neutron scattering data, the;element-specific density of phonon states was obtained for both;compounds and phonon polarization analysis was carried out for Bi2Te3. A;prominent peak in the Te specific density of phonon states at 13 meV,;that involves mainly in-plane vibrations, is mostly unaffected upon;substitution of Sb with Bi revealing vibrations with essentially Te;character. A significant softening is observed for the density of;vibrational states of Bi with respect to Sb, consistently with the mass;homology relation in the long-wavelength limit. In order to explain the;energy mismatch in the optical phonon region, a similar to 20% force;constant softening of the Sb-Te bond with respect to the Bi-Te bond is;required. The reduced average speed of sound at 20 K in Bi2Te3, 1.75(1);km/s, compared to Sb2Te3, 1.85(4) km/s, is not only related to the;larger mass density but also to a larger Debye level. The observed low;lattice thermal conductivity at 295 K, 2.4 Wm(-1)K(-1) for Sb2Te3 and;1.6 Wm(-1)K(-1) for Bi2Te3, cannot be explained by anharmonicity alone;given the rather modest Gruneisen parameters, 1.7(1) for Sb2Te3 and;1.5(1) for Bi2Te3, without accounting for the reduced speed of sound and;more importantly the low acoustic cutoff energy.;Wille, Hans-Christian/C-3881-2013; Hermann, Raphael/F-6257-2013; Bessas, Dimitrios/I-5262-2013;Hermann, Raphael/0000-0002-6138-5624; Bessas,;Dimitrios/0000-0003-0240-2540;5;0;1;0;5;1098-0121;WOS:000311910600002;;;J;de Resseguier, T.;Lescoute, E.;Loison, D.;Influence of elevated temperature on the wave propagation and spallation;in laser shock-loaded iron;PHYSICAL REVIEW B;86;21;214102;10.1103/PhysRevB.86.214102;DEC 4 2012;2012;Laser shock experiments have been performed on preheated iron samples to;address the role of initial temperature on the elastic limit, wave;propagation, and spall fracture in this metal over the temperature range;300-1000 K at very high expansion rates of the order of 3 x 10(6) s(-1).;Time-resolved measurements of the free-surface velocity indicate a;slight, roughly linear decrease of the spall strength with increasing;temperature, accompanied by a clear change from brittle to ductile;fracture behavior evidenced from post-shot examination of the recovered;samples. The results are discussed on the basis of simulations;accounting for laser-matter interaction, pressure wave propagation, and;subsequent polymorphic transformations throughout the sample thickness.;Over the explored range of loading conditions, the occurrence of such;transformations prior to spallation, which takes place near the;free-surface under tensile loading after reversion to the alpha phase,;does not seem to strongly affect dynamic fracture.;loison, didier/N-2122-2014;3;0;0;0;3;1098-0121;WOS:000311910100001;;;J;Ellis, David S.;Uchiyama, Hiroshi;Tsutsui, Satoshi;Sugimoto, Kunihisa;Kato, Kenichi;Ishikawa, Daisuke;Baron, Alfred Q. R.;Phonon softening and dispersion in EuTiO3;PHYSICAL REVIEW B;86;22;220301;10.1103/PhysRevB.86.220301;DEC 4 2012;2012;We measured phonon dispersion in single-crystal EuTiO3 using inelastic;x-ray scattering. Astructural transition to an antiferrodistortive phase;was found at a critical temperature T-0 = 287 +/- 1K using powder and;single-crystal x-ray diffraction. Clear softening of the zone boundary;R-point q = (0.5 0.5 0.5) acoustic phonon shows this to be a displacive;transition. The mode energy plotted against reduced temperature could be;seen to nearly overlap that of SrTiO3, suggesting a universal scaling;relation. Phonon dispersion was measured along Gamma-X (0 0 0) -> (0.5 0;0). Mode eigenvectors were obtained from a shell model consistent with;the q dependence of intensity and energy, which also showed that the;dispersion is nominally the same as in SrTiO3 at room temperature, but;corrected for mass. The lowest-energy optical mode, determined to be of;Slater character, softens approximately linearly with temperature until;the 70-100 K range where the softening stops, and at low temperature,;the mode disperses linearly near the zone center.;7;0;0;0;7;1098-0121;WOS:000311910600001;;;J;Fock, J.;Leijnse, M.;Jennum, K.;Zyazin, A. S.;Paaske, J.;Hedegard, P.;Nielsen, M. Brondsted;van der Zant, H. S. J.;Manipulation of organic polyradicals in a single-molecule transistor;PHYSICAL REVIEW B;86;23;235403;10.1103/PhysRevB.86.235403;DEC 4 2012;2012;Inspired by cotunneling spectroscopy of spin-states in a single;OPE5-based molecule, we investigate the prospects for electric control;of magnetism in purely organic molecules contacted in a three-terminal;geometry. Using the gate electrode, the molecule is reversibly switched;between three different redox states, with magnetic spectra revealing;both ferromagnetic and antiferromagnetic exchange couplings on the;molecule. These observations are shown to be captured by an effective;low-energy Heisenberg model, which we substantiate microscopically by a;simple valence bond description of the molecule. These preliminary;findings suggest an interesting route towards functionalized all-organic;molecular magnetism.;Fock, Jeppe/A-9074-2011;Fock, Jeppe/0000-0002-7515-4026;3;0;0;0;3;1098-0121;WOS:000311911100003;;;J;Li, P. H. Y.;Bishop, R. F.;Campbell, C. E.;Farnell, D. J. J.;Goetze, O.;Richter, J.;Spin-1/2 Heisenberg antiferromagnet on an anisotropic kagome lattice;PHYSICAL REVIEW B;86;21;214403;10.1103/PhysRevB.86.214403;DEC 4 2012;2012;We use the coupled-cluster method to study the zero-temperature;properties of an extended two-dimensional Heisenberg antiferromagnet;formed from spin-1/2 moments on an infinite spatially anisotropic kagome;lattice of corner-sharing isosceles triangles, with nearest-neighbor;bonds only. The bonds have exchange constants J(1) > 0 along two of the;three lattice directions and J(2) = kappa J(1) > 0 along the third. In;the classical limit, the ground-state (GS) phase for kappa < 1/2 has;collinear ferrimagnetic (Neel') order where the J(2)-coupled chain spins;are ferromagnetically ordered in one direction with the remaining spins;aligned in the opposite direction, while for kappa > 1/2 there exists an;infinite GS family of canted ferrimagnetic spin states, which are;energetically degenerate. For the spin-1/2 case, we find that quantum;analogs of both these classical states continue to exist as stable GS;phases in some regions of the anisotropy parameter kappa, namely, for 0;< kappa < kappa(c1) for the Neel' state and for (at least part of) the;region kappa > kappa(c2) for the canted phase. However, they are now;separated by a paramagnetic phase without either sort of magnetic order;in the region kappa(c1) < kappa < kappa(c2), which includes the;isotropic kagome point kappa = 1 where the stable GS phase is now;believed to be a topological (Z(2)) spin liquid. Our best numerical;estimates are kappa(c1) = 0.515 +/- 0.015 and kappa(c2) = 1.82 +/- 0.03.;Richter, Johannes/A-6339-2009; Bishop, Raymond/D-9715-2012;Bishop, Raymond/0000-0001-5565-0658;4;0;0;0;4;1098-0121;WOS:000311910100002;;;J;Monozon, B. S.;Schmelcher, P.;Bound and resonant impurity states in a narrow gapped armchair graphene;nanoribbon;PHYSICAL REVIEW B;86;24;245404;10.1103/PhysRevB.86.245404;DEC 4 2012;2012;An analytical study of discrete and resonant impurity quasi-Coulomb;states in a narrow gapped armchair graphene nanoribbon (GNR) is;performed. We employ the adiabatic approximation assuming that the;motions parallel ("slow") and perpendicular ("fast") to the boundaries;of the ribbon are separated adiabatically. The energy spectrum comprises;a sequence of series of quasi-Rydberg levels relevant to the slow motion;adjacent from the low energies to the size-quantized levels associated;with the fast motion. Only the series attributed to the ground;size-quantized subband is really discrete, while others corresponding to;the excited subbands consist of quasidiscrete (Fano resonant) levels of;nonzero energetic widths, caused by the coupling with the states of the;continuous spectrum branching from the low lying subbands. In the;two-and three-subband approximation the spectrum of the complex energies;of the impurity electron is derived in an explicit form. Narrowing the;GNR leads to an increase of the binding energy and the resonant width;both induced by the finite width of the ribbon. Displacing the impurity;center from the midpoint of the GNR causes the binding energy to;decrease, while the resonant width of the first excited Rydberg series;increases. As for the second excited series, their widths become;narrower with the shift of the impurity. A successful comparison of our;analytical results with those obtained by other theoretical and;experimental methods is presented. Estimates of the binding energies and;the resonant widths taken for the parameters of typical GNRs show that;not only the strictly discrete but also some resonant states are quite;stable and could be studied experimentally in doped GNRs.;Monozon, Boris/E-6412-2012; Schmelcher, Peter/D-9592-2014;Schmelcher, Peter/0000-0002-2637-0937;0;0;0;0;0;1098-0121;WOS:000311911900002;;;J;Thiaville, Andre;Vukadinovic, Nicolas;Acher, Olivier;Sum rule for the magnetic permeability of arbitrary textures;PHYSICAL REVIEW B;86;21;214404;10.1103/PhysRevB.86.214404;DEC 4 2012;2012;The f-sum rule for the magnetic permeability, derived previously for an;assembly of isolated macrospins, is generalized for an arbitrary;nonuniform three-dimensional magnetization texture, in which the;magnetizations at different points are coupled by exchange and;magnetostatic interactions. The sum value depends only on the magnetic;texture at rest. It has no direct contribution from the exchange energy,;but depends on the anisotropy, applied field, and demagnetizing;energies. The derived formula is tested against numerical calculations;for several complex and very different magnetization structures. This;generalized sum rule should be useful for experiments, numerical;simulations, and metrology.;1;0;0;0;1;1098-0121;WOS:000311910100003;;;J;Troc, R.;Gajek, Z.;Pikul, A.;Dualism of the 5f electrons of the ferromagnetic superconductor UGe2 as;seen in magnetic, transport, and specific-heat data;PHYSICAL REVIEW B;86;22;224403;10.1103/PhysRevB.86.224403;DEC 4 2012;2012;Single-crystalline UGe2 was investigated by means of magnetic;susceptibility, magnetization, electrical resistivity,;magnetoresistivity, and specific-heat measurements, all carried out in;wide temperature and magnetic-field ranges. An analysis of the obtained;data points out the dual behavior of the 5f electrons in this compound,;i. e., possessing simultaneously local and itinerant characters in two;substates. The magnetic and thermal characteristics of the compound were;modeled using the effective crystal field (CF) in the intermediate;coupling scheme and initial parameters obtained in the angular overlap;model. Various configurations of the localized 5f(n) (n = 1, 2, and 3);electrons on the uranium ion have been probed. The best results were;obtained for the 5f(2) (U4+) configuration. The CF parameters obtained;in the paramagnetic region allowed us to reproduce satisfactorily the;experimental findings in the whole temperature range including also the;magnitude of the ordered magnetic moment of uranium at low temperature.;The electrical resistivity data after subtraction of the phonon;contribution reveal the presence of a Kondo-like interaction in UGe2;supporting the idea of partial localization of the 5f electrons in UGe2.;On the other hand, magnetoresistivity and an excess of specific heat;originated from the hybridized (itinerant) part of 5f states, apparent;around the characteristic temperature T*, give a distinct signature for;the presence of the coupled charge-density wave and spin-density wave;fluctuations over all the ferromagnetic region with a maximum at T*,;postulated earlier in the literature.;7;0;0;0;7;1098-0121;WOS:000311910600004;;;J;Williams, T. J.;Yamani, Z.;Butch, N. P.;Luke, G. M.;Maple, M. B.;Buyers, W. J. L.;Neutron scattering study of URu2-xRexSi2 (x=0.10): Driving order towards;quantum criticality;PHYSICAL REVIEW B;86;23;235104;10.1103/PhysRevB.86.235104;DEC 4 2012;2012;We report inelastic neutron scattering measurements in the hidden order;state of URu2-xRexSi2 with x = 0.10. We observe that towards the;ferromagnetic quantum critical point induced by the negative chemical;pressure of Re doping, the gapped incommensurate fluctuations are robust;and comparable in intensity to the parent material. As the Re doping;moves the system toward the quantum critical point, the commensurate;spin fluctuations related to hidden order weaken, display a shortened;lifetime, and slow down. Halfway to the quantum critical point, the;hidden order phase survives, albeit weakened, in contrast to its;destruction by hydrostatic pressure and by positive chemical pressure;from Rh doping.;yamani, zahra/B-7892-2012; Luke, Graeme/A-9094-2010;0;0;0;0;0;1098-0121;WOS:000311911100001;;;J;Wolfowicz, Gary;Simmons, Stephanie;Tyryshkin, Alexei M.;George, Richard E.;Riemann, Helge;Abrosimov, Nikolai V.;Becker, Peter;Pohl, Hans-Joachim;Lyon, Stephen A.;Thewalt, Mike L. W.;Morton, John J. L.;Decoherence mechanisms of Bi-209 donor electron spins in isotopically;pure Si-28;PHYSICAL REVIEW B;86;24;245301;10.1103/PhysRevB.86.245301;DEC 4 2012;2012;Bismuth (Bi-209) is the deepest group V donor in silicon and possesses;the most extreme characteristics such as a 9/2 nuclear spin and a 1.5;GHz hyperfine coupling. These lead to several potential advantages for a;Si:Bi donor electron spin qubit compared to the more common phosphorus;donor. Most previous studies on Si: Bi have been performed using natural;silicon where linewidths and electron spin coherence times are limited;by the presence of Si-29 impurities. Here, we describe electron spin;resonance (ESR) and electron nuclear double resonance (ENDOR) studies on;Bi-209 in isotopically pure Si-28. ESR and ENDOR linewidths, transition;probabilities, and coherence times are understood in terms of the spin;Hamiltonian parameters showing a dependence on field and m(I) of the;Bi-209 nuclear spin. We explore various decoherence mechanisms;applicable to the donor electron spin, measuring coherence times up to;700 ms at 1.7 K at X band, comparable with Si-28:P. Importantly, the;coherence times we measure follow closely to the calculated field;gradients of the transition frequencies (df/dB), providing a strong;motivation to explore "clock" transitions where coherence lifetimes;could be further enhanced.;Morton, John/I-3515-2013;6;1;0;0;6;1098-0121;WOS:000311911900001;;;J;Armbruster, Oskar;Lungenschmied, Christoph;Bauer, Siegfried;
2:76:26 Scanning probe study on the photovoltaic characteristics of a Si solar cell by using Kelvin force microscopy and photoconductive atomic force microscopy
DOI:10.1016/j.tsf.2013.04.076 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Heo, Jinhee;Won, Soonho;
2:77:1 Aqueous Processing of Low-Band-Gap Polymer Solar Cells Using Roll-to-Roll Methods
DOI:10.1021/nn200933r JN:ACS NANO PY:2011 TC:121 AU: Andersen, Thomas R.;Larsen-Olsen, Thue T.;Andreasen, Birgitta;Bottiger, Arvid P. L.;Carle, Jon E.;Helgesen, Martin;Bundgaard, Eva;Norrman, Kion;Andreasen, Jens W.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:77:2 Tuning Aggregation of Poly(3-hexylthiophene) within Nanoparticles
DOI:10.1021/nn305207b JN:ACS NANO PY:2012 TC:24 AU: Nagarjuna, Gavvalapalli;Baghgar, Mina;Labastide, Joelle A.;Algaier, Dana D.;Barnes, Michael D.;Venkataraman, Dhandapani;
2:77:3 A multilayered approach to polyfluorene water-based organic photovoltaics
DOI:10.1016/j.solmat.2012.03.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:27 AU: Stapleton, Andrew;Vaughan, Ben;Xue, Bofei;Sesa, Elisa;Burke, Kerry;Zhou, Xiaojing;Bryant, Glenn;Werzer, Oliver;Nelson, Andrew;Kilcoyne, A. L. David;Thomsen, Lars;Wanless, Erica;Belcher, Warwick;Dastoor, Paul;
2:77:4 Simultaneous multilayer formation of the polymer solar cell stack using roll-to-roll double slot-die coating from water
DOI:10.1016/j.solmat.2011.08.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:41 AU: Larsen-Olsen, Thue T.;Andreasen, Birgitta;Andersen, Thomas R.;Bottiger, Arvid P. L.;Bundgaard, Eva;Norrman, Kion;Andreasen, Jens W.;Jorgensen, Mikkel;Krebs, Frederik C.;
2:77:5 Determining the structural motif of P3HT:PCBM nanoparticulate organic photovoltaic devices
DOI:10.1016/j.solmat.2012.11.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:23 AU: Ulum, Syahrul;Holmes, Natalie;Darwis, Darmawati;Burke, Kerry;Kilcoyne, A. L. David;Zhou, Xiaojing;Belcher, Warwick;Dastoor, Paul;
2:77:6 The effect of polymer molecular weight on P3HT:PCBM nanoparticulate organic photovoltaic device performance
DOI:10.1016/j.solmat.2014.05.046 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Holmes, Natalie P.;Ulum, Syahrul;Sista, Prakash;Burke, Kerry B.;Wilson, Mitchell G.;Stefan, Mihaela C.;Zhou, Xiaojing;Dastoor, Paul C.;Belcher, Warwick J.;
2:77:7 The effect of calcium-induced fullerene migration on the performance of thermally stable nanoparticle organic solar cells
DOI:10.1063/1.4896249 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Feron, K.;Ulum, S.;Sesa, E.;Gong, B. B.;Belcher, W. J.;Zhou, X.;Fell, C. J.;Dastoor, P. C.;
2:77:8 Synthesis, Properties, and Electronic Applications of Size-Controlled Poly(3-hexylthiophene) Nanoparticles
DOI:10.1021/la1022938 JN:LANGMUIR PY:2010 TC:23 AU: Millstone, Jill E.;Kavulak, David F. J.;Woo, Claire H.;Holcombe, Thomas W.;Westling, Erik J.;Briseno, Alejandro L.;Toney, Michael F.;Frechet, Jean M. J.;
2:77:9 Scanning transmission x-ray microscopy of polymer nanoparticles: probing morphology on sub-10 nm length scales
DOI:10.1088/0957-4484/22/26/265710 JN:NANOTECHNOLOGY PY:2011 TC:26 AU: Burke, Kerry B.;Stapleton, Andrew J.;Vaughan, Ben;Zhou, Xiaojing;Kilcoyne, A. L. David;Belcher, Warwick J.;Dastoor, Paul C.;
2:77:10 Nano-domain behaviour in P3HT:PCBM nanoparticles, relating material properties to morphological changes
DOI:10.1016/j.solmat.2013.06.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:12 AU: Holmes, Natalie P.;Burke, Kerry B.;Sista, Prakash;Barr, Matthew;Magurudeniya, Harsha D.;Stefan, Mihaela C.;Kilcoyne, A. L. David;Zhou, Xiaojing;Dastoor, Paul C.;Belcher, Warwick J.;
2:77:11 Solution processable interface materials for nanoparticulate organic photovoltaic devices
DOI:10.1063/1.4863216 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Nicolaidis, Nicolas;Vaughan, Ben;Mulligan, Cara J.;Bryant, Glenn;Zillger, Tino;Trnovec, Bystrik;Huebler, Arved C.;Holmes, Natalie;Cooling, Nathan A.;Griffith, Matthew J.;Bilen, Chhinder;Kumar, Pankaj;Feron, Krishna;Zhou, Xiaojing;Elkington, Daniel;Belcher, Warwick J.;Dastoor, Paul C.;
2:77:12 Efficient Charge Transport in Assemblies of Surfactant-Stabilized Semiconducting Nanoparticles
DOI:10.1002/adma.201301302 JN:ADVANCED MATERIALS PY:2013 TC:5 AU: Bag, Monojit;Gehan, Timothy S.;Algaier, Dana D.;Liu, Feng;Nagarjuna, Gavvalapalli;Lahti, Paul M.;Russell, Thomas P.;Venkataraman, Dhandapani;
2:77:13 Towards the development of a virtual organic solar cell: An experimental and dynamic Monte Carlo study of the role of charge blocking layers and active layer thickness
DOI:10.1063/1.4767291 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Feron, K.;Fell, C. J.;Rozanski, L. J.;Gong, B. B.;Nicolaidis, N.;Belcher, W. J.;Zhou, X.;Sesa, E.;King, B. V.;Dastoor, P. C.;
2:77:14 Modelling transport in nanoparticle organic solar cells using Monte Carlo methods
DOI:10.1063/1.4829152 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Feron, K.;Ulum, S.;Holmes, N. P.;Kilcoyne, A. L. D.;Belcher, W. J.;Zhou, X.;Fell, C. J.;Dastoor, P. C.;
2:77:15 The role of miscibility in polymer:fullerene nanoparticulate organic photovoltaic devices
DOI:10.1016/j.nanoen.2013.03.009 JN:NANO ENERGY PY:2013 TC:12 AU: Ulum, Syahrul;Holmes, Natalie;Barr, Matthew;Kilcoyne, A. L. David;Bin Gong, Bill;Zhou, Xiaojing;Belcher, Warwick;Dastoor, Paul;
2:77:16 Eco-Friendly Fabrication of 4% Efficient Organic Solar Cells from Surfactant-Free P3HT:ICBA Nanoparticle Dispersions
DOI:10.1002/adma.201402360 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Gaertner, Stefan;Christmann, Marco;Sankaran, Sivaramakrishnan;Roehm, Holger;Prinz, Eva-Marie;Penth, Felix;Puetz, Andreas;Tuereli, Akif Emre;Penth, Bernd;Baumstuemmler, Bernd;Colsmann, Alexander;
2:77:17 Multiscale Active Layer Morphologies for Organic Photovoltaics Through Self-Assembly of Nanospheres
DOI:10.1021/nl502209s JN:NANO LETTERS PY:2014 TC:2 AU: Gehan, Timothy S.;Bag, Monojit;Renna, Lawrence A.;Shen, Xiaobo;Algaier, Dana D.;Lahti, Paul M.;Russell, Thomas P.;Venkataraman, Dhandapani;
2:77:18 Correlating Structure and Photocurrent for Composite Semiconducting Nanoparticles with Contrast Variation Small-Angle Neutron Scattering and Photoconductive Atomic Force Microscopy
DOI:10.1021/nn405914g JN:ACS NANO PY:2014 TC:5 AU: Richards, Jeffrey J.;Whittle, Curtis L.;Shao, Guozheng;Pozzo, Lilo D.;
2:77:19 Aqueous dispersions of colloidal poly(3-hexylthiophene) gel particles with high internal porosity
DOI:10.1016/j.jcis.2011.08.037 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:12 AU: Richards, Jeffrey J.;Weigandt, Kathleen M.;Pozzo, Danilo C.;
2:77:20 Surfactant-free nanoparticulate organic photovoltaics
DOI:10.1016/j.solmat.2013.10.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Darwis, Darmawati;Holmes, Natalie;Elkington, Daniel;Kilcoyne, A. L. David;Bryant, Glenn;Zhou, Xiaojing;Dastoor, Paul;Belcher, Warwick;
2:77:21 Effect of a calcium cathode on water-based nanoparticulate solar cells
DOI:10.1063/1.4737640 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Vaughan, Ben;Stapleton, Andrew;Xue, Bofei;Sesa, Elisa;Zhou, Xiaojing;Bryant, Glenn;Belcher, Warwick;Dastoor, Paul;
2:77:22 Single nanoparticle of organic p-type and n-type hybrid materials: nanoscale phase separation and photovoltaic effect
DOI:10.1039/c1jm13952e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Lee, Yong-baek;Lee, Seok Ho;Kim, Kihyun;Lee, Jin Woo;Han, Kyung-Yeon;Kim, Jeongyong;Joo, Jinsoo;
2:77:23 Exciton transport in organic semiconductors: Forster resonance energy transfer compared with a simple random walk
DOI:10.1063/1.3687373 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:10 AU: Feron, K.;Zhou, X.;Belcher, W. J.;Dastoor, P. C.;
2:77:24 Novel low voltage and solution processable organic thin film transistors based on water dispersed polymer semiconductor nanoparticulates
DOI:10.1016/j.jcis.2013.03.052 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:5 AU: Darwis, Darmawati;Elkington, Daniel;Ulum, Syahrul;Bryant, Glenn;Belcher, Warwick;Dastoor, Paul;Zhou, Xiaojing;
2:77:25 Synthesis of nanoparticles of P3HT and PCBM for optimizing morphology in polymeric solar cells
DOI:10.1016/j.apsusc.2014.07.175 JN:APPLIED SURFACE SCIENCE PY:2014 TC:5 AU: Satapathi, Soumitra;Gill, Hardeep Singh;Li, Lian;Samuelson, Lynne;Kumar, Jayant;Mosurkal, Ravi;
2:78:1 Organic Light Detectors: Photodiodes and Phototransistors
DOI:10.1002/adma.201204979 JN:ADVANCED MATERIALS PY:2013 TC:101 AU: Baeg, Kang-Jun;Binda, Maddalena;Natali, Dario;Caironi, Mario;Noh, Yong-Young;
2:78:2 Panchromatic small molecules for UV-Vis-NIR photodetectors with high detectivity
DOI:10.1039/c3tc32271h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:11 AU: Qi, Ji;Ni, Liang;Yang, Dezhi;Zhou, Xiaokang;Qiao, Wenqiang;Li, Mao;Ma, Dongge;Wang, Zhi Yuan;
2:78:3 Porphyrin-Tape/C-60 Organic Photodetectors with 6.5% External Quantum Efficiency in the Near Infrared
DOI:10.1002/adma.200904341 JN:ADVANCED MATERIALS PY:2010 TC:39 AU: Zimmerman, Jeramy D.;Diev, Vyacheslav V.;Hanson, Kenneth;Lunt, Richard R.;Yu, Eric K.;Thompson, Mark E.;Forrest, Stephen R.;
2:78:4 Work Function Tuning for High-Performance Solution-Processed Organic Photodetectors with Inverted Structure
DOI:10.1002/adma.201302338 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Saracco, Emeline;Bouthinon, Benjamin;Verilhac, Jean-Marie;Celle, Caroline;Chevalier, Nicolas;Mariolle, Denis;Dhez, Olivier;Simonato, Jean-Pierre;
2:78:5 A high performance semitransparent organic photodetector with green color selectivity
DOI:10.1063/1.4902871 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Dae-Ho;Kim, Kyu-Sik;Shim, Hyun-Sub;Moon, Chang-Ki;Jin, Yong Wan;Kim, Jang-Joo;
2:78:6 Highly responsive organic near-infrared photodetectors based on a porphyrin small molecule
DOI:10.1039/c3tc32171a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Li, Lisheng;Huang, Yuying;Peng, Junbiao;Cao, Yong;Peng, Xiaobin;
2:78:7 High detectivity squaraine-based near infrared photodetector with nA/cm(2) dark current
DOI:10.1063/1.3553767 JN:APPLIED PHYSICS LETTERS PY:2011 TC:23 AU: Binda, M.;Iacchetti, A.;Natali, D.;Beverina, L.;Sassi, M.;Sampietro, M.;
2:78:8 Polythiophene-Fullerene Based Photodetectors: Tuning of Spectral Response and Application in Photoluminescence Based (Bio)Chemical Sensors
DOI:10.1002/adma.201000417 JN:ADVANCED MATERIALS PY:2010 TC:23 AU: Nalwa, Kanwar S.;Cai, Yuankun;Thoeming, Aaron L.;Shinar, Joseph;Shinar, Ruth;Chaudhary, Sumit;
2:78:9 Single-Pixel, Single-Layer Polymer Device as a Tricolor Sensor with Signals Mimicking Natural Photoreceptors
DOI:10.1021/ja207853e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:13 AU: Gautam, Vini;Bag, Monojit;Narayan, K. S.;
2:78:10 Solution processed small molecule bulk heterojunction organic photovoltaics based on a conjugated donor-acceptor porphyrin
DOI:10.1039/c2jm34429g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:26 AU: Huang, Yuying;Li, Lisheng;Peng, Xiaobin;Peng, Junbiao;Cao, Yong;
2:78:11 High performance small molecule photodetector with broad spectral response range from 200 to 900 nm
DOI:10.1063/1.3610993 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Wu, Shuang-hong;Li, Wen-lian;Chu, Bei;Su, Zi-sheng;Zhang, Feng;Lee, C. S.;
2:78:12 Low dark current small molecule organic photodetectors with selective response to green light
DOI:10.1063/1.4816502 JN:APPLIED PHYSICS LETTERS PY:2013 TC:10 AU: Leem, Dong-Seok;Lee, Kwang-Hee;Park, Kyung-Bae;Lim, Seon-Jeong;Kim, Kyu-Sik;Jin, Yong Wan;Lee, Sangyoon;
2:78:13 Organic heterojunction photodiodes exhibiting low voltage, imaging-speed photocurrent gain
DOI:10.1063/1.3481407 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Hammond, William T.;Xue, Jiangeng;
2:78:14 Tandem organic photodetectors with tunable, broadband response
DOI:10.1063/1.4768807 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Menke, S. Matthew;Pandey, Richa;Holmes, Russell J.;
2:78:15 Solution-Processed Ultrasensitive Polymer Photodetectors with High External Quantum Efficiency and Detectivity
DOI:10.1021/am300787m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:15 AU: Liu, Xilan;Wang, Hangxing;Yang, Tingbin;Zhang, Wei;Gong, Xiong;
2:78:16 Green-Sensitive Organic Photodetectors with High Sensitivity and Spectral Selectivity Using Subphthalocyanine Derivatives
DOI:10.1021/am404122v JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Lee, Kwang-Hee;Leem, Dong-Seok;Castrucci, Jeffrey S.;Park, Kyung-Bae;Bulliard, Xavier;Kim, Kyu-Sik;Jin, Yong Wan;Lee, Sangyoon;Bender, Timothy P.;Park, Soo Young;
2:78:17 Balancing high gain and bandwidth in multilayer organic photodetectors with tailored carrier blocking layers
DOI:10.1063/1.4902149 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Hammond, William T.;Mudrick, John P.;Xue, Jiangeng;
2:78:18 Highly sensitive, low-voltage, organic photomultiple photodetectors exhibiting broadband response
DOI:10.1063/1.3488017 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Chen, Fang-Chung;Chien, Shang-Chieh;Cious, Guan-Lin;
2:78:19 Polymer photodetector with voltage-adjustable photocurrent spectrum
DOI:10.1063/1.3284648 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Chen, En-;Chang, Chia-Yu;Shieh, Ji-Ting;Tseng, Shin-Rong;Meng, Hsin-Fei;Hsu, Chain-Shu;Horng, Sheng-Fu;
2:78:20 Colour selective organic photodetectors utilizing ketocyanine-cored dendrimers
DOI:10.1039/c3tc30472h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Jansen-van Vuuren, Ross D.;Pivrikas, Almantas;Pandey, Ajay K.;Burn, Paul L.;
2:78:21 A high performance green-sensitive organic photodiode comprising a bulk heterojunction of dimethyl-quinacridone and dicyanovinyl terthiophene
DOI:10.1039/c3tc00809f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Lee, Kwang-Hee;Leem, Dong-Seok;Sul, Soohwan;Park, Kyung-Bae;Lim, Seon-Jeong;Han, Hyouksoo;Kim, Kyu-Sik;Jin, Yong Wan;Lee, Sangyoon;Park, Soo Young;
2:78:22 Extended spectral response in organic photomultiple photodetectors using multiple near-infrared dopants
DOI:10.1063/1.3675573 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Chuang, Shao-Tang;Chien, Shang-Chieh;Chen, Fang-Chung;
2:78:23 Broadband gain in poly(3-hexylthiophene):phenyl-C-61-butyric-acid-methyl-ester photodetectors enabled by a semicontinuous gold interlayer
DOI:10.1063/1.4898000 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Melancon, Justin M.;Zivanovic, Sandra R.;
2:78:24 Thickness dependent absorption and polaron photogeneration in poly-(2-metoxy-5-(2 '-ethyl-hexyloxy)-1,4-phenylene-vinylene)
DOI:10.1063/1.4729770 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Petrovic, J. P.;Matavulj, P. S.;Pinto, L. R.;Thapa, A.;Zivanovic, S. R.;
2:78:25 1,1-Bis[(di-4-tolylamino)phenyl]cyclohexane for fast response organic photodetectors with high external efficiency and low leakage current
DOI:10.1039/c3tc00564j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Yang, Dezhi;Ma, Dongge;
2:78:26 Transparent organic photodiodes with high quantum efficiency in the near infrared
DOI:10.1063/1.3464967 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Campbell, I. H.;
2:78:27 A fulleropyrrolidine-squaraine blue dyad: synthesis and application as an organic light detector
DOI:10.1039/c3tc32205j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Salice, Patrizio;Ronchi, Elisabetta;Iacchetti, Antonio;Binda, Maddalena;Natali, Dario;Gomulya, Widianta;Manca, Marianna;Loi, Maria Antonietta;Iurlo, Matteo;Paolucci, Francesco;Maggini, Michele;Pagani, Giorgio A.;Beverina, Luca;Menna, Enzo;
2:78:28 Characterization of spray-coating methods for conjugated polymer blend thin films
DOI:10.1007/s10853-014-8123-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: Noebels, Matthias;Cross, Rachel E.;Evans, D. A.;Finlayson, Chris E.;
2:78:29 Fullerene Sensitized Silicon for Near- to Mid-infrared Light Detection
DOI:10.1002/adma.200901383 JN:ADVANCED MATERIALS PY:2010 TC:8 AU: Matt, Gebhard J.;Fromherz, Thomas;Bednorz, Mateusz;Zamiri, Saeid;Goncalves, Guillaume;Lungenschmied, Christoph;Meissner, Dieter;Sitter, Helmut;Sariciftci, N. Serdar;Brabec, Christoph J.;Bauer, Guenther;
2:78:30 Organic semiconductors for artificial vision
DOI:10.1039/c3tb20213e JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:14 AU: Martino, N.;Ghezzi, D.;Benfenati, F.;Lanzani, G.;Antognazza, M. R.;
2:78:31 Electrical transport mechanisms and photovoltaic behavior of 2-(2-furanylmethylene) propanedinitrile/p-Si heterojunction
DOI:10.1016/j.matchemphys.2013.06.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Ali, H. A. M.;Soliman, H. S.;Eid, Kh M.;Atef, S. M.;
2:78:32 Light propagation in single mode polymer nanotubes integrated on photonic circuits
DOI:10.1063/1.3637043 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Huby, Nolwenn;Duvail, Jean Luc;Duval, Daphne;Pluchon, David;Beche, Bruno;
2:78:33 Electrical properties of pSi/[6,6] phenyl-C61 butyric acid methyl ester/Al hybrid heterojunctions: Experimental and theoretical evaluation of diode operation
DOI:10.1063/1.4768271 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Bednorz, Mateusz;Fromherz, Thomas;Matt, Gebhard J.;Brabec, Christoph J.;Scharber, Markus;Sariciftci, N. Serdar;
2:78:34 Photo-Rechargeable Battery Effect in First Generation Cationic-Cyanine Dendrimers
DOI:10.1002/adma.200904464 JN:ADVANCED MATERIALS PY:2010 TC:9 AU: Pandey, Ajay K.;Deakin, Peter C.;Jansen-Van Vuuren, Ross D.;Burn, Paul L.;Samuel, Ifor D. W.;
2:78:35 Very high open-circuit voltage ultraviolet photovoltaic diode with its application in optical encoder field
DOI:10.1063/1.3318438 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Zhang, Guang;Li, Wenlian;Chu, Bei;Yan, Fei;Zhu, Jianzhuo;Chen, Yiren;
2:78:36 High response organic ultraviolet photodetector based on bis (2-methyl-8-quinolinato)-4-phenylphenolate aluminum
DOI:10.1016/j.synthmet.2009.11.007 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Cui, Yuncheng;Liu, Lihui;Liu, Chunbo;Wang, Qingwei;Li, Wenlian;Che, Guangbo;Xu, Chunhui;Liu, Mei;
2:78:37 Polymer infrared photo-detector with high sensitivity up to 1100 nm
DOI:10.1016/j.synthmet.2011.05.027 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Chen, En-Chen;Tseng, Shin-Rong;Chao, Yu-Chiang;Meng, Hsin-Fei;Wang, Chih-Feng;Chen, Wen-Chang;Hsu, Chian-Shu;Horng, Sheng-Fu;
2:79:1 From Highly Monodisperse Indium and Indium Tin Colloidal Nanocrystals to Self-Assembled Indium Tin Oxide Nanoelectrodes
DOI:10.1021/nn3005558 JN:ACS NANO PY:2012 TC:23 AU: Yarema, Maksym;Pichler, Stefan;Kriegner, Dominik;Stangl, Julian;Yarema, Olesya;Kirchschlager, Raimund;Tollabimazraehno, Sajjad;Humer, Markus;Haeringer, Daniel;Kohl, Manfred;Chen, Gang;Heiss, Wolfgang;
2:79:2 A Facile Solution-Phase Approach to Transparent and Conducting ITO Nanocrystal Assemblies
DOI:10.1021/ja3044807 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:28 AU: Lee, Jonghun;Lee, Sunghwan;Li, Guanglai;Petruska, Melissa A.;Paine, David C.;Sun, Shouheng;
2:79:3 ITO nanowires and nanoparticles for transparent films
DOI:10.1557/mrs.2011.212 JN:MRS BULLETIN PY:2011 TC:19 AU: Dattoli, Eric N.;Lu, Wei;
2:79:4 High-Temperature Solution-Phase Syntheses of Metal-Oxide Nanocrystals
DOI:10.1021/cm3040517 JN:CHEMISTRY OF MATERIALS PY:2013 TC:29 AU: Lee, Jonghun;Zhang, Sen;Sun, Shouheng;
2:79:5 Solution-processed transparent electrodes
DOI:10.1557/mrs.2011.211 JN:MRS BULLETIN PY:2011 TC:38 AU: Hecht, David S.;Kaner, Richard B.;
2:79:6 Transparent and conducting ITO thin films by spin coating of an aqueous precursor solution
DOI:10.1039/c2jm32000b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Sunde, Tor Olav Loveng;Garskaite, Edita;Otter, Benjamin;Fossheim, Helle Ervik;Saeterli, Ragnhild;Holmestad, Randi;Einarsrud, Mari-Ann;Grande, Tor;
2:79:7 Nonaqueous Synthesis and Photoluminescence of ITO Nanoparticles
DOI:10.1021/la903316b JN:LANGMUIR PY:2010 TC:26 AU: Sun, Zhaoyong;He, Jibao;Kumbhar, Amar;Fang, Jiye;
2:79:8 Nanoimprint patterning of thin cadmium stannate films using a polymeric precursor route
DOI:10.1039/c1jm10886g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Schumm, Benjamin;Wollmann, Philipp;Fritsch, Julia;Grothe, Julia;Kaskel, Stefan;
2:79:9 Fabrication of a Completely Transparent and Highly Flexible ITO Nanoparticle Electrode at Room Temperature
DOI:10.1021/am302341p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Yun, Jungheum;Park, Yeon Hyun;Bae, Tae-Sung;Lee, Sunghun;Lee, Gun-Hwan;
2:79:10 Electrical Resistivity of Assembled Transparent Inorganic Oxide Nanoparticle Thin Layers: Influence of Silica, Insulating Impurities, and Surfactant Layer Thickness
DOI:10.1021/am300319r JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Bubenhofer, Stephanie B.;Schumacher, Christoph M.;Koehler, Fabian M.;Luechinger, Norman A.;Sotiriou, Georgios A.;Grass, Robert N.;Stark, Wendelin J.;
2:79:11 A simple two-step method to fabricate highly transparent ITO/polymer nanocomposite films
DOI:10.1016/j.apsusc.2012.05.049 JN:APPLIED SURFACE SCIENCE PY:2012 TC:10 AU: Liu, Haitao;Zeng, Xiaofei;Kong, Xiangrong;Bian, Shuguang;Chen, Jianfeng;
2:79:12 Preparation of UV-curable transparent poly(urethane acrylate) nanocomposites with excellent UV/IR shielding properties
DOI:10.1016/j.compscitech.2014.01.022 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2014 TC:2 AU: Zhou, Haifeng;Wang, Hua;Tian, Xingyou;Zheng, Kang;Wu, Zhaofeng;Ding, Xin;Ye, Xianzhu;
2:79:13 One-step solvothermal synthesis of cubic-shaped ITO nanoparticles precisely controlled in size and shape and their electrical resistivity
DOI:10.1039/c0jm01338b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Sasaki, Takafumi;Endo, Yosuke;Nakaya, Masafumi;Kanie, Kiyoshi;Nagatomi, Akira;Tanoue, Koji;Nakamura, Ryoichi;Muramatsu, Atsushi;
2:79:14 Ink-jet printed transparent electrode using nano-size indium tin oxide particles for organic photovoltaics
DOI:10.1016/j.solmat.2010.05.052 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:23 AU: Jeong, Jin-A.;Lee, Jinho;Kim, Hongdoo;Kim, Han-Ki;Na, Seok-In;
2:79:15 Evaluation of the film formation and the charge transport mechanism of indium tin oxide nanoparticle films
DOI:10.1016/j.tsf.2009.10.119 JN:THIN SOLID FILMS PY:2010 TC:11 AU: Mahajeri, M.;Voigt, M.;Taylor, R. N. Klupp;Reindl, A.;Peukert, W.;
2:79:16 Conductivity and adhesion enhancement in low-temperature processed indium tin oxide/polymer nanocomposites
DOI:10.1016/j.tsf.2009.10.151 JN:THIN SOLID FILMS PY:2010 TC:15 AU: Maksimenko, Ilja;Gross, Michael;Koeniger, Tobias;Muenstedt, Helmut;Wellmann, Peter J.;
2:79:17 Stabilization of aluminum doped zinc oxide nanoparticle suspensions and their application in organic solar cells
DOI:10.1016/j.tsf.2014.06.008 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Wolf, N.;Stubhan, T.;Manara, J.;Dyakonov, V.;Brabec, C. J.;
2:79:18 Enhanced conductivity of solution-processed indium tin oxide nanoparticle films by oxygen partial pressure controlled annealing
DOI:10.1039/c3tc31037j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Kim, Na-Rae;Lee, Ji-Hoon;Lee, Yoo-Yong;Nam, Dae-Hyun;Yeon, Han-Wool;Lee, So-Yeon;Yang, Tae-Youl;Lee, Young-Joo;Chu, Arim;Nam, Ki Tae;Joo, Young-Chang;
2:79:19 Synthesis and application of non-agglomerated ITO nanocrystals via pyrolysis of indium-tin stearate without using additional organic solvents
DOI:10.1007/s11051-014-2561-5 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:1 AU: Luo, Shaojuan;Yang, Dongning;Feng, Jiyun;Ng, Ka Ming;
2:79:20 Solid state sintering of nano-crystalline indium tin oxide
DOI:10.1016/j.jeurceramsoc.2012.09.023 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2013 TC:4 AU: Sunde, Tor Olav Loveng;Einarsrud, Mari-Ann;Grande, Tor;
2:79:21 Production of dispersions with small particle size from commercial indium tin oxide powder for the deposition of highly conductive and transparent films
DOI:10.1016/j.tsf.2012.03.121 JN:THIN SOLID FILMS PY:2012 TC:9 AU: Mahajeri, M.;Schneider, A.;Baum, M.;Rechtenwald, T.;Voigt, M.;Schmidt, M.;Peukert, W.;
2:79:22 Optimisation of chemical solution deposition of indium tin oxide thin films
DOI:10.1016/j.tsf.2014.10.093 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Sunde, Tor Olav Loveng;Einarsrud, Mari-Ann;Grande, Tor;
2:79:23 Fabrication, charge carrier transport, and application of printable nanocomposites based on indium tin oxide nanoparticles and conducting polymer 3,4-ethylenedioxythiophene/polystyrene sulfonic acid
DOI:10.1063/1.3658634 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Maksimenko, Ilja;Kilian, Daniel;Mehringer, Christian;Voigt, Michael;Peukert, Wolfgang;Wellmann, Peter J.;
2:79:24 Low-temperature processing of transparent conductive indium tin oxide nanocomposites using polyvinyl derivatives
DOI:10.1016/j.tsf.2011.04.142 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Maksimenko, Ilja;Wellmann, Peter J.;
2:79:25 Convenient preparation of ITO nanoparticles inks for transparent conductive thin films
DOI:10.1007/s11051-012-1274-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:3 AU: Ito, Daisuke;Masuko, Keiichiro;Weintraub, Benjamin A.;McKenzie, Lallie C.;Hutchison, James E.;
2:79:26 Enhancing indium tin oxide (ITO) thin film adhesiveness using the coupling agent silane
DOI:10.1016/j.apsusc.2009.11.053 JN:APPLIED SURFACE SCIENCE PY:2010 TC:6 AU: Wu, Da;Liu, Jiaxiang;Wang, Yue;
2:79:27 Determination of the Solubility of Tin in Indium Oxide Using In Situ and Ex Situ X-Ray Diffraction
DOI:10.1111/j.1551-2916.2011.04999.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:9 AU: Gonzalez, G. B.;Mason, T. O.;Okasinski, J. S.;Buslaps, T.;Honkimaeki, V.;
2:79:28 Preparation and microcontact printing of platinum and palladium thin films
DOI:10.1039/c3tc00826f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Wisser, Florian M.;Schumm, Benjamin;Meier, Andreas;Engel, Tom;Grothe, Julia;Kickelbick, Guido;Kaskel, Stefan;
2:79:29 Low temperature processing of redispersed tin doped indium oxide nanoparticle coatings
DOI:10.1016/j.tsf.2013.01.037 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Wolf, Nadine;Rydzek, Matthias;Gerstenlauer, Daniel;Arduini-Schuster, Mariacarla;Manara, Jochen;
2:79:30 One-Pot Synthesis of In-0 Nanoparticles with Tuned Particle Size and High Oxidation Stability
DOI:10.1021/cm202256t JN:CHEMISTRY OF MATERIALS PY:2011 TC:9 AU: Kind, Christian;Feldmann, Claus;
2:79:31 Preparation and properties of an organic-inorganic hybrid materials based on fluorinated block copolymer
DOI:10.1007/s10853-011-5966-x JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Sun, Yue;Liu, Weiqu;
2:79:32 High conductivity transparent carbon nanotube films deposited from superacid (vol 22, 075201, 2011)
DOI:10.1088/0957-4484/22/16/169501 JN:NANOTECHNOLOGY PY:2011 TC:4 AU: Hecht, David S.;Heintz, Amy M.;Lee, Roland;Hu, Liangbing;Moore, Bryon;Cucksey, Chad;Risser, Steven;
2:79:33 Microstructure control of low-resistivity tin-doped indium oxide films grown by photoreaction of nanoparticles using a KrF excimer laser at room temperature
DOI:10.1007/s00339-010-5633-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:9 AU: Tsuchiya, T.;Yamaguchi, F.;Morimoto, I.;Nakajima, T.;Kumagai, T.;
2:79:34 Synthesis and Electrochemistry of 6 nm Ferrocenated Indium-Tin Oxide Nanoparticles
DOI:10.1021/la304443k JN:LANGMUIR PY:2013 TC:3 AU: Roberts, Joseph J. P.;Vuong, Kim T.;Murray, Royce W.;
2:79:35 Low temperature processing of hybrid nanoparticulate Indium Tin Oxide (ITO) polymer layers and application in large scale lighting devices
DOI:10.1016/j.tsf.2010.12.209 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Maksimenko, Ilja;Wellmann, Peter;
2:79:36 In situ monitoring of excimer laser annealing of tin-doped indium oxide films for the development of a low-temperature fabrication process
DOI:10.1016/j.apsusc.2013.12.101 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Shinoda, Kentaro;Nakajima, Tomohiko;Tsuchiya, Tetsuo;
2:79:37 Memory effect of charge injection induced by polarization reversal in Pt/SrBi2Ta2O9/Pt thin-film capacitors identified from fast capacitance-voltage sweeping curves
DOI:10.1016/j.ceramint.2011.04.052 JN:CERAMICS INTERNATIONAL PY:2012 TC:1 AU: Jiang, An-Quan;Tang, Ting-Ao;
2:79:38 Polyurethane-based bulk nanocomposites from 1-thioglycerol-stabilized CdTe quantum dots with enhanced luminescence
DOI:10.1039/c0jm04425c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Luo, Xintao;Han, Jishu;Ning, Yang;Lin, Zhe;Zhang, Hao;Yang, Bai;
2:79:39 Indium tin oxide thin films elaborated by sol-gel routes: The effect of oxalic acid addition on optoelectronic properties
DOI:10.1016/j.tsf.2013.07.031 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Kesim, Mehmet Tumerkan;Durucan, Caner;
2:80:1 Physicochemically Stable Polymer-Coupled Oxide Dielectrics for Multipurpose Organic Electronic Applications
DOI:10.1002/adfm.201002054 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:33 AU: Kim, Se Hyun;Jang, Mi;Yang, Hoichang;Anthony, John E.;Park, Chan Eon;
2:80:2 Grafting Fluorinated Polymer Nano layer for Advancing the Electrical Stability of Organic Field-Effect Transistors
DOI:10.1021/cm5030266 JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Kim, Kyunghun;An, Tae Kyu;Kim, Jiye;Jeong, Yong Jin;Jang, Jaeyoung;Kim, Haekyung;Baek, Jang Yeol;Kim, Yun-Hi;Kim, Se Hyun;Park, Chan Eon;
2:80:3 Multiwall Carbon Nanotube and Poly(3,4-ethylenedioxythiophene): Polystyrene Sulfonate (PEDOT:PSS) Composite Films for Transistor and Inverter Devices
DOI:10.1021/am1008375 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:45 AU: Yun, Dong-Jin;Hong, KiPyo;Kim, Se Hyun;Yun, Won-Min;Jang, Jae-young;Kwon, Woo-Sung;Park, Chan-Eon;Rhee, Shi-Woo;
2:80:4 High-Performance Organic Complementary Inverters Using Monolayer Graphene Electrodes
DOI:10.1021/am500618g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Jeong, Yong Jin;Jang, Jaeyoung;Nam, Sooji;Kim, Kyunghun;Kim, Lae Ho;Park, Seonuk;An, Tae Kyu;Park, Chan Eon;
2:80:5 High T-g Cyclic Olefin Copolymer Gate Dielectrics for N,N '-Ditridecyl Perylene Diimide Based Field-Effect Transistors: Improving Performance and Stability with Thermal Treatment
DOI:10.1002/adfm.201000383 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:36 AU: Jang, Jaeyoung;Nam, Sooji;Chung, Dae Sung;Kim, Se Hyun;Yun, Won Min;Park, Chan Eon;
2:80:6 Air-Stable Solution-Processed Hybrid Transistors with Hole and Electron Mobilities Exceeding 2 cm(2) V-1 s(-1)
DOI:10.1002/adma.201000195 JN:ADVANCED MATERIALS PY:2010 TC:34 AU: Smith, Jeremy;Bashir, Aneeqa;Adamopoulos, George;Anthony, John E.;Bradley, Donal D. C.;Hamilton, R.;Heeney, Martin;McCulloch, Iain;Anthopoulos, Thomas D.;
2:80:7 Directly Drawn Organic Transistors by Capillary Pen: A New Facile Patterning Method using Capillary Action for Soluble Organic Materials
DOI:10.1002/adma.201300006 JN:ADVANCED MATERIALS PY:2013 TC:11 AU: Kang, Boseok;Min, Honggi;Seo, Unsuk;Lee, Junghwi;Park, Namwoo;Cho, Kilwon;Lee, Hwa Sung;
2:80:8 Chemically Tunable Ultrathin Silsesquiazane Interlayer for n-Type and p-Type Organic Transistors on Flexible Plastic
DOI:10.1021/am507003n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Lee, Wi Hyoung;Lee, Seung Goo;Kwark, Young-Je;Lee, Dong Ryeol;Lee, Shichoon;Cho, Jeong Ho;
2:80:9 Al2O3/TiO2 Nano laminate Thin Film Encapsulation for Organic Thin Film Transistors via Plasma-Enhanced Atomic Layer Deposition
DOI:10.1021/am500458d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Kim, Lae Ho;Kim, Kyunghun;Park, Seonuk;Jeong, Yong Jin;Kim, Haekyoung;Chung, Dae Sung;Kim, Se Hyun;Park, Chan Eon;
2:80:10 Composite Films of Oxidized Multiwall Carbon Nanotube and Poly(3,4-ethylenedioxythiophene): Polystyrene Sulfonate (PEDOT:PSS) As a Contact Electrode for Transistor and Inverter Devices
DOI:10.1021/am201622j JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:16 AU: Yun, Dong-Jin;Rhee, Sin-Woo;
2:80:11 High-Performance Triethylsilylethynyl Anthradithiophene Transistors Prepared without Solvent Vapor Annealing: The Effects of Self-Assembly during Dip-Coating
DOI:10.1021/am303192b JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Nam, Sooji;Jang, Jaeyoung;Anthony, John. E.;Park, Jong-Jin;Park, Chan Eon;Kim, Kinam;
2:80:12 Directly Drawn Poly(3-hexylthiophene) Field-Effect Transistors by Electrohydrodynamic Jet Printing: Improving Performance with Surface Modification
DOI:10.1021/am502595a JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Jeong, Yong Jin;Lee, Hyungdong;Lee, Byoung-Sun;Park, Seonuk;Yudistira, Hadi Teguh;Choong, Chwee-Lin;Park, Jong-Jin;Park, Chan Eon;Byun, Doyoung;
2:80:13 Polymer Brush As a Facile Dielectric Surface Treatment for High-Performance, Stable, Soluble Acene-Based Transistors
DOI:10.1021/cm1018234 JN:CHEMISTRY OF MATERIALS PY:2010 TC:16 AU: Park, Kyungmin;Park, Song Hee;Kim, Eunhye;Kim, Jong-Dae;An, Sung-Yup;Lim, Ho Sun;Lee, Hyun Hwi;Kim, Do Hwan;Ryu, Du Yeol;Lee, Dong Ryeol;Cho, Jeong Ho;
2:80:14 Fluorinated Polyimide Gate Dielectrics for the Advancing the Electrical Stability of Organic Field-Effect Transistors
DOI:10.1021/am5035076 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Baek, Yonghwa;Lim, Sooman;Yoo, Eun Joo;Kim, Lae Ho;Kim, Haekyoung;Lee, Seung Woo;Kim, Se Hyun;Park, Chan Eon;
2:80:15 Complementary photo and temperature cured polymer dielectrics with high-quality dielectric properties for organic semiconductors
DOI:10.1039/c2jm33203e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Kim, Se Hyun;Jang, Mi;Kim, Jiye;Choi, Harim;Baek, Kyung-Youl;Park, Chan Eon;Yang, Hoichang;
2:80:16 Effect of pentacene-dielectric affinity on pentacene thin film growth morphology in organic field-effect transistors
DOI:10.1039/b921371f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:26 AU: Kim, Se Hyun;Jang, Mi;Yang, Hoichang;Park, Chan Eon;
2:80:17 Damage-free hybrid encapsulation of organic field-effect transistors to reduce environmental instability
DOI:10.1039/c2jm13329f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Kim, Se Hyun;Yoon, Won Min;Jang, Mi;Yang, Hoichang;Park, Jong-Jin;Park, Chan Eon;
2:80:18 Highly stable fluorine-rich polymer treated dielectric surface for the preparation of solution-processed organic field-effect transistors
DOI:10.1039/c2tc00280a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Kim, Jiye;Kim, Se Hyun;An, Tae Kyu;Park, Seonuk;Park, Chan Eon;
2:80:19 Improved n-type bottom-contact organic transistors by introducing a poly(3,4-ethylenedioxythiophene):poly(4-styrene sulfonate) coating on the source/drain electrodes
DOI:10.1063/1.3488817 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Hong, Kipyo;Kim, Se Hyun;Yang, Chanwoo;Jang, Jaeyoung;Cha, Hyojung;Park, Chan Eon;
2:80:20 Interpenetrating polymer network dielectrics for high-performance organic field-effect transistors
DOI:10.1039/c1jm10084j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:14 AU: Lee, Hwa Sung;Park, Kyungmin;Kim, Jong-Dae;Han, Taehwan;Ryu, Kwang Hee;Lim, Ho Sun;Lee, Dong Ryeol;Kwark, Young-Je;Cho, Jeong Ho;
2:80:21 Photo-Curable Polymer Blend Dielectrics for Advancing Organic Field-Effect Transistor Applications
DOI:10.1002/adma.201000904 JN:ADVANCED MATERIALS PY:2010 TC:14 AU: Kim, Se Hyun;Hong, Kipyo;Jang, Mi;Jang, Jaeyoung;Anthony, John E.;Yang, Hoichang;Park, Chan Eon;
2:80:22 High T-g cyclic olefin copolymer/Al2O3 bilayer gate dielectrics for flexible organic complementary circuits with low-voltage and air-stable operation
DOI:10.1039/c1jm11544h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Jang, Jaeyoung;Nam, Sooji;Yun, Won Min;Yang, Chanwoo;Hwang, Jihun;An, Tae Kyu;Chung, Dae Sung;Park, Chan Eon;
2:80:23 The effects of organic material-treated SiO2 dielectric surfaces on the electrical characteristics of inorganic amorphous In-Ga-Zn-O thin film transistors
DOI:10.1063/1.3691920 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Park, Mijeong;Jang, Jaeyoung;Park, Seonuk;Kim, Jiye;Seong, Jiehyun;Hwang, Jiyoung;Park, Chan Eon;
2:80:24 Low-Voltage Bendable Pentacene Thin-Film Transistor with Stainless Steel Substrate and Polystyrene-Coated Hafnium Silicate Dielectric
DOI:10.1021/am300005s JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Yun, Dong-Jin;Lee, Seunghyup;Yong, Kijung;Rhee, Shi-Woo;
2:80:25 Crystalline nanostructure and morphology of TriF-IF-dione for high-performance stable n-type field-effect transistors
DOI:10.1039/c2jm31698f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Kim, Beom Joon;Park, Young-Il;Kim, Hyo Jung;Ahn, Kwangseok;Lee, Dong Ryeol;Kim, Do Hwan;Oh, Se-Young;Park, Jong-Wook;Cho, Jeong Ho;
2:80:26 In situ ultraviolet photoemission spectroscopy measurement of the pentacene-RuO2/Ti contact energy structure
DOI:10.1063/1.3481084 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Yun, Dong-Jin;Lee, Seunghyup;Yong, Kijung;Rhee, Shi-Woo;
2:80:27 High-mobility, air stable bottom-contact n-channel thin film transistors based on N,N '-ditridecyl perylene diimide
DOI:10.1063/1.4831971 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Ma, Lanchao;Guo, Yunlong;Wen, Yugeng;Liu, Yunqi;Zhan, Xiaowei;
2:80:28 High-Performance Low-Voltage Organic Field-Effect Transistors Prepared on Electro-Polished Aluminum Wires
DOI:10.1021/am2011405 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:3 AU: Nam, Sooji;Jang, Jaeyoung;Park, Jong-Jin;Kim, Sang Won;Park, Chan Eon;Kim, Jong Min;
2:80:29 Single-step solution processing of small-molecule organic semiconductor field-effect transistors at high yield
DOI:10.1063/1.3673280 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Yu, Liyang;Li, Xiaoran;Pavlica, Egon;Loth, Marsha A.;Anthony, John E.;Bratina, Gvido;Kjellander, Charlotte;Gelinck, Gerwin;Stingelin, Natalie;
2:80:30 Superior Properties of Silica Thin Films Prepared from Perhydropolysilazane Solutions at Room Temperature in Comparison with Conventional Alkoxide-Derived Silica Gel Films
DOI:10.1021/am400845y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Kozuka, Hiromitsu;Nakajima, Koji;Uchiyama, Hiroaki;
2:80:31 Solvent-free solution processed passivation layer for improved long-term stability of organic field-effect transistors
DOI:10.1039/c0jm00898b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Nam, Sooji;Jang, Jaeyoung;Kim, Kihyun;Yun, Won Min;Chung, Dae Sung;Hwang, Jihun;Kwon, Oh Kwan;Chang, Taihyun;Park, Chan Eon;
2:80:32 Counterions-exchangeable, multifunctional polyelectrolyte fabrics
DOI:10.1039/c2jm31718d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Lee, Chang Hwan;Kang, Sung Kyung;Lim, Jung Ah;Kwark, Young-Je;Lim, Ho Sun;Kim, Jooyong;Cho, Jeong Ho;
2:80:33 Vacuum thermally evaporated polymeric zinc acrylate as an organic interlayer of organic/inorganic multilayer passivation for flexible organic thin-film transistors
DOI:10.1039/c2jm34760a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Yun, Won Min;Jang, Jaeyoung;Nam, Sooji;Jeong, Yong Jin;Kim, Lae Ho;Park, Seyeol;Seo, Sang Joon;Park, Chan Eon;
2:80:34 Kelvin probe microscopic visualization of charge storage at polystyrene interfaces with pentacene and gold
DOI:10.1063/1.3684977 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Dawidczyk, T. J.;Johns, G. L.;Ozgun, R.;Alley, O.;Andreou, A. G.;Markovic, N.;Katz, H. E.;
2:80:35 Thermal treatment effects on N-alkyl perylene diimide thin-film transistors with different alkyl chain
DOI:10.1063/1.3525997 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Jeon, Hyeon-Gu;Hattori, Jinya;Kato, Shimpei;Oguma, Naomi;Hirata, Naoki;Taniguchi, Yoshio;Ichikawa, Musubu;
2:80:36 Conversion of Solution-Derived Perhydropolysilazane Thin Films into Silica in Basic Humid Atmosphere at Room Temperature
DOI:10.1111/jace.12513 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:2 AU: Nakajima, Koji;Uchiyama, Hiroaki;Kitano, Takayuki;Kozuka, Hiromitsu;
2:80:37 In Situ Real-Time X-Ray Diffraction During Thin Film Growth of Pentacene
DOI:10.1080/15421406.2012.701111 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Watanabe, T.;Hosokai, T.;Koganezawa, T.;Yoshimoto, N.;
2:80:38 Interfacial barrier height modification of indium tin oxide/a-Si:H(p) via control of density of interstitial oxygen for silicon heterojunction solar cell application
DOI:10.1016/j.tsf.2013.05.132 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Ahn, Shihyun;Kim, Sunbo;Dao, Vinh Ai;Lee, Seungho;Iftiquar, S. M.;Kim, Doyoung;Hussain, Shahzada Qamar;Park, Hyeongsik;Lee, Jaehyeong;Lee, Youngseok;Cho, Jaehyun;Kim, Sangho;Yi, Junsin;
2:81:1 Tuning the Charge-Transport Parameters of Perylene Diimide Single Crystals via End and/or Core Functionalization: A Density Functional Theory Investigation
DOI:10.1021/ja908173x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:113 AU: Delgado, M. Carmen Ruiz;Kim, Eung-Gun;da Silva Filho, Demetrio A.;Bredas, Jean-Luc;
2:81:2 Ultrathin n-Type Organic Nanoribbons with High Photoconductivity and Application in Optoelectronic Vapor Sensing of Explosives
DOI:10.1021/ja909797q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:95 AU: Che, Yanke;Yang, Xiaomei;Liu, Guilin;Yu, Chun;Ji, Hongwei;Zuo, Jianmin;Zhao, Jincai;Zang, Ling;
2:81:3 Synthesis and applications of core-enlarged perylene dyes
DOI:10.1039/c000137f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:85 AU: Avlasevich, Yuri;Li, Chen;Muellen, Klaus;
2:81:4 The interplay of intermolecular interactions, packing motifs and electron transport properties in perylene diimide related materials: a theoretical perspective
DOI:10.1039/c2jm33369d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Geng, Yun;Li, Hai-Bin;Wu, Shui-Xing;Su, Zhong-Min;
2:81:5 Fluorescent Cross-Linked Polystyrene Perylenebisimide/Oligo(p-Phenylenevinylene) Microbeads with Controlled Particle Size, Tunable Colors, and High Solid State Emission
DOI:10.1021/am404354q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Sonawane, Swapnil L.;Asha, S. K.;
2:81:6 Interfacial Engineering of Organic Nanofibril Heterojunctions into Highly Photoconductive Materials
DOI:10.1021/ja109396g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:31 AU: Che, Yanke;Huang, Helin;Xu, Miao;Zhang, Chengyi;Bunes, Benjamin R.;Yang, Xiaomei;Zang, Ling;
2:81:7 Theoretical discussions on electron transport properties of perylene bisimide derivatives with different molecular packings and intermolecular interactions
DOI:10.1039/c0jm02119a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:49 AU: Geng, Yun;Wang, Jianping;Wu, Shuixing;Li, Haibin;Yu, Fei;Yang, Guochun;Gao, Hongze;Su, Zhongmin;
2:81:8 A theoretical discussion on the relationships among molecular packings, intermolecular interactions, and electron transport properties for naphthalene tetracarboxylic diimide derivatives
DOI:10.1039/c1jm12483h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:29 AU: Geng, Yun;Wu, Shui-Xing;Li, Hai-Bin;Tang, Xiao-Dan;Wu, Yong;Su, Zhong-Min;Liao, Yi;
2:81:9 Geometry and Electronic Coupling in Perylenediimide Stacks: Mapping Structure-Charge Transport Relationships
DOI:10.1021/ja907761e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:41 AU: Vura-Weis, Josh;Ratner, Mark A.;Wasielewski, Michael R.;
2:81:10 Random Copolyesters Containing Perylene Bisimide: Flexible Films and Fluorescent Fibers
DOI:10.1021/am502248u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Nisha, S. Kumari;Asha, S. K.;
2:81:11 Alkylene-Chain Effect on Microwire Growth and Crystal Packing of pi-Moieties
DOI:10.1021/cm300747v JN:CHEMISTRY OF MATERIALS PY:2012 TC:12 AU: Ding, Lin;Li, Hai-Bin;Lei, Ting;Ying, Han-Ze;Wang, Rui-Bo;Zhou, Yan;Su, Zhong-Min;Pei, Jian;
2:81:12 Gas phase-based growth of highly sensitive single-crystal rectangular micro- and nanotubes
DOI:10.1039/c1jm14238k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Huang, Yongwei;Yuan, Ruijian;Zhou, Shaomin;
2:81:13 Morphology Control of Nanofibril Donor-Acceptor Heterojunction To Achieve High Photoconductivity: Exploration of New Molecular Design Rule
DOI:10.1021/ja407024u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Huang, Helin;Chou, Ching-En;Che, Yanke;Li, Ligui;Wang, Chen;Yang, Xiaomei;Peng, Zhonghua;Zang, Ling;
2:81:14 Theoretical study of the bridging effect on the charge carrier transport properties of cyclooctatetrathiophene and its derivatives
DOI:10.1039/c2jm14871d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Tang, Xiao-Dan;Liao, Yi;Gao, Hong-Ze;Geng, Yun;Su, Zhong-Min;
2:81:15 Air stable electron-transporting and ambipolar bay substituted perylene bisimides
DOI:10.1039/c1jm11091h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:30 AU: Reghu, Renji R.;Bisoyi, Hari Krishna;Grazulevicius, Juozas V.;Anjukandi, Padmesh;Gaidelis, Valentas;Jankauskas, Vygintas;
2:81:16 An efficient strategy for designing n-type organic semiconductor materials-introducing a six-membered imide ring into aromatic diimides
DOI:10.1039/c2jm15935j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Chen, Xian-Kai;Zou, Lu-Yi;Guo, Jing-Fu;Ren, Ai-Min;
2:81:17 The Chameleonic Nature of Electron Transport through pi-Stacked Systems
DOI:10.1021/ja102434m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:27 AU: Solomon, Gemma C.;Herrmann, Carmen;Vura-Weis, Josh;Wasielewski, Michael R.;Ratner, Mark A.;
2:81:18 The effect of multiple weak interactions on the charge transport ability in polymorphs
DOI:10.1016/j.synthmet.2011.03.018 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Yu, Fei;Yang, Guochun;Su, Zhongmin;
2:81:19 One-Step Surface Doping of Organic Nanofibers to Achieve High Dark Conductivity and Chemiresistor Sensing of Amines
DOI:10.1021/am402420g JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Huang, Helin;Gross, Dustin E.;Yang, Xiaomei;Moore, Jeffrey S.;Zang, Ling;
2:81:20 Fabrication of highly fluorescent perylene bisimide nanofibers through interfacial self-assembly
DOI:10.1016/j.jcis.2012.10.053 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:7 AU: Boobalan, G.;Imran, P. K. M.;Manoharan, C.;Nagarajan, S.;
2:81:21 Excitation energy transfer from non-aggregated molecules to perylenediimide nanoribbons via ionic interactions in water
DOI:10.1039/c2jm31661g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Supur, Mustafa;Yamada, Yusuke;Fukuzumi, Shunichi;
2:81:22 Large organic molecule chemisorption on the SiC(0001) surface
DOI:10.1103/PhysRevB.85.035423 JN:PHYSICAL REVIEW B PY:2012 TC:11 AU: Boudrioua, O.;Yang, H.;Sonnet, Ph.;Stauffer, L.;Mayne, A. J.;Comtet, G.;Dujardin, G.;Kuk, Y.;Nagarajan, S.;Gourdon, A.;Duverger, E.;
2:81:23 Exceptionally Strong Electronic Coupling in Crystalline Perylene Diimides via Tuning
DOI:10.1021/cm200413x JN:CHEMISTRY OF MATERIALS PY:2011 TC:6 AU: Xue, Chenming;Jin, Shi;
2:81:24 Solvent-induced self-assembly of hydrogen bonded P4VP-perylenebisimide comb polymer
DOI:10.1039/c3tc31015a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Narayan, Rekha;Asha, S. K.;
2:81:25 Characterization of Perylene Diimide Dye Self-Assemblies and Their Use As Templates for the Synthesis of Hybrid and Supermicroporous Nanotubules
DOI:10.1021/am201016m JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:9 AU: Rodriguez-Abreu, Carlos;Aubery-Torres, Carolina;Solans, Conxita;Lopez-Quintela, Arturo;Tiddy, Gordon J. T.;
2:81:26 Influence of heterogeneous sulfur atoms on the negative differential resistance effect in polythiophene
DOI:10.1063/1.4894691 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Liu, Xiao Jing;Dong, Kang Liang;An, Zhong;
2:81:27 Self-assembly and photophysical properties of a minuscule tailed perylene bisimide
DOI:10.1016/j.mssp.2012.08.001 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2013 TC:2 AU: Murugavelu, M.;Imran, P. K. M.;Sankaran, K. R.;Nagarajan, S.;
2:81:28 Temperature analysis of laser heated polymers on microsecond time scales
DOI:10.1007/s00339-011-6715-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:1 AU: Kappes, Ralf S.;Schoenfeld, Friedhelm;Li, Chen;Gutmann, Jochen S.;Butt, Hans-Juergen;
2:81:29 Self-Assembly, Optical, and Electrical Properties of a Novel Water-Soluble Perylene Bisimide
DOI:10.1007/s11664-011-1784-9 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:2 AU: Boobalan, Gopal;Imran, Predhanekar Mohamed;Nagarajan, Samuthira;
2:82:1 Triplet Exciton Confinement in Green Organic Light-Emitting Diodes Containing Luminescent Charge-Transfer Cu(I) Complexes
DOI:10.1002/adfm.201101907 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:75 AU: Zhang, Qisheng;Komino, Takeshi;Huang, Shuping;Matsunami, Shigeyuki;Goushi, Kenichi;Adachi, Chihaya;
2:82:2 E-Type Delayed Fluorescence of a Phosphine-Supported Cu-2(mu-NAr2)(2) Diamond Core: Harvesting Singlet and Triplet Excitons in OLEDs
DOI:10.1021/ja1004575 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:119 AU: Deaton, Joseph C.;Switalski, Steven C.;Kondakov, Denis Y.;Young, Ralph H.;Pawlik, Thomas D.;Giesen, David J.;Harkins, Seth B.;Miller, Alex J. M.;Mickenberg, Seth F.;Peters, Jonas C.;
2:82:3 Highly Efficient Green Organic Light-Emitting Diodes Containing Luminescent Three-Coordinate Copper(I) Complexes
DOI:10.1021/ja202965y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:97 AU: Hashimoto, Masashi;Igawa, Satoshi;Yashima, Masataka;Kawata, Isao;Hoshino, Mikio;Osawa, Masahisa;
2:82:4 Molecular Construction Kit for Tuning Solubility, Stability and Luminescence Properties: Heteroleptic MePyrPHOS-Copper Iodide-Complexes and their Application in Organic Light-Emitting Diodes
DOI:10.1021/cm4010807 JN:CHEMISTRY OF MATERIALS PY:2013 TC:30 AU: Volz, Daniel;Zink, Daniel M.;Bocksrocker, Tobias;Friedrichs, Jana;Nieger, Martin;Baumann, Thomas;Lemmer, Uli;Braese, Stefan;
2:82:5 Systematic Investigation of the Metal-Structure-Photophysics Relationship of Emissive d(10)-Complexes of Group 11 Elements: The Prospect of Application in Organic Light Emitting Devices
DOI:10.1021/ja2026568 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:74 AU: Hsu, Chien-Wei;Lin, Chao-Chen;Chung, Min-Wen;Chi, Yun;Lee, Gene-Hsiang;Chou, Pi-Tai;Chang, Chih-Hao;Chen, Pin-Yang;
2:82:6 Rational Design of Strongly Blue-Emitting Cuprous Complexes with Thermally Activated Delayed Fluorescence and Application in Solution-Processed OLEDs
DOI:10.1021/cm4024309 JN:CHEMISTRY OF MATERIALS PY:2013 TC:47 AU: Chen, Xu-Lin;Yu, Rongmin;Zhang, Qi-Kai;Zhou, Liu-Jiang;Wu, Ciao-Yuan;Zhang, Qing;Lu, Can-Zhong;
2:82:7 Efficient orange-red phosphorescent organic light-emitting diodes using an in situ synthesized copper(I) complex as the emitter
DOI:10.1039/c4tc00410h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Wei, Feng;Qiu, Jacky;Liu, Xiaochen;Wang, Jianqiang;Wei, Huibo;Wang, Zhibin;Liu, Zhiwei;Bian, Zuqiang;Lu, Zhenghong;Zhao, Yongliang;Huang, Chunhui;
2:82:8 Investigating Morphology and Stability of Fac-tris (2-phenylpyridyl)iridium(III) Films for OLEDs
DOI:10.1002/adfm.201002365 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:16 AU: Smith, Arthur R. G.;Ruggles, Jeremy L.;Cavaye, Hamish;Shaw, Paul E.;Darwish, Tamim A.;James, Michael;Gentle, Ian R.;Burn, Paul L.;
2:82:9 Diffusion - the Hidden Menace in Organic Optoelectronic Devices
DOI:10.1002/adma.201104029 JN:ADVANCED MATERIALS PY:2012 TC:10 AU: Smith, Arthur R. G.;Lee, Kwan H.;Nelson, Andrew;James, Michael;Burn, Paul L.;Gentle, Ian R.;
2:82:10 A Codeposition Route to CuI-Pyridine Coordination Complexes for Organic Light-Emitting Diodes
DOI:10.1021/ja1065653 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:68 AU: Liu, Zhiwei;Qayyum, Munzarin F.;Wu, Chao;Whited, Matthew T.;Djurovich, Peter I.;Hodgson, Keith O.;Hedman, Britt;Solomon, Edward I.;Thompson, Mark E.;
2:82:11 Auto-catalysed crosslinking for next-generation OLED-design
DOI:10.1039/c2jm33291d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Volz, Daniel;Baumann, Thomas;Fluegge, Harald;Mydlak, Mathias;Grab, Tobias;Baechle, Michael;Barner-Kowollik, Christopher;Braese, Stefan;
2:82:12 Highly efficient green organic light-emitting diodes containing luminescent tetrahedral copper(I) complexes
DOI:10.1039/c2tc00263a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:40 AU: Igawa, Satoshi;Hashimoto, Masashi;Kawata, Isao;Yashima, Masataka;Hoshino, Mikio;Osawa, Masahisa;
2:82:13 How the Quantum Efficiency of a Highly Emissive Binuclear Copper Complex Is Enhanced by Changing the Processing Solvent
DOI:10.1021/la3039522 JN:LANGMUIR PY:2013 TC:20 AU: Volz, Daniel;Nieger, Martin;Friedrichs, Jana;Baumann, Thomas;Braese, Stefan;
2:82:14 Application of neutral d(10) coinage metal complexes with an anionic bidentate ligand in delayed fluorescence-type organic light-emitting diodes
DOI:10.1039/c3tc30524d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:23 AU: Osawa, Masahisa;Kawata, Isao;Ishii, Ryuji;Igawa, Satoshi;Hashimoto, Masashi;Hoshino, Mikio;
2:82:15 Co-deposited Cu(I) Complex for Tri-layered Yellow and White Organic Light-Emitting Diodes
DOI:10.1002/adfm.201400685 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Liu, Xiaochen;Zhang, Tao;Ni, Tianchi;Jiang, Nan;Liu, Zhiwei;Bian, Zuqiang;Lu, Zhenghong;Huang, Chunhui;
2:82:16 Oxygen Gas Sensing by Luminescence Quenching in Crystals of Cu(xantphos)(phen)(+) Complexes
DOI:10.1021/ja103112m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:54 AU: Smith, Conor S.;Branham, Charles W.;Marquardt, Brian J.;Mann, Kent R.;
2:82:17 Coherent Nuclear Dynamics in Ultrafast Photoinduced Structural Change of Bis(diimine)copper(I) Complex
DOI:10.1021/ja108645x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:51 AU: Iwamura, Munetaka;Watanabe, Hidekazu;Ishii, Kunihiko;Takeuchi, Satoshi;Tahara, Tahei;
2:82:18 Exceptionally Long-Lived Luminescence from [Cu(I)(isocyanide)(2)(phen)](+) Complexes in Nanoporous Crystals Enables Remarkable Oxygen Gas Sensing
DOI:10.1021/ja302807s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:25 AU: Smith, Conor S.;Mann, Kent R.;
2:82:19 Phosphorescence versus Thermally Activated Delayed Fluorescence. Controlling Singlet-Triplet Splitting in Brightly Emitting and Sublimable Cu(I) Compounds
DOI:10.1021/ja508155x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Leitl, Markus J.;Krylova, Valentina A.;Djurovich, Peter I.;Thompson, Mark E.;Yersin, Hartmut;
2:82:20 Heteroleptic, Dinuclear Copper(I) Complexes for Application in Organic Light-Emitting Diodes
DOI:10.1021/cm4018375 JN:CHEMISTRY OF MATERIALS PY:2013 TC:32 AU: Zink, Daniel M.;Volz, Daniel;Baumann, Thomas;Mydlak, Mathias;Fluegge, Harald;Friedrichs, Jana;Nieger, Martin;Braese, Stefan;
2:82:21 Simple and High Efficiency Phosphorescence Organic Light-Emitting Diodes with Codeposited Copper(I) Emitter
DOI:10.1021/cm5006086 JN:CHEMISTRY OF MATERIALS PY:2014 TC:18 AU: Liu, Zhiwei;Qiu, Jacky;Wei, Feng;Wang, Jianqiang;Liu, Xiaochen;Helander, Michael G.;Rodney, Sarah;Wang, Zhibin;Bian, Zuqiang;Lu, Zhenghong;Thompson, Mark E.;Huang, Chunhui;
2:82:22 Reversible Copper(II)/(I) Electrochemical Potential Switching Driven by Visible Light-Induced Coordinated Ring Rotation
DOI:10.1021/ja3028873 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:17 AU: Nishikawa, Michihiro;Nomoto, Kuniharu;Kume, Shoko;Nishihara, Hiroshi;
2:82:23 Highly efficient photoluminescent Cu(I)-PyrPHOS-metallopolymers
DOI:10.1039/c3tc32347a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Volz, Daniel;Hirschbiel, Astrid F.;Zink, Daniel M.;Friedrichs, Jana;Nieger, Martin;Baumann, Thomas;Braese, Stefan;Barner-Kowollik, Christopher;
2:82:24 Theoretical Studies on the Electronic Structures and Phosphorescence Properties of Three Heteroleptic Cyclometalated Iridium(III) Complexes
DOI:10.1080/15421406.2013.822755 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Han, Deming;Shang, Xiaohong;Zhang, Gang;Li, Tian;Li, Hongguang;Cai, Hongxing;Zhang, Xihe;Zhao, Lihui;
2:82:25 Dual Emission Caused by Ring Inversion Isomerization of a 4-Methyl-2-pyridyl-pyrimidine Copper(I) Complex
DOI:10.1021/ja103718e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:37 AU: Nishikawa, Michihiro;Nomoto, Kuniharu;Kume, Shoko;Inoue, Keiichi;Sakai, Makoto;Fujii, Masaaki;Nishihara, Hiroshi;
2:82:26 Theoretical Studies of Mono-Cyclometalated Ir(III) Complexes with Phenylpyrazole Based Ligands and Phosphines
DOI:10.1080/15421406.2011.600123 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Park, Se Won;Ham, Ho Wan;Kim, Young Sik;
2:82:27 Synthesis, Crystal Structure, Theoretical Study, and Luminescence Property of a Copper(I) Complex with Dipyrido[3,2-f:2 ',3 '-h]-quinoxaline
DOI:10.1080/15421406.2014.887398 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Chen, Aihua;Meng, Suci;Zhang, Jinfang;Zhang, Chi;
2:83:1 Stability of Phosphonic Acid Self-Assembled Monolayers on Amorphous and Single-Crystalline Aluminum Oxide Surfaces in Aqueous Solution
DOI:10.1021/la900935s JN:LANGMUIR PY:2010 TC:41 AU: Thissen, Peter;Valtiner, Markus;Grundmeier, Guido;
2:83:2 Structure and Order of Phosphonic Acid-Based Self-Assembled Monolayers on Si(100)
DOI:10.1021/la1021438 JN:LANGMUIR PY:2010 TC:37 AU: Dubey, Manish;Weidner, Tobias;Gamble, Lara J.;Castner, David G.;
2:83:3 Spin-Cast and Patterned Organophosphonate Self-Assembled Monolayer Dielectrics on Metal-Oxide-Activated Si
DOI:10.1002/adma.201004762 JN:ADVANCED MATERIALS PY:2011 TC:29 AU: Acton, Orb;Hutchins, Daniel;Arnadottir, Liney;Weidner, Tobias;Cernetic, Nathan;Ting, Guy G.;Kim, Tae-Wook;Castner, David G.;Ma, Hong;Jen, Alex K. -Y.;
2:83:4 Activation of Surface Hydroxyl Groups by Modification of H-Terminated Si(111) Surfaces
DOI:10.1021/ja300270w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:19 AU: Thissen, Peter;Peixoto, Tatiana;Longo, Roberto C.;Peng, Weina;Schmidt, Wolf Gero;Cho, Kyeongjae;Chabal, Yves J.;
2:83:5 Effects of self-assembled monolayer structural order, surface homogeneity and surface energy on pentacene morphology and thin film transistor device performance
DOI:10.1039/c2tc00378c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:17 AU: Hutchins, Daniel Orrin;Weidner, Tobias;Baio, Joe;Polishak, Brent;Acton, Orb;Cernetic, Nathan;Ma, Hong;Jen, Alex K. -Y.;
2:83:6 Controlled, Low-Coverage Metal Oxide Activation of Silicon for Organic Functionalization: Unraveling the Phosphonate Bond
DOI:10.1021/la3038457 JN:LANGMUIR PY:2012 TC:16 AU: Thissen, Peter;Vega, Abraham;Peixoto, Tatiana;Chabal, Yves J.;
2:83:7 Simultaneous Modification of Bottom-Contact Electrode and Dielectric Surfaces for Organic Thin-Film Transistors Through Single-Component Spin-Cast Monolayers
DOI:10.1002/adfm.201002035 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:32 AU: Acton, Orb;Dubey, Manish;Weidner, Tobias;O'Malley, Kevin M.;Kim, Tae-Wook;Ting, Guy G.;Hutchins, Daniel;Baio, J. E.;Lovejoy, Tracy C.;Gage, Alexander H.;Castner, David G.;Ma, Hong;Jen, Alex K-Y;
2:83:8 Environment-Controlled Tethering by Aggregation and Growth of Phosphonic Acid Monolayers on Silicon Oxide
DOI:10.1021/la300709n JN:LANGMUIR PY:2012 TC:14 AU: Vega, Abraham;Thissen, Peter;Chabal, Yves J.;
2:83:9 Dielectric Surface-Controlled Low-Voltage Organic Transistors via n-Alkyl Phosphonic Acid Self-Assembled Monolayers on High-k Metal Oxide
DOI:10.1021/am9007648 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:7 AU: Action, By Orb;Ting, Guy G.;Shamberger, Patrick J.;Ohuchi, Fumio S.;Ma, Hong;Jen, Alex K. -Y.;
2:83:10 Interface Chemistry and Molecular Interactions of Phosphonic Acid Self-Assembled Monolayers on Oxyhydroxide-Covered Aluminum in Humid Environments
DOI:10.1021/la200445x JN:LANGMUIR PY:2011 TC:18 AU: Maxisch, Michael;Thissen, Peter;Giza, Miroslaw;Grundmeier, Guido;
2:83:11 Toward a microscopic understanding of the calcium-silicate-hydrates/water interface
DOI:10.1016/j.apsusc.2013.11.045 JN:APPLIED SURFACE SCIENCE PY:2014 TC:5 AU: Ebbert, Christoph;Grundmeier, Guido;Buitkamp, Nadine;Kroeger, Alexander;Messerschmidt, Florian;Thissen, Peter;
2:83:12 Formation and stability of organic acid monolayers on magnesium alloy AZ31: The role of alkyl chain length and head group chemistry
DOI:10.1016/j.apsusc.2013.06.113 JN:APPLIED SURFACE SCIENCE PY:2013 TC:4 AU: Szillies, S.;Thissen, P.;Tabatabai, D.;Feil, F.;Fuerbeth, W.;Fink, N.;Grundmeier, G.;
2:83:13 Investigating phosphonate monolayer stability on ALD oxide surfaces
DOI:10.1016/j.apsusc.2013.09.128 JN:APPLIED SURFACE SCIENCE PY:2014 TC:3 AU: Branch, Brittany;Dubey, Manish;Anderson, Aaron S.;Artyushkova, Kateryna;Baldwin, J. Kevin;Petsev, Dimiter;Dattelbaum, Andrew M.;
2:83:14 Covalent Attachment of Diamondoid Phosphonic Acid Dichlorides to Tungsten Oxide Surfaces
DOI:10.1021/la401781e JN:LANGMUIR PY:2013 TC:6 AU: Li, Fei Hua;Fabbri, Jason D.;Yurchenko, Raisa I.;Mileshkin, Alexander N.;Hohman, J. Nathan;Yan, Hao;Yuan, Hongyuan;Tran, Ich C.;Willey, Trevor M.;Bagge-Hansen, Michael;Dahl, Jeremy E. P.;Carlson, Robert M. K.;Fokin, Andrey A.;Schreiner, Peter R.;Shen, Zhi-Xun;Melosh, Nicolas A.;
2:83:15 Monolayer Doping via Phosphonic Acid Grafting on Silicon: Microscopic Insight from Infrared Spectroscopy and Density Functional Theory Calculations
DOI:10.1002/adfm.201202808 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:9 AU: Longo, Roberto C.;Cho, Kyeongjae;Schmidt, Wolf Gero;Chabal, Yves J.;Thissen, Peter;
2:83:16 Enhanced tribology durability of a self-assembled monolayer of alkylphosphonic acid on a textured copper substrate
DOI:10.1016/j.apsusc.2012.07.008 JN:APPLIED SURFACE SCIENCE PY:2012 TC:6 AU: Wan, Yong;Wang, Yinhu;Zhang, Quan;Wang, Zhongqian;Xu, Zhen;Liu, Changsong;Zhang, Junyan;
2:83:17 An extremely rapid dip-coating method for self-assembly of octadecylphosphonic acid and its thermal stability on an aluminum film
DOI:10.1039/c4tc02017k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Chen, Donghan;Wu, Horace King Yin;Naderi-Gohar, Soheila;Wu, Yiliang;Huang, Yining;Nie, Heng-Yong;
2:83:18 Solvent Effects on Molecular Packing and Tribological Properties of Octadecyltrichlorosilane Films on Silicon
DOI:10.1021/la904656y JN:LANGMUIR PY:2010 TC:19 AU: Cheng, Yue-an;Zheng, Bin;Chuang, Po-hsiang;Hsieh, Shuchen;
2:83:19 Tribological Durability of Silane Monolayers on Silicon
DOI:10.1021/la104778q JN:LANGMUIR PY:2011 TC:21 AU: Booth, Brandon D.;Vilt, Steven G.;Ben Lewis, J.;Rivera, Jose L.;Buehler, Edward A.;McCabe, Clare;Jennings, G. Kane;
2:83:20 PM-IRRAS studies of the adsorption and stability of organophosphonate monolayers on passivated NiTi surfaces
DOI:10.1016/j.apsusc.2010.09.044 JN:APPLIED SURFACE SCIENCE PY:2011 TC:14 AU: Maxisch, M.;Ebbert, C.;Torun, B.;Fink, N.;de los Arcos, T.;Lackmann, J.;Maier, H. J.;Grundmeier, G.;
2:83:21 A synergistic combination of tetraethylorthosilicate and multiphosphonic acid offers excellent corrosion protection to AA1100 aluminum alloy
DOI:10.1016/j.apsusc.2013.02.131 JN:APPLIED SURFACE SCIENCE PY:2013 TC:16 AU: Dalmoro, Viviane;dos Santos, Joao H. Z.;Armelin, Elaine;Aleman, Carlos;Azambuja, Denise S.;
2:83:22 Liquid phase formation of alkyl- and perfluoro-phosphonic acid derived monolayers on magnesium alloy AZ31 and their chemical properties
DOI:10.1016/j.jcis.2011.04.039 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:12 AU: Ishizaki, Takahiro;Teshima, Katsuya;Masuda, Yoshitake;Sakamoto, Michiru;
2:83:23 Modification of silica by an organic monolayer in aqueous medium using octylphosphonic acid and aluminium species
DOI:10.1039/c1jm10128e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Lassiaz, Stephanie;Labarre, Dominique;Galarneau, Anne;Brunel, Daniel;Mutin, P. Hubert;
2:83:24 Arsonic Acid Self-Assembled Monolayers Protect Oxide Surfaces from Micronewton Nanomechanical Forces
DOI:10.1002/adfm.201202566 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:1 AU: LaFranzo, Natalie A.;Maurer, Joshua A.;
2:83:25 Anchoring of alkylphosphonic derivatives molecules on copper oxide surfaces
DOI:10.1016/j.apsusc.2011.02.071 JN:APPLIED SURFACE SCIENCE PY:2011 TC:11 AU: Fonder, Gregory;Minet, Isabelle;Volcke, Cedric;Devillers, Sebastien;Delhalle, Joseph;Mekhalif, Zineb;
2:83:26 Combined in situ PM-IRRAS/QCM studies of water adsorption on plasma modified aluminum oxide/aluminum substrates
DOI:10.1016/j.apsusc.2013.06.059 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Giner, Ignacio;Maxisch, Michael;Kunze, Christian;Grundmeier, Guido;
2:83:27 A vapor phase deposition of self-assembled monolayers: Vinyl-terminated films of volatile silanes on silicon oxide substrates
DOI:10.1016/j.tsf.2012.07.054 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Adamkiewicz, Malgorzata;O'Hara, Tony;O'Hagan, David;Haehner, Georg;
2:83:28 Experimental Study of Interfacial Fracture Toughness in a SiNx/PMMA Barrier Film
DOI:10.1021/am301880y JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:3 AU: Kim, Yongjin;Bulusu, Anuradha;Giordano, Anthony J.;Marder, Seth R.;Dauskardt, Reinhold;Graham, Samuel;
2:83:29 Self-localization of mixed organophosphonic acid and organothiol monolayers on patterned Al-Cu substrates
DOI:10.1016/j.apsusc.2013.09.166 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Schnieders, Hendrik;Ozcan, Ozlem;Grundmeier, Guido;
2:83:30 Atomic Force Microscopy (AFM)-Based Nanografting for the Study of Self-Assembled Monolayer Formation of Organophosphonic Acids on Al2O3 Single-Crystal Surfaces
DOI:10.1021/la300687y JN:LANGMUIR PY:2012 TC:7 AU: Torun, Boray;Ozkaya, Berkem;Grundmeier, Guido;
2:83:31 Bis(trifluoromethyl)methylene Addition to Vinyl-Terminated SAMs: A Gas-Phase C-C Bond-Forming Reaction on a Surface
DOI:10.1021/la5011727 JN:LANGMUIR PY:2014 TC:0 AU: Adamkiewicz, Malgorzata;O'Hagan, David;Haehner, Georg;
2:83:32 Application of ultrasound irradiation on sol-gel technique for corrosion protection of Al65Cu20Fe15 alloy powder
DOI:10.1016/j.apsusc.2013.08.047 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Liang, Bo;Zhang, Baoyan;Wang, Guodong;Li, Di;Zhang, Xiaoming;
2:83:33 In Situ Study of the Deposition of (Ultra)thin Organic Phosphonic Acid Layers on the Oxide of Aluminum
DOI:10.1021/la203988m JN:LANGMUIR PY:2012 TC:11 AU: Hauffman, Tom;Van Lokeren, Luk;Willem, Rudolph;Hubin, Annick;Terryn, Herman;
2:83:34 Dielectric Surface-Controlled Low-Voltage Organic Transistors via n-Alkyl Phosphonic Acid Self-Assembled Monolayers on High-k Metal Oxide (vol 2, pg 511, 2010)
DOI:10.1021/am100914u JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:0 AU: Acton, Orb;Ting, Guy G.;Shamberger, Patrick J.;Ohuchi, Fumio S.;Ma, Hong;Jen, Alex K. -Y.;
2:83:35 Effect of heat treatment on corrosion properties of sol-gel titania-ceria nanocomposite coating
DOI:10.1016/j.jallcom.2010.05.100 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2010 TC:3 AU: Ghasemi, A.;Shahrabi, T.;Oskuie, A. A.;Hasannejad, H.;Sanjabi, S.;
2:83:36 Aluminium oxide prepared by UV/ozone exposure for low-voltage organic thin-film transistors
DOI:10.1016/j.jnoncrysol.2012.01.016 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Chinnam, Krishna Chytanya;Gupta, Swati;Gleskova, Helena;
2:83:37 Experiment: and Theory of Low-Pressure Nitrogen Adsorption in Organic Layers Supported or Grafted on Inorganic Adsorbents: Toward a Tool To Characterize Surfaces of Hybrid Organic/Inorganic Systems
DOI:10.1021/la301154e JN:LANGMUIR PY:2012 TC:3 AU: Boutin, Anne;Coasne, Benoit;Fuchs, Alain H.;Galarneau, Anne;Di Renzo, Francesco;
2:84:1 Discotic Liquid Crystals for Opto-Electronic Applications
DOI:10.1021/cm102117c JN:CHEMISTRY OF MATERIALS PY:2011 TC:164 AU: Kaafarani, Bilal R.;
2:84:2 Controlling morphology and molecular packing of alkane substituted phthalocyanine blend bulk heterojunction solar cells
DOI:10.1039/c2ta00415a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:9 AU: Jurow, Matthew J.;Hageman, Brian A.;DiMasi, Elaine;Nam, Chang-Yong;Pabon, Cesar;Black, Charles T.;Drain, Charles Michael;
2:84:3 Charge Dissociation at Interfaces between Discotic Liquid Crystals: The Surprising Role of Column Mismatch
DOI:10.1021/ja4114769 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:7 AU: Ide, Julien;Mereau, Raphael;Ducasse, Laurent;Castet, Frederic;Bock, Harald;Olivier, Yoann;Cornil, Jerome;Beljonne, David;D'Avino, Gabriele;Roscioni, Otello Maria;Muccioli, Luca;Zannoni, Claudio;
2:84:4 Segregated Donor-Acceptor Columns in Liquid Crystals That Exhibit Highly Efficient Ambipolar Charge Transport
DOI:10.1021/ja203822q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:41 AU: Hayashi, Hironobu;Nihashi, Wataru;Umeyama, Tomokazu;Matano, Yoshihiro;Seki, Shu;Shimizu, Yo;Imahori, Hiroshi;
2:84:5 Face-on Oriented Bilayer of Two Discotic Columnar Liquid Crystals for Organic Donor-Acceptor Heterojunction
DOI:10.1021/ja1012596 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:47 AU: Thiebaut, Olivier;Bock, Harald;Grelet, Eric;
2:84:6 Discotic liquid crystal-nanoparticle hybrid systems
DOI:10.1038/am.2013.75 JN:NPG ASIA MATERIALS PY:2014 TC:11 AU: Kumar, Sandeep;
2:84:7 A Supramolecular "Double-Cable" Structure with a 129(44) Helix in a Columnar Porphyrin-C-60 Dyad and its Application in Polymer Solar Cells
DOI:10.1002/aenm.201200060 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:16 AU: Wang, Chien-Lung;Zhang, Wen-Bin;Sun, Hao-Jan;Van Horn, Ryan M.;Kulkarni, Rahul R.;Tsai, Chi-Chun;Hsu, Chain-Shu;Lotz, Bernard;Gong, Xiong;Cheng, Stephen Z. D.;
2:84:8 From crystals to columnar liquid crystal phases: molecular design, synthesis and phase structure characterization of a series of novel phenazines potentially useful in photovoltaic applications
DOI:10.1039/b912634a JN:SOFT MATTER PY:2010 TC:34 AU: Leng, Siwei;Chan, Li Hsin;Jing, Jiaokai;Hu, Jie;Moustafa, Rasha M.;Van Horn, Ryan M.;Graham, Matthew J.;Sun, Bin;Zhu, Meifang;Jeong, Kwang-Un;Kaafarani, Bilal R.;Zhang, Wenbin;Harris, Frank W.;Cheng, Stephen Z. D.;
2:84:9 The biaxial lamello-columnar liquid crystalline structure of a tetrathiafulvalene sanidic molecule
DOI:10.1039/c2jm32070c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Kim, Dae-Yoon;Wang, Lei;Cao, Yan;Yu, Xinfei;Cheng, Stephen Z. D.;Kuo, Shiao-Wei;Song, Dae-Hyun;Lee, Seung Hee;Lee, Myong-Hoon;Jeong, Kwang-Un;
2:84:10 A supramolecular structure with an alternating arrangement of donors and acceptors constructed by a trans-di-C-60-substituted Zn porphyrin derivative in the solid state
DOI:10.1039/c1sm05381g JN:SOFT MATTER PY:2011 TC:12 AU: Wang, Chien-Lung;Zhang, Wen-Bin;Hsu, Chih-Hao;Sun, Hao-Jan;Van Horn, Ryan M.;Tu, Yingfeng;Anokhin, Denis V.;Ivanov, Dimitri A.;Cheng, Stephen Z. D.;
2:84:11 Macroscopically oriented hierarchical structure of the amphiphilic tetrathiafulvalene molecule
DOI:10.1039/c2sm26458g JN:SOFT MATTER PY:2012 TC:7 AU: Kim, Namil;Wang, Lei;Kim, Dae-Yoon;Hwang, Seok-Ho;Kuo, Shiao-Wei;Lee, Myong-Hoon;Jeong, Kwang-Un;
2:84:12 Order Induced Charge Carrier Mobility Enhancement in Columnar Liquid Crystal Diodes
DOI:10.1021/am403681q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:19 AU: Eccher, Juliana;Faria, Gregorio C.;Bock, Harald;von Seggern, Heinz;Bechtold, Ivan H.;
2:84:13 Heterolithic azobenzene-containing supermolecular tripedal liquid crystals self-organizing into highly segregated bilayered smectic phases
DOI:10.1039/c2jm33751g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Nagy, Zsuzsanna T.;Heinrich, Benoit;Guillon, Daniel;Tomczyk, Jaroslaw;Stumpe, Joachim;Donnio, Bertrand;
2:84:14 Reversible actuating and writing behaviours of a head-to-side connected main-chain photochromic liquid crystalline polymer
DOI:10.1039/c2tc00506a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Kim, Dae-Yoon;Lee, Sang-A;Choi, Hyong Jong;Chien, Liang-Chy;Lee, Myong-Hoon;Jeong, Kwang-Un;
2:84:15 Phase separation and affinity between a fluorinated perylene diimide dye and an alkyl-substituted hexa-peri-hexabenzocoronene
DOI:10.1039/b915484a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: De Luca, Giovanna;Liscio, Andrea;Melucci, Manuela;Schnitzler, Tobias;Pisula, Wojciech;Clark, Christopher G., Jr.;Scolaro, Luigi Monsu;Palermo, Vincenzo;Muellen, Klaus;Samori, Paolo;
2:84:16 Luminescent Columnar Liquid Crystals Based on Tristriazolotriazine
DOI:10.1021/la3020139 JN:LANGMUIR PY:2012 TC:18 AU: Cristiano, Rodrigo;Eccher, Juliana;Bechtold, Ivan H.;Tironi, Catarina N.;Vieira, Andre A.;Molin, Fernando;Gallardo, Hugo;
2:84:17 Synthesis of Triphenylene Discotic Liquid Crystals Possessing Nine Alkyl Chains: Influence of Molecular Symmetry and Chain Length on Mesomorphism
DOI:10.1080/15421406.2013.781489 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Xiao, Bo;Liu, Zhao-Jun;Wang, Bi-Qin;Hu, Ping;Redshaw, Carl;Zhao, Ke-Qing;
2:84:18 Phase behaviour and Janus hierarchical supramolecular structures based on asymmetric tapered bisamide
DOI:10.1039/c2sm07332c JN:SOFT MATTER PY:2012 TC:6 AU: Sun, Hao-Jan;Wang, Chien-Lung;Hsieh, I-Fan;Hsu, Chih-Hao;Van Horn, Ryan M.;Tsai, Chi-Chun;Jeong, Kwang-Un;Lotz, Bernard;Cheng, Stephen Z. D.;
2:84:19 Efficiency enhancement in mesogenic-phthalocyanine-based solar cells with processing additives
DOI:10.1063/1.4773519 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Dao, Quang Duy;Hori, Tetsuro;Fukumura, Kaoru;Masuda, Tetsuya;Kamikado, Toshiya;Fujii, Akihiko;Shimizu, Yo;Ozaki, Masanori;
2:84:20 Predictable Tuning of Absorption Properties in Modular Aromatic Donor-Acceptor Liquid Crystals
DOI:10.1021/cm3007765 JN:CHEMISTRY OF MATERIALS PY:2012 TC:13 AU: Leight, Katherine R.;Esarey, Brooke E.;Murray, Alexandra E.;Reczek, Joseph J.;
2:84:21 Diastereoisomerically Pure Fulleropyrrolidines as Chiral Platforms for the Design of Optically Active Liquid Crystals
DOI:10.1021/ja910128e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:29 AU: Campidelli, Stephane;Bourgun, Philippe;Guintchin, Boris;Furrer, Julien;Stoeckli-Evans, Helen;Saez, Isabel M.;Goodby, John W.;Deschenaux, Robert;
2:84:22 Striped fullerene patterns constructed in elastically anisotropic cholesteric liquid crystals
DOI:10.1039/c2sm26420j JN:SOFT MATTER PY:2012 TC:4 AU: Kim, Soeun;Kang, Shin-Woong;Jeong, Kwang-Un;
2:84:23 A macroscopically oriented lyotropic chromonic liquid crystalline nanofiber mat embedding self-assembled Sunset-Yellow FCF nanocolumns
DOI:10.1039/c2jm31092a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Kim, Young-Jin;Kim, Dae-Yoon;Lee, Jong-Hoon;Nah, Changwoon;Lee, Joong Hee;Lee, Myong-Hoon;Kim, Hak Yong;Kuo, Shiao-Wei;Shin, Seunghan;Jeong, Kwang-Un;
2:84:24 Triangular arylene ethynylene macrocycles: syntheses, optical, and thermotropic liquid crystalline properties
DOI:10.1039/c2sm06144a JN:SOFT MATTER PY:2012 TC:8 AU: Li, Tian;Yue, Kan;Yan, Qifan;Huang, Helin;Wu, Hao;Zhu, Ningbo;Zhao, Dahui;
2:84:25 Liquid crystal and gold nanoparticles applied to electrochemical immunosensor for cardiac biomarker
DOI:10.1016/j.bios.2014.03.026 JN:BIOSENSORS & BIOELECTRONICS PY:2014 TC:5 AU: Zapp, Eduardo;Westphal, Eduard;Gallardo, Hugo;de Souza, Bernardo;Vieira, Iolanda Cruz;
2:84:26 Molecular Frustration of Chemically Linked Rod-Disc Liquid Crystal under an Electric Field
DOI:10.1021/cm101409y JN:CHEMISTRY OF MATERIALS PY:2010 TC:6 AU: Jung, Jun Ho;Kim, So-Eun;Song, Eun Kyoung;Ha, Kyung Su;Kim, Namil;Cao, Yan;Tsai, Chi-Chun;Cheng, Stephen Z. D.;Lee, Seung Hee;Jeong, Kwang-Un;
2:84:27 Liquid crystalline mesophases based on symmetric tetrathiafulvalene derivatives
DOI:10.1039/c0jm02357d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Wang, Lei;Cho, Hyunduck;Lee, Soo-Hyoung;Lee, Changhee;Jeong, Kwang-Un;Lee, Myong-Hoon;
2:84:28 Liquid crystalline phthalocyanine-fullerene dyads
DOI:10.1039/c0jm02420a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:40 AU: Ince, Mine;Victoria Martinez-Diaz, M.;Barbera, Joaquin;Torres, Tomas;
2:84:29 A liquid-crystalline fullerene-oligophenylenevinylene dyad which displays columnar mesomorphism
DOI:10.1039/c1sm05044c JN:SOFT MATTER PY:2011 TC:12 AU: Hoang, Thi Nhu Y.;Pociecha, Damian;Salamonczyk, Miroslaw;Gorecka, Ewa;Deschenaux, Robert;
2:84:30 Biomimetic morphogenesis of micropottery: helical coiling of mesostructured silica nanofibers
DOI:10.1039/c1sm05593c JN:SOFT MATTER PY:2011 TC:5 AU: Zhou, Longping;Ye, Jianfeng;Hong, Guosong;Qi, Limin;
2:84:31 Molecular arrays formed in anisotropically rearranged supramolecular network with molecular substitutional asymmetry
DOI:10.1039/c0jm01619e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Li, Yibao;Deng, Ke;Wu, Xingkui;Lei, Shengbin;Zhao, Keqing;Yang, Yanlian;Zeng, Qingdao;Wang, Chen;
2:84:32 Chiral liquid crystal tetramers
DOI:10.1039/c1jm10992h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:14 AU: Donaldson, Toby;Henderson, Peter A.;Achard, Marie France;Imrie, Corrie T.;
2:84:33 Combined SPM Investigation on the Interfacial Structure of a Phthalocyanine/Conjugated Polymer Composite Film
DOI:10.1021/la104219z JN:LANGMUIR PY:2011 TC:4 AU: Lei, Shengbin;Yang, Yanlian;Zeng, Qingdao;Wang, Chen;
2:84:34 Toward Organic Photovoltaic Cells Based on the Self-Assembly of Discotic Columnar Liquid Crystals
DOI:10.1080/15421406.2011.570574 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:4 AU: Grelet, Eric;Bock, Harald;Brunet, Thomas;Kelber, Julien;Thiebaut, Olivier;Jolinat, Pascale;Mirzaei, Sedigheh;Destruel, Pierre;
2:84:35 Electrochemical impedance immunosensor for the detection of cardiac biomarker Myogobin (Mb) in aqueous solution
DOI:10.1016/j.tsf.2010.08.063 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Rajesh;Sharma, V.;Tanwar, V. K.;Mishra, S. K.;Biradar, A. M.;
2:85:1 Harnessing self-assembly strategies for the rational design of conjugated polymer based materials
DOI:10.1039/c3tc30543k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Evans, Rachel C.;
2:85:2 Imidazolium-substituted ionic (co)polythiophenes: Compositional influence on solution behavior and thermal properties
DOI:10.1016/j.polymer.2013.09.049 JN:POLYMER PY:2013 TC:11 AU: Ghoos, Toon;Brassinne, Jeremy;Fustin, Charles-Andre;Gohy, Jean-Francois;Defour, Maxime;Van den Brande, Niko;Van Mele, Bruno;Lutsen, Laurence;Vanderzande, Dirk J.;Maes, Wouter;
2:85:3 All-conjugated polyelectrolyte block copolymers
DOI:10.1039/b918583f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:36 AU: Gutacker, Andrea;Adamczyk, Sylwia;Helfer, Anke;Garner, Logan E.;Evans, Rachel C.;Fonseca, Sofia M.;Knaapila, Matti;Bazan, Guillermo C.;Burrows, Hugh D.;Scherf, Ullrich;
2:85:4 Structure and "Surfactochromic" Properties of Conjugated Polyelectrolyte (CPE): Surfactant Complexes between a Cationic Polythiophene and SDS in Water
DOI:10.1021/la102591b JN:LANGMUIR PY:2010 TC:31 AU: Knaapila, Matti;Evans, Rachel C.;Garamus, Vasil M.;Almasy, Laszlo;Szekely, Noemi K.;Gutacker, Andrea;Scherf, Ullrich;Burrows, Hugh D.;
2:85:5 25th Anniversary Article: No Assembly Required: Recent Advances in Fully Conjugated Block Copolymers
DOI:10.1002/adma.201302677 JN:ADVANCED MATERIALS PY:2013 TC:16 AU: Robb, Maxwell J.;Ku, Sung-Yu;Hawker, Craig J.;
2:85:6 Synthesis and characterization of carboxystyryl end-functionalized poly(3-hexylthiophene)/TiO2 hybrids in view of photovoltaic applications
DOI:10.1016/j.synthmet.2012.07.026 JN:SYNTHETIC METALS PY:2012 TC:13 AU: Boon, Florian;Thomas, Amandine;Clavel, Guylhaine;Moerman, David;De Winter, Julien;Laurencin, Danielle;Coulembier, Olivier;Dubois, Philippe;Gerbaux, Pascal;Lazzaroni, Roberto;Richeter, Sebastien;Mehdi, Ahmad;Clement, Sebastien;
2:85:7 Cationic Polythiophene-Surfactant Self-Assembly Complexes: Phase Transitions, Optical Response, and Sensing
DOI:10.1021/la302166a JN:LANGMUIR PY:2012 TC:26 AU: Evans, Rachel C.;Knaapila, Matti;Willis-Fox, Niamh;Kraft, Mario;Terry, Ann;Burrows, Hugh D.;Scherf, Ullrich;
2:85:8 Opto-electrical and morphological characterization of water soluble conjugated polymers for eco-friendly hybrid solar cells
DOI:10.1016/j.solmat.2011.07.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Thalluri, Gopala Krishna V. V.;Bolsee, Jean-Christophe;Gadisa, Abay;Parchine, Mikhail;Boonen, Tine;D'Haen, Jan;Boyukbayram, Ayse E.;Vandenbergh, Joke;Cleij, Thomas J.;Lutsen, Laurence;Vanderzande, Dirk;Manca, Jean;
2:85:9 Fully water-processable metal oxide nanorods/polymer hybrid solar cells
DOI:10.1016/j.solmat.2012.06.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Baeten, Linny;Conings, Bert;D'Haen, Jan;Hardy, An;Manca, Jean V.;Van Bael, Marlies K.;
2:85:10 Fluorene Based Conjugated Polyelectrolyte/Silica Nanocomposites: Charge-Mediated Phase Aggregation at the Organic-Inorganic Interface
DOI:10.1002/adma.200904377 JN:ADVANCED MATERIALS PY:2010 TC:18 AU: Evans, Rachel C.;Macedo, Andreia G.;Pradhan, Swapna;Scherf, Ullrich;Carlos, Luis D.;Burrows, Hugh D.;
2:85:11 Highly Sensitive Assay for Acetylcholinesterase Activity and Inhibition Based on a Specifically Reactive Photonic Nanostructure
DOI:10.1021/am504065v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Tian, Tian;Li, Xuesong;Cui, Jiecheng;Li, Jian;Lan, Yue;Wang, Chen;Zhang, Meng;Wang, Hui;Li, Guangtao;
2:85:12 Reversible Assembly and Disassembly of Micelles by a Polymer That Switches between Hydrophilic and Hydrophobic Wettings
DOI:10.1021/la301760a JN:LANGMUIR PY:2012 TC:17 AU: Dutta, Kingshuk;Mahale, Rajashree Y.;Arulkashmir, Arulraj;Krishnamoorthy, Kothandam;
2:85:13 Conjugated polyelectrolyte (CPE) poly[3-[6-(N-methylimidazolium)hexyl]-2,5-thiophene] complexed with aqueous sodium dodecylsulfate amphiphile: synthesis, solution structure and "surfactochromic" properties
DOI:10.1039/c1sm05492a JN:SOFT MATTER PY:2011 TC:19 AU: Knaapila, Matti;Evans, Rachel C.;Gutacker, Andrea;Garamus, Vasil M.;Szekely, Noemi K.;Scherf, Ullrich;Burrows, Hugh D.;
2:85:14 Colorimetric Assays for Acetylcholinesterase Activity and Inhibitor Screening Based on the Disassembly-Assembly of a Water-Soluble Polythiophene Derivative
DOI:10.1021/am200101n JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:22 AU: Li, Yugang;Bai, Hua;Li, Chun;Shi, Gaoquan;
2:85:15 Aggregation Properties of p-Phenylene Vinylene Based Conjugated Oligoelectrolytes with Surfactants
DOI:10.1021/la401871x JN:LANGMUIR PY:2013 TC:5 AU: Costa, Telma;Garner, Logan E.;Knaapila, Matti;Thomas, Alexander W.;Rogers, Sarah E.;Bazan, Guillermo C.;Burrows, Hugh D.;
2:85:16 A Highly Sensitive Gold-Nanoparticle-Based Assay for Acetylcholinesterase in Cerebrospinal Fluid of Transgenic Mice with Alzheimer's Disease
DOI:10.1002/adhm.201100002 JN:ADVANCED HEALTHCARE MATERIALS PY:2012 TC:26 AU: Liu, Dingbin;Chen, Wenwen;Tian, Yue;He, Sha;Zheng, Wenfu;Sun, Jiashu;Wang, Zhuo;Jiang, Xingyu;
2:85:17 Interaction between oxidized polyaniline and oppositely charged amphiphilic assemblies in an aqueous/organic biphasic system
DOI:10.1016/j.jcis.2013.06.038 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:10 AU: Dutta, Kingshuk;Kundu, Patit Paban;
2:85:18 Synthesis and characterisation of pi-conjugated polymer/silica hybrids containing regioregular ionic polythiophenes
DOI:10.1039/c0jm03598j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Clement, Sebastien;Tizit, Akim;Desbief, Simon;Mehdi, Ahmad;De Winter, Julien;Gerbaux, Pascal;Lazzaroni, Roberto;Boury, Bruno;
2:85:19 Assembly of Zwitterionic Phospholipid/Conjugated Polyelectrolyte Complexes: Structure and Photophysical Properties
DOI:10.1021/la904100q JN:LANGMUIR PY:2010 TC:14 AU: Ngo, An Thien;Cosa, Gonzalo;
2:85:20 Controlled Synthesis of Water-Soluble Conjugated Polyelectrolytes Leading to Excellent Hole Transport Mobility
DOI:10.1021/cm500500t JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Brendel, Johannes C.;Schmidt, Martina M.;Hagen, Gunter;Moos, Ralf;Thelakkat, Mukundan;
2:85:21 Solvent Dependent Assembly of a Polyfluorene-Polythiophene "Rod-Rod" Block Copolyelectrolyte: Influence on Photophysical Properties
DOI:10.1021/la903520w JN:LANGMUIR PY:2010 TC:14 AU: Knaapila, M.;Evans, R. C.;Gutacker, A.;Garamus, V. M.;Torkkeli, M.;Adamczyk, S.;Forster, M.;Scherf, U.;Burrows, H. D.;
2:85:22 Cationic fluorene-thiophene diblock copolymers: Aggregation behaviour in methanol/water and its relation to thin film structures
DOI:10.1016/j.polymer.2010.03.010 JN:POLYMER PY:2010 TC:15 AU: Gutacker, Andrea;Koenen, Nils;Scherf, Ullrich;Adamczyk, Sylwia;Pina, Joao;Fonseca, Sofia M.;Valente, Artur J. M.;Evans, Rachel C.;de Melo, J. Seixas;Burrows, Hugh D.;Knaapila, Matti;
2:85:23 Polythiophene-Based Optical Sensors for Small Molecules
DOI:10.1021/am400009d JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:19 AU: Li, Chun;Shi, Gaoquan;
2:85:24 Amphiphilic conjugated block copolymers for efficient bulk heterojunction solar cells
DOI:10.1039/c2jm14960e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Suspene, C.;Miozzo, L.;Choi, J.;Gironda, R.;Geffroy, B.;Tondelier, D.;Bonnassieux, Y.;Horowitz, G.;Yassar, A.;
2:85:25 Disassembly-driven colorimetric and fluorescent sensor for anionic surfactants in water based on a conjugated polyelectrolyte/dye complex
DOI:10.1039/c1sm05526g JN:SOFT MATTER PY:2011 TC:9 AU: An, Yuxiu;Bai, Hua;Li, Chun;Shi, Gaoquan;
2:85:26 Nanostructuring of the conjugated polyelectrolyte poly[9,9-bis(4-sulfonylbutoxyphenyl) fluorene-2,7-diyl-2,2 '- bithiophene] in liquid crystalline C12E4 in bulk water and aligned thin films
DOI:10.1039/c4sm00092g JN:SOFT MATTER PY:2014 TC:1 AU: Knaapila, M.;Fonseca, S. M.;Stewart, B.;Torkkeli, M.;Perlich, J.;Pradhan, S.;Scherf, U.;Castro, R. A. E.;Burrows, H. D.;
2:85:27 Amphiphiles as hydrophobicity regulator: Fine tuning the surface hydrophobicity of an electropolymerized film
DOI:10.1016/j.jcis.2013.01.045 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:11 AU: Dutta, Kingshuk;Kundu, Patit Paban;
2:85:28 Reactive Photonic Film for Label-Free and Selective Sensing of Cyanide
DOI:10.1002/smll.201101934 JN:SMALL PY:2012 TC:16 AU: Li, Xuesong;Peng, Lihua;Cui, Jiecheng;Li, Weina;Lin, Changxu;Xu, Dan;Tian, Tian;Zhang, Guanxin;Zhang, Deqing;Li, Guangtao;
2:85:29 Polyanionic, Alkylthiosulfate-Based Thiol Precursors for Conjugated Polymer Self-Assembly onto Gold and Silver
DOI:10.1021/am5025148 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Kraft, Mario;Adamczyk, Sylwia;Polywka, Andreas;Zilberberg, Kirill;Weijtens, Christ;Meyer, Jens;Goerrn, Patrick;Riedl, Thomas;Scherf, Ullrich;
2:85:30 From Chain Collapse to New Structures: Spectroscopic Properties of Poly(3-thiophene acetic acid) upon Binding by Alkyl Trimethylammonium Bromide Surfactants
DOI:10.1021/la204862u JN:LANGMUIR PY:2012 TC:6 AU: Franco, I. Echavarri;Lorchat, P.;Lamps, J. -P.;Schmutz, M.;Schroeder, A.;Catala, J. -M.;Combet, J.;Schosseler, F.;
2:85:31 Energy transfer and dynamics studies of photoluminescence of polythiophene derivative in blend thin films
DOI:10.1063/1.3678453 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Wang, Zi-Han;Lee, Haiwon;Cui, Hai-Ning;
2:86:1 Multifunctional Colloids with Optical, Magnetic, and Superhydrophobic Properties Derived from Nucleophilic Substitution-Induced Layer-by-Layer Assembly in Organic Media
DOI:10.1021/nn200538a JN:ACS NANO PY:2011 TC:46 AU: Yoon, Miseon;Kim, Younghoon;Cho, Jinhan;
2:86:2 Electrically Bistable Properties of Layer-by-Layer Assembled Multilayers Based on Protein Nanoparticles
DOI:10.1021/nn2036939 JN:ACS NANO PY:2011 TC:29 AU: Ko, Yongmin;Kim, Younghoon;Baek, Hyunhee;Cho, Jinhan;
2:86:3 Amphiphilic Layer-by-Layer Assembly Overcoming Solvent Polarity between Aqueous and Nonpolar Media
DOI:10.1021/ja509168g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Park, Minkyung;Kim, Younghoon;Ko, Yongmin;Cheong, Sanghyuk;Ryu, Sook Won;Cho, Jinhan;
2:86:4 Hydrophobic Nanoparticle-Based Nanocomposite Films Using In Situ Ligand Exchange Layer-by-Layer Assembly and Their Nonvolatile Memory Applications
DOI:10.1021/nn3034524 JN:ACS NANO PY:2013 TC:16 AU: Ko, Yongmin;Baek, Hyunhee;Kim, Younghoon;Yoon, Miseon;Cho, Jinhan;
2:86:5 Nucleophilic Substitution Reaction Based Layer-by-Layer Growth of Superparamagnetic Nanocomposite Films with High Nonvolatile Memory Performance
DOI:10.1002/adma.201002142 JN:ADVANCED MATERIALS PY:2010 TC:25 AU: Kim, Younghoon;Lee, Chanwoo;Shim, Inbo;Wang, Dayang;Cho, Jinhan;
2:86:6 Control over Memory Performance of Layer-by-Layer Assembled Metal Phthalocyanine Multilayers via Molecular-Level Manipulation
DOI:10.1021/cm2033959 JN:CHEMISTRY OF MATERIALS PY:2012 TC:13 AU: Koo, Bonkee;Baek, Hyunhee;Cho, Jinhan;
2:86:7 Polymer/Perovskite-Type Nanoparticle Multilayers with Multielectric Properties Prepared from Ligand Addition-Induced Layer-by-Layer Assembly
DOI:10.1021/nn405988d JN:ACS NANO PY:2014 TC:8 AU: Kim, Younghoon;Kook, Kyungyun;Hwang, Sun Kak;Park, Cheolmin;Cho, Jinhan;
2:86:8 Solvent-Free Nanocomposite Colloidal Fluids with Highly Integrated and Tailored Functionalities: Rheological, Ionic Conduction, and Magneto-Optical Properties
DOI:10.1021/cm401560r JN:CHEMISTRY OF MATERIALS PY:2013 TC:5 AU: Kim, Donghee;Kim, Younghoon;Cho, Jinhan;
2:86:9 Multifunctional Colloids with Reversible Phase Transfer between Organic and Aqueous Media via Layer-by-Layer Assembly
DOI:10.1021/cm400207d JN:CHEMISTRY OF MATERIALS PY:2013 TC:7 AU: Yoon, Miseon;Choi, Jungkyu;Cho, Jinhan;
2:86:10 Layer-by-layer assembled enzyme multilayers with adjustable memory performance and low power consumption via molecular-level control
DOI:10.1039/c2jm16231h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Baek, Hyunhee;Lee, Chanwoo;Park, Jeongju;Kim, Younghoon;Koo, Bonkee;Shin, Hyunjung;Wang, Dayang;Cho, Jinhan;
2:86:11 Solvent-free nanoparticle fluids with highly collective functionalities for layer-by-layer assembly
DOI:10.1039/c2jm30815k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Kim, Younghoon;Kim, Donghee;Kwon, Ilyoung;Jung, Hyun Wook;Cho, Jinhan;
2:86:12 Electrochemical sensors based on porous nanocomposite films with weak polyelectrolyte-stabilized gold nanoparticles
DOI:10.1039/c1jm10560d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Kim, Sungwoo;Kim, Younghoon;Ko, Yongmin;Cho, Jinhan;
2:86:13 Resistive switching memory properties of layer-by-layer assembled enzyme multilayers
DOI:10.1088/0957-4484/23/15/155604 JN:NANOTECHNOLOGY PY:2012 TC:7 AU: Baek, Hyunhee;Lee, Chanwoo;Lim, Kwang-il;Cho, Jinhan;
2:86:14 Lead-Salt Quantum-Dot Ionic Liquids
DOI:10.1002/smll.200902218 JN:SMALL PY:2010 TC:26 AU: Sun, Liangfeng;Fang, Jason;Reed, Jason C.;Estevez, Luis;Bartnik, Adam C.;Hyun, Byung-Ryool;Wise, Frank W.;Malliaras, George G.;Giannelis, Emmanuel P.;
2:86:15 Nonvolatile memory properties of Pt nanoparticle-embedded TiO2 nanocomposite multilayers via electrostatic layer-by-layer assembly
DOI:10.1088/0957-4484/21/18/185704 JN:NANOTECHNOLOGY PY:2010 TC:16 AU: Lee, Chanwoo;Kim, Inpyo;Shin, Hyunjung;Kim, Sanghyo;Cho, Jinhan;
2:86:16 Cu2+ Ion Responsive Solvent-Free Quantum Dots
DOI:10.1002/smll.201400567 JN:SMALL PY:2014 TC:0 AU: Shi, Fangdan;Zhou, Juan;Zhang, Li;Huang, Yaoyao;Tian, Demei;Deng, Hongtao;Li, Haibing;
2:86:17 Resistive Switching Behavior in Gelatin Thin Films for Nonvolatile Memory Application
DOI:10.1021/am500815n JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Chang, Yu-Chi;Wang, Yeong-Her;
2:86:18 Multi-emission CdTe quantum dot nanofluids
DOI:10.1039/c1jm11306b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Zhou, Juan;Tian, Demei;Li, Haibing;
2:86:19 Hydrophobic Nanoparticle-Based Nanocomposite Films Using In Situ Ligand Exchange Layer-by-Layer Assembly and Their Nonvolatile Memory Applications (vol 7, pg 143, 2013)
DOI:10.1021/nn405346m JN:ACS NANO PY:2013 TC:2 AU: Ko, Yongmin;Baek, Hyunhee;Kim, Younghoon;Yoon, Miseon;Cho, Jinhan;
2:86:20 Layer-by-layer assembled multilayers using catalase-encapsulated gold nanoparticles
DOI:10.1088/0957-4484/21/37/375702 JN:NANOTECHNOLOGY PY:2010 TC:7 AU: Kim, Sungwoo;Park, Jeongju;Cho, Jinhan;
2:87:1 Flexible Sensors Based on Nanoparticles
DOI:10.1021/nn402728g JN:ACS NANO PY:2013 TC:37 AU: Segev-Bar, Meital;Haick, Hossam;
2:87:2 Flexible and Semitransparent Strain Sensors Based on Micromolded Pd Nanoparticle-Carbon mu-Stripes
DOI:10.1021/am2002873 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:13 AU: Radha, B.;Sagade, Abhay A.;Kulkarni, G. U.;
2:87:3 High-Sensitivity Strain Gauge Based on a Single Wire of Gold Nanoparticles Fabricated by Stop-and-Go Convective Self-Assembly
DOI:10.1021/nn201833y JN:ACS NANO PY:2011 TC:37 AU: Farcau, Cosmin;Sangeetha, Neralagatta M.;Moreira, Helena;Viallet, Benoit;Grisolia, Jeremie;Ciuculescu-Pradines, Diana;Ressier, Laurence;
2:87:4 Tunable Touch Sensor and Combined Sensing Platform: Toward Nanoparticle-based Electronic Skin
DOI:10.1021/am400757q JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:21 AU: Segev-Bar, Meital;Landman, Avigail;Nir-Shapira, Maayan;Shuster, Gregory;Haick, Hossam;
2:87:5 Zinc oxide nanoparticle-polymeric thin films for dynamic strain sensing
DOI:10.1007/s10853-010-4940-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:20 AU: Loh, Kenneth J.;Chang, Donghee;
2:87:6 Tunable Conductive Nanoparticle Wire Arrays Fabricated by Convective Self-Assembly on Nonpatterned Substrates
DOI:10.1021/nn102128w JN:ACS NANO PY:2010 TC:30 AU: Farcau, Cosmin;Moreira, Helena;Viallet, Benoit;Grisolia, Jeremie;Ressier, Laurence;
2:87:7 Thin Film Assemblies of Molecularly-Linked Metal Nanoparticles and Multifunctional Properties
DOI:10.1021/la901811g JN:LANGMUIR PY:2010 TC:33 AU: Wang, Lingyan;Luo, Jin;Schadt, Mark J.;Zhong, Chuan-Jian;
2:87:8 Molecularly Mediated Thin Film Assembly of Nanoparticles on Flexible Devices: Electrical Conductivity versus Device Strains in Different Gas/Vapor Environment
DOI:10.1021/nn201858c JN:ACS NANO PY:2011 TC:23 AU: Yin, Jun;Hu, Peipei;Luo, Jin;Wang, Lingyan;Cohen, Melissa F.;Zhong, Chuan-Jian;
2:87:9 Flexibility characteristics of a polyethylene terephthalate chemiresistor coated with a nanoparticle thin film assembly
DOI:10.1039/c3tc32332c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Shan, Shiyao;Zhao, Wei;Luo, Jin;Yin, Jun;Switzer, James C.;Joseph, Pharrah;Lu, Susan;Poliks, Mark;Zhong, Chuan-Jian;
2:87:10 Cross-Linked Gold Nanoparticles on Polyethylene: Resistive Responses to Tensile Strain and Vapors
DOI:10.1021/am301780b JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:14 AU: Olichwer, Natalia;Leib, Elisabeth W.;Halfar, Annelie H.;Petrov, Alexey;Vossmeyer, Tobias;
2:87:11 Towards strain gauges based on a self-assembled nanoparticle monolayer-SAXS study
DOI:10.1088/0957-4484/21/38/385702 JN:NANOTECHNOLOGY PY:2010 TC:16 AU: Siffalovic, P.;Chitu, L.;Vegso, K.;Majkova, E.;Jergel, M.;Weis, M.;Luby, S.;Capek, I.;Keckes, J.;Maier, G. A.;Satka, A.;Perlich, J.;Roth, S. V.;
2:87:12 Flexible Au nanoparticle arrays induced metal-enhanced fluorescence towards pressure sensors
DOI:10.1039/c0jm03176c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Ye, Changqing;Li, Mingzhu;Xue, Mianqi;Shen, Weizhi;Cao, Tingbing;Song, Yanlin;Jiang, Lei;
2:87:13 ZnO nanoparticles embedded in polyethylene-glycol (PEG) matrix as sensitive strain gauge elements
DOI:10.1007/s11051-014-2714-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:0 AU: Tang, Jun;Guo, Hao;An, Ping;Chen, Meng;Tsoukalas, D.;Shi, Yunbo;Liu, Jun;Xue, Chenyang;Zhang, Wendong;
2:87:14 High strain sensitivity controlled by the surface density of platinum nanoparticles
DOI:10.1088/0957-4484/23/28/285501 JN:NANOTECHNOLOGY PY:2012 TC:9 AU: Tanner, J. L.;Mousadakos, D.;Giannakopoulos, K.;Skotadis, E.;Tsoukalas, D.;
2:87:15 Electron transport in gold colloidal nanoparticle-based strain gauges
DOI:10.1088/0957-4484/24/9/095701 JN:NANOTECHNOLOGY PY:2013 TC:17 AU: Moreira, Helena;Grisolia, Jeremie;Sangeetha, Neralagatta M.;Decorde, Nicolas;Farcau, Cosmin;Viallet, Benoit;Chen, Ke;Viau, Guillaume;Ressier, Laurence;
2:87:16 An Electrical Rectifier Based on Au Nanoparticle Array Fabricated Using Direct-Write Electron Beam Lithography
DOI:10.1002/adfm.201103170 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:6 AU: Radha, Boya;Kulkarni, Giridhar U.;
2:87:17 Novel fabrication method of diverse one-dimensional Pt/ZnO hybrid nanostructures and its sensor application
DOI:10.1088/0957-4484/22/3/035601 JN:NANOTECHNOLOGY PY:2011 TC:21 AU: Lim, Mi Ae;Lee, Young Wook;Han, Sang Woo;Park, Inkyu;
2:87:18 Pt/CdTe/Pt asymmetric nano-Schottky diodes from colloidal quantum dots
DOI:10.1063/1.3669408 JN:AIP ADVANCES PY:2011 TC:2 AU: Khatei, Jayakrishna;Rao, K. S. R. Koteswara;
2:87:19 Tactile Imaging of an Imbedded Palpable Structure for Breast Cancer Screening
DOI:10.1021/am5046789 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Chieu Van Nguyen;Saraf', Ravi F.;
2:87:20 Flexible chemiresistor sensors: thin film assemblies of nanoparticles on a polyethylene terephthalate substrate
DOI:10.1039/b920957c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:22 AU: Wang, Lingyan;Luo, Jin;Yin, Jun;Zhang, Hao;Wu, Jinhui;Shi, Xiajing;Crew, Elizabeth;Xu, Zhe;Qiang Rendeng;Lu, Susan;Poliks, Mark;Sammakia, Bahgat;Zhong, Chuan-Jian;
2:87:21 Electron transport in a gold nanoparticle assembly structure stabilized by a physisorbed porphyrin derivative
DOI:10.1103/PhysRevB.82.205420 JN:PHYSICAL REVIEW B PY:2010 TC:14 AU: Noda, Yuki;Noro, Shin-ichiro;Akutagawa, Tomoyuki;Nakamura, Takayoshi;
2:87:22 Piezoresistive Properties of Ag/Silica Nano-Composite Thin Films Close to the Percolation Threshold
DOI:10.1002/adfm.201303775 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Das Gupta, T.;Gacoin, T.;Rowe, A. C. H.;
2:87:23 Gold nanoparticle wire and integrated wire array for electronic detection of chemical and biological molecules
DOI:10.1063/1.3568815 JN:AIP ADVANCES PY:2011 TC:8 AU: Diao, J. J.;Cao, Qing;
2:87:24 Aligned Magnetic Domains in p- and n-Type Ferromagnetic Nanocrystals and in pn-Junction Nanodiodes
DOI:10.1021/am4039147 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:0 AU: Bera, Abhijit;Pal, Amlan J.;
2:87:25 Rapid Microwave-Assisted Deposition of Microwire Patterns of Nanoaluminum and Nanosilver from Colloids
DOI:10.1021/am900505n JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:6 AU: Olgun, Ugursoy;
2:87:26 Formation of a polymer particle monolayer by continuous self-assembly from a colloidal solution
DOI:10.1016/j.jcis.2011.07.092 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:4 AU: Kim, Soohyun;Choi, Hee-Dok;Kim, Il-Doo;Lee, Jong-Chan;Rhee, Bum Ku;Lim, Jung Ah;Hong, Jae-Min;
2:87:27 Direct, Rapid, Facile Photochemical Method for Preparing Copper Nanoparticles and Copper Patterns
DOI:10.1021/la303244p JN:LANGMUIR PY:2012 TC:8 AU: Zhu, Xiaoqun;Wang, Bowen;Shi, Feng;Nie, Jun;
2:87:28 Correlations between mechanical stress, electrical conductivity and nanostructure in Al films on a polymer substrate
DOI:10.1016/j.matchar.2009.12.016 JN:MATERIALS CHARACTERIZATION PY:2010 TC:8 AU: Bautista, J. R.;Aviles, F.;Oliva, A. I.;Ceh, O.;Corona, J. E.;
2:87:29 Total internal reflection ellipsometry of metal-organic compound structures modified with gold nanoparticles
DOI:10.1016/j.tsf.2010.12.170 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Balevicius, Z.;Drevinskas, R.;Dapkus, M.;Babonas, G. J.;Ramanaviciene, A.;Ramanavicius, A.;
2:88:1 Charge-transfer complexes: new perspectives on an old class of compounds
DOI:10.1039/c3tc32062f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:19 AU: Goetz, Katelyn P.;Vermeulen, Derek;Payne, Margaret E.;Kloc, Christian;McNeil, Laurie E.;Jurchescu, Oana D.;
2:88:2 Tailor-Made Highly Luminescent and Ambipolar Transporting Organic Mixed Stacked Charge-Transfer Crystals: An Isometric Donor-Acceptor Approach
DOI:10.1021/ja312197b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:40 AU: Park, Sang Kyu;Varghese, Shinto;Kim, Jong H.;Yoon, Seong-Jun;Kwon, Oh Kyu;An, Byeong-Kwan;Gierschner, Johannes;Park, Soo Young;
2:88:3 Sulfur-Bridged Annulene-TCNQ Co-Crystal: A Self-Assembled Molecular Level Heterojunction'' with Air Stable Ambipolar Charge Transport Behavior
DOI:10.1002/adma.201200578 JN:ADVANCED MATERIALS PY:2012 TC:43 AU: Zhang, Jing;Geng, Hua;Virk, Tarunpreet Singh;Zhao, Yan;Tan, Jiahui;Di, Chong-an;Xu, Wei;Singh, Kamaljit;Hu, Wenping;Shuai, Zhigang;Liu, Yunqi;Zhu, Daoben;
2:88:4 Laterally-Stacked, Solution-Processed Organic Microcrystal With Ambipolar Charge Transport Behavior
DOI:10.1021/am5044505 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Shim, Hyunseok;Kumar, Amit;Cho, Hyejin;Yang, Dongmyung;Palai, Akshaya K.;Pyo, Seungmoon;
2:88:5 Prediction of Remarkable Ambipolar Charge-Transport Characteristics in Organic Mixed-Stack Charge-Transfer Crystals
DOI:10.1021/ja210284s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:45 AU: Zhu, Lingyun;Yi, Yuanping;Li, Yuan;Kim, Eung-Gun;Coropceanu, Veaceslav;Bredas, Jean-Luc;
2:88:6 Ground State Bleaching at Donor-Acceptor Interfaces
DOI:10.1002/adfm.201400297 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Schwarz, Christian;Milan, Felix;Hahn, Tobias;Reichenberger, Markus;Kuemmel, Stephan;Koehler, Anna;
2:88:7 Charge-Transfer Complex Crystal Based on Extended--Conjugated Acceptor and Sulfur-Bridged Annulene: Charge-Transfer Interaction and Remarkable High Ambipolar Transport Characteristics
DOI:10.1002/adma.201400056 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Qin, Yunke;Zhang, Jing;Zheng, Xiaoyan;Geng, Hua;Zhao, Guangyao;Xu, Wei;Hu, Wenping;Shuai, Zhigang;Zhu, Daoben;
2:88:8 Fullerene/Sulfur-Bridged Annulene Cocrystals: Two-Dimensional Segregated Heterojunctions with Ambipolar Transport Properties and Photoresponsivity
DOI:10.1021/ja310098k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:29 AU: Zhang, Jing;Tan, Jiahui;Ma, Zhiying;Xu, Wei;Zhao, Guangyao;Geng, Hua;Di, Chong'an;Hu, Wenping;Shuai, Zhigang;Singh, Kamaljit;Zhu, Daoben;
2:88:9 Enhancement of the p-channel performance of sulfur-bridged annulene through a donor-acceptor co-crystal approach
DOI:10.1039/c4tc01876a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Zhang, Jing;Zhao, Guangyao;Qin, Yunke;Tan, Jiahui;Geng, Hua;Xu, Wei;Hu, Wenping;Shuai, Zhigang;Zhu, Daoben;
2:88:10 High-Mobility Field Effect Transistors Based on Supramolecular Charge Transfer Nanofibres
DOI:10.1002/adma.201203926 JN:ADVANCED MATERIALS PY:2013 TC:21 AU: Sagade, Abhay A.;Rao, K. Venkata;Mogera, Umesha;George, Subi J.;Datta, Ayan;Kulkarni, Giridhar U.;
2:88:11 Electronic Ferroelectricity in a Molecular Crystal with Large Polarization Directing Antiparallel to Ionic Displacement
DOI:10.1103/PhysRevLett.108.237601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:24 AU: Kobayashi, Kensuke;Horiuchi, Sachio;Kumai, Reiji;Kagawa, Fumitaka;Murakami, Youichi;Tokura, Yoshinori;
2:88:12 Fullerene/Cobalt Porphyrin Hybrid Nanosheets with Ambipolar Charge Transporting Characteristics
DOI:10.1021/ja211951v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:25 AU: Wakahara, Takatsugu;D'Angelo, Pasquale;Miyazawa, Kun'ichi;Nemoto, Yoshihiro;Ito, Osamu;Tanigaki, Nobutaka;Bradley, Donal D. C.;Anthopoulos, Thomas D.;
2:88:13 Preparation and ambipolar transistor characteristics of co-crystal microrods of dibenzotetrathiafulvalene and tetracyanoquinodimethane
DOI:10.1039/c3tc30112e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Wu, Hao-Di;Wang, Feng-Xia;Xiao, Yan;Pan, Ge-Bo;
2:88:14 Electric-Field Control of Solitons in a Ferroelectric Organic Charge-Transfer Salt
DOI:10.1103/PhysRevLett.104.227602 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:16 AU: Kagawa, F.;Horiuchi, S.;Matsui, H.;Kumai, R.;Onose, Y.;Hasegawa, T.;Tokura, Y.;
2:88:15 Lock-Arm Supramolecular Ordering: A Molecular Construction Set for Cocrystallizing Organic Charge Transfer Complexes
DOI:10.1021/ja509442t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Blackburn, Anthea K.;Sue, Andrew C. -H.;Shveyd, Alexander K.;Cao, Dennis;Tayi, Alok;Narayanan, Ashwin;Rolczynski, Brian S.;Szarko, Jodi M.;Bozdemir, Ozgur A.;Wakabayashi, Rie;Lehrman, Jessica A.;Kahr, Bart;Chen, Lin X.;Nassar, Majed S.;Stupp, Samuel I.;Stoddart, J. Fraser;
2:88:16 Preparation of nano/microstructures of CuOEP-TCNQ cocrystals with controlled stacking and their photoresponse properties
DOI:10.1039/c3tc32159b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Wu, Hao-Di;Wang, Feng-Xia;Xiao, Yan;Pan, Ge-Bo;
2:88:17 Competition between Charge-Transfer Exciton Dissociation and Direct Photocarrier Generation in Molecular Donor-Acceptor Compounds
DOI:10.1103/PhysRevLett.105.226601 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:12 AU: Tsutsumi, Jun'ya;Yamada, Toshikazu;Matsui, Hiroyuki;Haas, Simon;Hasegawa, Tatsuo;
2:88:18 First charge-transfer complexes between tetrathiafulvalene and 1,2,5-chalcogenadiazole derivatives: Design, synthesis, crystal structures, electronic and electrical properties
DOI:10.1016/j.synthmet.2012.10.026 JN:SYNTHETIC METALS PY:2012 TC:13 AU: Pushkarevsky, Nikolay A.;Lonchakov, Anton V.;Semenov, Nikolay A.;Lork, Enno;Buravov, Lev I.;Konstantinova, Lidia S.;Silber, Georg T.;Robertson, Neil;Gritsan, Nina P.;Rakitin, Oleg A.;Woollins, J. Derek;Yagubskii, Eduard B.;Beckmann, Jens;Zibarev, Andrey V.;
2:88:19 Measurement of a Photoinduced Transition from a Nonordered Phase to a Transient Ordered Phase in the Organic Quantum-Paraelectric Compound dimethyltetrathiafulvalene-dibromodichloro-p-benzoquinone Using Femtosecond Laser Irradiation
DOI:10.1103/PhysRevLett.111.187801 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:0 AU: Miyamoto, Tatsuya;Kimura, Kazuki;Hamamoto, Takanori;Uemura, Hirotaka;Yada, Hiroyuki;Matsuzaki, Hiroyuki;Horiuchi, Sachio;Okamoto, Hiroshi;
2:88:20 Keys for the Existence of Stable Dimers of Bis-tetrathiafulvalene (bis-TTF)-Functionalized Molecular Clips Presenting [TTF](center dot+)center dot center dot center dot[TTF](center dot+) Long, Multicenter Bonds at Room Temperature
DOI:10.1021/ja405352p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Fumanal, Maria;Capdevila-Cortada, Marcal;Miller, Joel S.;Novoa, Juan J.;
2:88:21 Design of Ferroelectric Organic Molecular Crystals with Ultrahigh Polarization
DOI:10.1021/ja5017393 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Chen, Shuang;Zeng, Xiao Cheng;
2:88:22 LBIC and Reflectance Mapping of Multicrystalline Si Solar Cells
DOI:10.1007/s11664-010-1174-8 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:12 AU: Moralejo, B.;Gonzalez, M. A.;Jimenez, J.;Parra, V.;Martinez, O.;Gutierrez, J.;Charro, O.;
2:88:23 Correlated electrons in soft lattices: Raman scattering evidence of the nonequilibrium dielectric divergence at the neutral-ionic phase transition
DOI:10.1103/PhysRevB.83.161105 JN:PHYSICAL REVIEW B PY:2011 TC:1 AU: D'Avino, Gabriele;Masino, Matteo;Girlando, Alberto;Painelli, Anna;
2:89:1 Indium tin oxide nanopillar electrodes in polymer/fullerene solar cells
DOI:10.1088/0957-4484/22/8/085706 JN:NANOTECHNOLOGY PY:2011 TC:30 AU: Rider, David A.;Tucker, Ryan T.;Worfolk, Brian J.;Krause, Kathleen M.;Lalany, Abeed;Brett, Michael J.;Buriak, Jillian M.;Harris, Kenneth D.;
2:89:2 Indium Tin Oxide Nanorod Electrodes for Polymer Photovoltaics
DOI:10.1021/am101097d JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:20 AU: Fung, Man Kin;Sun, Ye Chuan;Ng, Annie;Ng, Alan Man Ching;Djurisic, Aleksandra B.;Chan, Hung Tat;Chan, Wai Kin;
2:89:3 Indium tin oxide nanowhisker morphology control by vapour-liquid-solid glancing angle deposition
DOI:10.1088/0957-4484/23/10/105608 JN:NANOTECHNOLOGY PY:2012 TC:19 AU: Beaudry, A. L.;Tucker, R. T.;LaForge, J. M.;Taschuk, M. T.;Brett, M. J.;
2:89:4 Surface Area Characterization of Obliquely Deposited Metal Oxide Nanostructured Thin Films
DOI:10.1021/la903444e JN:LANGMUIR PY:2010 TC:37 AU: Krause, Kathleen M.;Taschuk, Michael T.;Harris, Ken D.;Rider, David A.;Wakefield, Nicholas G.;Sit, Jeremy C.;Buriak, Jillian M.;Thommes, Matthias;Brett, Michael J.;
2:89:5 Conductivity control of as-grown branched indium tin oxide nanowire networks
DOI:10.1088/0957-4484/25/3/035701 JN:NANOTECHNOLOGY PY:2014 TC:6 AU: La Forge, J. M.;Cocker, T. L.;Beaudry, A. L.;Cui, K.;Tucker, R. T.;Taschuk, M. T.;Hegmann, F. A.;Brett, M. J.;
2:89:6 Embedded indium-tin-oxide nanoelectrodes for efficiency and lifetime enhancement of polymer-based solar cells
DOI:10.1063/1.3395395 JN:APPLIED PHYSICS LETTERS PY:2010 TC:26 AU: Yu, Peichen;Chang, Chia-Hua;Su, Ming-Shin;Hsu, Min-Hsiang;Wei, Kung-Hwa;
2:89:7 Effect of TiO2 film porosity and thermal processing on TiO2-P3HT hybrid materials and photovoltaic device performance
DOI:10.1016/j.solmat.2010.08.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:20 AU: Gerein, Nathan J.;Fleischauer, Michael D.;Brett, Michael J.;
2:89:8 Nanopillar ITO electrodes via argon plasma etching
DOI:10.1116/1.4729592 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:4 AU: Van Dijken, Jaron G.;Brett, Michael J.;
2:89:9 Indium tin oxide nanowires growth by dc sputtering
DOI:10.1007/s00339-011-6372-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:13 AU: Fung, M. K.;Sun, Y. C.;Ng, A. M. C.;Chen, X. Y.;Wong, K. K.;Djurisic, A. B.;Chan, W. K.;
2:89:10 Towards engineered branch placement: Unreal (TM) match between vapour-liquid-solid glancing angle deposition nanowire growth and simulation
DOI:10.1063/1.4854535 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Taschuk, M. T.;Tucker, R. T.;LaForge, J. M.;Beaudry, A. L.;Kupsta, M. R.;Brett, M. J.;
2:89:11 Dye-sensitized nanostructured crystalline mesoporous tin-doped indium oxide films with tunable thickness for photoelectrochemical applications
DOI:10.1039/c3ta10728k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:7 AU: Hamd, W.;Chavarot-Kerlidou, M.;Fize, J.;Muller, G.;Leyris, A.;Matheron, M.;Courtin, E.;Fontecave, M.;Sanchez, C.;Artero, V.;Laberty-Robert, C.;
2:89:12 Axial resistivity measurement of a nanopillar ensemble using a cross-bridge Kelvin architecture
DOI:10.1116/1.4794182 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:4 AU: Lalany, Abeed;Tucker, Ryan Thomas;Taschuk, Michael Thomas;Fleischauer, Michael David;Brett, Michael Julian;
2:89:13 A little ribbing: Flux starvation engineering for rippled indium tin oxide nanotree branches
DOI:10.1063/1.4764508 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Tucker, Ryan T.;Beaudry, Allan L.;LaForge, Joshua M.;Taschuk, Michael T.;Brett, Michael J.;
2:89:14 Unraveling the Mechanism of Catalytic Reduction of O-2 by Microperoxidase-11 Adsorbed within a Transparent 3D-Nanoporous ITO Film
DOI:10.1021/ja301193s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Renault, Christophe;Andrieux, Claude P.;Tucker, Ryan T.;Brett, Michael J.;Balland, Veronique;Limoges, Benoit;
2:89:15 Highly sensitive double-layered nanorod array gas sensors prepared by oblique angle deposition
DOI:10.1063/1.4866047 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yao, Kun;Toole, Ryan;Basnet, Pradip;Zhao, Yiping;
2:89:16 Metal oxide morphology in argon-assisted glancing angle deposition
DOI:10.1116/1.3687204 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:8 AU: Sorge, J. B.;Taschuk, M. T.;Wakefield, N. G.;Sit, J. C.;Brett, M. J.;
2:89:17 Taking a Little off the Top: Nanorod Array Morphology and Growth Studied by Focused Ion Beam Tomography
DOI:10.1021/la103070x JN:LANGMUIR PY:2010 TC:10 AU: Krause, Kathleen M.;Vick, Douglas W.;Malac, Marek;Brett, Michael J.;
2:89:18 Facile fabrication and biological application of tin-rich indium tin oxide nanorods
DOI:10.1063/1.3309587 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Kumar, Nitin;Parajuli, Omkar;Feng, Man;Xu, Jian;Hahm, Jong-in;
2:89:19 Vapor-liquid-solid growth of Ge nanowhiskers enhanced by high-temperature glancing angle deposition
DOI:10.1063/1.3664777 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Suzuki, Motofumi;Hamachi, Kenji;Hara, Hideki;Nakajima, Kaoru;Kimura, Kenji;Hsu, Chia-Wei;Chou, Li-Jen;
2:89:20 Spectroelectrochemical Characterization of Small Hemoproteins Adsorbed within Nanostructured Mesoporous ITO Electrodes
DOI:10.1021/la302913j JN:LANGMUIR PY:2012 TC:18 AU: Schaming, Delphine;Renault, Christophe;Tucker, Ryan T.;Lau-Truong, Stephanie;Aubard, Jean;Brett, Michael J.;Balland, Veronique;Limoges, Benoit;
2:89:21 Phase formation and morphology control of niobium oxide nanopillars
DOI:10.1016/j.mseb.2011.02.005 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:7 AU: Tucker, Ryan T.;Fleischauer, Michael D.;Shewchuk, Ryan M.;Schoeller, Andrea E.;Brett, Michael;
2:89:22 On the uniformity of films fabricated by glancing angle deposition
DOI:10.1063/1.3559748 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Wakefield, Nicholas G.;Sit, Jeremy C.;
2:89:23 Ubiquitous carrier harvesting in organic solar cells with embedded indium-tin-oxide nano-electrodes
DOI:10.1016/j.solmat.2013.07.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:0 AU: Hsu, Min-Hsiang;Chen, Po-Han;Yu, Peichen;Huang, Jen-Hsien;Chang, Chia-Hua;Cheng, Yu-Chih;Chu, Chih-Wei;
2:89:24 Film morphology modification in ion-assisted glancing angle deposition
DOI:10.1016/j.tsf.2010.09.054 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Sorge, J. B.;Brett, M. J.;
2:89:25 Position- and orientation-controlled polarized light interaction of individual indium tin oxide nanorods
DOI:10.1063/1.4866794 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Choi, Daniel S.;Joh, Daniel Y.;Lee, Thomas;Milchak, Marissa;Zhou, Hebing;Kang, Yongkoo;Hahm, Jong-in;
2:89:26 Enhanced charge collection via nanoporous morphology in polymer solar cells
DOI:10.1063/1.3359425 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Lee, Hang Ken;Jeon, Ji Hye;Wang, Dong Hwan;Park, O. Ok;Kim, Jai-Kyung;Im, Sang Hyuk;Park, Jong Hyeok;
2:89:27 Glancing angle deposition on a roll: Towards high-throughput nanostructured thin films
DOI:10.1116/1.4798947 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:8 AU: Krause, Kathleen M.;Taschuk, Michael T.;Brett, Michael J.;
2:89:28 Nanostructuring thin Au films on transparent conductive oxide substrates
DOI:10.1016/j.mseb.2012.10.012 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:2 AU: Ruffino, F.;Crupi, I.;Carria, E.;Kimiagar, S.;Simone, F.;Grimaldi, M. G.;
2:89:29 Method for electrical characterization of nanowires
DOI:10.1088/0957-4484/22/43/435705 JN:NANOTECHNOLOGY PY:2011 TC:5 AU: Gurwitz, Ron;Shalish, Ilan;
2:89:30 Significant shear mode softening in a c-axis tilt nanostructured hexagonal thin film induced by a self-shadowing effect
DOI:10.1016/j.scriptamat.2013.08.011 JN:SCRIPTA MATERIALIA PY:2013 TC:0 AU: Yanagitani, T.;Suzuki, M.;
2:89:31 Optical transmission properties of C-shaped subwavelength waveguides on silicon
DOI:10.1063/1.3455839 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Lopatiuk-Tirpak, O.;Ma, J.;Fathpour, S.;
2:89:32 Single-material multilayer with enhanced photoactivity
DOI:10.1063/1.3502480 JN:APPLIED PHYSICS LETTERS PY:2010 TC:0 AU: Beydaghyan, Gisia;Boudreau, Mathieu;Riordon, Jason;Hache, Alain;Ashrit, P. V.;
2:89:33 Tailored Nanoporous Coatings Fabricated on Conformable Polymer Substrates
DOI:10.1021/am301882m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:2 AU: Poxson, David J.;Mont, Frank W.;Cho, Jaehee;Schubert, E. Fred;Siegel, Richard W.;
2:89:34 Low-reflective wire-grid polarizers with absorptive interference overlayers
DOI:10.1088/0957-4484/21/17/175604 JN:NANOTECHNOLOGY PY:2010 TC:6 AU: Suzuki, Motofumi;Takada, Akio;Yamada, Takatoshi;Hayasaka, Takashi;Sasaki, Kouji;Takahashi, Eiji;Kumagai, Seiji;
2:90:1 Enhancing the performance of P3HT:ICBA based polymer solar cells using LiF as electron collecting buffer layer and UV-ozone treated MoO3 as hole collecting buffer layer
DOI:10.1016/j.solmat.2012.12.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:24 AU: Cheng, Fei;Fang, Guojia;Fan, Xi;Huang, Huihui;Zheng, Qiao;Qin, Pingli;Lei, Hongwei;Li, Yongfang;
2:90:2 Performance Optimization of Polymer Solar Cells Using Electrostatically Sprayed Photoactive Layers
DOI:10.1002/adfm.201000433 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:56 AU: Kim, Joon-Sung;Chung, Won-Suk;Kim, Kyungkon;Kim, Dong Young;Paeng, Ki-Jung;Jo, Seong Mu;Jang, Sung-Yeon;
2:90:3 Enhancing the short-circuit current and efficiency of organic solar cells using MoO3 and CuPc as buffer layers
DOI:10.1016/j.solmat.2011.06.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:23 AU: Cheng, Fei;Fang, Guojia;Fan, Xi;Liu, Nishuang;Sun, Nanhai;Qin, Pingli;Zheng, Qiao;Wan, Jiawei;Zhao, Xingzhong;
2:90:4 Inverted small molecule organic solar cells with Ca modified ITO as cathode and MoO3 modified
DOI:10.1016/j.solmat.2010.08.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:37 AU: Zhang, F. J.;Zhao, D. W.;Zhuo, Z. L.;Wang, H.;Xu, Z.;Wang, Y. S.;
2:90:5 Efficient Bulk Heterojunction Solar Cells with Poly[2,7-(9,9-dihexylfluorene)-alt-bithiophene] and 6.6-Phenyl C61 Butyric Acid Methyl Ester Blends and Their Application in Tandem Cells
DOI:10.1021/am900823b JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:37 AU: Zhao, Dewei;Tang, Weihua;Ke, Lin;Tan, Swee Tiam;Sun, Xiao Wei;
2:90:6 Facile external treatment for efficient nanoscale morphology control of polymer solar cells using a gas-assisted spray method
DOI:10.1039/c0jm03899g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Park, Hye-Yun;Kim, Kyungkon;Kim, Dong Young;Choi, Si-Kyung;Jo, Seong Mu;Jang, Sung-Yeon;
2:90:7 Inspection of substrate-heated modified PEDOT:PSS morphology for all spray deposited organic photovoltaics
DOI:10.1016/j.solmat.2010.03.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:36 AU: Kim, Kyu-Jin;Kim, Yeong-Seon;Kang, Won-Seok;Kang, Byoung-Ho;Yeom, Se-Hyuk;Kim, Do-Eok;Kim, Jae-Ho;Kang, Shin-Won;
2:90:8 Morphology controlled bulk-heterojunction layers of fully electro-spray coated organic solar cells
DOI:10.1016/j.solmat.2012.06.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:18 AU: Kim, Yonghee;Kim, Geunjin;Lee, Jongjin;Lee, Kwanghee;
2:90:9 UV-Ozone Treatment on Cs2CO3 Interfacial Layer for the Improvement of Inverted Polymer Solar Cells
DOI:10.1155/2013/104825 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:0 AU: Xin, Yusheng;Wang, Zixuan;Xu, Lu;Xu, Xiaowei;Liu, Yang;Zhang, Fujun;
2:90:10 Efficient solvent-assisted external treatment for planar heterojunction small-molecule organic solar cells
DOI:10.1039/c4ta01154f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Kim, Jinhyun;Heo, Ilsu;Park, Dasom;Ahn, Sang Jung;Jang, Sung-Yeon;Yim, Sanggyu;
2:90:11 Controlled electro-spray deposition of highly conductive PEDOT:PSS films
DOI:10.1016/j.solmat.2011.10.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:19 AU: Kim, Yonghee;Lee, Jongjin;Kang, Hongkyu;Kim, Geunjin;Kim, Nara;Lee, Kwanghee;
2:90:12 Enhancement of the performance of organic solar cells by electrospray deposition with optimal solvent system
DOI:10.1016/j.solmat.2013.10.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:11 AU: Zhao, Xin-Yan;Wang, Xizu;Lim, Siew Lay;Qi, Dongchen;Wang, Rui;Gao, ZhiQiang;Mi, BaoXiu;Chen, Zhi-Kuan;Huang, Wei;Deng, Weiwei;
2:90:13 Spray deposition of electrohydrodynamically atomized polymer mixture for active layer fabrication in organic photovoltaics
DOI:10.1016/j.solmat.2010.04.057 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:15 AU: Park, Sung-Eun;Hwang, Jun-Young;Kim, Kangmin;Jung, Buyoung;Kim, Woochul;Hwang, Jungho;
2:90:14 Flexible polymer solar cell modules with patterned vanadium suboxide layers deposited by an electro-spray printing method
DOI:10.1016/j.solmat.2014.07.053 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Back, Hyungcheol;Kong, Jaemin;Kang, Hongkyu;Kim, Junghwan;Kim, Jae-Ryoung;Lee, Kwanghee;
2:90:15 Pentacene nanostructural interlayer for the efficiency improvement of polymer solar cells
DOI:10.1016/j.tsf.2010.12.252 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Zhang, Fujun;Li, Yuan;Tang, Weihua;Wang, Jian;Xu, Xiaowei;Zhuo, Zuliang;Xu, Zheng;Wang, Yongsheng;Carroll, David;
2:90:16 Morphology characterization of phenyl-C61-butyric acid methyl ester films via an electrohydrodynamic spraying route
DOI:10.1016/j.tsf.2013.11.009 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Park, Sung-Eun;Park, Ji-Woon;Hwang, Jungho;
2:90:17 Variability of physical characteristics of electro-sprayed poly(3-hexylthiophene) thin films
DOI:10.1063/1.3633519 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Ali, M.;Abbas, M.;Shah, S. K.;Bontempi, E.;Colombi, P.;Di Cicco, A.;Gunnella, R.;
2:90:18 Nanoimprint-Induced Molecular Stacking and Pattern Stabilization in a Solution-Processed Subphthalocyanine Film
DOI:10.1021/nn100075t JN:ACS NANO PY:2010 TC:11 AU: Liang, Xiaogan;Chen, Teresa;Jung, Yeon-Sik;Miyamoto, Yoshikazu;Han, Gang;Cabrini, Stefano;Ma, Biwu;Olynick, Deirdre L.;
2:90:19 Electrospray aerosol deposition of water soluble polymer thin films
DOI:10.1016/j.apsusc.2013.10.124 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Sweet, Marshall L.;Pestov, Dmitry;Tepper, Gary C.;McLeskey, James T., Jr.;
2:90:20 Electronic absorption band broadening and surface roughening of phthalocyanine double layers by saturated solvent vapor treatment
DOI:10.1016/j.materresbull.2012.04.132 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:4 AU: Kim, Jinhyun;Yim, Sanggyu;
2:90:21 Pentacene doping for the efficiency improvement of polymer solar cells
DOI:10.1016/j.synthmet.2011.07.023 JN:SYNTHETIC METALS PY:2011 TC:1 AU: Du, Hailiang;Deng, Zhenbo;Lun, Jianchao;Zhou, Maoyang;Yin, Yuehong;Zou, Ye;Lu, Zhaoyue;Chen, Zheng;Wang, Yongsheng;
2:90:22 Fabrication of conducting poly(3,4-ethylenedioxythiophene): poly(styrenesulfonate) thin films by ultrasonic spray-assisted mist deposition method
DOI:10.1016/j.tsf.2011.09.067 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Ikenoue, Takumi;Nishinaka, Hiroyuki;Fujita, Shizuo;
2:91:1 Semitransparent Polymer Solar Cells with 5% Power Conversion Efficiency Using Photonic Crystal Reflector
DOI:10.1021/am405274z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:11 AU: Yu, Wenjuan;Shen, Liang;Shen, Ping;Long, Yongbing;Sun, Hongwei;Chen, Weiyou;Ruan, Shengping;
2:91:2 Semitransparent inverted polymer solar cells using MoO3/Ag/WO3 as highly transparent anodes
DOI:10.1016/j.solmat.2010.11.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:28 AU: Li, Fumin;Ruan, Shengping;Xu, Yang;Meng, Fanxu;Wang, Jialue;Chen, Weiyou;Shen, Liang;
2:91:3 Effects of the optical microcavity on the performance of ITO-free polymer solar cells with WO3/Ag/WO3 transparent electrode
DOI:10.1016/j.solmat.2012.01.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:30 AU: Yu, Wenjuan;Shen, Liang;Meng, Fanxu;Long, Yongbing;Ruan, Shengping;Chen, Weiyou;
2:91:4 Effects of metal electrode reflection and layer thicknesses on the performance of inverted organic solar cells
DOI:10.1016/j.solmat.2009.12.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:36 AU: Long, Yongbing;
2:91:5 Light harvesting enhancement toward low IPCE region of semitransparent polymer solar cells via one-dimensional photonic crystal reflectors
DOI:10.1016/j.solmat.2014.04.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Yu, Wenjuan;Ruan, Shengping;Long, Yongbing;Shen, Liang;Guo, Wenbin;Chen, Weiyou;
2:91:6 Performance improvement of inverted polymer solar cells thermally evaporating CuI as an anode buffer layer
DOI:10.1016/j.synthmet.2014.09.035 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Jia, Xu;Shen, Liang;Liu, Yan;Yu, Wenjuan;Gao, Xing;Song, Yumeng;Guo, Wenbin;Ruan, Shengping;Chen, Weiyou;
2:91:7 Simultaneously improving optical absorption of both transverse-electric polarized and transverse-magnetic polarized light for organic solar cells with Ag grating used as transparent electrode
DOI:10.1063/1.4894485 JN:AIP ADVANCES PY:2014 TC:1 AU: Long, Yongbing;Li, Yuanxing;Su, Runmei;
2:91:8 Enhancement of the short circuit current in organic photovoltaic devices with microcavity structures
DOI:10.1063/1.3480612 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Lee, Jane;Kim, Sei-Yong;Kim, Changsoon;Kim, Jang-Joo;
2:91:9 Simultaneous improvement in efficiency and transmittance of low bandgap semitransparent polymer solar cells with one-dimensional photonic crystals
DOI:10.1016/j.solmat.2013.06.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Yu, Wenjuan;Shen, Liang;Shen, Ping;Meng, Fanxu;Long, Yongbing;Wang, Yanan;Lv, Tongyun;Ruan, Shengping;Chen, Geheng;
2:91:10 Red and near-infrared absorption enhancement for low bandgap polymer solar cells by combining the optical microcavity and optical spacers
DOI:10.1016/j.solmat.2011.07.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Long, Yongbing;
2:91:11 Performance improvement of inverted polymer solar cells thermally evaporating nickel oxide as an anode buffer layer
DOI:10.1016/j.solmat.2011.11.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:20 AU: Yu, Wenjuan;Shen, Liang;Ruan, Shengping;Meng, Fanxu;Wang, Jialue;Zhang, Enrui;Chen, Weiyou;
2:91:12 Optimizing the light absorption of graphene-based organic solar cells by tailoring the weak microcavity with dielectric/graphene/dielectric multilayer
DOI:10.1063/1.4817801 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Chen, Yi;Long, Yongbing;Liu, Yangtian;Shen, Liang;Zhang, Yangdong;Deng, Qiguang;Zheng, Zhuoshen;Yu, Wenjuan;Ruan, Shenping;
2:91:13 Semitransparent polymer solar cells with one-dimensional (WO3/LiF)(N) photonic crystals
DOI:10.1063/1.4760229 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Yu, Wenjuan;Shen, Liang;Long, Yongbing;Guo, Wenbin;Meng, Fanxu;Ruan, Shengping;Jia, Xu;Ma, Hongshi;Chen, Weiyou;
2:91:14 Short-circuit current density improvement of inverted polymer solar cells using PbPc to enhance photon absorption over 600 nm
DOI:10.1016/j.solmat.2010.08.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:10 AU: Shen, Liang;Xu, Yang;Zhang, Xindong;Meng, Fanxu;Ruan, Shengping;Chen, Weiyou;
2:91:15 Improving optical performance of low bandgap polymer solar cells by the two-mode moderate microcavity
DOI:10.1063/1.3541960 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Long, Yongbing;
2:91:16 Semitransparent inverted polymer solar cells using MoO3/Ag/V2O5 as transparent anodes
DOI:10.1016/j.solmat.2011.09.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Shen, Liang;Ruan, Shengping;Guo, Wenbin;Meng, Fanxu;Chen, Weiyou;
2:91:17 Optimizing one-dimensional photonic-crystals based semitransparent organic solar cells by tailoring reflection phase shift within photonic bandgap
DOI:10.1063/1.3631675 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Long, Yongbing;
2:91:18 Effects of metal oxide as an anode interlayer for organic photovoltaics
DOI:10.1016/j.tsf.2013.05.041 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Yu, Yang-Yen;Chan, Si-Han;
2:91:19 Top-to-bottom optimization of the optical performance of the tandem organic solar cells with thin metal film as interlayer
DOI:10.1063/1.3692597 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Long, Yongbing;Shen, Liang;Ruan, Shenping;Yu, Wenjuan;Wang, Yi;Zeng, Qingguang;Luo, Jianyi;
2:91:20 High Q microcavity light emitting diodes with buried AlN current apertures
DOI:10.1063/1.3617418 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Cheng, Bo-Siao;Wu, Yun-Lin;Lu, Tien-Chang;Chiu, Ching-Hsueh;Chen, Cheng-Hung;Tu, Po-Min;Kuo, Hao-Chung;Wang, Shing-Chung;Chang, Chun-Yen;
2:91:21 Current steering effect of GaN nanoporous structure
DOI:10.1016/j.tsf.2014.02.039 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Lin, Chia-Feng;Wang, Jing-Hao;Cheng, Po-Fu;Tseng, Wang-Po;Fan, Feng-Hsu;Wu, Kaun-Chun;Lee, Wen-Che;Han, Jung;
2:91:22 GaN-based light emitting diodes with micro- and nano-patterned structures by femtosecond laser nonlinear decomposition
DOI:10.1063/1.4754569 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Chen, Jiun-Ting;Lai, Wei-Chih;Chang, Yun-Chorng;Sheu, Jinn-Kong;Sen, Wen-Chih;
2:92:1 Flexible Low-Voltage Organic Thin-Film Transistors Enabled by Low-Temperature, Ambient Solution-Processable Inorganic/Organic Hybrid Gate Dielectrics
DOI:10.1021/ja107079d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:38 AU: Ha, Young-geun;Jeong, Sunho;Wu, Jinsong;Kim, Myung-Gil;Dravid, Vinayak P.;Facchetti, Antonio;Marks, Tobin J.;
2:92:2 Air Stable Cross-Linked Cytop Ultrathin Gate Dielectric for High Yield Low-Voltage Top-Gate Organic Field-Effect Transistors
DOI:10.1021/cm902929b JN:CHEMISTRY OF MATERIALS PY:2010 TC:44 AU: Cheng, Xiaoyang;Caironi, Mario;Noh, Yong-Young;Wang, Jianpu;Newman, Christopher;Yan, He;Facchetti, Antonio;Sirringhaus, Henning;
2:92:3 High performance organic field-effect transistors using cyanoethyl pullulan (CEP) high-k polymer cross-linked with trimethylolpropane triglycidyl ether (TTE) at low temperatures
DOI:10.1039/c3tc30134f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Xu, Wentao;Guo, Chang;Rhee, Shi-Woo;
2:92:4 Solution-Processable Zirconium Oxide Gate Dielectrics for Flexible Organic Field Effect Transistors Operated at Low Voltages
DOI:10.1021/cm303547a JN:CHEMISTRY OF MATERIALS PY:2013 TC:16 AU: Park, Young Min;Desai, Amit;Salleo, Alberto;Jimison, Leslie;
2:92:5 Solution Processable High Dielectric Constant Nanocomposites Based on ZrO2 Nanoparticles for Flexible Organic Transistors
DOI:10.1021/am404129u JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Beaulieu, Michael R.;Baral, Jayanta K.;Hendricks, Nicholas R.;Tang, YuYing;Briseno, Alejandro L.;Watkins, James J.;
2:92:6 "Double Exposure Method": a Novel Photolithographic Process to Fabricate Flexible Organic Field-Effect Transistors and Circuits
DOI:10.1021/am302684k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Ji, Deyang;Jiang, Lang;Dong, Huanli;Meng, Qing;Wang, Zongrui;Zhang, Hantang;Hu, Wenping;
2:92:7 Dipole Layer Formation by Surface Segregation of Regioregular Poly(3-alkylthiophene) with Alternating Alkyl/Semifluoroalkyl Side Chains
DOI:10.1021/cm2018423 JN:CHEMISTRY OF MATERIALS PY:2011 TC:20 AU: Geng, Yanfang;Wei, Qingshuo;Hashimoto, Kazuhito;Tajima, Keisuke;
2:92:8 "Knitting up" the inter-dipole gaps in dielectric surfaces: an efficient route for high performance organic field-effect transistors
DOI:10.1039/c2jm15888d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Xu, Wentao;Guo, Chang;Rhee, Shi-Woo;
2:92:9 Facile synthesis of poly(methylsilsesquioxane) and MgO nanoparticle composite dielectrics
DOI:10.1557/jmr.2013.113 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:0 AU: Plank, Natalie Olivia Victoria;Zheng, Han Yue;Agarwal, Satya;Kivell, Dayna;Gouws, Gideon;Travas-Sejdic, Jadranka;
2:92:10 Dependence of Pentacene Crystal Growth on Dielectric Roughness for Fabrication of Flexible Field-Effect Transistors
DOI:10.1021/am900652h JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:24 AU: Yang, Hoichang;Yang, Chanwoo;Kim, Se Hyun;Jang, Mi;Park, Chan Eon;
2:92:11 Flexible Low-Voltage Polymer Thin-Film Transistors Using Supercritical CO2-Deposited ZrO2 Dielectrics
DOI:10.1021/am300371d JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:11 AU: Wei, Qingshuo;You, Eunyoung;Hendricks, Nicholas R.;Briseno, Alejandro L.;Watkins, James J.;
2:92:12 Compromise of electrical leakage and capacitance density effects: a facile route for high mobility and sharp subthreshold slope in low-voltage operable organic field-effect transistors
DOI:10.1039/c0jm02401e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Xu, Wentao;Rhee, Shi-Woo;
2:92:13 Quasi-ordering in spontaneously associated surface dipoles: an intrinsic interfacial factor for high-k polymer insulated organic field-effect transistors
DOI:10.1039/c1jm14398k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Xu, Wentao;Wang, Feng;Rhee, Shi-Woo;
2:92:14 Electrical instability of polymer thin-film transistors using contact film transfer methods
DOI:10.1063/1.3454242 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Wei, Qingshuo;Tajima, Keisuke;Hashimoto, Kazuhito;
2:92:15 Novel Chemical Route to Prepare a New Polymer Blend Gate Dielectric for Flexible Low-Voltage Organic Thin-Film Transistor
DOI:10.1021/am3006143 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Meena, Jagan Singh;Chu, Min-Ching;Chang, Yu-Cheng;Wu, Chung-Shu;Cheng, Chih-Chia;Chang, Feng-Chih;Ko, Fu-Hsiang;
2:92:16 Electrically and thermally stable gate dielectrics from thiol-ene cross-linked systems for use in organic thin-film transistors
DOI:10.1039/c3tc30297k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Ko, Jung Min;Kang, Young Hun;Lee, Changjin;Cho, Song Yun;
2:92:17 Application of thermal azide-alkyne cycloaddition (TAAC) reaction as a low temperature cross-linking method in polymer gate dielectrics for organic field-effect transistors
DOI:10.1039/c4tc00116h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Li, Sheng-Xia;Feng, Lin-Run;Guo, Xiao-Jun;Zhang, Qing;
2:92:18 Low-Temperature Processable Organic-Inorganic Hybrid Gate Dielectrics for Solution-Based Organic Field-Effect Transistors
DOI:10.1002/adma.201001871 JN:ADVANCED MATERIALS PY:2010 TC:18 AU: Nagase, Takashi;Hamada, Takashi;Tomatsu, Kenji;Yamazaki, Saori;Kobayashi, Takashi;Murakami, Shuichi;Matsukawa, Kimihiro;Naito, Hiroyoshi;
2:92:19 Experimental Investigation of Charge Carrier Transport in Organic Thin-Film Transistors with "Buried Surface Layers"
DOI:10.1021/am101135v JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:10 AU: Wei, Qingshuo;Hashimoto, Kazuhito;Tajima, Keisuke;
2:92:20 Photocurable polymer gate dielectrics for cylindrical organic field-effect transistors with high bending stability
DOI:10.1039/c1jm14091d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Jang, Jaeyoung;Nam, Sooji;Hwang, Jihun;Park, Jong-Jin;Im, Jungkyun;Park, Chan Eon;Kim, Jong Min;
2:92:21 Effects of a side chain sequence on surface segregation of regioregular poly(3-alkylthiophene) and interfacial modification of bilayer organic photovoltaic devices
DOI:10.1039/c3ta12297b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:3 AU: Geng, Yanfang;Ma, Jusha;Wei, Qingshuo;Hashimoto, Kazuhito;Tajima, Keisuke;
2:92:22 ZrO2 dielectric-based low-voltage organic thin-film inverters
DOI:10.1063/1.4818269 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Oh, Jeong-Do;Seo, Hoon-Seok;Shin, Eun-Sol;Kim, Dae-Kyu;Ha, Young-Geun;Choi, Jong-Ho;
2:92:23 Air-mediated self-organization of polymer semiconductors for high-performance solution-processable organic transistors
DOI:10.1063/1.3553481 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Kushida, Takashi;Nagase, Takashi;Naito, Hiroyoshi;
2:92:24 Modeling of threshold voltage in pentacene organic field-effect transistors
DOI:10.1063/1.3449078 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:17 AU: Ou-Yang, Wei;Weis, Martin;Taguchi, Dai;Chen, Xiangyu;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:92:25 Organic-inorganic hybrid gate dielectric for solution-processed ZnO thin film transistors
DOI:10.1116/1.4817499 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:1 AU: Oh, Ji-Young;Lim, Sang-Chul;Kim, Joo Yeon;Kim, Chul Am;Cho, Kyoung-Ik;Ahn, Seong Deok;Koo, Jae Bon;Yoon, Sung-Min;
2:92:26 Behavior of pentacene molecules deposited onto roughness-controlled polymer dielectrics films and its effect on FET performance
DOI:10.1016/j.synthmet.2012.12.007 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Min, Hong-Gi;Seo, Eunsuk;Lee, Junghwi;Park, Namwoo;Lee, Hwa Sung;
2:92:27 Ultra low dielectric constant polysilsesquioxane films using T-8(Me4NO)(8) as porogen
DOI:10.1016/j.tsf.2010.01.020 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Xi, Kai;He, Hui;Xu, Dan;Ge, Renjie;Meng, Zhen;Jia, Xudong;Yu, Xuehai;
2:93:1 Ordered Materials for Organic Electronics and Photonics
DOI:10.1002/adma.201002884 JN:ADVANCED MATERIALS PY:2011 TC:171 AU: O'Neill, Mary;Kelly, Stephen M.;
2:93:2 Tuning the Columnar Organization of Discotic Polycyclic Aromatic Hydrocarbons
DOI:10.1002/adma.201000585 JN:ADVANCED MATERIALS PY:2010 TC:91 AU: Pisula, Wojciech;Feng, Xinliang;Muellen, Klaus;
2:93:3 Nanostructured liquid-crystalline semiconductors - a new approach to soft matter electronics
DOI:10.1039/c4tc00906a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Funahashi, M.;
2:93:4 High electron mobility in a columnar phase of liquid-crystalline perylene tetracarboxylic bisimide bearing oligosiloxane chains
DOI:10.1039/c2jm35579e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Funahashi, Masahiro;Sonoda, Akinari;
2:93:5 Functional star-shaped tris(triazolyl)triazines: columnar liquid crystal, fluorescent, solvatofluorochromic and electrochemical properties
DOI:10.1039/c2jm15648b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:23 AU: Beltran, Eduardo;Luis Serrano, Jose;Sierra, Teresa;Gimenez, Raquel;
2:93:6 Three-arm star compounds composed of 1,3,5-tri(azobenzeneethynyl)benzene cores and flexible PEO arms: synthesis, optical functions, hybrid Ormosil gel glasses
DOI:10.1039/c2tc00772j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Xie, Zheng;He, Haifeng;Deng, Yonghong;Wang, Xiaogong;Liu, Chunyan;
2:93:7 Electro-Functional Octupolar pi-Conjugated Columnar Liquid Crystals
DOI:10.1021/ja2035255 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:53 AU: Yasuda, Takuma;Shimizu, Tomohiro;Liu, Feng;Ungar, Goran;Kato, Takashi;
2:93:8 Liquid-crystalline perylene tetracarboxylic bisimide derivatives bearing cyclotetrasiloxane moieties
DOI:10.1039/c3tc31567c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Funahashi, Masahiro;Yamaoka, Mika;Takenami, Kaede;Sonoda, Akinari;
2:93:9 Liquid-Crystalline Perylene Diester Polymers with Tunable Charge-Carrier Mobility
DOI:10.1002/adfm.201101694 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:15 AU: Muth, Mathis-Andreas;Carrasco-Orozco, Miguel;Thelakkat, Mukundan;
2:93:10 Self-assembled cyclic oligothiophene nanotubes: Electronic properties from a dispersion-corrected hybrid functional
DOI:10.1103/PhysRevB.84.075115 JN:PHYSICAL REVIEW B PY:2011 TC:17 AU: Wong, Bryan M.;Ye, Simon H.;
2:93:11 Modeling of efficient charge transfer materials of 4,6-di(thiophen-2-yl)pyrimidine derivatives: Quantum chemical investigations
DOI:10.1016/j.commatsci.2013.09.003 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:8 AU: Irfan, Ahmad;
2:93:12 Quasi Temperature Independent Electron Mobility in Hexagonal Columnar Mesophases of an H-Bonded Benzotristhiophene Derivative
DOI:10.1021/cm902453z JN:CHEMISTRY OF MATERIALS PY:2010 TC:29 AU: Demenev, Andrey;Eichhorn, S. Holger;Taerum, Tyler;Perepichka, Dmitrii F.;Patwardhan, Sameer;Grozema, Ferdinand C.;Siebbeles, Laurens D. A.;Klenkler, Richard;
2:93:13 Room temperature liquid crystalline perylene diester benzimidazoles with extended absorption
DOI:10.1039/c0jm01626h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Wicklein, Andre;Muth, Mathis-Andreas;Thelakkat, Mukundan;
2:93:14 Mechanochromic Photoluminescent Liquid Crystals Containing 5,5 '-Bis(2-phenylethynyl)-2,2 '-bithiophene
DOI:10.1080/15421406.2014.917499 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Mitani, Masato;Yamane, Shogo;Yoshio, Masafumi;Funahashi, Masahiro;Kato, Takashi;
2:93:15 Synthesis, Structural and Mesophase Characterization of Three Ring Based Thiophene Liquid Crystals
DOI:10.1080/15421406.2013.858013 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Reddy, M. Kesava;Reddy, K. Subramanyam;Kumar, B. V. N. Phani;Narasimhaswamy, T.;
2:93:16 Doping behaviour of electrochemically generated model bithiophene meta-substituted star shaped oligomer
DOI:10.1016/j.matchemphys.2014.04.037 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Ledwon, Przemysiaw;Turczyn, Roman;Idzik, Krzysztof R.;Beckert, Rainer;Frydel, Jaroslaw;Lapkowski, Mieczyslaw;Domagala, Wojciech;
2:93:17 One-Step Photoembossing for Submicrometer Surface Relief Structures in Liquid Crystal Semiconductors
DOI:10.1021/nn100012g JN:ACS NANO PY:2010 TC:5 AU: Liedtke, Alicia;Lei, Chunhong;O'Neill, Mary;Dyer, Peter E.;Kitney, Stuart P.;Kelly, Stephen M.;
2:93:18 Design of conductive crown ether based columnar liquid crystals: impact of molecular flexibility and geometry
DOI:10.1039/c2tc00284a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Staffeld, P.;Kaller, M.;Beardsworth, S. J.;Tremel, K.;Ludwigs, S.;Laschat, S.;Giesselmann, F.;
2:93:19 Microresonator-enhanced electroluminescence of an organic light emitting diode based on a columnar liquid crystal
DOI:10.1063/1.4816425 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Vollbrecht, Joachim;Kasdorf, Olga;Quiring, Viktor;Suche, Hubertus;Bock, Harald;Kitzerow, Heinz-S.;
2:93:20 Supramolecular Liquid-Crystal Gels Formed by Polyfluorene-Based pi-Conjugated Polymer for Switchable Anisotropic Scattering Device
DOI:10.1021/am500518c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Chen, Jun-Wei;Huang, Chiu-Chang;Chao, Chih-Yu;
2:93:21 Charged carrier mobility in the cubic (Ia3d) mesophase of 1,2-bis(4 '-n-nonyloxybenzoyl)hydrazine (BABH-9)
DOI:10.1039/c1sm06224g JN:SOFT MATTER PY:2011 TC:6 AU: Suisse, Jean-Moise;Mori, Hiroyuki;Monobe, Hirosato;Kutsumizu, Shoichi;Shimizu, Yo;
2:93:22 Liquid-Crystalline Perylene Diester Polymers with Tunable Charge-Carrier Mobility (vol 21, pg 4510, 2011)
DOI:10.1002/adfm.201301538 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:0 AU: Muth, Mathis-Andreas;Carrasco-Orozco, Miguel;Thelakkat, Mukundan;
2:93:23 Analysis of polymerization with photo-Fries rearrangement in liquid crystal displays
DOI:10.1063/1.4803487 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Mizusaki, Masanobu;Enomoto, Satoshi;Hara, Yuki;Kikuchi, Hideo;Yamada, Yuichiro;
2:93:24 Europium(III)-doped liquid-crystalline physical gels
DOI:10.1039/c0jm01956a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:7 AU: Cardinaels, Thomas;Hirai, Yuki;Hanabusa, Kenji;Binnemans, Koen;Kato, Takashi;
2:93:25 Versatile hybridization of conjugated polymers with silica
DOI:10.1039/c1jm13150h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:1 AU: Morisaki, Yasuhiro;Tsuji, Yuichi;Chujo, Yoshiki;
2:93:26 Synthesis and Liquid-Crystalline Properties of beta-Bromopentakis(Alkoxy) Triphenylene: Reactivity of VOCl3, MoCl5, and FeCl3 as Oxidants
DOI:10.1080/15421406.2010.504514 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Varshney, Sanjay Kumar;Nagayama, Hiroki;Rao, D. S. Shankar;Takezoe, Hideo;
2:93:27 Charge carrier transport in liquid crystals
DOI:10.1016/j.tsf.2013.10.051 JN:THIN SOLID FILMS PY:2014 TC:7 AU: Hanna, Jun-ichi;Ohno, Akira;Iino, Hiroaki;
2:94:1 Anisotropic Structure and Charge Transport in Highly Strain-Aligned Regioregular Poly(3-hexylthiophene)
DOI:10.1002/adfm.201100904 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:60 AU: O'Connor, Brendan;Kline, R. Joseph;Conrad, Brad R.;Richter, Lee J.;Gundlach, David;Toney, Michael F.;DeLongchamp, Dean M.;
2:94:2 Polarizing Organic Photovoltaics
DOI:10.1002/adma.201101514 JN:ADVANCED MATERIALS PY:2011 TC:45 AU: Zhu, Rui;Kumar, Ankit;Yang, Yang;
2:94:3 Temperature-Resolved Local and Macroscopic Charge Carrier Transport in Thin P3HT Layers
DOI:10.1002/adfm.200902273 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:56 AU: Pingel, Patrick;Zen, Achmad;Abellon, Ruben D.;Grozema, Ferdinand C.;Siebbeles, Laurens D. A.;Neher, Dieter;
2:94:4 Aligned Polythiophene and its Blend Film by Direct-Writing for Anisotropic Charge Transport
DOI:10.1002/adfm.201400699 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Lu, Guanghao;Chen, Jiayue;Xu, Wentao;Li, Sijun;Yang, Xiaoniu;
2:94:5 Systematic Control of Nucleation Density in Poly(3-Hexylthiophene) Thin Films
DOI:10.1002/adfm.201001682 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:57 AU: Crossland, Edward J. W.;Rahimi, Khosrow;Reiter, Guenter;Steiner, Ullrich;Ludwigs, Sabine;
2:94:6 Entanglement of Conjugated Polymer Chains Influences Molecular Self-Assembly and Carrier Transport
DOI:10.1002/adfm.201301007 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:20 AU: Zhao, Kui;Khan, Hadayat Ullah;Li, Ruipeng;Su, Yisong;Amassian, Aram;
2:94:7 Anisotropic Charge Transport in Spherulitic Poly(3-hexylthiophene) Films
DOI:10.1002/adma.201104284 JN:ADVANCED MATERIALS PY:2012 TC:52 AU: Crossland, Edward J. W.;Tremel, Kim;Fischer, Florian;Rahimi, Khosrow;Reiter, Guenter;Steiner, Ullrich;Ludwigs, Sabine;
2:94:8 2D Versus 3D Crystalline Order in Thin Films of Regioregular Poly(3-hexylthiophene) Oriented by Mechanical Rubbing and Epitaxy
DOI:10.1002/adfm.201101139 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:51 AU: Hartmann, Lucia;Tremel, Kim;Uttiya, Sureeporn;Crossland, Edward;Ludwigs, Sabine;Kayunkid, Navaphun;Vergnat, Christelle;Brinkmann, Martin;
2:94:9 One-Step Macroscopic Alignment of Conjugated Polymer Systems by Epitaxial Crystallization during Spin-Coating
DOI:10.1002/adfm.201202983 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:20 AU: Muller, Christian;Aghamohammadi, Mahdieh;Himmelberger, Scott;Sonar, Prashant;Garriga, Miquel;Salleo, Alberto;Campoy-Quiles, Mariano;
2:94:10 In situ UV-visible absorption during spin-coating of organic semiconductors: a new probe for organic electronics and
DOI:10.1039/c3tc32077d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Abdelsamie, Maged;Zhao, Kui;Niazi, Muhammad R.;Chou, Kang W.;Amassian, Aram;
2:94:11 Morphological Origin of Charge Transport Anisotropy in Aligned Polythiophene Thin Films
DOI:10.1002/adfm.201303351 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:13 AU: O'Connor, Brendan T.;Reid, Obadiah G.;Zhang, Xinran;Kline, R. Joseph;Richter, Lee J.;Gundlach, David J.;DeLongchamp, Dean M.;Toney, Michael F.;Kopidakis, Nikos;Rumbles, Garry;
2:94:12 Three-Dimensional Structure of P3HT Assemblies in Organic Solvents Revealed by Cryo-TEM
DOI:10.1021/nl5001967 JN:NANO LETTERS PY:2014 TC:12 AU: Wirix, Maarten J. M.;Bomans, Paul H. H.;Friedrich, Heiner;Sommerdijk, Nico A. J. M.;de With, Gijsbertus;
2:94:13 Organic photovoltaic cells with controlled polarization sensitivity
DOI:10.1063/1.4868041 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Awartani, Omar;Kudenov, Michael W.;O'Connor, Brendan T.;
2:94:14 Conjugated Polymer Chain and Crystallite Orientation Induced by Vertically Aligned Carbon Nanotube Arrays
DOI:10.1021/am402264m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Kang, Seok-Ju;Kim, Youn-Su;Kim, Won Bae;Kim, Dong-Yu;Noh, Yong-Young;
2:94:15 Uniaxial macroscopic alignment of conjugated polymer systems by directional crystallization during blade coating
DOI:10.1039/c3tc32056a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Doerling, Bernhard;Vohra, Varun;Dao, Toan Thanh;Garriga, Miquel;Murata, Hideyuki;Campoy-Quiles, Mariano;
2:94:16 Molecular orientation and anisotropic carrier mobility in poorly soluble polythiophene thin films
DOI:10.1063/1.4718424 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Hosokawa, Yuki;Misaki, Masahiro;Yamamoto, Satoshi;Torii, Masafumi;Ishida, Kenji;Ueda, Yasukiyo;
2:94:17 Embedded Surface Reef Gratings by a Simple Method to Improve Absorption and Electrical Properties of Polymer Solar Cells
DOI:10.1021/am301059J JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:7 AU: Li, Kan;Zhen, Hongyu;Huang, Zhuoyin;Li, Guolong;Liu, Xu;
2:94:18 Orientation Control of Regioregular-Poly(3-dodecylthiophene) Films Formed by the Friction-Transfer Method and the Performance of Organic Photovoltaic Devices Based on These Films
DOI:10.1002/app.40136 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:3 AU: Mizokuro, Toshiko;Okamoto, Yukiyasu;Heck, Claire;Aota, Hiroyuki;Tanigaki, Nobutaka;
2:94:19 Fabrication and semiconducting properties of monodisperse n-type phthalocyanine nanograss
DOI:10.1016/j.tsf.2013.01.009 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Saeki, Hiroyuki;Nishimoto, Mihoko;Koshiba, Yasuko;Misaki, Masahiro;Ishida, Kenji;Ueda, Yasukiyo;
2:94:20 Patterned optical anisotropy in woven conjugated polymer systems
DOI:10.1063/1.4764518 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Muller, C.;Garriga, M.;Campoy-Quiles, M.;
2:95:1 25th Anniversary Article: Organic Electronics Marries Photochromism: Generation of Multifunctional Interfaces, Materials, and Devices
DOI:10.1002/adma.201304695 JN:ADVANCED MATERIALS PY:2014 TC:22 AU: Orgiu, Emanuele;Samori, Paolo;
2:95:2 Optical Modulation of the Charge Injection in an Organic Field-Effect Transistor Based on Photochromic Self-Assembled-Monolayer-Functionalized Electrodes
DOI:10.1002/adma.201003736 JN:ADVANCED MATERIALS PY:2011 TC:54 AU: Crivillers, Nuria;Orgiu, Emanuele;Reinders, Federica;Mayor, Marcel;Samori, Paolo;
2:95:3 Interface Engineering of Semiconductor/Dielectric Heterojunctions toward Functional Organic Thin-Film Transistors
DOI:10.1021/nl2028798 JN:NANO LETTERS PY:2011 TC:36 AU: Zhang, Hongtao;Guo, Xuefeng;Hui, Jingshu;Hu, Shuxin;Xu, Wei;Zhu, Daoben;
2:95:4 Non-conventional Processing and Post-processing Methods for the Nanostructuring of Conjugated Materials for Organic Electronics
DOI:10.1002/adfm.201001769 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:39 AU: De Luca, Giovanna;Pisula, Wojciech;Credgington, Dan;Treossi, Emanuele;Fenwick, Oliver;Lazzerini, Giovanni Mattia;Dabirian, Reza;Orgiu, Emanuele;Liscio, Andrea;Palermo, Vincenzo;Muellen, Klaus;Cacialli, Franco;Samori, Paolo;
2:95:5 Photoactive Gate Dielectrics
DOI:10.1002/adma.201000471 JN:ADVANCED MATERIALS PY:2010 TC:25 AU: Shen, Qian;Wang, Linjun;Liu, Song;Cao, Yang;Gan, Lin;Guo, Xuefeng;Steigerwald, Michael L.;Shuai, Zhigang;Liu, Zhongfan;Nuckolls, Colin;
2:95:6 Optically and Electrically Driven Organic Thin Film Transistors with Diarylethene Photochromic Channel Layers
DOI:10.1021/am400030z JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:20 AU: Hayakawa, Ryoma;Higashiguchi, Kenji;Matsuda, Kenji;Chikyow, Toyohiro;Wakayama, Yutaka;
2:95:7 Unique Device Operations by Combining Optical-Memory Effect and Electrical-Gate Modulation in a Photochromism-Based Dual-Gate Transistor
DOI:10.1021/am402833k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Ishiguro, Yasushi;Hayakawa, Ryoma;Yasuda, Takeshi;Chikyow, Toyohiro;Wakayama, Yutaka;
2:95:8 Light-driven photochromism-induced reversible switching in P3HT-spiropyran hybrid transistors
DOI:10.1039/c1jm14872a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Li, Yingruo;Zhang, Hongtao;Qi, Chuanmin;Guo, Xuefeng;
2:95:9 Large Work Function Shift of Gold Induced by a Novel Perfluorinated Azobenzene-Based Self-Assembled Monolayer
DOI:10.1002/adma.201201737 JN:ADVANCED MATERIALS PY:2013 TC:20 AU: Crivillers, Nuria;Osella, Silvio;Van Dyck, Colin;Lazzerini, Giovanni M.;Cornil, David;Liscio, Andrea;Di Stasio, Francesco;Mian, Shabbir;Fenwick, Oliver;Reinders, Federica;Neuburger, Markus;Treossi, Emanuele;Mayor, Marcel;Palermo, Vincenzo;Cacialli, Franco;Cornil, Jerome;Samori, Paolo;
2:95:10 23 bits optical sensor based on nonvolatile organic memory transistor
DOI:10.1063/1.4869308 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Ren, Xiaochen;Chan, Paddy K. L.;
2:95:11 Solution-Processed Field-Effect Transistors Based on Dihexylquaterthiophene Films with Performances Exceeding Those of Vacuum-Sublimed Films
DOI:10.1021/am506245v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Leydecker, Tim;Duc Trong Duong;Salleo, Alberto;Orgiu, Emanuele;Samori, Paolo;
2:95:12 Optical switching of carrier transport in polymeric transistors with photochromic spiropyran molecules
DOI:10.1039/c3tc30130c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Ishiguro, Yasushi;Hayakawa, Ryoma;Chikyow, Toyohiro;Wakayama, Yutaka;
2:95:13 Photo-switching effect in stilbene organic field effect transistors
DOI:10.1063/1.4864019 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Karimi-Alavijeh, Hamidreza;Panahi, Farhad;Gharavi, Alireza;
2:95:14 Photoisomerization-Induced Manipulation of Single-Electron Tunneling for Novel Si-Based Optical Memory
DOI:10.1021/am403616m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Hayakawa, Ryoma;Higashiguchi, Kenji;Matsuda, Kenji;Chikyow, Toyohiro;Wakayama, Yutaka;
2:95:15 Optically Controllable Dual-Gate Organic Transistor Produced via Phase Separation between Polymer Semiconductor and Photochromic Spiropyran Molecules
DOI:10.1021/am501884q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Ishiguro, Yasushi;Hayakawa, Ryoma;Chikyow, Toyohiro;Wakayama, Yutaka;
2:95:16 Tuning the charge injection of P3HT-based organic thin-film transistors through electrode functionalization with oligophenylene SAMs
DOI:10.1039/c0jm03363d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:10 AU: Orgiu, Emanuele;Crivillers, Nuria;Rotzler, Juergen;Mayor, Marcel;Samori, Paolo;
2:95:17 Controlling charge injection by self-assembled monolayers in bottom-gate and top-gate organic field-effect transistors
DOI:10.1016/j.synthmet.2011.08.020 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Gholamrezaie, Fatemeh;Asadi, Kamal;Kicken, Romero A. H. J.;Langeveld-Voss, Bea M. W.;de Leeuw, Dago M.;Blom, Paul W. M.;
2:95:18 ZnO nanowire-based all-optical switch with Reset-Set flip-flop function
DOI:10.1063/1.3581884 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Mu, L. X.;Shi, W. S.;Zhang, T. P.;Zhang, H. Y.;Wang, Y.;She, G. W.;Gao, Y. H.;Wang, P. F.;Chang, J. C.;Lee, S. T.;
2:95:19 Organic Electronics
DOI:10.1002/adma.201205216 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: McCulloch, Iain;
2:95:20 Photoinduced reversible changes in the electronic structure of photochromic diarylethene films
DOI:10.1007/s00339-013-7892-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:5 AU: Frisch, Johannes;Herder, Martin;Herrmann, Philipp;Heimel, Georg;Hecht, Stefan;Koch, Norbert;
2:95:21 Efficient Photochromic Transformation of a New Fluorenyl Diarylethene: One- and Two-Photon Absorption Spectroscopy
DOI:10.1021/am200783c JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:15 AU: Luchita, Gheorghe;Bondar, Mykhailo V.;Yao, Sheng;Mikhailov, Ivan A.;Yanez, Ciceron O.;Przhonska, Olga V.;Masunov, Artem E.;Belfield, Kevin D.;
2:95:22 Enhanced Performance of Printed Organic Diodes Using a Thin Interfacial Barrier Layer
DOI:10.1021/am1009869 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:4 AU: Lilja, Kaisa E.;Majumdar, Himadri S.;Pettersson, Fredrik S.;Osterbacka, Ronald;Joutsenoja, Timo;
2:95:23 Degradation study and calculation of density-of-states in PTCDI-C8 channel layer from the electrical characteristics of thin-film transistors
DOI:10.1063/1.4890023 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Shijeesh, M. R.;Vikas, L. S.;Jayaraj, M. K.;Puigdollers, J.;
2:95:24 Two-Photon Absorption Spectra Predicted by Semiempirical Methods
DOI:10.1166/jctn.2014.3629 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2014 TC:0 AU: Nayyar, Iffat H.;Masunov, Artem E.;
2:95:25 Printed organic diode backplane for matrix addressing an electrophoretic display
DOI:10.1016/j.tsf.2010.02.008 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Lilja, Kaisa E.;Backlund, Tomas G.;Lupo, Donald;Virtanen, Juhani;Hamalainen, Esa;Joutsenoja, Timo;
2:96:1 Materials for Printable, Transparent, and Low-Voltage Transistors
DOI:10.1002/adfm.201001530 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:79 AU: Sun, Jia;Zhang, Bo;Katz, Howard E.;
2:96:2 Flexible Crossbar-Structured Resistive Memory Arrays on Plastic Substrates via Inorganic-Based Laser Lift-Off
DOI:10.1002/adma.201402472 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Kim, Seungjun;Son, Jung Hwan;Lee, Seung Hyun;You, Byoung Kuk;Park, Kwi-Il;Lee, Hwan Keon;Byun, Myunghwan;Lee, Keon Jae;
2:96:3 Fabrication of Releasable Single-Crystal Silicon-Metal Oxide Field-Effect Devices and Their Deterministic Assembly on Foreign Substrates
DOI:10.1002/adfm.201100124 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:28 AU: Chung, Hyun-Joong;Kim, Tae-il;Kim, Hoon-Sik;Wells, Spencer A.;Jo, Sungjin;Ahmed, Numair;Jung, Yei Hwan;Won, Sang Min;Bower, Christopher A.;Rogers, John A.;
2:96:4 Immunologic and Tissue Biocompatibility of Flexible/Stretchable Electronics and Optoelectronics
DOI:10.1002/adhm.201300220 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:3 AU: Park, Gayoung;Chung, Hyun-Joong;Kim, Kwanghee;Lim, Seon Ah;Kim, Jiyoung;Kim, Yun-Soung;Liu, Yuhao;Yeo, Woon-Hong;Kim, Rak-Hwan;Kim, Stanley S.;Kim, Jong-Seon;Jung, Yei Hwan;Kim, Tae-Il;Yee, Cassian;Rogers, John A.;Lee, Kyung-Mi;
2:96:5 High-Performance Flexible Thin-Film Transistors Exfoliated from Bulk Wafer
DOI:10.1021/nl302735f JN:NANO LETTERS PY:2012 TC:28 AU: Zhai, Yujia;Mathew, Leo;Rao, Rajesh;Xu, Dewei;Banerjee, Sanjay K.;
2:96:6 Transfer-Printing of As-Fabricated Carbon Nanotube Devices onto Various Substrates
DOI:10.1002/adma.201201794 JN:ADVANCED MATERIALS PY:2012 TC:11 AU: Quy Nguyen Thanh;Jeong, Huiseong;Kim, Jinwoong;Kevek, J. W.;Ahn, Y. H.;Lee, Soonil;Minot, Ethan D.;Park, Ji-Yong;
2:96:7 Flexible and Transparent Silicon-on-Polymer Based Sub-20 nm Non-planar 3D FinFET for Brain-Architecture Inspired Computation
DOI:10.1002/adma.201305309 JN:ADVANCED MATERIALS PY:2014 TC:7 AU: Sevilla, Galo A. Torres;Rojas, Jhonathan P.;Fahad, Hossain M.;Hussain, Aftab M.;Ghanem, Rawan;Smith, Casey E.;Hussain, Muhammad M.;
2:96:8 Extremely Flexible Nanoscale Ultrathin Body Silicon Integrated Circuits on Plastic
DOI:10.1021/nl304310x JN:NANO LETTERS PY:2013 TC:29 AU: Shahrjerdi, Davood;Bedell, Stephen W.;
2:96:9 Design and characterization of ultra-stretchable monolithic silicon fabric
DOI:10.1063/1.4898128 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Rojas, J. P.;Arevalo, A.;Foulds, I. G.;Hussain, M. M.;
2:96:10 Deterministic assembly of releasable single crystal silicon-metal oxide field-effect devices formed from bulk wafers
DOI:10.1063/1.4804139 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Kim, Tae-il;Jung, Yei Hwan;Chung, Hyun-Joong;Yu, Ki Jun;Ahmed, Numair;Corcoran, Christopher J.;Park, Jae Suk;Jin, Sung Hun;Rogers, John A.;
2:96:11 Flexible and Semi-Transparent Thermoelectric Energy Harvesters from Low Cost Bulk Silicon (100)
DOI:10.1002/smll.201301025 JN:SMALL PY:2013 TC:12 AU: Sevilla, Galo Andres Torres;Bin Inayat, Salman;Rojas, Jhonathan Prieto;Hussain, Aftab Mustansir;Hussain, Muhammad Mustafa;
2:96:12 Flexible Nanoscale High-Performance FinFETs
DOI:10.1021/nn5041608 JN:ACS NANO PY:2014 TC:5 AU: Sevilla, Galo A. Torres;Ghoneim, Mohamed T.;Fahad, Hossain;Rojas, Jhonathan P.;Hussain, Aftab M.;Hussain, Muhammad Mustafa;
2:96:13 Structural and electrical characteristics of high-k/metal gate metal oxide semiconductor capacitors fabricated on flexible, semi-transparent silicon (100) fabric
DOI:10.1063/1.4791693 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Rojas, Jhonathan P.;Sevilla, Galo Torres;Hussain, Muhammad M.;
2:96:14 Mechanical anomaly impact on metal-oxide-semiconductor capacitors on flexible silicon fabric
DOI:10.1063/1.4882647 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ghoneim, M. T.;Kutbee, A.;Nasseri, F. Ghodsi;Bersuker, G.;Hussain, M. M.;
2:96:15 Flexible Vertical Light Emitting Diodes
DOI:10.1002/smll.201201195 JN:SMALL PY:2012 TC:13 AU: Kim, Rak-Hwan;Kim, Stanley;Song, Young Min;Jeong, Hyejin;Kim, Tae-il;Lee, Jongho;Li, Xuling;Choquette, Kent D.;Rogers, John A.;
2:96:16 Transformational Silicon Electronics
DOI:10.1021/nn405475k JN:ACS NANO PY:2014 TC:9 AU: Rojas, Jhonathan Prieto;Sevilla, Galo Andres Torres;Ghoneim, Mohamed Tarek;Bin Inayat, Salman;Ahmed, Sally M.;Hussain, Aftab Mustansir;Hussain, Muhammad Mustafa;
2:96:17 High temperature study of flexible silicon-on-insulator fin field-effect transistors
DOI:10.1063/1.4897148 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Diab, Amer;Sevilla, Galo A. Torres;Ghoneim, Mohamed T.;Hussain, Muhammad M.;
2:96:18 A flexible skin piloerection monitoring sensor
DOI:10.1063/1.4881888 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Jaemin;Seo, Dae Geon;Cho, Young-Ho;
2:96:19 Stretchable, Multiplexed pH Sensors With Demonstrations on Rabbit and Human Hearts Undergoing Ischemia
DOI:10.1002/adhm.201300124 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:14 AU: Chung, Hyun-Joong;Sulkin, Matthew S.;Kim, Jong-Seon;Goudeseune, Camille;Chao, Hsin-Yun;Song, Joseph W.;Yang, Sang Yoon;Hsu, Yung-Yu;Ghaffari, Roozbeh;Efimov, Igor R.;Rogers, John A.;
2:96:20 Mechanically flexible thin film transistors and logic gates on plastic substrates by use of single-crystal silicon wires from bulk wafers
DOI:10.1063/1.3409475 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Lee, Seoung-Ki;Jang, Houk;Hasan, Musarrat;Koo, Jae Bon;Ahn, Jong-Hyun;
2:96:21 In situ synthesis of manganese zinc ferrite nanoparticle/polymer hybrid nanocomposite from metal organics
DOI:10.1007/s10853-014-8217-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:3 AU: Hosoya, Takashi;Sakamoto, Wataru;Yogo, Toshinobu;
2:96:22 Transparent and self-standing manganese zinc ferrite nanoparticle/cellulose hybrid films
DOI:10.1016/j.matlet.2014.09.068 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Hosoya, Takashi;Sakamoto, Wataru;Yogo, Toshinobu;
2:96:23 High-Performance Flexible Thin-Film Transistors Exfoliated from Bulk Wafer (vol 12, pg 5609, 2012)
DOI:10.1021/nl304593r JN:NANO LETTERS PY:2013 TC:0 AU: Zhai, Yujia;Mathew, Leo;Rao, Rajesh;Xu, Dewei;Banerjee, Sanjay K.;
2:97:1 Design of Organic Semiconductors from Molecular Electrostatics
DOI:10.1021/cm1021257 JN:CHEMISTRY OF MATERIALS PY:2011 TC:65 AU: Heimel, Georg;Salzmann, Ingo;Duhm, Steffen;Koch, Norbert;
2:97:2 Epitaxial Growth of pi-Stacked Perfluoropentacene on Graphene-Coated Quartz
DOI:10.1021/nn3042607 JN:ACS NANO PY:2012 TC:30 AU: Salzmann, Ingo;Moser, Armin;Oehzelt, Martin;Breuer, Tobias;Feng, Xinliang;Juang, Zhen-Yu;Nabok, Dmitrii;Della Valle, Raffaele G.;Duhm, Steffen;Heimel, Georg;Brillante, Aldo;Venuti, Elisabetta;Bilotti, Ivano;Christodoulou, Christos;Frisch, Johannes;Puschnig, Peter;Draxl, Claudia;Witte, Gregor;Muellen, Klaus;Koch, Norbert;
2:97:3 Influence of intramolecular polar bonds on interface energetics in perfluoro-pentacene on Ag(111)
DOI:10.1103/PhysRevB.81.045418 JN:PHYSICAL REVIEW B PY:2010 TC:39 AU: Duhm, Steffen;Hosoumi, Shunsuke;Salzmann, Ingo;Gerlach, Alexander;Oehzelt, Martin;Wedl, Bernhard;Lee, Tien-Lin;Schreiber, Frank;Koch, Norbert;Ueno, Nobuo;Kera, Satoshi;
2:97:4 Growth and structure of pentacene films on graphite: Weak adhesion as a key for epitaxial film growth
DOI:10.1103/PhysRevB.81.085440 JN:PHYSICAL REVIEW B PY:2010 TC:30 AU: Goetzen, Jan;Kaefer, Daniel;Woell, Christof;Witte, Gregor;
2:97:5 Impact of Ground-State Charge Transfer and Polarization Energy Change on Energy Band Offsets at Donor/Acceptor Interface in Organic Photovoltaics
DOI:10.1002/adfm.200901585 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:37 AU: Akaike, Kouki;Kanai, Kaname;Ouchi, Yukio;Seki, Kazuhiko;
2:97:6 Real-Time Changes in the Optical Spectrum of Organic Semiconducting Films and Their Thickness Regimes during Growth
DOI:10.1103/PhysRevLett.104.257401 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:25 AU: Heinemeyer, U.;Broch, K.;Hinderhofer, A.;Kytka, M.;Scholz, R.;Gerlach, A.;Schreiber, F.;
2:97:7 Pentacene on Ag(111): Correlation of Bonding Distance with Intermolecular Interaction and Order
DOI:10.1021/am402778u JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Duhm, Steffen;Buerker, Christoph;Niederhausen, Jens;Salzmann, Ingo;Hosokai, Takuya;Duvernay, Julien;Kera, Satoshi;Schreiber, Frank;Koch, Norbert;Ueno, Nobuo;Gerlach, Alexander;
2:97:8 Impact of structural imperfections on the energy-level alignment in organic films
DOI:10.1103/PhysRevB.83.195310 JN:PHYSICAL REVIEW B PY:2011 TC:11 AU: Hosokai, T.;Machida, H.;Gerlach, A.;Kera, S.;Schreiber, F.;Ueno, N.;
2:97:9 Real-time X-ray scattering studies on temperature dependence of perfluoropentacene thin film growth
DOI:10.1063/1.4816320 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Frank, C.;Novak, J.;Gerlach, A.;Ligorio, G.;Broch, K.;Hinderhofer, A.;Aufderheide, A.;Banerjee, R.;Nervo, R.;Schreiber, F.;
2:97:10 High-Fidelity Self-Assembly of Crystalline and Parallel-Oriented Organic Thin Films by pi-pi Stacking from a Metal Surface
DOI:10.1021/la502288v JN:LANGMUIR PY:2014 TC:2 AU: Skomski, Daniel;Jo, Junyong;Tempas, Christopher D.;Kim, Seyong;Lee, Dongwhan;Tait, Steven L.;
2:97:11 Mixing-Induced Anisotropic Correlations in Molecular Crystalline Systems
DOI:10.1103/PhysRevLett.109.156102 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:5 AU: Aufderheide, A.;Broch, K.;Novak, J.;Hinderhofer, A.;Nervo, R.;Gerlach, A.;Banerjee, R.;Schreiber, F.;
2:97:12 Structural Evolution of Perfluoro-Pentacene Films on Ag(111): Transition from 2D to 3D Growth
DOI:10.1021/la1022664 JN:LANGMUIR PY:2011 TC:15 AU: Goetzen, Jan;Schwalb, Christian H.;Schmidt, Christian;Mette, Gerson;Marks, Manuel;Hoefer, Ulrich;Witte, Gregor;
2:97:13 Nature of step-edge barriers for small organic molecules
DOI:10.1103/PhysRevB.81.205310 JN:PHYSICAL REVIEW B PY:2010 TC:20 AU: Goose, Joseph E.;First, Eric L.;Clancy, Paulette;
2:97:14 Lattice Matching as the Determining Factor for Molecular Tilt and Multilayer Growth Mode of the Nanographene Hexa-peri-hexabenzocoronene
DOI:10.1021/am506465b JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Beyer, Paul;Breuer, Tobias;Ndiaye, Saliou;Zykov, Anton;Viertel, Andreas;Gensler, Manuel;Rabe, Juergen P.;Hecht, Stefan;Witte, Gregor;Kowarik, Stefan;
2:97:15 Tuning of C-60 energy levels using orientation-controlled phthalocyanine films
DOI:10.1063/1.3475716 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Mao, Hong Ying;Wang, Rui;Huang, Han;Wang, Yu Zhan;Gao, Xing Yu;Bao, Shi Ning;Wee, Andrew Thye Shen;Chen, Wei;
2:97:16 Orientational Ordering of Nonplanar Phthalocyanines on Cu(111): Strength and Orientation of the Electric Dipole Moment
DOI:10.1103/PhysRevLett.106.156102 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:18 AU: Gerlach, A.;Hosokai, T.;Duhm, S.;Kera, S.;Hofmann, O. T.;Zojer, E.;Zegenhagen, J.;Schreiber, F.;
2:97:17 Optical evidence for intermolecular coupling in mixed films of pentacene and perfluoropentacene
DOI:10.1103/PhysRevB.83.245307 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Broch, K.;Heinemeyer, U.;Hinderhofer, A.;Anger, F.;Scholz, R.;Gerlach, A.;Schreiber, F.;
2:97:18 Epitaxial growth of perfluoropentacene films with predefined molecular orientation: A route for single-crystal optical studies
DOI:10.1103/PhysRevB.83.155428 JN:PHYSICAL REVIEW B PY:2011 TC:13 AU: Breuer, Tobias;Witte, Gregor;
2:97:19 Simultaneous in situ measurements of x-ray reflectivity and optical spectroscopy during organic semiconductor thin film growth
DOI:10.1063/1.3478450 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Hosokai, T.;Gerlach, A.;Hinderhofer, A.;Frank, C.;Ligorio, G.;Heinemeyer, U.;Vorobiev, A.;Schreiber, F.;
2:97:20 Order-Disorder Transition in the Molecular Orientation during Initial Growth of Organic Thin Film
DOI:10.1021/am303290d JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:0 AU: Kwon, Soonnam;Kim, Tae Gun;Choi, Won Kook;Kang, Sang Ook;Kim, Jeong Won;
2:97:21 Evidence for Kinetically Limited Thickness Dependent Phase Separation in Organic Thin Film Blends
DOI:10.1103/PhysRevLett.110.185506 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:5 AU: Banerjee, R.;Novak, J.;Frank, C.;Lorch, C.;Hinderhofer, A.;Gerlach, A.;Schreiber, F.;
2:97:22 Quantitative modeling of in situ x-ray reflectivity during organic molecule thin film growth
DOI:10.1103/PhysRevB.84.075479 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Woll, Arthur R.;Desai, Tushar V.;Engstrom, James R.;
2:97:23 Island size evolution and molecular diffusion during growth of organic thin films followed by time-resolved specular and off-specular scattering
DOI:10.1103/PhysRevB.90.045410 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Frank, C.;Novak, J.;Banerjee, R.;Gerlach, A.;Schreiber, F.;Vorobiev, A.;Kowarik, S.;
2:97:24 Molecular Packing Determines Singlet Exciton Fission in Organic Semiconductors
DOI:10.1021/nn502544d JN:ACS NANO PY:2014 TC:14 AU: Kolata, Kolja;Breuer, Tobias;Witte, Gregor;Chatterjee, Sangam;
2:97:25 Quantitatively identical orientation-dependent ionization energy and electron affinity of diindenoperylene
DOI:10.1063/1.4850531 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Han, W. N.;Yonezawa, K.;Makino, R.;Kato, K.;Hinderhofer, A.;Murdey, R.;Shiraishi, R.;Yoshida, H.;Sato, N.;Ueno, N.;Kera, S.;
2:97:26 Anisotropic Crystalline Organic Step-Flow Growth on Deactivated Si Surfaces
DOI:10.1103/PhysRevLett.110.086107 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:6 AU: Wagner, Sean R.;Lunt, Richard R.;Zhang, Pengpeng;
2:97:27 Ionization in organic thin films: Electrostatic potential, electronic polarization, and dopants in pentacene films
DOI:10.1103/PhysRevB.84.165405 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Topham, Benjamin J.;Soos, Zoltan G.;
2:97:28 Application of transmission electron microscopy for microstructural characterization of perfluoropentacene thin films
DOI:10.1063/1.3646549 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Haas, Benedikt;Beyer, Andreas;Witte, Wiebke;Breuer, Tobias;Witte, Gregor;Volz, Kerstin;
2:97:29 Photoinduced work function modifications and their effect on photoelectron spectroscopy
DOI:10.1063/1.4823591 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Wegkamp, Daniel;Meyer, Michael;Richter, Clemens;Wolf, Martin;Staehler, Julia;
2:97:30 Site-Specific Geometric and Electronic Relaxations at Organic-Metal Interfaces
DOI:10.1103/PhysRevLett.105.046103 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:14 AU: Yamane, H.;Gerlach, A.;Duhm, S.;Tanaka, Y.;Hosokai, T.;Mi, Y. Y.;Zegenhagen, J.;Koch, N.;Seki, K.;Schreiber, F.;
2:98:1 Device Characteristics of Bulk-Heterojunction Polymer Solar Cells are Independent of Interfacial Segregation of Active Layers
DOI:10.1021/cm200320u JN:CHEMISTRY OF MATERIALS PY:2011 TC:51 AU: Wang, He;Gomez, Enrique D.;Kim, Jongbok;Guan, Zelei;Jaye, Cherno;Fischer, Daniel A.;Kahn, Antoine;Loo, Yueh-Lin;
2:98:2 Tail State-Assisted Charge Injection and Recombination at the Electron-Collecting Interface of P3HT:PCBM Bulk-Heterojunction Polymer Solar Cells
DOI:10.1002/aenm.201200361 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:14 AU: Wang, He;Shah, Manas;Ganesan, Venkat;Chabinyc, Michael L.;Loo, Yueh-Lin;
2:98:3 Electronic structure of the poly(3-hexylthiophene):indene-C-60 bisadduct bulk heterojunction
DOI:10.1063/1.3626938 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:23 AU: Guan, Ze-Lei;Kim, Jong Bok;Loo, Yueh-Lin;Kahn, Antoine;
2:98:4 Using Self-Organization To Control Morphology in Molecular Photovoltaics
DOI:10.1021/ja308628z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:25 AU: Kang, Seok Ju;Ahn, Seokhoon;Kim, Jong Bok;Schenck, Christine;Hiszpanski, Anna M.;Oh, Seokjoon;Schiros, Theanne;Loo, Yueh-Lin;Nuckolls, Colin;
2:98:5 Reversible Soft-Contact Lamination and Delamination for Non-Invasive Fabrication and Characterization of Bulk-Heterojunction and Bilayer Organic Solar Cells
DOI:10.1021/cm101692a JN:CHEMISTRY OF MATERIALS PY:2010 TC:31 AU: Kim, Jong Bok;Lee, Stephanie;Toney, Michael F.;Chen, Zhihua;Facchetti, Antonio;Kim, Youn Sang;Loo, Yueh-Lin;
2:98:6 Post-deposition Processing Methods To Induce Preferential Orientation in Contorted Hexabenzocoronene Thin Films
DOI:10.1021/nn304003u JN:ACS NANO PY:2013 TC:18 AU: Hiszpanski, Anna M.;Lee, Stephanie S.;Wang, He;Woll, Arthur R.;Nuckolls, Colin;Loo, Yueh-Lin;
2:98:7 Annealing Sequence Dependent Open-Circuit Voltage of Inverted Polymer Solar Cells Attributable to Interfacial Chemical Reaction between Top Electrodes and Photoactive Layers
DOI:10.1021/la202178p JN:LANGMUIR PY:2011 TC:10 AU: Kim, Jong Bok;Guan, Ze-Lei;Shu, Andrew L.;Kahn, Antoine;Loo, Yueh-Lin;
2:98:8 Enhanced Charge-Carrier Injection and Collection Via Lamination of Doped Polymer Layers p-Doped with a Solution-Processible Molybdenum Complex
DOI:10.1002/adfm.201303232 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Dai, An;Zhou, Yinhua;Shu, Andrew L.;Mohapatra, Swagat K.;Wang, He;Fuentes-Hernandez, Canek;Zhang, Yadong;Barlow, Stephen;Loo, Yueh-Lin;Marder, Seth R.;Kippelen, Bernard;Kahn, Antoine;
2:98:9 Orientation-Independent Charge Transport in Single Spherulites from Solution-Processed Organic Semiconductors
DOI:10.1021/ja2116316 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Lee, Stephanie S.;Loth, Marsha A.;Anthony, John E.;Loo, Yueh-Lin;
2:98:10 Understanding Heterogeneous Nucleation in Binary, Solution-Processed, Organic Semiconductor Thin Films
DOI:10.1021/cm3010858 JN:CHEMISTRY OF MATERIALS PY:2012 TC:9 AU: Lee, Stephanie S.;Muralidharan, Srevatsan;Woll, Arthur R.;Loth, Marsha A.;Li, Zhong;Anthony, John E.;Haataja, Mikko;Loo, Yueh-Lin;
2:98:11 Quantifying Resistances across Nanoscale Low- and High-Angle Interspherulite Boundaries in Solution-Processed Organic Semiconductor Thin Films
DOI:10.1021/nn303446h JN:ACS NANO PY:2012 TC:14 AU: Lee, Stephanie S.;Mativetsky, Jeffrey M.;Loth, Marsha A.;Anthony, John E.;Loo, Yueh-Lin;
2:98:12 Guiding Crystallization around Bends and Sharp Corners
DOI:10.1002/adma.201104619 JN:ADVANCED MATERIALS PY:2012 TC:18 AU: Lee, Stephanie S.;Tang, Samuel B.;Smilgies, Detlef-M;Woll, Arthur R.;Loth, Marsha A.;Mativetsky, Jeffrey M.;Anthony, John E.;Loo, Yueh-Lin;
2:98:13 Achieving high efficiency laminated polymer solar cell with interfacial modified metallic electrode and pressure induced crystallization
DOI:10.1063/1.3554377 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Yuan, Yongbo;Bi, Yu;Huang, Jinsong;
2:98:14 Tuning Polymorphism and Orientation in Organic Semiconductor Thin Films via Post-deposition Processing
DOI:10.1021/ja5091035 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Hiszpanski, Anna M.;Baur, Robin M.;Kim, Bumjung;Tremblay, Noah J.;Nuckolls, Colin;Woll, Arthur R.;Loo, Yueh-Lin;
2:98:15 Comment on "Tail State-Assisted Charge Injection and Recombination at the Electron-Collecting Interface of P3HT:PCBM Bulk-Heterojunction Polymer Solar Cells"
DOI:10.1002/aenm.201300463 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:3 AU: Wang, He;Shah, Manas;Jaye, Cherno;Fischer, Daniel A.;Ganesan, Venkat;Chabinyc, Michael L.;Loo, Yueh-Lin;
2:98:16 Critical Factors to Achieve Low Voltage- and Capacitance-Based Organic Field-Effect Transistors
DOI:10.1002/adma.201303388 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Jang, Mi;Park, Ji Hoon;Im, Seongil;Kim, Se Hyun;Yang, Hoichang;
2:98:17 Organic photovoltaic bulk heterojunctions with spatially varying composition
DOI:10.1063/1.3607871 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Haney, Paul M.;
2:98:18 A new method to invert top-gate organic field-effect transistors for Kelvin probe investigations
DOI:10.1007/s00339-012-7426-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:0 AU: Kehrer, L. A.;Feldmeier, E. J.;Siol, C.;Walker, D.;Melzer, C.;von Seggern, H.;
2:98:19 Temporal and thermal properties of optically induced instabilities in P3HT field-effect transistors
DOI:10.1016/j.synthmet.2011.08.007 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Kehrer, Lorenz A.;Winter, Stefan;Fischer, Rene;Melzer, Christian;von Seggern, Heinz;
2:98:20 Using Self-Organization To Control Morphology in Molecular Photovoltaics (vol 135, pg 2207, 2013)
DOI:10.1021/ja404333z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:0 AU: Kan, Seok Ju;Ahn, Seokhoon;Kim, Jong Bok;Schenck, Christine;Hiszpanski, Anna M.;Oh, Seokjoon;Schiros, Theanne;Loo, Yueh-Lin;Nuckolls, Colin;
2:99:1 Polymer solar cells using chlorinated indium tin oxide electrodes with high work function as the anode
DOI:10.1016/j.solmat.2011.10.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:17 AU: Sun, Kuan;Ouyang, Jianyong;
2:99:2 Enhanced performance in polymer photovoltaic cells with chloroform treated indium tin oxide anode modification
DOI:10.1063/1.3601853 JN:APPLIED PHYSICS LETTERS PY:2011 TC:27 AU: Xu, Z. Q.;Li, J.;Yang, J. P.;Cheng, P. P.;Zhao, J.;Lee, S. T.;Li, Y. Q.;Tang, J. X.;
2:99:3 Enhanced Hole Injection in Phosphorescent Organic Light-Emitting Diodes by Thermally Evaporating a Thin Indium Trichloride Layer
DOI:10.1021/am3011324 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:17 AU: Gao, Chun-Hong;Cai, Shi-Duan;Gu, Wei;Zhou, Dong-Ying;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:99:4 Highly efficient inverted polymer solar cells using aqueous ammonia processed ZnO as an electron selective layer
DOI:10.1007/s00339-014-8275-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Zhu, Xiao-Zhao;Zu, Feng-Shuo;Xu, Mei-Feng;Shi, Xiao-Bo;Jin, Zhi-Ming;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:99:5 Direct Comparison of Solution- and Vacuum-Processed Small Molecular Organic Light-Emitting Devices with a Mixed Single Layer
DOI:10.1021/am2003729 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:21 AU: Wang, Zhaokui;Lou, Yanhui;Naka, Shigeki;Okada, Hiroyuki;
2:99:6 Comparative studies on the inorganic and organic p-type dopants in organic light-emitting diodes with enhanced hole injection
DOI:10.1063/1.4802081 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Gao, Chun-Hong;Zhu, Xiao-Zhao;Zhang, Lei;Zhou, Dong-Ying;Wang, Zhao-Kui;Liao, Liang-Sheng;
2:99:7 Performance enhancement of organic light-emitting diodes by chlorine plasma treatment of indium tin oxide
DOI:10.1063/1.4709426 JN:APPLIED PHYSICS LETTERS PY:2012 TC:24 AU: Cao, X. A.;Zhang, Y. Q.;
2:99:8 The origin of the high work function of chlorinated indium tin oxide
DOI:10.1038/am.2013.33 JN:NPG ASIA MATERIALS PY:2013 TC:4 AU: Huang, Peng-Ru;He, Yao;Cao, Chao;Lu, Zheng-Hong;
2:99:9 Bias and temperature dependent charge transport in solution-processed small molecular mixed single layer organic light emitting devices
DOI:10.1063/1.3554391 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Wang, Zhaokui;Lou, Yanhui;Naka, Shigeki;Okada, Hiroyuki;
2:99:10 Concentration quenching of electroluminescence in neat Ir(ppy)(3) organic light-emitting diodes
DOI:10.1063/1.3504599 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Zhang, Y. Q.;Zhong, G. Y.;Cao, X. A.;
2:99:11 Competitive emission process in mixed single layer top-emission organic light emitting device with reduced efficiency roll-off
DOI:10.1063/1.3516159 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Wang, Zhaokui;Lou, Yanhui;Naka, Shigeki;Okada, Hiroyuki;
2:99:12 High-brightness organic light-emitting diodes based on a simplified hybrid structure
DOI:10.1063/1.4740272 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Acharya, R.;Cao, X. A.;
2:99:13 Efficient and reliable green organic light-emitting diodes with Cl-2 plasma-etched indium tin oxide anode
DOI:10.1063/1.4731713 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Zhang, Y. Q.;Acharya, R.;Cao, X. A.;
2:99:14 Pressure-assisted fabrication of organic light emitting diodes with MoO3 hole-injection layer materials
DOI:10.1063/1.4881780 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Du, J.;Anye, V. C.;Vodah, E. O.;Tong, T.;Kana, M. G. Zebaze;Soboyejo, W. O.;
2:99:15 Enhancement of device efficiency in CuPc/C-60 based organic photovoltaic cells by inserting an InCl3 layer
DOI:10.1016/j.synthmet.2012.10.021 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Zhu, X. Z.;Gao, C. H.;Xu, M. F.;Gu, W.;Shi, X. B.;Lei, Y. L.;Wang, Z. K.;Liao, L. S.;
2:99:16 Irradiation-induced molecular dipole reorientation in inverted polymer solar cell using small molecular electron collection layer
DOI:10.1063/1.3663548 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Xu, Zai-Quan;Sun, Fu-Zhou;Li, Jian;Lee, Shuit-Tong;Li, Yan-Qing;Tang, Jian-Xin;
2:99:17 Performance enhancement of polymer solar cells with luminescent down-shifting sensitizer
DOI:10.1063/1.4816383 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Ma, Guo-Fu;Xie, Hao-Jun;Cheng, Pan-Pan;Li, Yan-Qing;Tang, Jian-Xin;
2:99:18 Surface properties of indium tin oxide treated by Cl-2 inductively coupled plasma
DOI:10.1016/j.apsusc.2014.08.016 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: He, Kongduo;Yang, Xilu;Yan, Hang;Gong, Junyi;Zhong, Shaofeng;Ou, Qiongrong;Liang, Rongqing;
2:99:19 Performance improvement of rubrene-based organic light emitting devices with a mixed single layer
DOI:10.1007/s00339-010-5710-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:10 AU: Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:99:20 Approximating the electrical enhancement effects in a nano-patterned, injection-limited, single-layer organic light-emitting diode
DOI:10.1063/1.4737389 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Fina, Michael;Mao, Samuel S.;
2:99:21 Highly simplified small molecular phosphorescent organic light emitting devices with a solution-processed single layer
DOI:10.1063/1.3625549 JN:AIP ADVANCES PY:2011 TC:4 AU: Wang, Zhaokui;Lou, Yanhui;Naka, Shigeki;Okada, Hiroyuki;
2:99:22 Efficiency dependence on alkali metal compound/Al bilayer cathode in organic light-emitting diodes
DOI:10.1063/1.3522883 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Zhou, D. Y.;Cai, S. D.;Gu, W.;Liao, L. S.;Lee, S. T.;
2:99:23 Stress-induced current and luminescence modulations in an organic light-emitting device
DOI:10.1063/1.3518076 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Jiang, Z. Y.;Cao, X. A.;
2:99:24 Low-cost electrochemical treatment of indium tin oxide anodes for high-efficiency organic light-emitting diodes
DOI:10.1063/1.4862315 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Cheng, Chuan Hui;Liang, Ze Shan;Du, Guo Tong;Wang, Li Gang;Gao, Guo Dong;Zhou, Ting;Bian, Ji Ming;Luo, Ying Min;
2:99:25 Improving organic light-emitting diode performance with patterned structures
DOI:10.1007/s00339-011-6616-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:5 AU: Fina, Michael;Liu, Deang;Ren, Li;Mao, Samuel S.;
2:99:26 Fast and smooth etching of indium tin oxides in BCl3/Cl-2 inductively coupled plasmas
DOI:10.1116/1.3280919 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2010 TC:2 AU: Andagana, H. B.;Cao, X. A.;
2:100:1 Nanostructured Organic and Hybrid Solar Cells
DOI:10.1002/adma.201003991 JN:ADVANCED MATERIALS PY:2011 TC:163 AU: Weickert, Jonas;Dunbar, Ricky B.;Hesse, Holger C.;Wiedemann, Wolfgang;Schmidt-Mende, Lukas;
2:100:2 Improved Exciton Dissociation at Semiconducting Polymer:ZnO Donor:Acceptor Interfaces via Nitrogen Doping of ZnO
DOI:10.1002/adfm.201303994 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Musselman, Kevin P.;Albert-Seifried, Sebastian;Hoye, Robert L. Z.;Sadhanala, Aditya;Munoz-Rojas, David;MacManus-Driscoll, Judith L.;Friend, Richard H.;
2:100:3 Spray-deposited PEDOT:PSS for inverted organic solar cells
DOI:10.1016/j.solmat.2010.08.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:46 AU: Weickert, Jonas;Sun, Haiyan;Palumbiny, Claudia;Hesse, Holger Christian;Schmidt-Mende, Lukas;
2:100:4 High performance inverted bulk heterojunction solar cells by incorporation of dense, thin ZnO layers made using atmospheric atomic layer deposition
DOI:10.1016/j.solmat.2013.04.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:16 AU: Hoye, Robert L. Z.;Munoz-Rojas, David;Iza, Diana C.;Musselman, Kevin P.;MacManus-Driscoll, Judith L.;
2:100:5 Discotic materials for organic solar cells: Effects of chemical structure on assembly and performance
DOI:10.1016/j.solmat.2009.11.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:36 AU: Hesse, Holger Christian;Weickert, Jonas;Al-Hussein, Mahmoud;Doessel, Lukas;Feng, Xinliang;Muellen, Klaus;Schmidt-Mende, Lukas;
2:100:6 Electrodeposition of ZnO layers for photovoltaic applications: controlling film thickness and orientation
DOI:10.1039/c1jm11225b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:22 AU: Illy, Benoit N.;Cruickshank, Amy C.;Schumann, Stefan;Da Campo, Raffaello;Jones, Tim S.;Heutz, Sandrine;McLachlan, Martyn A.;McComb, David W.;Riley, D. Jason;Ryan, Mary P.;
2:100:7 Synergistic effects of interfacial modifiers enhance current and voltage in hybrid solar cells
DOI:10.1063/1.4824040 JN:APL MATERIALS PY:2013 TC:8 AU: Weickert, Jonas;Zimmermann, Eugen;Reindl, Julian B.;Pfadler, Thomas;Dorman, James A.;Petrozza, Annamaria;Schmidt-Mende, Lukas;
2:100:8 Study of the mechanism and rate of exciton dissociation at the donor-acceptor interface in bulk-heterojunction organic solar cells
DOI:10.1063/1.4818813 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Narayan, Monishka Rita;Singh, Jai;
2:100:9 Atomic layer deposition of zinc oxide onto and into P3HT for hybrid photovoltaics
DOI:10.1039/c4tc01629g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Obuchovsky, S.;Deckman, I.;Moshonov, M.;Peretz, T. Segal;Ankonina, G.;Savenije, T. J.;Frey, G. L.;
2:100:10 Polymer Crystallization as a Tool To Pattern Hybrid Nanostructures: Growth of 12 nm ZnO Arrays in Poly(3-hexylthiophene)
DOI:10.1021/nl4024275 JN:NANO LETTERS PY:2013 TC:6 AU: Moghaddam, Reza Saberi;Huettner, Sven;Vaynzof, Yana;Ducati, Caterina;Divitini, Giorgio;Lohwasser, Ruth H.;Musselman, Kevin P.;Sepe, Alessandro;Scherer, Maik R. J.;Thelakkat, Mukundan;Steiner, Ullrich;Friend, Richard H.;
2:100:11 Nanoscale investigation on large crystallites in TiO2 nanotube arrays and implications for high-quality hybrid photodiodes
DOI:10.1007/s10853-012-6580-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Wisnet, Andreas;Thomann, Markus;Weickert, Jonas;Schmidt-Mende, Lukas;Scheu, Christina;
2:100:12 Improved performance of ZnO nanostructured bulk heterojunction organic solar cells with nanowire-density modified by yttrium chloride introduction into solution
DOI:10.1016/j.solmat.2013.06.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:6 AU: Choi, Hyung Woo;Lee, Kyu-Sung;Theodore, N. David;Alford, T. L.;
2:100:13 Structural properties of the active layer of discotic hexabenzocoronene/perylene diimide bulk hetero junction photovoltaic devices: The role of alkyl side chain length
DOI:10.1016/j.tsf.2011.06.044 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Al-Hussein, M.;Hesse, H. C.;Weickert, J.;Doessel, L.;Feng, X.;Muellen, K.;Schmidt-Mende, L.;
2:100:14 Hybrid solution/vacuum-processed bilayer heterojunction organic solar cells: Structural characterization and performance
DOI:10.1016/j.tsf.2012.10.045 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Ghani, Fatemeh;Bochukov, Ivelin;Fostiropoulos, Konstantinos;Riegler, Hans;
2:100:15 The Dependence of Device Dark Current on the Active-Layer Morphology of Solution-Processed Organic Photodetectors
DOI:10.1002/adfm.201000967D JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:23 AU: Keivanidis, Panagiotis E.;Ho, Peter K. H.;Friend, Richard H.;Greenham, Neil C.;
2:100:16 Effect of simultaneous excitation of singlet and triplet excitons on the operation of organic solar cells
DOI:10.1063/1.4826199 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Narayan, Monishka Rita;Singh, Jai;
2:100:17 Molecular simulation of C-60 adsorption onto a TiO2 rutile (110) surface
DOI:10.1016/j.apsusc.2009.12.081 JN:APPLIED SURFACE SCIENCE PY:2010 TC:2 AU: Palace Carvalho, A. J.;Prates Ramalho, J. P.;
2:100:18 Diarylfluorene-Based Shape-Persistent Organic Nanomolecular Frameworks via Iterative Friedel-Crafts Protocol toward Multicomponent Organic Semiconductors
DOI:10.1155/2013/368202 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:1 AU: Zhang, Guang-Wei;Wang, Long;Xie, Ling-Hai;Hou, Xiao-Ya;Liu, Zheng-Dong;Huang, Wei;
2:101:1 Polymeric Material with Metal-Like Conductivity for Next Generation Organic Electronic Devices
DOI:10.1021/cm302899v JN:CHEMISTRY OF MATERIALS PY:2012 TC:50 AU: Fabretto, Manrico V.;Evans, Drew R.;Mueller, Michael;Zuber, Kamil;Hojati-Talemi, Pejman;Short, Rob D.;Wallace, Gordon G.;Murphy, Peter J.;
2:101:2 Vapor Phase Synthesis of Conducting Polymer Nanocomposites Incorporating 2D Nanoparticles
DOI:10.1021/cm5014653 JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Vucaj, Nastasja;Quinn, Matthew D. J.;Baechler, Curdin;Notley, Shannon M.;Cottis, Philip;Hojati-Talemi, Pejman;Fabretto, Manrico V.;Wallace, Gordon G.;Murphy, Peter J.;Evans, Drew R.;
2:101:3 Structure-directed growth of high conductivity PEDOT from liquid-like oxidant layers during vacuum vapor phase polymerization
DOI:10.1039/c2jm32281a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Evans, Drew;Fabretto, Manrico;Mueller, Mischa;Zuber, Kamil;Short, Robert;Murphy, Peter;
2:101:4 Ultrathin Polymer Films for Transparent Electrode Applications Prepared by Controlled Nucleation
DOI:10.1021/am403135p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Hojati-Talemi, Pejman;Baechler, Curdin;Fabretto, Manrico;Murphy, Peter;Evans, Drew;
2:101:5 High conductivity PEDOT resulting from glycol/oxidant complex and glycol/polymer intercalation during vacuum vapour phase polymerisation
DOI:10.1016/j.polymer.2011.02.028 JN:POLYMER PY:2011 TC:32 AU: Fabretto, Manrico;Jariego-Moncunill, Carlos;Autere, Jussi-Petteri;Michelmore, Andrew;Short, Robert D.;Murphy, Peter;
2:101:6 Inkjet printing and vapor phase polymerization: patterned conductive PEDOT for electronic applications
DOI:10.1039/c3tc30356j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Brooke, Robert;Evans, Drew;Dienel, Maik;Hojati-Talemi, Pejman;Murphy, Peter;Fabretto, Manrico;
2:101:7 Vacuum vapour phase polymerization of high conductivity PEDOT: Role of PEG-PPG-PEG, the origin of water, and choice of oxidant
DOI:10.1016/j.polymer.2012.03.028 JN:POLYMER PY:2012 TC:20 AU: Mueller, Michael;Fabretto, Manrico;Evans, Drew;Hojati-Talemi, Pejman;Gruber, Cynthia;Murphy, Peter;
2:101:8 Vacuum vapour phase polymerised poly(3,4-ethyelendioxythiophene) thin films for use in large-scale electrochromic devices
DOI:10.1016/j.tsf.2010.12.016 JN:THIN SOLID FILMS PY:2011 TC:22 AU: Fabretto, Manrico;Autere, Jussi-Petteri;Hoglinger, Doris;Field, Simon;Murphy, Peter;
2:101:9 Effect of attached peroxyacid on liquid phase depositional polymerization of EDOT over PI film with adsorbed ferric chloride
DOI:10.1016/j.synthmet.2014.10.008 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Li, Jianxiong;Zhang, Meijuan;Liu, Jie;Ma, Yaxiao;
2:101:10 Evidence for 'bottom up' growth during vapor phase polymerization of conducting polymers
DOI:10.1016/j.polymer.2014.06.055 JN:POLYMER PY:2014 TC:5 AU: Brooke, Robert;Fabretto, Manrico;Hojati-Talemi, Pejman;Murphy, Peter;Evans, Drew;
2:101:11 A facile process to produce highly conductive poly(3,4-ethylenedioxythiophene) films for ITO-free flexible OLED devices
DOI:10.1039/c3tc32096k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Li, Yuxin;Hu, Xiujie;Zhou, Shuyun;Yang, Li;Yan, Jun;Sun, Chenghua;Chen, Ping;
2:101:12 In-situ QCM-D analysis reveals four distinct stages during vapour phase polymerisation of PEDOT thin films
DOI:10.1016/j.polymer.2010.02.019 JN:POLYMER PY:2010 TC:18 AU: Fabretto, Manrico;Mueller, Michael;Hall, Colin;Murphy, Peter;Short, Robert D.;Griesser, Hans J.;
2:101:13 Highly Conductive and Conformal Poly(3,4-ethylenedioxythiophene) (PEDOT) Thin Films via Oxidative Molecular Layer Deposition
DOI:10.1021/cm500825b JN:CHEMISTRY OF MATERIALS PY:2014 TC:3 AU: Atanasov, Sarah E.;Losego, Mark D.;Gong, Bo;Sachet, Edward;Maria, Jon-Paul;Williams, Philip S.;Parsons, Gregory N.;
2:101:14 Semi-metallic polymers
DOI:10.1038/nmat3824 JN:NATURE MATERIALS PY:2014 TC:62 AU: Bubnova, Olga;Khan, Zia Ullah;Wang, Hui;Braun, Slawomir;Evans, Drew R.;Fabretto, Manrico;Hojati-Talemi, Pejman;Dagnelund, Daniel;Arlin, Jean-Baptiste;Geerts, Yves H.;Desbief, Simon;Breiby, Dag W.;Andreasen, Jens W.;Lazzaroni, Roberto;Chen, Weimin M.;Zozoulenko, Igor;Fahlman, Mats;Murphy, Peter J.;Berggren, Magnus;Crispin, Xavier;
2:101:15 Vapor phase polymerization of poly (3,4-ethylenedioxythiophene) on flexible substrates for enhanced transparent electrodes
DOI:10.1016/j.synthmet.2011.03.024 JN:SYNTHETIC METALS PY:2011 TC:16 AU: Madl, Christopher M.;Kariuki, Peter N.;Gendron, Jessica;Piper, Louis F. J.;Jones, Wayne E., Jr.;
2:101:16 Extending the Utility of Conducting Polymers through Chemisorption of Nucleophiles
DOI:10.1021/cm400385s JN:CHEMISTRY OF MATERIALS PY:2013 TC:6 AU: Hojati-Talemi, Pejman;Evans, Drew;Fabretto, Manrico;
2:101:17 Conducting polymer alloys for photo-enhanced electro-catalytic oxygen reduction
DOI:10.1039/c2jm30992k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Kolodziejczyk, Bartlomiej;Winther-Jensen, Orawan;MacFarlane, Douglas R.;Winther-Jensen, Bjorn;
2:101:18 Micropatterning of conducting polymer tracks on plasma treated flexible substrate using vapor phase polymerization-mediated inkjet printing
DOI:10.1016/j.synthmet.2010.02.010 JN:SYNTHETIC METALS PY:2010 TC:18 AU: Cho, Joonhyuk;Shin, Kyoung-Hwan;Jang, Jyongsik;
2:101:19 Vapor Phase Polymerization Deposition of Conducting Polymer/Graphene Nanocomposites as High Performance Electrode Materials
DOI:10.1021/am4003815 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:13 AU: Yang, Yajie;Li, Shibin;Zhang, Luning;Xu, Jianhua;Yang, Wenyao;Jiang, Yadong;
2:101:20 Large Area Nanostructured Arrays: Optical Properties of Metallic Nanotubes
DOI:10.1021/am400671n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Froehich, Katja;Hojati-Talemi, Pejman;Bishop, Matthew;Zuber, Kamil;Murphy, Peter;Evans, Drew;
2:101:21 Mechanically robust poly(3,4-ethylenedioxythiophene)-SiO2 hybrid conductive film prepared by simultaneous vapor phase polymerization
DOI:10.1016/j.compscitech.2013.06.023 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2013 TC:2 AU: Yim, Jin-Heong;
2:101:22 Orbital hybridization, crystal structure and anomalous resistivity of ultrathin CrZrx alloy films on polymeric substrates
DOI:10.1016/j.scriptamat.2012.05.022 JN:SCRIPTA MATERIALIA PY:2012 TC:3 AU: Evans, Drew;Zuber, Kamil;Merkens, Kerstin;Murphy, Peter;
2:101:23 Single-Crystal Poly(3,4-ethylenedioxythiophene) Nanowires with Ultrahigh Conductivity
DOI:10.1021/nl500748y JN:NANO LETTERS PY:2014 TC:3 AU: Cho, Boram;Park, Kyung S.;Baek, Jangmi;Oh, Hyun S.;Lee, Yong-Eun Koo;Sung, Myung M.;
2:101:24 Characterization and conversion determination of stable PEDOT latex nanoparticles synthesized by emulsion polymerization
DOI:10.1016/j.polymer.2011.01.034 JN:POLYMER PY:2011 TC:5 AU: Wu, Chieh-Han;Don, Trong-Ming;Chiu, Wen-Yen;
2:101:25 Anderson-like localization in ultrathin nanocomposite alloy films on polymeric substrates
DOI:10.1016/j.scriptamat.2012.08.016 JN:SCRIPTA MATERIALIA PY:2012 TC:2 AU: Zuber, Kamil;Merkens, Kerstin;Froehlich, Katja;Murphy, Peter;Wong-Leung, Jennifer;Evans, Drew;
2:101:26 Growth of Sputtered Nanocomposite Alloys on Polymeric Substrates: The Role of the Substrate's Mechanical Hardness
DOI:10.1002/adem.201300179 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:1 AU: Zuber, Kamil;Downey, Elisabeth;Hall, Colin;Murphy, Peter;Evans, Drew;
2:101:27 Temperature dependent conductivity of vapor-phase polymerized PEDOT films
DOI:10.1016/j.synthmet.2013.05.033 JN:SYNTHETIC METALS PY:2013 TC:8 AU: Wu, Dan;Zhang, Jie;Dong, Weiling;Chen, Hongwei;Huang, Xun;Sun, Baoquan;Chen, Liwei;
2:102:1 Tailoring side chains of low band gap polymers for high efficiency polymer solar cells
DOI:10.1016/j.polymer.2010.05.015 JN:POLYMER PY:2010 TC:73 AU: Li, Weiwei;Qin, Ruiping;Zhou, Yi;Andersson, Mattias;Li, Fenghong;Zhang, Chi;Li, Binsong;Liu, Zhengping;Bo, Zhishan;Zhang, Fengling;
2:102:2 Research progress on polymer heterojunction solar cells
DOI:10.1016/j.solmat.2011.10.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:47 AU: Wang, Yanmin;Wei, Wei;Liu, Xin;Gu, Yijie;
2:102:3 Enhancement of photovoltaic properties in supramolecular polymer networks featuring a solar cell main-chain polymer H-bonded with conjugated cross-linkers
DOI:10.1016/j.polymer.2012.01.026 JN:POLYMER PY:2012 TC:10 AU: Patra, Dhananjaya;Ramesh, Mohan;Sahu, Duryodhan;Padhy, Harihara;Chu, Chih-Wei;Wei, Kung-Hwa;Lin, Hong-Cheu;
2:102:4 Synthesis of conjugated polymers with broad absorption bands and photovoltaic properties as bulk heterojuction solar cells
DOI:10.1016/j.polymer.2011.03.040 JN:POLYMER PY:2011 TC:21 AU: Tamilavan, Vellaiappillai;Song, Myungkwan;Jin, Sung-Ho;Hyun, Myung Ho;
2:102:5 Low bandgap polymers synthesized by FeCol(3) oxidative polymerization
DOI:10.1016/j.solmat.2010.03.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:35 AU: Cai, Tianqi;Zhou, Yi;Wang, Ergang;Hellstrom, Stefan;Zhang, Fengling;Xu, Shiai;Inganas, Olle;Andersson, Mats R.;
2:102:6 Synthesis and application of H-Bonded cross-linking polymers containing a conjugated pyridyl H-Acceptor side-chain polymer and various carbazole-based H-Donor dyes bearing symmetrical cyanoacrylic acids for organic solar cells
DOI:10.1016/j.polymer.2010.10.018 JN:POLYMER PY:2010 TC:24 AU: Sahu, Duryodhan;Padhy, Harihara;Patra, Dhananjaya;Kekuda, Dhananjay;Chu, Chih-Wei;Chiang, I-Hung;Lin, Hong-Cheu;
2:102:7 Low bandgap EDOT-quinoxaline and EDOT-thiadiazol-quinoxaline conjugated polymers: Synthesis, redox, and photovoltaic device
DOI:10.1016/j.polymer.2010.03.050 JN:POLYMER PY:2010 TC:22 AU: Zhang, Guobing;Fu, Yingying;Zhang, Qing;Xie, Zhiyuan;
2:102:8 Low-bandgap poly(4H-cyclopenta[def]phenanthrene) derivatives with 4,7-dithienyl-2,1,3-benzothiadiazole unit for photovoltaic cells
DOI:10.1016/j.polymer.2009.12.009 JN:POLYMER PY:2010 TC:23 AU: Kim, Jinwoo;Park, Sung Heum;Cho, Shinuk;Jin, Youngeup;Kim, Jaehong;Kim, Il;Lee, Jin Sook;Kim, Joo Hyun;Woo, Han Young;Lee, Kwanghee;Suh, Hongsuk;
2:102:9 Effect of replacing proton with alkoxy side chain for donor acceptor type organic photovoltaics
DOI:10.1016/j.solmat.2013.09.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Song, Kwan Wook;Choi, Min Hee;Song, Ho Jun;Heo, Soo Won;Lee, Jang Yong;Moon, Doo Kyung;
2:102:10 Novel thieno[3,4-c]pyrrole-4,6-dione-based conjugated copolymers with donor-acceptor structures
DOI:10.1007/s10853-011-5801-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:7 AU: Zhang, Wei;Tao, Feng;Xi, Long-yi;Meng, Kai-ge;Wang, Zheng;Li, Ying;Jiang, Qing;
2:102:11 Molecular structure-property engineering for photovoltaic applications: Fluorene-acceptor alternating conjugated copolymers with varied bridged moieties
DOI:10.1016/j.polymer.2010.01.039 JN:POLYMER PY:2010 TC:23 AU: Li, Yaowen;Li, Hui;Xu, Bin;Li, Zaifang;Chen, Feipeng;Feng, Dongqing;Zhang, Jibo;Tian, Wenjing;
2:102:12 Enhanced spectral response in polymer bulk heterojunction solar cells by using active materials with complementary spectra
DOI:10.1016/j.solmat.2009.02.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:23 AU: Huang, Jen-Hsien;Lee, Chuan-Pei;Ho, Zhong-Yo;Kekuda, Dhananjay;Chu, Chih-Wei;Ho, Kuo-Chuan;
2:102:13 Enhanced device performance of organic solar cells via reduction of the crystallinity in the donor polymer
DOI:10.1039/c0jm00664e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Park, Jong Hwan;Park, Jeong-Il;Kim, Do Hwan;Kim, Joo-Hyun;Kim, Jong Soo;Lee, Ji Hwang;Sim, Myungsun;Lee, Sang Yoon;Cho, Kilwon;
2:102:14 A side chain-modified quaterthiophene derivative for enhancing the performance of organic solar cell devices
DOI:10.1039/c2jm32354k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Cha, Hyojung;Park, Jong Won;Chung, Dae Sung;An, Tae Kyu;Kim, Yun-Hi;Kwon, Soon-Ki;Park, Chan Eon;
2:102:15 Two novel propylenedioxythiophene-based copolymers with donor-acceptor structures for organic solar cell materials
DOI:10.1007/s10853-011-5328-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:6 AU: Wang, Zheng;Tao, Feng;Xi, Long-yi;Meng, Kai-ge;Zhang, Wei;Li, Ying;Jiang, Qing;
2:102:16 Molecular design of copolymers based on polyfluorene derivatives for Bulk-heterojunction-type solar cells
DOI:10.1007/s10853-012-6861-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Zhang, Yan;Shen, Wei;He, Rongxing;Liu, Xiaorui;Li, Ming;
2:102:17 Tailoring the optoelectronic properties of donor-acceptor-donor type pi-conjugated polymers via incorporating different electron-acceptor moieties
DOI:10.1016/j.tsf.2011.10.034 JN:THIN SOLID FILMS PY:2012 TC:9 AU: Tarkuc, Simge;Udum, Yasemin Arslan;Toppare, Levent;
2:102:18 Using bis(pinacolato)diboron to improve the quality of regioregular conjugated co-polymers
DOI:10.1039/c0jm02359k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Brouwer, Frank;Alma, Jan;Valkenier, Hennie;Voortman, Thomas P.;Hillebrand, Jorrit;Chiechi, Ryan C.;Hummelen, Jan C.;
2:102:19 The influence of electron-deficient comonomer on chain alignment and OTFT characteristics of polythiophenes
DOI:10.1016/j.synthmet.2010.08.019 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Paek, Sunhee;Lee, Jaemin;Lim, Hyun Seok;Lim, Jongsun;Lee, Jun Young;Lee, Changjin;
2:102:20 Low band gap copolymer containing naphthalene-1,4,5,8-tetracarboxylic bisimide: Synthesis, properties and organic solar cell applications
DOI:10.1016/j.synthmet.2011.04.011 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Piyakulawat, Phimwipha;Keawprajak, Anusit;Wlosnewski, Joerg;Forster, Michael;Asawapirom, Udom;
2:102:21 Photophysical properties and self-assembly of triblock copolymer with complexes of positively charged PDMAEMA and oppositely charged chromophores
DOI:10.1016/j.polymer.2012.03.004 JN:POLYMER PY:2012 TC:3 AU: Lian, Xueming;Zhao, Fei;Li, Yuan;Wang, Jun;Li, Siming;Zhao, Hanying;
2:102:22 Syntheses and characterization of new low-band gap polymers containing 4H-cyclopenta[def]phenanthrene unit and 4,7-di(thien-2-yl)-2H-benzimidazole-2-spirocyclohexane for photovoltaic device
DOI:10.1016/j.synthmet.2011.04.032 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Kim, Jaehong;Park, Sung Heum;Kim, Jinwoo;Cho, Shinuk;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:103:1 Transient absorption spectroscopy of polymer-based thin-film solar cells
DOI:10.1016/j.polymer.2011.06.061 JN:POLYMER PY:2011 TC:52 AU: Ohkita, Hideo;Ito, Shinzaburo;
2:103:2 The origin of efficiency enhancement of inorganic/organic Hybrid solar Cells by robust samarium phosphate nanophosphors
DOI:10.1016/j.solmat.2014.07.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:7 AU: Li, Qinghua;Yuan, Yongbiao;Wei, Taihuei;Li, Yue;Chen, Zihan;Jin, Xiao;Qin, Yuancheng;Sun, Weifu;
2:103:3 High-Efficiency Panchromatic Hybrid Schottky Solar Cells
DOI:10.1002/adma.201202451 JN:ADVANCED MATERIALS PY:2013 TC:21 AU: Lee, Joun;Mubeen, Syed;Hernandez-Sosa, Gerardo;Sun, Yanming;Toma, Francesca M.;Stucky, Galen D.;Moskovits, Martin;
2:103:4 Core-Shell Nanophosphor Architecture: Toward Efficient Energy Transport in Inorganic/Organic Hybrid Solar Cells
DOI:10.1021/am5027709 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:9 AU: Li, Qinghua;Yuan, Yongbiao;Chen, Zihan;Jin, Xiao;Wei, Tai-huei;Li, Yue;Qin, Yuancheng;Sun, Weifu;
2:103:5 Efficient Light Harvesting by Photon Downconversion and Light Trapping in Hybrid ZnS Nanoparticles/Si Nanotips Solar Cells
DOI:10.1021/nn101817s JN:ACS NANO PY:2010 TC:43 AU: Huang, Chun-Ying;Wang, Di-Yan;Wang, Chun-Hsiung;Chen, Yung-Ting;Wang, Yaw-Tyng;Jiang, You-Ting;Yang, Ying-Jay;Chen, Chia-Chun;Chen, Yang-Fang;
2:103:6 Exciton Generation/Dissociation/Charge-Transfer Enhancement in Inorganic/Organic Hybrid Solar Cells by Robust Single Nanocrystalline LnP(x)O(y) (Ln = Eu, Y) Doping
DOI:10.1021/am501597k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:10 AU: Jin, Xiao;Sun, Weifu;Chen, Zihan;Wei, Taihuei;Chen, Chuyang;He, Xingdao;Yuan, Yongbiao;Li, Yue;Li, Qinghua;
2:103:7 Room-Temperature Tailoring of Vertical ZnO Nanoarchitecture Morphology for Efficient Hybrid Polymer Solar Cells
DOI:10.1002/adfm.201200415 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:32 AU: Sung, Yu-Hsiang;Liao, Wen-Pin;Chen, Dian-Wei;Wu, Chun-Te;Chang, Geng-Jia;Wu, Jih-Jen;
2:103:8 Influence of polymer-metal interface on the photovoltaic properties and long-term stability of nc-TiO2-P3HT hybrid solar cells
DOI:10.1016/j.solmat.2010.01.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:23 AU: Reeja-Jayan, B.;Manthiram, A.;
2:103:9 Progressive multi-layer drop-casting of CdSe nanoparticles for photocurrent down shifing monitoring
DOI:10.1063/1.4816956 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Lambert, Y.;Zhou, Di;Xu, Tao;Cristini, O.;Deresmes, D.;Grandidier, B.;Stievenard, D.;
2:103:10 Enhancing the photoelectrical performance of dye-sensitized solar cells using TiO2:Eu3+ nanorods
DOI:10.1088/0957-4484/21/41/415201 JN:NANOTECHNOLOGY PY:2010 TC:29 AU: Hafez, Hoda;Wu, Jihuai;Lan, Zhang;Li, Qinghua;Xie, Guixiang;Lin, Jianming;Huang, Miaoliang;Huang, Yunfang;Abdel-Mottaleb, M. S.;
2:103:11 Enhanced and persistent photoconductivity in vertical silicon nanowires and ZnS nanoparticles hybrid devices
DOI:10.1063/1.4768784 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Ahmad, Mushtaq;Rasool, Kamran;Rafiq, M. A.;Hasan, M. M.;
2:103:12 Enhancement of power conversion efficiency in GaAs solar cells with dual-layer quantum dots using flexible PDMS film
DOI:10.1016/j.solmat.2012.05.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:14 AU: Chen, Hsin-Chu;Lin, Chien-Chung;Han, Hau-Vei;Chen, Kuo-Ju;Tsai, Yu-Lin;Chang, Yi-An;Shih, Min-Hsiung;Kuo, Hao-Chung;Yu, Peichen;
2:103:13 Optimized luminescence properties of Mn doped ZnS nanoparticles for photovoltaic applications
DOI:10.1063/1.4772668 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:8 AU: Le Donne, Alessia;Jana, Sourav Kanti;Banerjee, Sangam;Basu, Sukumar;Binetti, Simona;
2:103:14 Reply to "Comment on High-Efficiency Panchromatic Hybrid Schottky Solar Cells"
DOI:10.1002/adma.201302148 JN:ADVANCED MATERIALS PY:2013 TC:1 AU: Lee, Joun;Moskovits, Martin;
2:103:15 Comment on High-Efficiency Panchromatic Hybrid Schottky Solar Cells
DOI:10.1002/adma.201301849 JN:ADVANCED MATERIALS PY:2013 TC:2 AU: Potscavage, William J., Jr.;
2:103:16 Rare earth organic complexes as down-shifters to improve Si-based solar cell efficiency
DOI:10.1016/j.optmat.2010.10.005 JN:OPTICAL MATERIALS PY:2011 TC:16 AU: Le Donne, A.;Dilda, M.;Crippa, M.;Acciarri, M.;Binetti, S.;
2:103:17 Carrier transportation, photoluminescence and lasing characteristics of 1,4-bis[2-[4-[N,N-di(p-tolyl)amino]phenyl]vinyl]benzene: implications for diode-pumped organic solid-state lasers
DOI:10.1039/c4tc01292e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wei, Mengjie;Huang, Rongjuan;Guo, Kunping;Jing, Yuelin;Xu, Tao;Wei, Bin;
2:103:18 Investigation on the effect of Tb(dbm)(3)phen on the luminescent properties of Eu(dbm)(3)phen-containing mesoporous silica nanoparticles
DOI:10.1016/j.matchemphys.2013.07.054 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Moretti, E.;Bellotto, L.;Basile, M.;Malba, C.;Enrichi, F.;Benedetti, A.;Polizzi, S.;
2:103:19 Enhancing the photoelectrical performance of dye-sensitized solar cells using TiO2:Eu3+ nanorods (vol 21, 415201, 2010)
DOI:10.1088/0957-4484/21/45/459801 JN:NANOTECHNOLOGY PY:2010 TC:0 AU: Hafez, Hoda;Wu, Jihuai;Lan, Zhang;Li, Qinghua;Xie, Guixiang;Lin, Jianming;Huang, Miaoliang;Huang, Yunfang;Abdel-Mottaleb, M. S.;
2:103:20 Microwave-assisted synthesis and characterization of poly(acrylic)/SiO2-TiO2 core-shell nanoparticle hybrid thin films
DOI:10.1016/j.tsf.2011.04.001 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Chien, Wen-Chen;Yu, Yang-Yen;Chen, Po-Kan;Yu, Hui-Huan;
2:104:1 Molecular orientation in small-molecule organic light-emitting diodes
DOI:10.1039/c1jm13417e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:77 AU: Yokoyama, Daisuke;
2:104:2 Orientation Control of Linear-Shaped Molecules in Vacuum-Deposited Organic Amorphous Films and Its Effect on Carrier Mobilities
DOI:10.1002/adfm.200901684 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:52 AU: Yokoyama, Daisuke;Setoguchi, Yousuke;Sakaguchi, Akio;Suzuki, Michio;Adachi, Chihaya;
2:104:3 Permanent polarization and charge distribution in organic light-emitting diodes (OLEDs): Insights from near-infrared charge-modulation spectroscopy of an operating OLED
DOI:10.1063/1.4867779 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Marchetti, Alfred P.;Haskins, Terri L.;Young, Ralph H.;Rothberg, Lewis J.;
2:104:4 Molecular Stacking Induced by Intermolecular C-H center dot center dot center dot N Hydrogen Bonds Leading to High Carrier Mobility in Vacuum-Deposited Organic Films
DOI:10.1002/adfm.201001919 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:34 AU: Yokoyama, Daisuke;Sasabe, Hisahiro;Furukawa, Yukio;Adachi, Chihaya;Kido, Junji;
2:104:5 Selectively Controlled Orientational Order in Linear-Shaped Thermally Activated Delayed Fluorescent Dopants
DOI:10.1021/cm500802p JN:CHEMISTRY OF MATERIALS PY:2014 TC:14 AU: Komino, Takeshi;Tanaka, Hiroyuki;Adachi, Chihaya;
2:104:6 Charge accumulation at organic semiconductor interfaces due to a permanent dipole moment and its orientational order in bilayer devices
DOI:10.1063/1.4724349 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:21 AU: Noguchi, Yutaka;Miyazaki, Yukimasa;Tanaka, Yuya;Sato, Naoki;Nakayama, Yasuo;Schmidt, Tobias D.;Bruetting, Wolfgang;Ishii, Hisao;
2:104:7 Suppression of Efficiency Roll-Off Characteristics in Thermally Activated Delayed Fluorescence Based Organic Light-Emitting Diodes Using Randomly Oriented Host Molecules
DOI:10.1021/cm4011597 JN:CHEMISTRY OF MATERIALS PY:2013 TC:21 AU: Komino, Takeshi;Nomura, Hiroko;Koyanagi, Takahiro;Adachi, Chihaya;
2:104:8 Evaluation of internal potential distribution and carrier extraction properties of organic solar cells through Kelvin probe and time-of-flight measurements
DOI:10.1063/1.4895712 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Tanaka, Yuya;Noguchi, Yutaka;Oda, Keisuke;Nakayama, Yasuo;Takahashi, Jun-ichi;Tokairin, Hiroshi;Ishii, Hisao;
2:104:9 Non-contact, non-destructive, quantitative probing of interfacial trap sites for charge carrier transport at semiconductor-insulator boundary
DOI:10.1063/1.4891052 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Choi, Wookjin;Miyakai, Tomoyo;Sakurai, Tsuneaki;Saeki, Akinori;Yokoyama, Masaaki;Seki, Shu;
2:104:10 In situ real-time spectroscopic ellipsometry measurement for the investigation of molecular orientation in organic amorphous multilayer structures
DOI:10.1063/1.3432568 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:20 AU: Yokoyama, Daisuke;Adachi, Chihaya;
2:104:11 Thickness dependent modulus of vacuum deposited organic molecular glasses for organic electronics applications
DOI:10.1039/c1sm05732d JN:SOFT MATTER PY:2011 TC:7 AU: Bakken, Nathan;Torres, Jessica M.;Li, Jian;Vogt, Bryan D.;
2:104:12 Wide-Range Refractive Index Control of Organic Semiconductor Films Toward Advanced Optical Design of Organic Optoelectronic Devices
DOI:10.1002/adma.201202422 JN:ADVANCED MATERIALS PY:2012 TC:11 AU: Yokoyama, Daisuke;Nakayama, Ken-ichi;Otani, Toshiya;Kido, Junji;
2:104:13 Influence of the direction of spontaneous orientation polarization on the charge injection properties of organic light-emitting diodes
DOI:10.1063/1.4807797 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Noguchi, Yutaka;Lim, Hyunsoo;Isoshima, Takashi;Ito, Eisuke;Hara, Masahiko;Chin, Whee Won;Han, Jin Wook;Kinjo, Hiroumi;Ozawa, Yusuke;Nakayama, Yasuo;Ishii, Hisao;
2:104:14 Photoinduced evolution of surface-potential undulation observed on vacuum-deposited thin films of tris(8-hydroxyquinolinato) aluminum
DOI:10.1063/1.3533816 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Ozasa, Kazunari;Ito, Hiromi;Maeda, Mizuo;Hara, Masahiko;
2:104:15 Anisotropy in amorphous films of cross-shaped molecules with an accompanying effect on carrier mobility: Ellipsometric and sum-frequency vibrational spectroscopic studies
DOI:10.1063/1.4792746 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Oh-e, Masahito;Ogata, Hidenori;Fujita, Yoshimasa;Koden, Mitsuhiro;
2:104:16 Enhanced charge-carrier injection caused by molecular orientation
DOI:10.1063/1.3602925 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Matsushima, Toshinori;Murata, Hideyuki;
2:104:17 Enhancement of the electrical characteristics of metal-free phthalocyanine films using cold isostatic pressing
DOI:10.1063/1.4904463 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Matsushima, Toshinori;Esaki, Yu;Adachi, Chihaya;
2:104:18 Enhancement of hole injection and electroluminescence characteristics by a rubbing-induced lying orientation of alpha-sexithiophene
DOI:10.1063/1.4735402 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Matsushima, Toshinori;Murata, Hideyuki;
2:104:19 Thickness dependence of the elastic modulus of tris(8-hydroxyquinolinato)aluminium
DOI:10.1039/c0sm00364f JN:SOFT MATTER PY:2010 TC:9 AU: Torres, Jessica M.;Bakken, Nathan;Stafford, Christopher M.;Li, Jian;Vogt, Bryan D.;
2:104:20 Integer charge transfer states in organic light-emitting diodes: Optical detection of hole carriers at the anode vertical bar organic interface
DOI:10.1063/1.3525592 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Marchetti, A. P.;Sassin, K. E.;Young, R. H.;Rothberg, L. J.;Kondakov, D. Y.;
2:104:21 Optical, morphological, structural, electrical, molecular orientation, and electroluminescence characteristics of organic semiconductor films prepared at various deposition rates
DOI:10.1016/j.tsf.2011.09.060 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Matsushima, Toshinori;Shiomura, Koutaro;Naka, Shigeki;Murata, Hideyuki;
2:104:22 Light- and ion-gauge-induced space charges in tris-(8-hydroxyquinolate) aluminum-based organic light-emitting diodes
DOI:10.1063/1.3374405 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Noguchi, Yutaka;Sato, Naoki;Miyazaki, Yukimasa;Ishii, Hisao;
2:104:23 Growth of Amino Substituted Anthracene Thin Films under Non Thermal Equilibrium Conditions
DOI:10.1007/s13391-014-3320-6 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Brar, Sukhwinder Singh;Mahajan, Aman;Bedi, R. K.;
2:104:24 Horizontally oriented molecular thin films for application in organic solar cells
DOI:10.1016/j.solmat.2014.01.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Matsushima, Toshinori;Matsuo, Hitoshi;Yamamoto, Tetsuo;Nakao, Akichika;Murata, Hideyuki;
2:104:25 Two-dimensional orientation control of organic semiconducting amorphous films by mechanical brushing
DOI:10.1063/1.3608315 JN:APPLIED PHYSICS LETTERS PY:2011 TC:1 AU: Arai, Toshiharu;Goushi, Kenichi;Nomura, Hiroko;Edura, Tomohiko;Adachi, Chihaya;
2:104:26 Kelvin probe force microscope with near-field photoexcitation
DOI:10.1063/1.3373430 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Ozasa, Kazunari;Nemoto, Shigeyuki;Maeda, Mizuo;Hara, Masahiko;
2:104:27 Spatial Localization of Carrier Traps in 4H-SiC MOSFET Devices Using Thermally Stimulated Current
DOI:10.1007/s11664-009-1058-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2010 TC:2 AU: Tadjer, Marko J.;Stahlbush, Robert E.;Hobart, Karl D.;McMarr, Patrick J.;Hughes, Hap L.;Imhoff, Eugene A.;Kub, Fritz J.;Haney, Sarah K.;Agarwal, Anant;
2:105:1 Solution Processable Fluorenyl Hexa-peri-hexabenzocoronenes in Organic Field-Effect Transistors and Solar Cells
DOI:10.1002/adfm.200901827 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:66 AU: Wong, Wallace W. H.;Singh, T. Birendra;Vak, Doojin;Pisula, Wojciech;Yan, Chao;Feng, Xinliang;Williams, Evan L.;Chan, Khai Leok;Mao, Qinghui;Jones, David J.;Ma, Chang-Qi;Muellen, Klaus;Baeuerle, Peter;Holmes, Andrew B.;
2:105:2 Self-Assembling Thiophene Dendrimers with a Hexa-peri-hexabenzocoronene Core-Synthesis, Characterization and Performance in Bulk Heterojunction Solar Cells
DOI:10.1021/cm903272y JN:CHEMISTRY OF MATERIALS PY:2010 TC:62 AU: Wong, Wallace W. H.;Ma, Chang-Qi;Pisula, Wojciech;Yan, Chao;Feng, Xinliang;Jones, David J.;Muellen, Klaus;Janssen, Rene A. J.;Baeuerle, Peter;Holmes, Andrew B.;
2:105:3 Charge-Carrier Transporting Graphene-Type Molecules
DOI:10.1021/cm102252w JN:CHEMISTRY OF MATERIALS PY:2011 TC:88 AU: Pisula, Wojciech;Feng, Xinliang;Muellen, Klaus;
2:105:4 Recent development of conjugated oligomers for high-efficiency bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2010.07.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:48 AU: Tang, Weihua;Hai, Jiefeng;Dai, Yun;Huang, Zongjun;Lu, Bingqin;Yuan, Fei;Tang, Jian;Zhang, Fujun;
2:105:5 Liquid crystalline hexa-peri-hexabenzocoronene-diketopyrrolopyrrole organic dyes for photovoltaic applications
DOI:10.1039/c2jm34394k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Wong, Wallace W. H.;Subbiah, Jegadesan;Puniredd, Sreenivasa R.;Purushothaman, Balaji;Pisula, Wojciech;Kirby, Nigel;Muellen, Klaus;Jones, David J.;Holmes, Andrew B.;
2:105:6 Bulk Heterojunction Nanomorphology of Fluorenyl Hexa-peri-hexabenzocoronene-Fullerene Blend Films
DOI:10.1021/am4044085 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Pfaff, Marina;Mueller, Philipp;Bockstaller, Pascal;Mueller, Erich;Subbiah, Jegadesan;Wong, Wallace Wing Ho;Klein, Michael Frederic Giacomo;Kiersnowski, Adam;Puniredd, Sreenivasa Reddy;Pisula, Wojciech;Colsmann, Alexander;Gerthsen, Dagmar;Jones, David John;
2:105:7 Synthesis and Controlled Self-Assembly of Covalently Linked Hexa-peri-hexabenzocoronene/Perylene Diimide Dyads as Models To Study Fundamental Energy and Electron Transfer Processes
DOI:10.1021/ja211504a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:36 AU: Doessel, Lukas F.;Kamm, Valentin;Howard, Ian A.;Laquai, Frederic;Pisula, Wojciech;Feng, Xinliang;Li, Chen;Takase, Masayoshi;Kudernac, Tibor;De Feyter, Steven;Muellen, Klaus;
2:105:8 Solution Processable Monosubstituted Hexa-Peri-Hexabenzocoronene Self-Assembling Dyes
DOI:10.1002/adfm.201102141 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:5 AU: Ren, Shijie;Yan, Chao;Vak, Doojin;Jones, David J.;Holmes, Andrew B.;Wong, Wallace W. H.;
2:105:9 Facile Bottom-Up Synthesis of Coronene-based 3-Fold Symmetrical and Highly Substituted Nanographenes from Simple Aromatics
DOI:10.1021/ja413018f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:9 AU: Zhang, Qiang;Peng, Hanqing;Zhang, Guishan;Lu, Qiongqiong;Chang, Jian;Dong, Yeye;Shi, Xianying;Wei, Junfa;
2:105:10 Morphology Change and Improved Efficiency in Organic Photovoltaics via Hexa-peri-hexabenzocoronene Templates
DOI:10.1021/am5015666 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Dam, Henk H.;Sun, Kuan;Hanssen, Eric;White, Jonathan M.;Marszalek, Tomasz;Pisula, Wojciech;Czolk, Jens;Ludwig, Jens;Colsmann, Alexander;Pfaff, Marina;Gerthsen, Dagmar;Wong, Wallace W. H.;Jones, David J.;
2:105:11 Evidence for Band-like Transport in Graphene-Based Organic Monolayers
DOI:10.1002/adma.200902123 JN:ADVANCED MATERIALS PY:2010 TC:16 AU: Kaefer, Daniel;Bashir, Asif;Dou, Xi;Witte, Gregor;Muellen, Klaus;Woell, Christof;
2:105:12 Correlation of charge extraction properties and short circuit current in various organic binary and ternary blend photovoltaic devices
DOI:10.1007/s00339-012-7028-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:4 AU: Singh, T. Birendra;Chen, Xiwen;Wong, Wallace W. H.;Ehlig, Tino;Kemppinen, Peter;Chen, Ming;Watkins, Scott E.;Winzenberg, Kevin N.;Holdcroft, Steven;Jones, David J.;Holmes, Andrew B.;
2:105:13 Donor-Acceptor Shape Matching Drives Performance in Photovoltaics
DOI:10.1002/aenm.201201125 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:8 AU: Schiros, Theanne;Kladnik, Gregor;Prezzi, Deborah;Ferretti, Andrea;Olivieri, Giorgia;Cossaro, Albano;Floreano, Luca;Verdini, Alberto;Schenck, Christine;Cox, Marshall;Gorodetsky, Alon A.;Plunkett, Kyle;Delongchamp, Dean;Nuckolls, Colin;Morgante, Alberto;Cvetko, Dean;Kymissis, Ioannis;
2:105:14 A porphyrin-hexa-peri-hexabenzocoronene-porphyrin triad: synthesis, photophysical properties and performance in a photovoltaic device
DOI:10.1039/c0jm00311e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Wong, Wallace W. H.;Khoury, Tony;Vak, Doojin;Yan, Chao;Jones, David J.;Crossley, Maxwell J.;Holmes, Andrew B.;
2:105:15 Design of new benzothiadiazole-based linear and star molecules with different functional groups as solar cells materials: A theoretical approach
DOI:10.1016/j.solmat.2011.02.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:19 AU: Sun, Lei;Bai, Fu-Quan;Zhao, Zeng-Xia;Zhang, Hong-Xing;
2:105:16 An Electric-Field-Responsive Discotic Liquid-Crystalline Hexa-peri-Hexabenzocoronene/Oligothiophene Hybrid
DOI:10.1002/adma.201304371 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Hu, Nan;Shao, Renfan;Shen, Yongqiang;Chen, Dong;Clark, Noel A.;Walba, David M.;
2:105:17 Ruthenium(II)-Cored Polythiophene Dendrimers
DOI:10.1021/cm200228p JN:CHEMISTRY OF MATERIALS PY:2011 TC:9 AU: Deng, Suxiang;Krueger, Greg;Taranekar, Prasad;Sriwichai, Saengrawee;Zong, Ruifa;Thummel, Randolph P.;Advincula, Rigoberto C.;
2:105:18 Efficient Bilayer Electrodes for Photosensitive Organic Heterostructure
DOI:10.1080/15421406.2013.872440 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Vertsimakha, Ya.;Mamykin, S.;Pud, A.;
2:106:1 Pyrrole-Fused Azacoronene Family: The Influence of Replacement with Dialkoxybenzenes on the Optical and Electronic Properties in Neutral and Oxidized States
DOI:10.1021/ja402371f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:17 AU: Takase, Masayoshi;Narita, Tomoyuld;Fujita, Wataru;Asano, Motoko S.;Nishinaga, Tohru;Benten, Hiroaki;Yoza, Kenji;Muellen, Klaus;
2:106:2 Air- and Heat-Stable Planar Tri-p-quinodimethane with Distinct Biradical Characteristics
DOI:10.1021/ja206060n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:29 AU: Zhu, Xiaozhang;Tsuji, Hayato;Nakabayashi, Koji;Ohkoshi, Shin-ichi;Nakamura, Eiichi;
2:106:3 6,12-Diarylindeno[1,2-b]fluorenes: Syntheses, Photophysics, and Ambipolar OFETs
DOI:10.1021/ja303402p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:64 AU: Chase, Daniel T.;Fix, Aaron G.;Kang, Seok Ju;Rose, Bradley D.;Weber, Christopher D.;Zhong, Yu;Zakharov, Lev N.;Lonergan, Mark C.;Nuckolls, Colin;Haley, Michael M.;
2:106:4 Synthesis and Characterization of Teranthene: A Singlet Biradical Polycyclic Aromatic Hydrocarbon Having Kekule Structures
DOI:10.1021/ja1049737 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:77 AU: Konishi, Akihito;Hirao, Yasukazu;Nakano, Masayoshi;Shimizu, Akihiro;Botek, Edith;Champagne, Benoit;Shiomi, Daisuke;Sato, Kazunobu;Takui, Takeji;Matsumoto, Kouzou;Kurata, Hiroyuki;Kubo, Takashi;
2:106:5 Soluble and Stable Heptazethrenebis(dicarboximide) with a Singlet Open-Shell Ground State
DOI:10.1021/ja204501m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:45 AU: Sun, Zhe;Huang, Kuo-Wei;We, Jishan;
2:106:6 Kinetically Blocked Stable Heptazethrene and Octazethrene: Closed-Shell or Open-Shell in the Ground State?
DOI:10.1021/ja304618v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:51 AU: Li, Yuan;Heng, Wee-Kuan;Lee, Byung Sun;Aratani, Naoki;Zafra, Jose L.;Bao, Nina;Lee, Richmond;Sung, Young Mo;Sun, Zhe;Huang, Kuo-Wei;Webster, Richard D.;Lopez Navarrete, Juan T.;Kim, Dongho;Osuka, Atsuhiro;Casado, Juan;Ding, Jun;Wu, Jishan;
2:106:7 Synthesis and Characterization of Quarteranthene: Elucidating the Characteristics of the Edge State of Graphene Nanoribbons at the Molecular Level
DOI:10.1021/ja309599m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:42 AU: Konishi, Akihito;Hirao, Yasukazu;Matsumoto, Kouzou;Kurata, Hiroyuki;Kishi, Ryohei;Shigeta, Yasuteru;Nakano, Masayoshi;Tokunaga, Kazuya;Kamada, Kenji;Kubo, Takashi;
2:106:8 Stable Tetrabenzo-Chichibabin's Hydrocarbons: Tunable Ground State and Unusual Transition between Their Closed-Shell and Open-Shell Resonance Forms
DOI:10.1021/ja3050579 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:38 AU: Zeng, Zebing;Sung, Young Mo;Bao, Nina;Tan, Davin;Lee, Richmond;Zafra, Jose L.;Lee, Byung Sun;Ishida, Masatoshi;Ding, Jun;Lopez Navarrete, Juan T.;Li, Yuan;Zeng, Wangdong;Kim, Dongho;Huang, Kuo-Wei;Webster, Richard D.;Casado, Juan;Wu, Jishan;
2:106:9 Open-shell polycyclic aromatic hydrocarbons
DOI:10.1039/c1jm14786b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:45 AU: Sun, Zhe;Wu, Jishan;
2:106:10 Pushing Extended p-Quinodimethanes to the Limit: Stable Tetracyano-oligo(N-annulated perylene)quinodimethanes with Tunable Ground States
DOI:10.1021/ja402467y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:24 AU: Zeng, Zebing;Ishida, Masatoshi;Zafra, Jose L.;Zhu, Xiaojian;Sung, Young Mo;Bao, Nina;Webster, Richard D.;Lee, Byung Sun;Li, Run-Wei;Zeng, Wangdong;Li, Yuan;Chi, Chunyan;Lopez Navarrete, Juan T.;Ding, Jun;Casado, Juan;Kim, Dongho;Wu, Jishan;
2:106:11 Self-assembly and charge transport properties of a benzobisthiazole end-capped with dihexyl thienothiophene units
DOI:10.1039/c0jm02607g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: McEntee, Greg J.;Vilela, Filipe;Skabara, Peter J.;Anthopoulos, Thomas D.;Labram, John G.;Tierney, Steve;Harrington, Ross W.;Clegg, William;
2:106:12 A Stable Non-Kekule Singlet Biradicaloid from meso-Free 5,10,20,25-Tetrakis(Pentafluorophenyl)-Substituted [26]Hexaphyrin(1.1.1.1.1.1)
DOI:10.1021/ja101040s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:28 AU: Koide, Taro;Furukawa, Ko;Shinokubo, Hiroshi;Shin, Jae-Yoon;Kim, Kil Suk;Kim, Dongho;Osuka, Atsuhiro;
2:106:13 Alternating Covalent Bonding Interactions in a One-Dimensional Chain of a Phenalenyl-Based Singlet Biradical Molecule Having Kekule Structures
DOI:10.1021/ja1037287 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:45 AU: Shimizu, Akihiro;Kubo, Takashi;Uruichi, Mikio;Yakushi, Kyuya;Nakano, Masayoshi;Shiomi, Daisuke;Sato, Kazunobu;Takui, Takeji;Hirao, Yasukazu;Matsumoto, Kouzou;Kurata, Hiroyuki;Morita, Yasushi;Nakasuji, Kazuhiro;
2:106:14 Dibenzoheptazethrene Isomers with Different Biradical Characters: An Exercise of Clar's Aromatic Sextet Rule in Singlet Biradicaloids
DOI:10.1021/ja410279j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: Sun, Zhe;Lee, Sangsu;Park, Kyu Hyung;Zhu, Xiaojian;Zhang, Wenhua;Zheng, Bin;Hu, Pan;Zeng, Zebing;Das, Soumyajit;Li, Yuan;Chi, Chunyan;Li, Run-Wei;Huang, Kuo-Wei;Ding, Jun;Kim, Dongho;Wu, Jishan;
2:106:15 Impact of Diradical Character on Two-Photon Absorption: Bis(acridine) Dimers Synthesized from an Allenic Precursor
DOI:10.1021/ja308396a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:26 AU: Kamada, Kenji;Fuku-en, Shin-ichi;Minamide, Shu;Ohta, Koji;Kishi, Ryohei;Nakano, Masayoshi;Matsuzaki, Hiroyuki;Okamoto, Hiroshi;Higashikawa, Hiroyuki;Inoue, Katsuya;Kojima, Satoshi;Yamamoto, Yohsuke;
2:106:16 Dearomatization-Induced Transannular Cyclization: Synthesis of Electron-Accepting Thiophene-S,S-Dioxide-Fused Biphenylene
DOI:10.1021/ja503499n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Fukazawa, Aiko;Oshima, Hiroya;Shimizu, Soji;Kobayashi, Nagao;Yamaguchi, Shigehiro;
2:106:17 Neutral Radical and Singlet Biradical Forms of Meso-Free, -Keto, and -Diketo Hexaphyrins(1.1.1.1.1.1): Effects on Aromaticity and Photophysical Properties
DOI:10.1021/ja204626t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:25 AU: Ishida, Masatoshi;Shin, Jae-Yoon;Lim, Jong Min;Lee, Byung Sun;Yoon, Min-Chul;Koide, Taro;Sessler, Jonathan L.;Osuka, Atsuhiro;Kim, Dongho;
2:106:18 The Frontiers of Quinoidal Stability in Long Oligothiophenes: Raman Spectra of Dicationic Polaron Pairs
DOI:10.1021/ja2061903 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:15 AU: Gonzalez, Sandra R.;Ie, Yutaka;Aso, Yoshio;Lopez Navarrete, Juan T.;Casado, Juan;
2:106:19 Experimental and Computational Studies of the Neutral and Reduced States of Indeno[1,2-b]fluorene
DOI:10.1021/ja503870z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Rose, Bradley D.;Sumner, Natalie J.;Filatov, Alexander S.;Peters, Steven J.;Zakharov, Lev N.;Petrukhina, Marina A.;Haley, Michael M.;
2:106:20 Cyclic Tetrathiophenes Planarized by Silicon and Sulfur Bridges Bearing Antiaromatic Cyclooctatetraene Core: Syntheses, Structures, and Properties
DOI:10.1021/ja908161r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:37 AU: Ohmae, Takeshi;Nishinaga, Tohru;Wu, Mo;Iyoda, Masahiko;
2:106:21 Synthesis and characterisation of new diindenodithienothiophene (DITT) based materials
DOI:10.1039/b919574b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:11 AU: Afonina, Irina;Skabara, Peter J.;Vilela, Filipe;Kanibolotsky, Alexander L.;Forgie, John C.;Bansal, Ashu K.;Turnbull, Graham A.;Samuel, Ifor D. W.;Labram, John G.;Anthopoulos, Thomas D.;Coles, Simon J.;Hursthouse, Michael B.;
2:106:22 Thiophene-Fused Bisdehydro[12]annulene That Undergoes Transannular Alkyne Cycloaddition by Either Light or Heat
DOI:10.1021/ja3126849 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Fukazawa, Aiko;Oshima, Hiroya;Shiota, Yoshihito;Takahashi, Shouya;Yoshizawa, Kazunari;Yamaguchi, Shigehiro;
2:106:23 Hidden Non-Innocence in an Expanded Porphyrin: Electronic Structure of the Siamese-Twin Porphyrin's Dicopper Complex in Different Oxidation States
DOI:10.1021/ja406176e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:7 AU: Blusch, Lina K.;Craigo, Kathryn E.;Martin-Diaconescu, Vlad;McQuarters, Ashley B.;Bill, Eckhard;Dechert, Sebastian;DeBeer, Serena;Lehnert, Nicolai;Meyer, Franc;
2:106:24 Blue fluorescent dihydro-indenoindene derivatives with unusual low oxidation potentials as multifunctional OLED materials
DOI:10.1039/c3tc32245a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Wei, Yi;Wang, Wei-Jyun;Huang, Yu-Ting;Wang, Bo-Cheng;Chen, Wen-Hao;Wu, Sang-Hsiu;He, Chiu-Hui;
2:106:25 Synthesis and electronic properties of 4-cyanophenylvinylenedithiathiophene: An EDOT derivative
DOI:10.1016/j.synthmet.2011.11.007 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Sucsoran, Oznur;Bekiroglu, Somer;Ozturk, Turan;Ertas, Erdal;
2:107:1 Enhanced device performance of polymer solar cells by planarization of quinoxaline derivative in a low-bandgap polymer
DOI:10.1039/c1jm10877h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:45 AU: Lee, Yoonkyoo;Nam, Young Min;Jo, Won Ho;
2:107:2 Efficient donor-acceptor type polymer semiconductors with well-balanced energy levels and enhanced open circuit voltage properties for use in organic photovoltaics
DOI:10.1039/c1jm12145f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Lee, Jang-Yong;Kim, Seung-Hee;Song, In-Sung;Moon, Doo-Kyung;
2:107:3 Carbazole and thienyl benzo[1,2,5]thiadiazole based polymers with improved open circuit voltages and processability for application in solar cells
DOI:10.1039/c1jm12089a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:46 AU: Yi, Hunan;Al-Faifi, Solyman;Iraqi, Ahmed;Watters, Darren C.;Kingsley, James;Lidzey, David G.;
2:107:4 Synthesis of Donor-Acceptor polymers through control of the chemical structure: Improvement of PCE by planar structure of polymer backbones
DOI:10.1016/j.polymer.2012.10.056 JN:POLYMER PY:2013 TC:16 AU: Song, Ho Jun;Lee, Tae Ho;Han, Myung Hee;Lee, Jang Yong;Moon, Doo Kyung;
2:107:5 Thiophene-rich fused-aromatic thienopyrazine acceptor for donor-acceptor low band-gap polymers for OTFT and polymer solar cell applications
DOI:10.1039/c0jm00903b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:44 AU: Mondal, Rajib;Becerril, Hector A.;Verploegen, Eric;Kim, Dongwook;Norton, Joseph E.;Ko, Sangwon;Miyaki, Nobuyuki;Lee, Sangjun;Toney, Michael F.;Bredas, Jean-Luc;McGehee, Michael D.;Bao, Zhenan;
2:107:6 Enhanced photocurrent generation by high molecular weight random copolymer consisting of benzothiadiazole and quinoxaline as donor materials
DOI:10.1016/j.solmat.2013.08.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Kim, Doo Hun;Song, Ho Jun;Heo, Soo Won;Song, Kwan Wook;Moon, Doo Kyung;
2:107:7 Conjugated polymers consisting of quinacridone and quinoxaline as donor materials for organic photovoltaics: orientation and charge transfer properties of polymers formed by phenyl structures with a quinoxaline derivative
DOI:10.1039/c3ta10512a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:19 AU: Song, Ho-Jun;Kim, Doo-Hun;Lee, Eui-Jin;Moon, Doo-Kyung;
2:107:8 Acenaphtho[1,2-b]quinoxaline based low band gap copolymers for organic thin film transistor applications
DOI:10.1039/c1jm13540f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Siram, Raja Bhaskar Kanth;Smith, Jeremy;Anthopoulos, Thomas D.;Patil, Satish;
2:107:9 Self-organization polymer consisting of quinacridone and quaterthiophene units: Coplanar structure between benzene and thiophene linkage
DOI:10.1016/j.solmat.2013.05.057 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Song, Ho Jun;Kim, Doo Hun;Choi, Min Hee;Heo, Soo Won;Lee, Joo Young;Lee, Jang Yong;Moon, Doo Kyung;
2:107:10 Correlation of intramolecular charge transfer and orientation properties among quinacridone and acceptor units
DOI:10.1016/j.solmat.2013.12.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:10 AU: Song, Ho Jun;Kim, Doo Hun;Lee, Eui Jin;Haw, Jung Rim;Moon, Doo Kyung;
2:107:11 Side chain engineering of fused aromatic thienopyrazine based low band-gap polymers for enhanced charge carrier mobility
DOI:10.1039/c0jm02491k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Mondal, Rajib;Ko, Sangwon;Verploegen, Eric;Becerril, Hector A.;Toney, Michael F.;Bao, Zhenan;
2:107:12 The synthesis and electroluminescent properties of dithienylquinacridone-based copolymers for white light-emitting diodes
DOI:10.1016/j.synthmet.2011.09.026 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Song, Ho Jun;Lee, Seung Min;Lee, Jang Yong;Choi, Byung Hyun;Moon, Doo Kyung;
2:107:13 Enhancement of external quantum efficiency through steric hindrance of phenazine derivative for white polymer light-emitting diode materials
DOI:10.1016/j.synthmet.2013.08.017 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Song, Ho Jun;Lee, Eui Jin;Kim, Doo Hun;Lee, Seung Min;Lee, Jang Yong;Moon, Doo Kyung;
2:107:14 White polymer light-emitting diode materials with efficient electron injection backbone containing polyfluorene, oxadiazole and quinoxaline derivatives
DOI:10.1016/j.synthmet.2012.11.004 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Han, Myung Hee;Song, Ho Jun;Lee, Tae Ho;Lee, Jang Yong;Moon, Doo Kyung;Haw, Jung Rim;
2:107:15 White polymer light emitting diode materials introducing dendritic quinoxaline derivative: Synthesis, optical and electroluminescent properties
DOI:10.1016/j.synthmet.2014.01.019 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Song, Ho Jun;Shin, Gyo Jic;Choi, Kyung Ho;Lee, Sangkug;Moon, Doo Kyung;
2:107:16 Influence of the oxidation level on the electronic, morphological and charge transport properties of novel dithienothiophene S-oxide and S,S-dioxide inner core oligomers
DOI:10.1039/b917587c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:9 AU: Santato, Clara;Favaretto, Laura;Melucci, Manuela;Zanelli, Alberto;Gazzano, Massimo;Monari, Magda;Isik, Dilek;Banville, David;Bertolazzi, Simone;Loranger, Sebastien;Cicoira, Fabio;
2:107:17 Synthesis and characterization of diselenenoquinoxaline-based donor-acceptor polymers for organic photovoltaic cells
DOI:10.1016/j.synthmet.2012.03.022 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Lee, Woo-Hyung;Kim, Kyuri;Lee, Sang Kyu;Shin, Won Suk;Moon, Sang-Jin;Lee, Soo-Hyoung;Kang, In-Nam;
2:107:18 Fused aromatic thienopyrazines: structure, properties and function
DOI:10.1039/c0jm01840f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Mondal, Rajib;Ko, Sangwon;Bao, Zhenan;
2:107:19 Aryl amine substituted low energy gap carbazole polymers: preparation and photovoltaic properties
DOI:10.1039/c0jm01335h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:9 AU: Mohamad, David;Johnson, Richard G.;Janeliunas, Dainius;Kirkus, Mindaugas;Yi, Hunan;Lidzey, David G.;Iraqi, Ahmed;
2:107:20 Green-Yellow Electroluminescence from a host-dopant blended system as the active layer in a bilayer polymer light emitting diode: Poly(n-vinyl carbazole) as the host and a new soluble thiophene based copolymer [poly(2,2 '-BT)-co-(3-DDT)] as the dopant
DOI:10.1016/j.optmat.2014.09.004 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: Shahalizad, Afshin;Ahmadi-Kandjani, Sohrab;Movla, Hossein;Omidi, Hafez;Massoumi, Bakhshali;Zakerhamidi, Mohammad Sadegh;Entezami, All Akbar;
2:107:21 Thermal aging of single-layer polymer light-emitting diodes composed of a carbazole and oxadiazole containing copolymer doped with singlet or triplet emitters
DOI:10.1016/j.synthmet.2010.09.032 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Rungta, Parul;Tsyalkovsky, Volodymyr;Huebner, Christopher F.;Bandera, Yuriy P.;Foulger, Stephen H.;
2:108:1 Formation and Stability of Lines Produced by Inkjet Printing
DOI:10.1021/la101296e JN:LANGMUIR PY:2010 TC:56 AU: Stringer, Jonathan;Derby, Brian;
2:108:2 High-Performance Printed Transistors Realized Using Femtoliter Gravure-Printed Sub-10 mu m Metallic Nanoparticle Patterns and Highly Uniform Polymer Dielectric and Semiconductor Layers
DOI:10.1002/adma.201200924 JN:ADVANCED MATERIALS PY:2012 TC:60 AU: Kang, Hongki;Kitsomboonloha, Rungrot;Jang, Jaewon;Subramanian, Vivek;
2:108:3 Polymer Field-Effect Transistors Fabricated by the Sequential Gravure Printing of Polythiophene, Two Insulator Layers, and a Metal Ink Gate
DOI:10.1002/adfm.200901597 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:63 AU: Voigt, Monika M.;Guite, Alexander;Chung, Dae-Young;Khan, Rizwan U. A.;Campbell, Alasdair J.;Bradley, Donal D. C.;Meng, Fanshun;Steinke, Joachim H. G.;Tierney, Steve;McCulloch, Iain;Penxten, Huguette;Lutsen, Laurence;Douheret, Olivier;Manca, Jean;Brokmann, Ulrike;Soennichsen, Karin;Huelsenberg, Dagmar;Bock, Wolfgang;Barron, Cecile;Blanckaert, Nicolas;Springer, Simon;Grupp, Joachim;Mosley, Alan;
2:108:4 Microstructural Control over Soluble Pentacene Deposited by Capillary Pen Printing for Organic Electronics
DOI:10.1021/am401698c JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Lee, Wi Hyoung;Min, Honggi;Park, Namwoo;Lee, Junghwi;Seo, Eunsuk;Kang, Boseok;Cho, Kilwon;Lee, Hwa Sung;
2:108:5 Gravure Printing of Graphene for Large-Area Flexible Electronics
DOI:10.1002/adma.201401052 JN:ADVANCED MATERIALS PY:2014 TC:12 AU: Secor, Ethan B.;Lim, Sooman;Zhang, Heng;Frisbie, C. Daniel;Francis, Lorraine F.;Hersam, Mark C.;
2:108:6 Hydrostatic Optimization of Inkjet-Printed Films
DOI:10.1021/la100822s JN:LANGMUIR PY:2010 TC:24 AU: Kang, Hongki;Soltman, Dan;Subramanian, Vivek;
2:108:7 Methodology for Inkjet Printing of Partially Wetting Films
DOI:10.1021/la102053j JN:LANGMUIR PY:2010 TC:19 AU: Soltman, Dan;Ben Smith;Kang, Hongki;Morris, S. J. S.;Subramanian, Vivek;
2:108:8 Uniformity of fully gravure printed organic field-effect transistors
DOI:10.1016/j.mseb.2010.02.035 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:51 AU: Hambsch, M.;Reuter, K.;Stanel, M.;Schmidt, G.;Kempa, H.;Fuegmann, U.;Hahn, U.;Huebler, A. C.;
2:108:9 Femtoliter-Scale Patterning by High-Speed, Highly Scaled Inverse Gravure Printing
DOI:10.1021/la3037132 JN:LANGMUIR PY:2012 TC:21 AU: Kitsomboonoha, Rungrot;Morris, S. J. S.;Rong, Xiaoying;Subramanian, Vivek;
2:108:10 All-Printed Flexible Organic Transistors Enabled by Surface Tension-Guided Blade Coating
DOI:10.1002/adma.201401520 JN:ADVANCED MATERIALS PY:2014 TC:17 AU: Pierre, Adrien;Sadeghi, Mahsa;Payne, Marcia M.;Facchetti, Antonio;Anthony, John E.;Arias, Ana Claudia;
2:108:11 Preserving Precision of Inkjet-Printed Features with Solvents of Different Volatilities
DOI:10.1021/la402461c JN:LANGMUIR PY:2013 TC:2 AU: Lin, Jeng-Lung;Kao, Zhen-Kai;Liao, Ying-Chih;
2:108:12 Cell Filling in Gravure Printing for Printed Electronics
DOI:10.1021/la503180a JN:LANGMUIR PY:2014 TC:2 AU: Cen, Jialiang;Kitsomboonloha, Rungrot;Subramanian, Vivek;
2:108:13 Roll-to-roll compatible organic thin film transistor manufacturing technique by printing, lamination, and laser ablation
DOI:10.1016/j.tsf.2014.10.086 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Hassinen, Tomi;Ruotsalainen, Teemu;Laakso, Petri;Penttila, Raimo;Sandberg, Henrik G. O.;
2:108:14 Gravure printed low voltage polymer transistors and inverters
DOI:10.1016/j.tsf.2013.09.070 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Hassinen, Tomi;Sandberg, Henrik G. O.;
2:108:15 Inkjet printing of precisely defined features using contact-angle hysteresis
DOI:10.1016/j.jcis.2013.03.006 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:4 AU: Soltman, Dan;Smith, Ben;Morris, S. J. S.;Subramanian, Vivek;
2:108:16 Printing Stable Liquid Tracks on a Surface with Finite Receding Contact Angle
DOI:10.1021/la502490p JN:LANGMUIR PY:2014 TC:0 AU: Hsiao, Wen-Kai;Martin, Graham D.;Hutchings, Ian M.;
2:108:17 Lubrication-Related Residue as a Fundamental Process Scaling Limit to Gravure Printed Electronics
DOI:10.1021/la404938z JN:LANGMUIR PY:2014 TC:7 AU: Kitsomboonloha, Rungrot;Subramanian, Vivek;
2:108:18 Geometric confinement of directly deposited features on hydrophilic rough surfaces using a sacrificial layer
DOI:10.1007/s10853-014-8135-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Liu, L.;Wang, X.;Lennon, A.;Hoex, B.;
2:108:19 Inkjet Printing of Reinforcing Patterns for the Mechanical Stabilization of Fragile Polymeric Microsieves
DOI:10.1021/la2025236 JN:LANGMUIR PY:2012 TC:3 AU: Hammerschmidt, Jens;Wolf, Franziska M.;Goedel, Werner A.;Baumann, Reinhard R.;
2:108:20 Inkjet-printed organic photodiodes
DOI:10.1016/j.tsf.2011.08.004 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Lilliu, Samuele;Boeberl, Michaela;Sramek, Maria;Tedde, Sandro F.;Macdonald, J. Emyr;Hayden, Oliver;
2:108:21 All-Inkjet-Printed Bottom-Gate Thin-Film Transistors Using UV Curable Dielectric for Well-Defined Source-Drain Electrodes
DOI:10.1007/s11664-014-3143-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:2 AU: Castro, H. F.;Sowade, E.;Rocha, J. G.;Alpuim, P.;Lanceros-Mendez, S.;Baumann, R. R.;
2:109:1 Effects of TiO2 Interfacial Atomic Layers on Device Performances and Exciton Dynamics in ZnO Nanorod Polymer Solar Cells
DOI:10.1021/am5024435 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Jin, Mi-Jin;Jo, Junhyeon;Kim, Ji-Hee;An, Ki-Seok;Jeong, Mun Seok;Kim, Jeongyong;Yoo, Jung-Woo;
2:109:2 Solution-Processed Ga-Doped ZnO Nanorod Arrays as Electron Acceptors in Organic Solar Cells
DOI:10.1021/am5007832 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Ginting, Riski Titian;Yap, Chi Chin;Yahaya, Muhammad;Salleh, Muhammad Mat;
2:109:3 Enhancing performance of organic-inorganic hybrid solar cells using a fullerene interlayer from all-solution processing
DOI:10.1016/j.solmat.2009.08.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:44 AU: Huang, Jing-Shun;Chou, Chen-Yu;Lin, Ching-Fuh;
2:109:4 Tuning of undoped ZnO thin film via plasma enhanced atomic layer deposition and its application for an inverted polymer solar cell
DOI:10.1063/1.4825230 JN:AIP ADVANCES PY:2013 TC:3 AU: Jin, Mi-jin;Jo, Junhyeon;Neupane, Guru P.;Kim, Jeongyong;An, Ki-Seok;Yoo, Jung-Woo;
2:109:5 Enhanced charge transport in hybrid polymer/ZnO-nanorod solar cells assisted by conductive small molecules
DOI:10.1039/c2jm31605f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Chen, Jian-Yu;Hsu, Fang-Chi;Sung, Yun-Ming;Chen, Yang-Fang;
2:109:6 Enhanced photocurrent and stability of inverted polymer/ZnO-nanorod solar cells by 3-hydroxyflavone additive
DOI:10.1016/j.solmat.2011.10.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:10 AU: Sung, Yun-Ming;Hsu, Fang-Chi;Chen, Chiang-Ting;Su, Wei-Fang;Chen, Yang-Fang;
2:109:7 Density-controlled ZnO nanorod arrays in polymer solar cells based on Poly(3-hexylthiophene) and indene-C60 Bis-Adduct
DOI:10.1007/s13391-013-2240-1 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:3 AU: Ahmadi, Mehdi;Mirabbaszadeh, Kavoos;Ketabchi, Mostafa;
2:109:8 The effect of C-60 on the ZnO-nanorod surface in organic-inorganic hybrid photovoltaics
DOI:10.1016/j.solmat.2010.10.015 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:29 AU: Chen, Chiang-Ting;Hsu, Fang-Chi;Kuan, Shang-Wei;Chen, Yang-Fang;
2:109:9 Effects of metal-free conjugated oligomer as a surface modifier in hybrid polymer/ZnO solar cells
DOI:10.1016/j.solmat.2012.08.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Chen, Chiang-Ting;Hsu, Fang-Chi;Sung, Yun-Ming;Liao, Hsueh-Chung;Yen, Wei-Che;Su, Wei-Fang;Chen, Yang-Fang;
2:109:10 Efficient and air-stable plastics-based polymer solar cells enabled by atomic layer deposition
DOI:10.1039/c0jm04066e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Chang, Chih-Yu;Tsai, Feng-Yu;
2:109:11 Improvement of inverted type organic solar cells performance by incorporating Mg dopant into hydrothermally grown ZnO nanorod arrays
DOI:10.1016/j.jallcom.2013.10.006 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:3 AU: Ginting, Riski Titian;Yap, Chi Chin;Yahaya, Muhammad;Salleh, Muhamad Mat;
2:109:12 Enhanced charge extraction in inverted hybrid photovoltaic cells assisted by graphene nanoflakes
DOI:10.1039/c1jm12571k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Sung, Yun-Ming;Hsu, Fang-Chi;Wang, Di-Yan;Wang, I. -Sheng;Chen, Chia-Chun;Liao, Hsueh-Chung;Su, Wei-Fang;Chen, Yang-Fang;
2:109:13 Surface modification with MK-2 organic dye in a ZnO/P3HT hybrid solar cell: Impact on device performance
DOI:10.1063/1.4886217 JN:APL MATERIALS PY:2014 TC:0 AU: Kim, Yu Jin;An, Tae Kyu;Oh, Seung-Jeong;Chung, Dae Sung;Park, Chan Eon;
2:109:14 Significance of the ZnO nanorod array morphology for low-bandgap polymer solar cells in inverted structures
DOI:10.1039/c3ta13203j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:6 AU: Kao, Shao-Hsuan;Tseng, Zong-Liang;Ho, Ping-Yi;Kao, Chia-Yu;Thiyagu, Subramani;Lin, Ching-Fuh;
2:109:15 ZnO and conjugated polymer bulk heterojunction solar cells containing ZnO nanorod photoanode
DOI:10.1088/0957-4484/22/28/285401 JN:NANOTECHNOLOGY PY:2011 TC:16 AU: Lee, Tao-Hua;Sue, Hung-Jue;Cheng, Xing;
2:109:16 Improved charge transport in inverted polymer solar cells using surface engineered ZnO-nanorod array as an electron transport layer
DOI:10.1016/j.solmat.2014.03.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Sung, Yun-Ming;Hsu, Fang-Chi;Chen, Yang-Fang;
2:109:17 Magnetic-field annealing of inverted polymer:fullerene hybrid solar cells with FePt nanowires as additive
DOI:10.1063/1.4853935 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Chen, Chiang-Ting;Hsu, Fang-Chi;Li, Cheng-Hung;Chen, Chia-Chun;Chen, Yang-Fang;
2:109:18 Improvement of the nanostructured zinc oxide/polymer based solar cell efficiency through the incorporation of N,N '-dioctyl-3,4,9,10-perylenedicarboximide nanoribbons as charge mediator
DOI:10.1016/j.synthmet.2013.05.029 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Pradhan, S.;Dhar, A.;
2:110:1 Solution- Processed Highly Effi cient Alternating CurrentDriven Field- Induced Polymer Electroluminescent Devices Employing High- k Relaxor Ferroelectric Polymer Dielectric
DOI:10.1002/adfm.201302587 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Chen, Yonghua;Xia, Yingdong;Sun, Hengda;Smith, Gregory M.;Yang, Dezhi;Ma, Dongge;Carroll, David L.;
2:110:2 AC Field-Induced Polymer Electroluminescence with Single Wall Carbon Nanotubes
DOI:10.1021/nl103458g JN:NANO LETTERS PY:2011 TC:27 AU: Sung, Jinwoo;Choi, Yeon Sik;Kang, Seok Ju;Cho, Sung Hwan;Lee, Tae-Woo;Park, Cheolmin;
2:110:3 High Performance AC Electroluminescence from Colloidal Quantum Dot Hybrids
DOI:10.1002/adma.201201524 JN:ADVANCED MATERIALS PY:2012 TC:22 AU: Cho, Sung Hwan;Sung, Jinwoo;Hwang, Ihn;Kim, Richard Hahnkee;Choi, Yeon Sik;Jo, Seoung Soon;Lee, Tae Woo;Park, Cheolmin;
2:110:4 Solution-Processable Hole-Generation Layer and Electron-Transporting Layer: Towards High-Performance, Alternating-Current-Driven, Field-Induced Polymer Electroluminescent Devices
DOI:10.1002/adfm.201303242 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Chen, Yonghua;Xia, Yingdong;Smith, Gregory M.;Sun, Hengda;Yang, Dezhi;Ma, Dongge;Li, Yuan;Huang, Wenxiao;Carroll, David L.;
2:110:5 Extremely Bright Full Color Alternating Current Electroluminescence of Solution-Blended Fluorescent Polymers with Self-Assembled Block Copolymer Micelles
DOI:10.1021/nn4040926 JN:ACS NANO PY:2013 TC:7 AU: Cho, Sung Hwan;Jo, Seong Soon;Hwang, Ihn;Sung, Jinwoo;Seo, Jungmok;Jung, Seok-Heon;Bae, Insung;Choi, Jae Ryung;Cho, Himchan;Lee, Taeyoon;Lee, Jin Kyun;Lee, Tae-Woo;Park, Cheolmin;
2:110:6 Novel Approach for Alternating Current (AC)-Driven Organic Light-Emitting Devices
DOI:10.1002/adfm.201100747 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:30 AU: Perumal, Ajay;Froebel, Markus;Gorantla, Sandeep;Gemming, Thomas;Luessem, Bjoern;Eckert, Juergen;Leo, Karl;
2:110:7 Frequency-Dependent, Alternating Current-Driven, Field-Induced Polymer Electroluminescent Devices with High Power Efficiency
DOI:10.1002/adma.201402682 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Chen, Yonghua;Xia, Yingdong;Smith, Gregory M.;Carroll, David L.;
2:110:8 Emission characteristics in solution-processed asymmetric white alternating current field-induced polymer electroluminescent devices
DOI:10.1063/1.4774317 JN:APPLIED PHYSICS LETTERS PY:2013 TC:8 AU: Chen, Yonghua;Xia, Yingdong;Smith, Gregory M.;Gu, Yu;Yang, Chuluo;Carroll, David L.;
2:110:9 One-chip multicolor electroluminescence from an isotype heterojunction light-emitting diode
DOI:10.1063/1.4895935 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chen, Zhao;Fang, Guojia;Wang, Jianbo;Mo, Xiaoming;Long, Hao;Wang, Haoning;Peng, Shang;Meng, Weiwei;Zhao, Xingzhong;
2:110:10 High brightness alternating current electroluminescence with organic light emitting material
DOI:10.1063/1.3692776 JN:APPLIED PHYSICS LETTERS PY:2012 TC:16 AU: Perumal, Ajay;Luessem, Bjoern;Leo, Karl;
2:110:11 Effects of electrode modification using calcium on the performance of alternating current field-induced polymer electroluminescent devices
DOI:10.1063/1.4812350 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Xia, Yingdong;Chen, Yonghua;Smith, Gregory M.;Li, Yuan;Huang, Wenxiao;Carroll, David L.;
2:110:12 Optimizing the internal electric field distribution of alternating current driven organic light-emitting devices for a reduced operating voltage
DOI:10.1063/1.4865928 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Froebel, Markus;Hofmann, Simone;Leo, Karl;Gather, Malte C.;
2:110:13 Enhanced Thin-Film Transistor Performance by Combining 13,6-N-Sulfinylacetamidopentacene with Printed PEDOT:PSS Electrodes
DOI:10.1021/cm103326n JN:CHEMISTRY OF MATERIALS PY:2011 TC:13 AU: Luzio, Alessandro;Musumeci, Chiara;Newman, Christopher R.;Facchetti, Antonio;Marks, Tobin J.;Pignataro, Bruno;
2:110:14 Efficient Room-Temperature Near-Infrared Detection with Solution-Processed Networked Single Wall Carbon Nanotube Field Effect Transistors
DOI:10.1002/smll.201301582 JN:SMALL PY:2014 TC:2 AU: Hwang, Ihn;Jung, Hee June;Cho, Sung Hwan;Jo, Seong Soon;Choi, Yeon Sik;Sung, Ji Ho;Choi, Jae Ho;Jo, Moon Ho;Park, Cheolmin;
2:110:15 ac excitation of organic light emitting devices utilizing conductive charge generation layers
DOI:10.1063/1.3294326 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Brueckner, Jan;Christ, Nico;Bauder, Olga;Gaertner, Christian;Seyfried, Moritz;Gloeckler, Felix;Lemmer, Uli;Gerken, Martina;
2:110:16 Synthesis and Optical Properties of Light-Emitting Polyfluorene Derivatives
DOI:10.1080/15421406.2011.566065 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Aiamsen, Philaiwan;Carroll, David L.;Phanichphant, Sukon;
2:111:1 Layered Distribution of Charge Carriers in Organic Thin Film Transistors
DOI:10.1103/PhysRevLett.104.246602 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:40 AU: Shehu, Arian;Quiroga, Santiago D.;D'Angelo, Pasquale;Albonetti, Cristiano;Borgatti, Francesco;Murgia, Mauro;Scorzoni, Andrea;Stoliar, Pablo;Biscarini, Fabio;
2:111:2 Trap densities and transport properties of pentacene metal-oxide-semiconductor transistors. I. Analytical modeling of time-dependent characteristics
DOI:10.1063/1.4884855 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Basile, A. F.;Cramer, T.;Kyndiah, A.;Biscarini, F.;Fraboni, B.;
2:111:3 Trap densities and transport properties of pentacene metal-oxide-semiconductor transistors: II-Numerical modeling of dc characteristics
DOI:10.1063/1.4884856 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Basile, A. F.;Kyndiah, A.;Biscarini, F.;Fraboni, B.;
2:111:4 Molecular Reorganization in Organic Field-Effect Transistors and Its Effect on Two-Dimensional Charge Transport Pathways
DOI:10.1021/nn304733w JN:ACS NANO PY:2013 TC:25 AU: Liscio, Fabiola;Albonetti, Cristiano;Broch, Katharina;Shehu, Arian;Quiroga, Santiago David;Ferlauto, Laura;Frank, Christian;Kowarik, Stefan;Nervo, Roberto;Gerlach, Alexander;Milita, Silvia;Schreiber, Frank;Biscarini, Fabio;
2:111:5 Two-Dimensional Charge Transport in Disordered Organic Semiconductors
DOI:10.1103/PhysRevLett.109.056601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:14 AU: Brondijk, J. J.;Roelofs, W. S. C.;Mathijssen, S. G. J.;Shehu, A.;Cramer, T.;Biscarini, F.;Blom, P. W. M.;de Leeuw, D. M.;
2:111:6 Enhancing the Charge Transport in Solution-Processed Perylene Di-imide Transistors via Thermal Annealing of Metastable Disordered Films
DOI:10.1002/adfm.201400789 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Ferlauto, Laura;Liscio, Fabiola;Orgiu, Emanuele;Masciocchi, Norberto;Guagliardi, Antonietta;Biscarini, Fabio;Samori, Paolo;Milita, Silvia;
2:111:7 High-Performance Single Crystal Organic Field-Effect Transistors Based on Two Dithiophene-Tetrathiafulvalene (DT-TTF) Polymorphs
DOI:10.1002/adma.201001446 JN:ADVANCED MATERIALS PY:2010 TC:45 AU: Pfattner, Raphael;Mas-Torrent, Marta;Bilotti, Ivano;Brillante, Aldo;Milita, Silvia;Liscio, Fabiola;Biscarini, Fabio;Marszalek, Tomasz;Ulanski, Jacek;Nosal, Andrzej;Gazicki-Lipman, Maciej;Leufgen, Michael;Schmidt, Georg;Molenkamp, Laurens W.;Laukhin, Vladimir;Veciana, Jaume;Rovira, Concepcio;
2:111:8 Thickness-dependent in situ studies of trap states in pentacene thin film transistors
DOI:10.1063/1.3309685 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Fiebig, Matthias;Beckmeier, Daniel;Nickel, Bert;
2:111:9 Modeling of static electrical properties in organic field-effect transistors
DOI:10.1063/1.3602997 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:11 AU: Xu, Yong;Minari, Takeo;Tsukagoshi, Kazuhito;Gwoziecki, Romain;Coppard, Romain;Benwadih, Mohamed;Chroboczek, Jan;Balestra, Francis;Ghibaudo, Gerard;
2:111:10 Structure and dynamics of pentacene on SiO2: From monolayer to bulk structure
DOI:10.1103/PhysRevB.85.195308 JN:PHYSICAL REVIEW B PY:2012 TC:8 AU: Brillante, Aldo;Bilotti, Ivano;Della Valle, Raffaele Guido;Venuti, Elisabetta;Girlando, Alberto;Masino, Matteo;Liscio, Fabiola;Milita, Silvia;Albonetti, Cristiano;D'angelo, Pasquale;Shehu, Arian;Biscarini, Fabio;
2:111:11 Structure and Morphology of PDI8-CN2 for n-Type Thin-Film Transistors
DOI:10.1002/adfm.201101640 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:14 AU: Liscio, Fabiola;Milita, Silvia;Albonetti, Cristiano;D'Angelo, Pasquale;Guagliardi, Antonietta;Masciocchi, Norberto;Della Valle, Raffaele Guido;Venuti, Elisabetta;Brillante, Aldo;Biscarini, Fabio;
2:111:12 In situ Electrical Characterization of the Thickness Dependence of Organic Field-Effect Transistors with 1-20 Molecular Mono layer of Pentacene
DOI:10.1021/am1003377 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:22 AU: Liu, Shun-Wei;Lee, Chih-Chien;Tai, Hung-Lin;Wen, Je-Min;Lee, Jiun-Haw;Chen, Chin-Ti;
2:111:13 Numerical modeling of current-voltage characteristics to extract transport properties of organic semiconductors
DOI:10.1063/1.4902143 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Basile, A. F.;Fraboni, B.;
2:111:14 Quantitative Analysis of the Role of the First Layer in p- and n-Type Organic Field-Effect Transistors with Graphene Electrodes
DOI:10.1002/adma.201104055 JN:ADVANCED MATERIALS PY:2012 TC:2 AU: Wen, Yugeng;Chen, Jianyi;Zhang, Lei;Sun, Xiangnan;Zhao, Yan;Guo, Yunlong;Yu, Gui;Liu, Yunqi;
2:111:15 In situ preparation, electrical and surface analytical characterization of pentacene thin film transistors
DOI:10.1063/1.4895992 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Lassnig, R.;Striedinger, B.;Hollerer, M.;Fian, A.;Stadlober, B.;Winkler, A.;
2:111:16 Dimensionality of charge transport in organic field-effect transistors
DOI:10.1103/PhysRevB.85.235302 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Sharma, A.;van Oost, F. W. A.;Kemerink, M.;Bobbert, P. A.;
2:111:17 In situ vacuum measurement of the thickness dependence of electron mobility in naphthalenetetracarboxylic diimide-based field-effect transistors
DOI:10.1063/1.3534802 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Liu, Shun-Wei;Lee, Chih-Chien;Wen, Je-Min;Chen, Chin-Ti;
2:111:18 Evidence of intrinsic ambipolar charge transport in a high band gap organic semiconductor
DOI:10.1039/c1jm15037e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Moreno, Cesar;Pfattner, Raphael;Mas-Torrent, Marta;Puigdollers, Joaquim;Bromley, Stefan T.;Rovira, Concepcio;Veciana, Jaume;Alcubilla, Ramon;
2:111:19 Organic metal-organic semiconductor blended contacts in single crystal field-effect transistors
DOI:10.1039/c2jm32925e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Pfattner, Raphael;Mas-Torrent, Marta;Moreno, Cesar;Puigdollers, Joaquim;Alcubilla, Ramon;Bilotti, Ivano;Venuti, Elisabetta;Brillante, Aldo;Laukhin, Vladimir;Veciana, Jaume;Rovira, Concepcio;
2:111:20 Pentacene field-effect transistors by in situ and real time electrical characterization: Comparison between purified and non-purified thin films
DOI:10.1016/j.tsf.2013.02.069 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Liu, Shun-Wei;Wen, Je-Min;Lee, Chih-Chien;Su, Wei-Cheng;Wang, Wei-Lun;Chen, Ho-Chien;Lin, Chun-Feng;
2:111:21 A compact model for polycrystalline pentacene thin-film transistor
DOI:10.1063/1.3294617 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Li, Ling;Debucquoy, Maarten;Genoe, Jan;Heremans, Paul;
2:112:1 Transparent, near-infrared organic photovoltaic solar cells for window and energy-scavenging applications
DOI:10.1063/1.3567516 JN:APPLIED PHYSICS LETTERS PY:2011 TC:46 AU: Lunt, Richard R.;Bulovic, Vladimir;
2:112:2 Semitransparent organic photovoltaics using a near-infrared absorbing cyanine dye
DOI:10.1016/j.solmat.2013.08.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Zhang, Hui;Wicht, Gaetan;Gretener, Christina;Nagel, Matthias;Nueesch, Frank;Romanyuk, Yaroslav;Tisserant, Jean-Nicolas;Hany, Roland;
2:112:3 Theoretical limits for visibly transparent photovoltaics
DOI:10.1063/1.4738896 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Lunt, Richard R.;
2:112:4 Stability of bilayer trimethine cyanine dye/fullerene organic solar cells
DOI:10.1016/j.solmat.2013.07.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: Wicht, Gaetan;Buecheler, Stephan;Dietrich, Michael;Jaeger, Timo;Nueesch, Frank;Offermans, Ton;Tisserant, Jean-Nicolas;Wang, Lei;Zhang, Hui;Hany, Roland;
2:112:5 Efficient, Cyanine Dye Based Bilayer Solar Cells
DOI:10.1002/aenm.201200764 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:14 AU: Malinkiewicz, Olga;Grancha, Thais;Molina-Ontoria, Agustin;Soriano, Alejandra;Brine, Hicham;Bolink, Henk J.;
2:112:6 Improved performance of cyanine solar cells with polyaniline anodes
DOI:10.1039/b925289d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:27 AU: Fan, Bin;de Castro, Fernando Araujo;Chu, Bryan Tsu-Te;Heier, Jakob;Opris, Dorina;Hany, Roland;Nueesch, Frank;
2:112:7 The influence of Ni layer and thickness of AZO layers on the optoelectronic properties of AZO/Ni/AZO tri-layer deposited at room temperature
DOI:10.1016/j.matlet.2014.09.001 JN:MATERIALS LETTERS PY:2014 TC:5 AU: Kumar, M. Melvin David;Baek, Seon Mi;Kim, Joondong;
2:112:8 Cyanine dye polyelectrolytes for organic bilayer solar cells
DOI:10.1016/j.polymer.2014.05.035 JN:POLYMER PY:2014 TC:2 AU: Wang, Lei;Hinderling, Christian;Jenatsch, Sandra;Nueesch, Frank;Rentsch, Daniel;Steim, Roland;Zhang, Hui;Hany, Roland;
2:112:9 Near-infrared absorbing semitransparent organic solar cells
DOI:10.1063/1.3660708 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Meiss, Jan;Holzmueller, Felix;Gresser, Roland;Leo, Karl;Riede, Moritz;
2:112:10 Influence of crystalline titanium oxide layer smoothness on the performance of inverted organic bilayer solar cells
DOI:10.1063/1.4804599 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Berner, Etienne;Jaeger, Timo;Lanz, Thomas;Nueesch, Frank;Tisserant, Jean-Nicolas;Wicht, Gaetan;Zhang, Hui;Hany, Roland;
2:112:11 Effect of Ag-doping on microstructural, optical and electrical properties of sputtering-derived ZnS films
DOI:10.1016/j.jallcom.2012.11.020 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:3 AU: Song, Xueping;Shi, Shiwei;Cao, Chunbin;Chen, Xiaoshuang;Cui, Jingbiao;He, Gang;Sun, Zhaoqi;
2:112:12 Plasmonic backscattering enhanced inverted photovoltaics
DOI:10.1063/1.3640217 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Dissanayake, D. M. N. M.;Roberts, B.;Ku, P. -C.;
2:112:13 Ionic Space-Charge Effects in Solid State Organic Photovoltaics
DOI:10.1021/am1008216 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:11 AU: Lenes, Martijn;Bolink, Henk J.;
2:112:14 High-Performance, Transparent, Dye-Sensitized Solar Cells for See-Through Photovoltaic Windows
DOI:10.1002/aenm.201301966 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:2 AU: Zhang, Kun;Qin, Chuanjiang;Yang, Xudong;Islam, Ashraful;Zhang, Shufang;Chen, Han;Han, Liyuan;
2:112:15 Angle dependence of transparent photovoltaics in conventional and optically inverted configurations
DOI:10.1063/1.4823462 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Young, Margaret;Traverse, Christopher J.;Pandey, Richa;Barr, Miles C.;Lunt, Richard R.;
2:112:16 Semitransparent organic solar cells with organic wavelength dependent reflectors
DOI:10.1063/1.3546171 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Galagan, Yulia;Debije, Michael G.;Blom, Paul W. M.;
2:112:17 Efficient zinc sulfide cathode layers for organic photovoltaic applications via n-type doping
DOI:10.1063/1.4878155 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Traverse, Christopher J.;Young, Margaret;Wagner, Sean;Zhang, Pengpeng;Askeland, Per;Barr, Miles C.;Lunt, Richard R.;
2:112:18 Angular selective backreflector for semitransparent photovoltaics
DOI:10.1063/1.4742174 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Dissanayake, D. M. N. M.;Roberts, B.;Ku, P. -C.;
2:112:19 Dual-donor codoping approach to realize low-resistance n-type ZnS semiconductor
DOI:10.1063/1.3624531 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Li, Dengfeng;Deng, Bo;Xue, Shuwen;Wang, Zhiguo;Gao, Fei;
2:113:1 Poly(3-alkylthiophene) Diblock Copolymers with Ordered Microstructures and Continuous Semiconducting Pathways
DOI:10.1021/ja2035317 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:47 AU: Ho, Victor;Boudouris, Bryan W.;McCulloch, Bryan L.;Shuttle, Christopher G.;Burkhardt, Martin;Chabinyc, Michael L.;Segalman, Rachel A.;
2:113:2 Effect of TiO2 Nanoparticles on Self-Assembly Behaviors and Optical and Photovoltaic Properties of the P3HT-b-P2VP Block Copolymer
DOI:10.1021/la103972j JN:LANGMUIR PY:2011 TC:26 AU: Yen, Wei-Che;Lee, Yi-Huan;Lin, Jhih-Fong;Dai, Chi-An;Jeng, U-Ser;Su, Wei-Fang;
2:113:3 Air-Liquid Interfacial Self-Assembly of Conjugated Block Copolymers into Ordered Nanowire Arrays
DOI:10.1021/nn505871b JN:ACS NANO PY:2014 TC:1 AU: Cativo, Ma. Helen M.;Kim, David K.;Riggleman, Robert A.;Yager, Kevin G.;Nonnenmann, Stephen S.;Chao, Huikuan;Bonnell, Dawn A.;Black, Charles T.;Kagan, Cherie R.;Park, So-Jung;
2:113:4 Colloidal CuInSe2 Nanocrystals: From Gradient Stoichiometry toward Homogeneous Alloyed Structure Mediated by Conducting Polymer P3HT
DOI:10.1021/am3032212 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Liang, Yen Nan;Yu, Kui;Yan, Qingyu;Hu, Xiao;
2:113:5 Precise Control of Quantum Dot Location within the P3HT-b-P2VP/QD Nanowires Formed by Crystallization-Driven 1D Growth of Hybrid Dimeric Seeds
DOI:10.1021/ja410165f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Kim, Yong-Jae;Cho, Chul-Hee;Paek, Kwanyeol;Jo, Mijung;Park, Mi-kyoung;Lee, Na-Eun;Kim, Youn-joong;Kim, Bumjoon J.;Lee, Eunji;
2:113:6 A new strategy for co-assembling pi-conjugated polymer/cadmium sulfide hybrids into an efficient charge-transporting nanochannel array by using an all-conjugated diblock copolymer motif
DOI:10.1039/c4ta00754a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:0 AU: Lee, Yi-Huan;Lee, Yu-Ping;Chiang, Chi-Ju;Wei, Fan-Kai;Wu, Chia-Hung;Chen, Wei-Chih;Shen, Ching;Jeng, Huai-An;Wang, Leeyih;Liu, Ming-Wei;Chen, Yi-Fan;Yokozawah, Tsutomu;Dai, Chi-An;
2:113:7 Simultaneous Conduction of Electronic Charge and Lithium Ions in Block Copolymers
DOI:10.1021/nn2045664 JN:ACS NANO PY:2012 TC:28 AU: Patel, Shrayesh N.;Javier, Anna E.;Stone, Greg M.;Mullin, Scott A.;Balsara, Nitash P.;
2:113:8 Self-assembly and phase transformations of pi-conjugated block copolymers that bend and twist: from rigid-rod nanowires to highly curvaceous gyroids
DOI:10.1039/c1sm05724c JN:SOFT MATTER PY:2011 TC:26 AU: Lee, Yi-Huan;Yen, Wei-Che;Su, Wei-Fang;Dai, Chi-An;
2:113:9 Phase transformation and self-assembly behavior of supramolecular rod comb block copolymers
DOI:10.1016/j.polymer.2014.01.056 JN:POLYMER PY:2014 TC:1 AU: Lee, Yi-Huan;Chang, Chun-Jie;Yang, Yi-Lung;Chiang, Chi-Ju;Lee, Yu-Ping;Shen, Ching;Tsai, Kang-Ting;Chen, Yi-Fan;Dai, Chi-An;
2:113:10 Morphology and Thermodynamic Properties of a Copolymer with an Electronically Conducting Block: Poly(3-ethylhexylthiophene)-block-poly(ethylene oxide)
DOI:10.1021/nl302454c JN:NANO LETTERS PY:2012 TC:22 AU: Patel, Shrayesh N.;Javier, Anna E.;Beers, Keith M.;Pople, John A.;Ho, Victor;Segalman, Rachel A.;Balsara, Nitash P.;
2:113:11 Phase behavior of LiClO4-doped poly(epsilon-caprolactone)-b-poly(ethylene oxide) hybrids in the presence of competitive interactions
DOI:10.1016/j.polymer.2014.01.012 JN:POLYMER PY:2014 TC:2 AU: Huang, Jie;Tong, Zai-Zai;Zhou, Bing;Xu, Jun-Ting;Fan, Zhi-Qiang;
2:113:12 Cylinder-to-gyroid phase transition in a rod-coil diblock copolymer
DOI:10.1039/c2sm07473g JN:SOFT MATTER PY:2012 TC:9 AU: Lin, Shih-Hsiang;Ho, Chun-Chih;Su, Wei-Fang;
2:113:13 In-Situ Template Synthesis of a Polymer/Semiconductor Nanohybrid Using Amphiphilic Conducting Block Copolymers
DOI:10.1021/la903246v JN:LANGMUIR PY:2010 TC:16 AU: Lee, Yi-Huan;Chang, Chun-Jie;Kao, Chi-Jen;Dai, Chi-An;
2:113:14 Phase segregation of poly(3-dodecylthiophene)-block-poly(methyl methacrylate) copolymers
DOI:10.1016/j.polymer.2013.07.063 JN:POLYMER PY:2013 TC:4 AU: Moon, Hong Chul;Kim, Jin Kon;
2:113:15 Salt-induced microphase separation in poly(epsilon-caprolactone)-b-poly(ethylene oxide) block copolymer
DOI:10.1016/j.polymer.2013.03.070 JN:POLYMER PY:2013 TC:14 AU: Huang, Jie;Tong, Zai-Zai;Zhou, Bing;Xu, Jun-Ting;Fan, Zhi-Qiang;
2:113:16 Impacts of polymer-polymer interactions and interfaces on the structure and conductivity of PEG-containing polyimides doped with ionic liquid
DOI:10.1016/j.polymer.2014.10.075 JN:POLYMER PY:2014 TC:0 AU: Coletta, E.;Toney, M. Y.;Frank, C. W.;
2:113:17 Effect of rod-rod interaction on self-assembly behavior of ABC pi-conjugated rod-coil-coil triblock copolymers
DOI:10.1039/c1sm05926b JN:SOFT MATTER PY:2011 TC:9 AU: Chang, Chun-Jie;Lee, Yi-Huan;Chen, Hsin-Lung;Chiang, Chien-Hung;Hsu, Hsiu-Fu;Ho, Chun-Chih;Su, Wei-Fang;Dai, Chi-An;
2:113:18 Electrochemically Oxidized Electronic and Ionic Conducting Nanostructured Block Copolymers for Lithium Battery Electrodes
DOI:10.1021/nn4018685 JN:ACS NANO PY:2013 TC:11 AU: Patel, Shrayesh N.;Javier, Anna E.;Balsara, Nitash P.;
2:113:19 Minimizing Lateral Domain Collapse in Etched Poly(3-hexylthiophene)-block-Polylactide Thin Films for Improved Optoelectronic.Performance
DOI:10.1021/la904515z JN:LANGMUIR PY:2010 TC:24 AU: Botiz, Ioan;Martinson, Alex B. F.;Darling, Seth B.;
2:113:20 Effect of molecular weight on conductivity of polymer electrolytes
DOI:10.1016/j.ssi.2011.09.021 JN:SOLID STATE IONICS PY:2011 TC:24 AU: Teran, Alexander A.;Tang, Maureen H.;Mullin, Scott A.;Balsara, Nitash P.;
2:113:21 Mechanism of ion transport in PEO/LiTFSI complexes: Effect of temperature, molecular weight and end groups
DOI:10.1016/j.ssi.2012.09.020 JN:SOLID STATE IONICS PY:2012 TC:19 AU: Devaux, D.;Bouchet, R.;Gle, D.;Denoyel, R.;
2:113:22 Investigating polypropylene-poly(ethylene oxide)-polypropylene triblock copolymers as solid polymer electrolytes for lithium batteries
DOI:10.1016/j.ssi.2014.05.012 JN:SOLID STATE IONICS PY:2014 TC:11 AU: Young, Nicholas P.;Devaux, Didier;Khurana, Rachna;Coates, Geoffrey W.;Balsara, Nitash P.;
2:113:23 Characteristic phase behavior of polybutadiene-block- poly(epsilon-caploractone)/polybutadiene blend after melting crystalline-amorphous alternating lamellar structure
DOI:10.1016/j.polymer.2010.06.047 JN:POLYMER PY:2010 TC:4 AU: Takagi, Hideaki;Yamamoto, Katsuhiro;Okamoto, Shigeru;Sakurai, Shinichi;
2:113:24 Exploration of the transition temperatures and crystal structure of highly crystalline poly(1,3-cyclohexadiene): An experimental and computational investigation
DOI:10.1016/j.polymer.2014.09.055 JN:POLYMER PY:2014 TC:0 AU: Schatschneider, Bohdan;Mathers, Robert T.;Gee, Richard H.;Wonderling, Nichole M.;
2:114:1 Toward Oriented Surface Architectures with Three Coaxial Charge-Transporting Pathways
DOI:10.1021/ja405776a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:17 AU: Sforazzini, Giuseppe;Orentas, Edvinas;Bolag, Altan;Sakai, Naomi;Matile, Stefan;
2:114:2 Chiroselective Assembly of a Chiral Porphyrin-Fullerene Dyad: Photoconductive Nanofiber with a Top-Class Ambipolar Charge-Carrier Mobility
DOI:10.1021/ja1014713 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:63 AU: Hizume, Yumi;Tashiro, Kentaro;Charvet, Richard;Yamamoto, Yohei;Saeki, Akinori;Seki, Shu;Aida, Takuzo;
2:114:3 Amino Acid Derivatized Arylenediimides: A Versatile Modular Approach for Functional Molecular Materials
DOI:10.1002/adma.201201544 JN:ADVANCED MATERIALS PY:2012 TC:32 AU: Avinash, M. B.;Govindaraju, T.;
2:114:4 Segregated and Alternately Stacked Donor/Acceptor Nanodomains in Tubular Morphology Tailored with Zinc Porphyrin-C-60 Amphiphilic Dyads: Clear Geometrical Effects on Photoconduction
DOI:10.1021/ja211334k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:42 AU: Charvet, Richard;Yamamoto, Yohei;Sasaki, Takayuki;Kim, Jungeun;Kato, Kenichi;Takata, Masaki;Saeki, Akinori;Seki, Shu;Aida, Takuzo;
2:114:5 Self-Organizing Surface-Initiated Polymerization: Facile Access to Complex Functional Systems
DOI:10.1021/ja203792n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:50 AU: Sakai, Naomi;Lista, Marco;Kel, Oksana;Sakurai, Shin-ichiro;Emery, Daniel;Mareda, Jiri;Vauthey, Eric;Matile, Stefan;
2:114:6 Supramolecular n/p-Heterojunction Photosystems with Antiparallel Redox Gradients in Electron- and Hole-Transporting Pathways
DOI:10.1021/ja101944r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:57 AU: Sakai, Naomi;Bhosale, Rajesh;Emery, Daniel;Mareda, Jiri;Matile, Stefan;
2:114:7 Self-Assembly of a Donor-Acceptor Nanotube. A Strategy To Create Bicontinuous Arrays
DOI:10.1021/ja205868b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Tu, Siyu;Kim, Se Hye;Joseph, Jojo;Modarelli, David A.;Parquette, Jon R.;
2:114:8 Cellular Uptake of Substrate-Initiated Cell-Penetrating Poly(disulfide)s
DOI:10.1021/ja501581b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:7 AU: Gasparini, Giulio;Bang, Eun-Kyoung;Molinard, Guillaume;Tulumello, David V.;Ward, Sandra;Kelley, Shana O.;Roux, Aurelien;Sakai, Naomi;Matile, Stefan;
2:114:9 Extraordinary Stability of Naphthalenediimide Radical Ion and Its Ultra-Electron-Deficient Precursor: Strategic Role of the Phosphonium Group
DOI:10.1021/ja504903j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Kumar, Sharvan;Ajayakumar, M. R.;Hundal, Geeta;Mukhopadhyay, Pritam;
2:114:10 Stack Exchange Strategies for the Synthesis of Covalent Double-Channel Photosystems by Self-Organizing Surface-Initiated Polymerization
DOI:10.1021/ja207587x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:39 AU: Sakai, Naomi;Matile, Stefan;
2:114:11 Lateral Self-Sorting on Surfaces: A Practical Approach to Double-Channel Photosystems
DOI:10.1021/ja204020p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:44 AU: Lista, Marco;Areephong, Jetsuda;Sakai, Naomi;Matile, Stefan;
2:114:12 Ion-Gated Synthetic Photosystems
DOI:10.1021/ja501389g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Sakai, Naomi;Charbonnaz, Pierre;Ward, Sandra;Matile, Stefan;
2:114:13 Substrate-Initiated Synthesis of Cell-Penetrating Poly(disulfide)s
DOI:10.1021/ja311961k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:15 AU: Bang, Eun-Kyoung;Gasparini, Giulio;Molinard, Guillaume;Roux, Aurelien;Sakai, Naomi;Matile, Stefan;
2:114:14 Engineering Molecular Organization of Naphthalenediimides: Large Nanosheets with Metallic Conductivity and Attoliter Containers
DOI:10.1002/adfm.201101001 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:19 AU: Avinash, M. B.;Govindaraju, T.;
2:114:15 Zipper and Layer-by-Layer Assemblies of Artificial Photosystems Analyzed by Combining Optical and Piezoelectric Surface Techniques
DOI:10.1021/la2007815 JN:LANGMUIR PY:2011 TC:4 AU: Porus, Mariya;Maroni, Plinio;Bhosale, Rajesh;Sakai, Naomi;Matile, Stefan;Borkovec, Michal;
2:114:16 Porphyrin nanofiber patterning by air/water interfacial assembly: Effect of molecular structure, surface pressure, and ionic liquid doped subphase
DOI:10.1016/j.jcis.2011.12.042 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:3 AU: Liu, Xufei;Wang, Tianyu;Liu, Minghua;
2:114:17 Recent Progress with Functional Biosupramolecular Systems
DOI:10.1021/la200593p JN:LANGMUIR PY:2011 TC:7 AU: Doval, David Alonso;Areephong, Jetsuda;Bang, Eun-Kyoung;Bertone, Leonardo;Charbonnaz, Pierre;Fin, Andrea;Lin, Nai-Ti;Lista, Marco;Matile, Stefan;Montenegro, Javier;Orentas, Edvinas;Sakai, Naomi;Duy-Hien Tran;Jentzsch, Andreas Vargas;
2:115:1 Fast Preparation of Printable Highly Conductive Polymer Nanocomposites by Thermal Decomposition of Silver Carboxylate and Sintering of Silver Nanoparticles
DOI:10.1021/am100456m JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:52 AU: Zhang, Rongwei;Lin, Wei;Moon, Kyoung-sik;Wong, C. P.;
2:115:2 Preparation of highly conductive polymer nanocomposites by low temperature sintering of silver nanoparticles
DOI:10.1039/b921072e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:63 AU: Zhang, Rongwei;Moon, Kyoung-sik;Lin, Wei;Wong, C. P.;
2:115:3 Carbon-Nanotube/Silver Networks in Nitrile Butadiene Rubber for Highly Conductive Flexible Adhesives
DOI:10.1002/adma.201201273 JN:ADVANCED MATERIALS PY:2012 TC:30 AU: Ma, Rujun;Kwon, Seoyoung;Zheng, Qing;Kwon, Hyeok Yong;Kim, Jae Il;Choi, Hyouk Ryeol;Baik, Seunghyun;
2:115:4 Thiocarboxylate functionalization of silver nanoparticles: effect of chain length on the electrical conductivity of nanoparticles and their polymer composites
DOI:10.1039/c2jm33280a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Amoli, Behnam Meschi;Gumfekar, Sarang;Hu, Anming;Zhou, Y. Norman;Zhao, Boxin;
2:115:5 Highly Conductive, Flexible, Polyurethane-Based Adhesives for Flexible and Printed Electronics
DOI:10.1002/adfm.201202249 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:26 AU: Li, Zhuo;Zhang, Rongwei;Moon, Kyoung-Sik;Liu, Yan;Hansen, Kristen;Le, Taoran;Wong, C. P.;
2:115:6 Water-Based Isotropically Conductive Adhesives: Towards Green and Low-Cost Flexible Electronics
DOI:10.1002/adfm.201101433 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:24 AU: Yang, Cheng;Lin, Wei;Li, Zhongyu;Zhang, Rongwei;Wen, Haoran;Gao, Bo;Chen, Guohua;Gao, Ping;Yuen, Matthew M. F.;Wong, Ching Ping;
2:115:7 A simple, low-cost approach to prepare flexible highly conductive polymer composites by in situ reduction of silver carboxylate for flexible electronic applications
DOI:10.1016/j.compscitech.2011.01.001 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:23 AU: Zhang, Rongwei;Moon, Kyoung-sik;Lin, Wei;Agar, Josh C.;Wong, Ching-Ping;
2:115:8 Functionalized nano-silver particles assembled on one-dimensional nanotube scaffolds for ultra-highly conductive silver/polymer composites
DOI:10.1039/c0jm00086h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:30 AU: Oh, Youngseok;Chun, Kyoung-Yong;Lee, Eungsuek;Kim, Young-Jin;Baik, Seunghyun;
2:115:9 Silver Surface Iodination for Enhancing the Conductivity of Conductive Composites
DOI:10.1002/adfm.201000673 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:25 AU: Yang, Cheng;Xie, Yu-Tao;Yuen, Matthew Ming-Fai;Xu, Bing;Gao, Bo;Xiong, Xiaomin;Wong, C. P.;
2:115:10 The conduction development mechanism of silicone-based electrically conductive adhesives
DOI:10.1039/c3tc30612g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Li, Zhuo;Hansen, Kristen;Yao, Yagang;Ma, Yanqing;Moon, Kyoung-sik;Wong, C. P.;
2:115:11 A drastic reduction in silver concentration of metallic ink by the use of single-walled carbon nanotubes decorated with silver nanoparticles
DOI:10.1039/c1jm10850f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Ma, Rujun;Suh, Daewoo;Kim, Joonghyuk;Chung, Jaewoo;Baik, Seunghyun;
2:115:12 Flaky silver powders prepared with nanofilm transition method: application for printable electronics
DOI:10.1039/c2tc00313a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Wang, Jun;Chen, Zhenxing;Hu, Yu;Jiang, Xionghua;Chen, Dongdong;Zhang, Weipeng;
2:115:13 Transparent Stretchable Single-Walled Carbon Nanotube-Polymer Composite Films with Near-Infrared Fluorescence
DOI:10.1002/adma.201205026 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Ma, Rujun;Menamparambath, Mini Mol;Nikolaev, Pavel;Baik, Seunghyun;
2:115:14 Investigation of a Biocompatible Polyurethane-Based Isotropically Conductive Adhesive for UHF RFID Tag Antennas
DOI:10.1007/s11664-010-1392-0 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:11 AU: Yang, Cheng;Yuen, Matthew M. F.;Gao, Bo;Ma, Yuhui;Wong, C. P.;
2:115:15 Top-gate staggered poly(3,3 '''-dialkyl-quarterthiophene) organic thin-film transistors with reverse-offset-printed silver source/drain electrodes
DOI:10.1063/1.4755878 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Kim, Minseok;Koo, Jae Bon;Baeg, Kang-Jun;Jung, Soon-Won;Ju, Byeong-Kwon;You, In-Kyu;
2:115:16 Low temperature-cured electrically conductive pastes for interconnection on electronic devices
DOI:10.1039/c2jm33168c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Lim, Ho Sun;Kim, Seung-Nam;Lim, Jung Ah;Park, Seong-Dae;
2:115:17 Moisture-cured elastomeric transparent UV and X-ray shielding organic-inorganic hybrids
DOI:10.1007/s10853-010-4404-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:6 AU: Yang, C.;Tang, Y. H.;Lam, W. M.;Lu, W. W.;Gao, P.;Zhao, C. B.;Yuen, M. M. F.;
2:115:18 Copper particles/epoxy resin thermosetting conductive adhesive using polyamide resin as curing agent
DOI:10.1002/app.36951 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:4 AU: Dang, Zhi-Min;Zhang, Bo;Li, Jinge;Zha, Jun-Wei;Hu, Guo-Hua;
2:115:19 The synthesis of metallic and semiconducting nanoparticles from reactive melts of precursors
DOI:10.1039/c3ta12900d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Lewis, Edward;Haigh, Sarah;O'Brien, Paul;
2:115:20 Preparation of triethylamine stabilized silver nanoparticles for low-temperature sintering
DOI:10.1007/s11051-011-0341-z JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:8 AU: Wu, Jung-Tang;Hsu, Steve Lien-Chung;
2:115:21 Self-healing isotropical conductive adhesives filled with Ag nanowires
DOI:10.1016/j.matchemphys.2014.08.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Tao, Yu;Chang, Yu;Tao, Yuxiao;Yang, Zhenguo;Wu, Haiping;
2:116:1 Patterning of Conjugated Polymers for Organic Optoelectronic Devices
DOI:10.1002/smll.201002336 JN:SMALL PY:2011 TC:45 AU: Xu, Youyong;Zhang, Fan;Feng, Xinliang;
2:116:2 Conjugated-Polymer-Based Lateral Heterostructures Defined by High-Resolution Photolithography
DOI:10.1002/adfm.201000436 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:32 AU: Chang, Jui-Fen;Gwinner, Michael C.;Caironi, Mario;Sakanoue, Tomo;Sirringhaus, Henning;
2:116:3 Nanoscaled Surface Patterning of Conducting Polymers
DOI:10.1002/smll.201002356 JN:SMALL PY:2011 TC:29 AU: Jiang, Lin;Wang, Xing;Chi, Lifeng;
2:116:4 High-Performance and Stable Organic Transistors and Circuits with Patterned Polypyrrole Electrodes
DOI:10.1002/adma.201104343 JN:ADVANCED MATERIALS PY:2012 TC:13 AU: Li, Liqiang;Jiang, Lin;Wang, Wenchong;Du, Chuan;Fuchs, Harald;Hu, Wenping;Chi, Lifeng;
2:116:5 Patterning of Polymer Electrodes by Nanoscratching
DOI:10.1002/adma.200902941 JN:ADVANCED MATERIALS PY:2010 TC:24 AU: Li, Liqiang;Hirtz, Michael;Wang, Wenchong;Du, Chuan;Fuchs, Harald;Chi, Lifeng;
2:116:6 Challenges Found When Patterning Semiconducting Polymers with Electric Fields for Organic Solar Cell Applications
DOI:10.1155/2012/478296 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:3 AU: de Castro, Fernando A.;Nueesch, Frank;Walder, Christian;Hany, Roland;
2:116:7 The Electrode's Effect on the Stability of Organic Transistors and Circuits
DOI:10.1002/adma.201200792 JN:ADVANCED MATERIALS PY:2012 TC:5 AU: Li, Liqiang;Meise-Gresch, Karin;Jiang, Lin;Du, Chuan;Wang, Wenchong;Fuchs, Harald;Chi, Lifeng;
2:116:8 Conducting polymer nanowires fabricated by edge effect of NIL
DOI:10.1039/c2jm31006f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:1 AU: Shi, Gang;Li, Liqiang;Liu, Lingxiao;Xu, Daren;Lu, Nan;Hao, Juanyuan;Huang, Chunyu;Chi, Lifeng;
2:116:9 Direct top-down fabrication of nanoscale electrodes for organic semiconductors using fluoropolymer resists
DOI:10.1007/s00339-012-7411-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: Park, Jungho;Ho, Jonathan;Yun, Hoyeol;Park, Myeongjin;Lee, Jung Hyun;Seo, Miri;Campbell, Eleanor E. B.;Lee, Changhee;Pyo, Seungmoon;Lee, Sang Wook;
2:116:10 Enhanced Electrical Conductivity of Individual Conducting Polymer Nanobelts
DOI:10.1002/smll.201100090 JN:SMALL PY:2011 TC:14 AU: Jiang, Lin;Sun, Yinghui;Peng, Haiyang;Li, Lain-Jong;Wu, Tao;Ma, Jan;Boey, Freddy Yin Chiang;Chen, Xiaodong;Chi, Lifeng;
2:116:11 Water-Vapor-Assisted Nanoimprinting of PEDOT:PSS Thin Films
DOI:10.1002/smll.201201267 JN:SMALL PY:2012 TC:4 AU: Hlaing, Htay;Lu, Xinhui;Nam, Chang-Yong;Ocko, Benjamin M.;
2:116:12 Analysis of pinning effect at the Alq3/metal interface in organic light emitting diodes
DOI:10.1063/1.4731719 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Petrosino, Mario;Rubino, Alfredo;
2:116:13 Fabrication of hierarchical structures by unconventional two-step imprinting
DOI:10.1016/j.jcis.2011.11.042 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:8 AU: Shi, Gang;Lu, Nan;Xu, Hongbo;Wang, Yandong;Shi, Shoulei;Li, Hui;Li, Ying;Chi, Lifeng;
2:116:14 A Simple Method for the Fabrication of High-Resolution Conducting Polymer Patterns
DOI:10.1021/la904662q JN:LANGMUIR PY:2010 TC:4 AU: Huang, Chunyu;Lu, Nan;Wang, Yandong;Tian, Lu;Yang, Bingjie;Dong, Bin;Chi, Lifeng;
2:116:15 Local Scanning Probe Polymerization of an Organic Mono layer Covalently Grafted on Silicon
DOI:10.1021/la302526t JN:LANGMUIR PY:2012 TC:1 AU: Lee, Joon Sung;Chi, Young Shik;Choi, Insung S.;Kim, Jinhee;
2:116:16 A multielectrochromic copolymer based on pyrrole and thiophene derivatives
DOI:10.1016/j.solmat.2012.03.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:17 AU: Silva, Ana Julia C.;Ferreira, Suzany M. F.;Santos, Diego de P.;Navarro, Marcelo;Tonholo, Josealdo;Ribeiro, Adriana S.;
2:116:17 Synthesis and Characterization of Ethylene Glycol Substituted Poly(phenylene Vinylene) Derivatives
DOI:10.1021/am900766s JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:5 AU: Wang, Chun-Chih;Tsai, Hsinhan;Shih, Hung-Hsin;Jeon, Seaho;Xu, Zhihua;Williams, Darrick;Iyer, Srinivas;Sanchez, Timothy C.;Wang, Leeyih;Cotlet, Mircea;Wang, Hsing-Lin;
2:116:18 Structural dynamics and charge transfer via complexation with fullerene in large area conjugated polymer honeycomb thin films
DOI:10.1021/cm102160m JN:CHEMISTRY OF MATERIALS PY:2011 TC:15 AU: Tsai, Hsinhan;Xu, Zhihua;Pai, Ranjith Krishna;Wang, Leeyih;Dattelbaum, Andrew M.;Shreve, Andrew P.;Wang, Hsing-Lin;Cotlet, Mircea;
2:116:19 Transparent organic light-emitting devices using a MoO3/Ag/MoO3 cathode
DOI:10.1063/1.3662194 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Tian, Baolin;Williams, Graeme;Ban, Dayan;Aziz, Hany;
2:116:20 Blends of polyolefin/PMMA for improved scratch resistance, adhesion and compatibility
DOI:10.1016/j.polymer.2012.05.057 JN:POLYMER PY:2012 TC:12 AU: Song, Jie;Thurber, Christopher M.;Kobayashi, Shingo;Baker, Adam M.;Macosko, Christopher W.;Silvis, H. Craig;
2:116:21 The effect of the PEDOT:PSS surface energy on the interface potential barrier
DOI:10.1016/j.synthmet.2011.10.006 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Petrosino, Mario;Rubino, Alfredo;
2:117:1 Comprehensive picture of p-type doping of P3HT with the molecular acceptor F(4)TCNQ
DOI:10.1103/PhysRevB.87.115209 JN:PHYSICAL REVIEW B PY:2013 TC:11 AU: Pingel, P.;Neher, D.;
2:117:2 Effect of molecular p-doping on hole density and mobility in poly(3-hexylthiophene)
DOI:10.1063/1.3701729 JN:APPLIED PHYSICS LETTERS PY:2012 TC:21 AU: Pingel, P.;Schwarzl, R.;Neher, D.;
2:117:3 Fermi level shift and doping efficiency in p-doped small molecule organic semiconductors: A photoelectron spectroscopy and theoretical study
DOI:10.1103/PhysRevB.86.035320 JN:PHYSICAL REVIEW B PY:2012 TC:14 AU: Tietze, Max L.;Burtone, Lorenzo;Riede, Moritz;Luessem, Bjoern;Leo, Karl;
2:117:4 Intermolecular Hybridization Governs Molecular Electrical Doping
DOI:10.1103/PhysRevLett.108.035502 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:26 AU: Salzmann, Ingo;Heimel, Georg;Duhm, Steffen;Oehzelt, Martin;Pingel, Patrick;George, Benjamin M.;Schnegg, Alexander;Lips, Klaus;Blum, Ralf-Peter;Vollmer, Antje;Koch, Norbert;
2:117:5 Direct Observation of Doping Sites in Temperature-Controlled, p-Doped P3HT Thin Films by Conducting Atomic Force Microscopy
DOI:10.1002/adma.201402015 JN:ADVANCED MATERIALS PY:2014 TC:5 AU: Duong, Duc T.;Hung Phan;Hanifi, David;Jo, Pil Sung;Thuc-Quyen Nguyen;Salleo, Alberto;
2:117:6 Effects of emission layer doping on the spatial distribution of charge and host recombination rate density in organic light emitting devices: A numerical study
DOI:10.1063/1.4858415 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Li, Yanli;Zhou, Maoqing;Zheng, Tingcai;Yao, Bo;Peng, Yingquan;
2:117:7 Organic Zener Diodes: Tunneling across the Gap in Organic Semiconductor Materials
DOI:10.1021/nl102916n JN:NANO LETTERS PY:2010 TC:28 AU: Kleemann, Hans;Gutierrez, Rafael;Lindner, Frank;Avdoshenko, Stanislav;Manrique, Pedro D.;Lussem, Bjorn;Cuniberti, Gianaurelio;Leo, Karl;
2:117:8 Dual Channel Operation Upon n-Channel Percolation in a Pentacene-C60 Ambipolar Organic Thin Film Transistor
DOI:10.1002/adma.201203964 JN:ADVANCED MATERIALS PY:2013 TC:13 AU: Noever, Simon J.;Fischer, Stefan;Nickel, Bert;
2:117:9 The effect of 2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquinodimethane charge transfer dopants on the conformation and aggregation of poly(3-hexylthiophene)
DOI:10.1039/c3tc31047g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:13 AU: Gao, Jian;Roehling, John D.;Li, Yongle;Guo, Hua;Moule, Adam J.;Grey, John K.;
2:117:10 Enhancement of the hole injection into regioregular poly(3-hexylthiophene) by molecular doping
DOI:10.1063/1.3464560 JN:APPLIED PHYSICS LETTERS PY:2010 TC:22 AU: Zhang, Yuan;Blom, Paul W. M.;
2:117:11 Controlled formation of charge depletion zones by molecular doping in organic pin-diodes and its description by the Mott-Schottky relation
DOI:10.1063/1.4730771 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Kleemann, H.;Luessem, B.;Leo, K.;
2:117:12 Unraveling the Mechanism of Molecular Doping in Organic Semiconductors
DOI:10.1002/adma.201104269 JN:ADVANCED MATERIALS PY:2012 TC:29 AU: Mityashin, Alexander;Olivier, Yoann;Van Regemorter, Tanguy;Rolin, Cedric;Verlaak, Stijn;Martinelli, Nicolas G.;Beljonne, David;Cornil, Jerome;Genoe, Jan;Heremans, Paul;
2:117:13 Homogeneous dispersion of organic p-dopants in an organic semiconductor as an origin of high charge generation efficiency
DOI:10.1063/1.3569144 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Lee, Jae-Hyun;Kim, Hyun-Mi;Kim, Ki-Bum;Kabe, Ryota;Anzenbacher, Pavel, Jr.;Kim, Jang-Joo;
2:117:14 Charge Transfer in Molecular Complexes with 2,3,5,6-Tetrafluoro-7,7,8,8-tetracyanoquinodimethane (F-4-TCNQ): A Density Functional Theory Study
DOI:10.1021/cm201798x JN:CHEMISTRY OF MATERIALS PY:2011 TC:18 AU: Zhu, Lingyun;Kim, Eung-Gun;Yi, Yuanping;Bredas, Jean-Luc;
2:117:15 Doping-concentration-dependent hole mobility in a ReO3 doped organic semiconductor of 4,4 ',4 ''-tris(N-(2-naphthyl)-N-phenyl-amino)-triphenylamine
DOI:10.1063/1.4804141 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Yoo, Seung-Jun;Lee, Jeong-Hwan;Lee, Jae-Hyun;Kim, Jang-Joo;
2:117:16 Organic Junction Field- Effect Transistor
DOI:10.1002/adfm.201301417 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Luessem, Bjoern;Kleemann, Hans;Kasemann, Daniel;Ventsch, Fabian;Leo, Karl;
2:117:17 Built-in voltage of organic bulk heterojuction p-i-n solar cells measured by electroabsorption spectroscopy
DOI:10.1063/1.4873597 JN:AIP ADVANCES PY:2014 TC:1 AU: Siebert-Henze, E.;Lyssenko, V. G.;Fischer, J.;Tietze, M.;Brueckner, R.;Schwarze, M.;Vandewal, K.;Ray, D.;Riede, M.;Leo, K.;
2:117:18 p-type doping effect on the performance of organic-inorganic hybrid solar cells
DOI:10.1063/1.3669393 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Lei, Xiaofei;Zhang, Fute;Song, Tao;Sun, Baoquan;
2:117:19 Surface doping in pentacene thin-film transistors with few monolayer thick channels
DOI:10.1063/1.4737214 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Haehlen, Tatjana;Vanoni, Claudio;Waeckerlin, Christian;Jung, Thomas A.;Tsujino, Soichiro;
2:117:20 Electronic transport in doped pyrenyl carbazole
DOI:10.1063/1.3626046 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Ali, Farman;Periasamy, N.;Patankar, Meghan P.;Narasimhan, K. L.;
2:118:1 Semiconducting:insulating polymer blends for optoelectronic applications-a review of recent advances
DOI:10.1039/c4ta01065e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Scaccabarozzi, A. D.;Stingelin, N.;
2:118:2 Low-temperature melt processed polymer blend for organic thin-film transistors
DOI:10.1039/c2jm33252c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Qiu, Longzhen;Xu, Qiong;Chen, Mengjie;Wang, Xiaohong;Wang, Xianghua;Zhang, Guobin;
2:118:3 Flexible Tactile Sensor Using the Reversible Deformation of Poly(3-hexylthiophene) Nanofiber Assemblies
DOI:10.1021/la304240r JN:LANGMUIR PY:2012 TC:13 AU: Gao, Qiang;Meguro, Hikaru;Okamoto, Shuji;Kimura, Mutsumi;
2:118:4 Organic Semiconductor: Insulator Polymer Ternary Blends for Photovoltaics
DOI:10.1002/adma.201102100 JN:ADVANCED MATERIALS PY:2011 TC:27 AU: Ferenczi, Toby A. M.;Mueller, Christian;Bradley, Donal D. C.;Smith, Paul;Nelson, Jenny;Stingelin, Natalie;
2:118:5 Solid-state low-temperature extrusion of P3HT ribbons
DOI:10.1007/s00339-014-8622-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Bernardo, Gabriel;Nabankur, Deb;Pereira, Paulo;Brandao, Lucia;Viana, Julio;Bucknall, David G.;
2:118:6 Solventless processing of conjugated polymers-A review
DOI:10.1016/j.synthmet.2014.08.003 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Brandao, Lucia;Viana, Julio;Bucknall, David G.;Bernardo, Gabriel;
2:118:7 A novel approach to electrospinning of pristine and aligned MEH-PPV using binary solvents
DOI:10.1039/c2jm15970h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Zhong, Wei;Li, Fan;Chen, Lie;Chen, Yiwang;Wei, Yen;
2:118:8 Light-induced electron paramagnetic resonance evidence of charge transfer in electrospun fibers containing conjugated polymer/fullerene and conjugated polymer/fullerene/carbon nanotube blends
DOI:10.1063/1.3693520 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Shames, Alexander I.;Bounioux, Celine;Katz, Eugene A.;Yerushalmi-Rozen, Rachel;Zussman, Eyal;
2:118:9 Photoluminescence anisotropy of uni-axially aligned electrospun conjugated polymer nanofibers of MEH-PPV and P3HT
DOI:10.1039/c0jm02713h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Yin, Kezhen;Zhang, Lifeng;Lai, Chuilin;Zhong, Lanlan;Smith, Steve;Fong, Hao;Zhu, Zhengtao;
2:118:10 Low temperature solid state processing of pure P3HT fibers
DOI:10.1063/1.4806764 JN:AIP ADVANCES PY:2013 TC:3 AU: Rodrigues, Alexandre;Nabankur, Deb;Hilliou, Loic;Viana, Julio;Bucknall, David G.;Bernardo, Gabriel;
2:118:11 Enhanced emission efficiency in electrospun polyfluorene copolymer fibers
DOI:10.1063/1.4807894 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Morello, Giovanni;Polini, Alessandro;Girardo, Salvatore;Camposeo, Andrea;Pisignano, Dario;
2:118:12 Preparation and photoluminescence (PL) performance of a nanoweb of P3HT nanofibers with diameters below 100 nm
DOI:10.1039/c1jm10396b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Kim, Taehoon;Im, Ji Hyuk;Choi, Hong Soo;Yang, Seung Jae;Kim, Sang Won;Park, Chong Rae;
2:118:13 Solid-State Processing of Organic Semiconductors
DOI:10.1002/adma.200904448 JN:ADVANCED MATERIALS PY:2010 TC:16 AU: Baklar, Mohammed A.;Koch, Felix;Kumar, Avinesh;Domingo, Ester Buchaca;Campoy-Quiles, Mariano;Feldman, Kirill;Yu, Liyang;Wobkenberg, Paul;Ball, James;Wilson, Rory M.;McCulloch, Iain;Kreouzis, Theo;Heeney, Martin;Anthopoulos, Thomas;Smith, Paul;Stingelin, Natalie;
2:118:14 True photoluminescence spectra revealed in electrospun light-emitting single nanofibers
DOI:10.1039/c2jm14831e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Ishii, Yuya;Murata, Hideyuki;
2:118:15 Fabrication of P3HT/PCBM solar cloth by electrospinning technique
DOI:10.1016/j.matlet.2010.07.054 JN:MATERIALS LETTERS PY:2010 TC:33 AU: Sundarrajan, Subramanian;Murugan, Rajendiran;Nair, A. Sreekumaran;Ramakrishna, Seeram;
2:118:16 Unique structural features and electrical properties of electrospun conjugated polymer poly(3-hexylthiophene) (P3HT) fibers
DOI:10.1016/j.synthmet.2010.10.009 JN:SYNTHETIC METALS PY:2010 TC:19 AU: Chan, Kok Ho Kent;Yamao, Takeshi;Kotaki, Masaya;Hotta, Shu;
2:118:17 A photoluminescence study of electrospun fibers of conjugated poly[2-methoxy-5-(2 '-ethylhexyloxy)-1,4-phenylenevinylene] blended with poly(9-vinylcarbazole)
DOI:10.1016/j.polymer.2013.02.015 JN:POLYMER PY:2013 TC:4 AU: Balderas, Uriel;Falcony, Ciro;Moggio, Ivana;Arias, Eduardo;Mondragon, Margarita;
2:118:18 Enhanced exciton migration in electrospun poly[2-methoxy-5-(2(')-ethylhexyloxy)-1,4-phenylenevinylene]/poly(vinyl pyrrolidone) nanofibers
DOI:10.1063/1.3374336 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Zhou, Rongtang;Chen, Wei;Jiang, Xingyu;Wang, Shufeng;Gong, Qihuang;
2:118:19 Solid-solid transfer of organic semiconductors for field-effect transistor fabrication
DOI:10.1039/c0jm02173c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:5 AU: Treier, Matthias;Orgiu, Emanuele;Zalewski, Leszek;Cho, Don;Rieger, Ralph;Muellen, Klaus;Samori, Paolo;
2:118:20 Controlling the Interaction of Light with Polymer Semiconductors
DOI:10.1002/adma.201300881 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Hellmann, Christoph;Paquin, Francis;Treat, Neil D.;Bruno, Annalisa;Reynolds, Luke X.;Haque, Saif A.;Stavrinou, Paul N.;Silva, Carlos;Stingelin, Natalie;
2:118:21 Distributed Feedback Imprinted Electrospun Fiber Lasers
DOI:10.1002/adma.201401945 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Persano, Luana;Camposeo, Andrea;Del Carro, Pompilio;Fasano, Vito;Moffa, Maria;Manco, Rita;D'Agostino, Stefania;Pisignano, Dario;
2:118:22 Quadrimolecular recombination kinetics of photogenerated charge carriers in the composites of regioregular polythiophene derivatives and soluble fullerene
DOI:10.1063/1.3380839 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Tanaka, Hisaaki;Yokoi, Yuki;Hasegawa, Naoki;Kuroda, Shin-ichi;Iijima, Takayuki;Sato, Takao;Yamamoto, Takakazu;
2:118:23 Effects of Dilution and Charge Trapping on the Performance of a Light-Emitting Diode of Poly(9-vinylcarbazole) Doped with Poly[2-methoxy-5-(2 '-ethyl hexyloxy)-1,4-phenylene vinylene]
DOI:10.1002/app.31961 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:3 AU: Zhang, Xinwen;Wu, Zhaoxin;Wang, Dongdong;Wang, Dawei;Hou, Xun;
2:118:24 Electroluminescence overshoot effect in single layer pulsed organic light emitting diodes
DOI:10.1016/j.synthmet.2010.12.029 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Chandra, V. K.;Tiwari, M.;Chandra, B. P.;Ramrakhiani, M.;
2:119:1 Elastically Tunable Self-Organized Organic Lasers
DOI:10.1002/adma.201003108 JN:ADVANCED MATERIALS PY:2011 TC:34 AU: Goerrn, Patrick;Lehnhardt, Marcus;Kowalsky, Wolfgang;Riedl, Thomas;Wagner, Sigurd;
2:119:2 Electrically Tunable Polymer DFB Laser
DOI:10.1002/adma.201102465 JN:ADVANCED MATERIALS PY:2011 TC:23 AU: Doering, Sebastian;Kollosche, Matthias;Rabe, Torsten;Stumpe, Joachim;Kofod, Guggi;
2:119:3 Single Step Optical Fabrication of a DFB Laser Device in Fluorescent Azobenzene-Containing Materials
DOI:10.1002/adma.201200698 JN:ADVANCED MATERIALS PY:2012 TC:24 AU: Goldenberg, Leonid M.;Lisinetskii, Victor;Gritsai, Yuri;Stumpe, Joachim;Schrader, Sigurd;
2:119:4 Mechanically tunable conjugated polymer distributed feedback lasers
DOI:10.1063/1.3509405 JN:APPLIED PHYSICS LETTERS PY:2010 TC:34 AU: Wenger, Bernard;Tetreault, Nicolas;Welland, Mark E.;Friend, Richard H.;
2:119:5 Voltage-controlled tuning of an organic semiconductor distributed feedback laser using liquid crystals
DOI:10.1063/1.3610473 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Klinkhammer, Sonke;Heussner, Nico;Huska, Klaus;Bocksrocker, Tobias;Geislhoeringer, Felix;Vannahme, Christoph;Mappes, Timo;Lemmer, Uli;
2:119:6 Perylenediimide-based distributed feedback lasers with holographic relief gratings on dichromated gelatine
DOI:10.1063/1.4813873 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Ramirez, Manuel G.;Quintana, Jose A.;Villalvilla, Jose M.;Boj, Pedro G.;Retolaza, Aritz;Merino, Santos;Diaz-Garcia, Maria A.;
2:119:7 Broadly tunable (440-670 nm) solid-state organic laser with disposable capsules
DOI:10.1063/1.4790294 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Mhibik, Oussama;Leang, Tatiana;Siove, Alain;Forget, Sebastien;Chenais, Sebastien;
2:119:8 Electrically Tunable Organic Distributed Feedback Lasers Embedding Nonlinear Optical Molecules
DOI:10.1002/adma.201201453 JN:ADVANCED MATERIALS PY:2012 TC:11 AU: Camposeo, Andrea;Del Carro, Pompilio;Persano, Luana;Pisignano, Dario;
2:119:9 Highly photostable organic distributed feedback laser emitting at 573 nm
DOI:10.1063/1.3506500 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Navarro-Fuster, Victor;Calzado, Eva M.;Boj, Pedro G.;Quintana, Jose A.;Villalvilla, Jose M.;Diaz-Garcia, Maria A.;Trabadelo, Vera;Juarros, Aritz;Retolaza, Aritz;Merino, Santos;
2:119:10 Film thickness and grating depth variation in organic second-order distributed feedback lasers
DOI:10.1063/1.4745047 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:12 AU: Navarro-Fuster, Victor;Vragovic, Igor;Calzado, Eva M.;Boj, Pedro G.;Quintana, Jose A.;Villalvilla, Jose M.;Retolaza, Aritz;Juarros, Aritz;Otaduy, Deitze;Merino, Santos;Diaz-Garcia, Maria A.;
2:119:11 Highly-photostable and mechanically flexible all-organic semiconductor lasers
DOI:10.1364/OME.3.000584 JN:OPTICAL MATERIALS EXPRESS PY:2013 TC:8 AU: Foucher, C.;Guilhabert, B.;Kanibolotsky, A. L.;Skabara, P. J.;Laurand, N.;Dawson, M. D.;
2:119:12 H-Shaped Oligofluorenes for Highly Air-Stable and Low-Threshold Non-Doped Deep Blue Lasing
DOI:10.1002/adma.201305355 JN:ADVANCED MATERIALS PY:2014 TC:4 AU: Qian, Yan;Wei, Qi;Del Pozo, Gonzalo;Mroz, Marta M.;Lueer, Larry;Casado, Santiago;Cabanillas-Gonzalez, Juan;Zhang, Qi;Xie, Linghai;Xia, Ruidong;Huang, Wei;
2:119:13 Influence of the excitation area on the thresholds of organic second-order distributed feedback lasers
DOI:10.1063/1.4768242 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Calzado, Eva M.;Villalvilla, Jose M.;Boj, Pedro G.;Quintana, Jose A.;Navarro-Fuster, Victor;Retolaza, Aritz;Merino, Santos;Diaz-Garcia, Maria A.;
2:119:14 A nanoimprinted, optically tuneable organic laser
DOI:10.1063/1.4705303 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Wallikewitz, Bodo H.;Nikiforov, Gueorgui O.;Sirringhaus, Henning;Friend, Richard H.;
2:119:15 Electrically tunable organic vertical-cavity surface-emitting laser
DOI:10.1063/1.4893758 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chang, Wendi;Wang, Annie;Murarka, Apoorva;Akselrod, Gleb M.;Packard, Corinne;Lang, Jeffrey H.;Bulovic, Vladimir;
2:119:16 Distributed feedback lasers based on dichromated poly(vinyl alcohol) reusable surface-relief gratings
DOI:10.1364/OME.4.000733 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:0 AU: Ramirez, Manuel G.;Villalvilla, Jose M.;Quintana, Jose A.;Boj, Pedro G.;Diaz-Garcia, Maria A.;
2:119:17 Nanoimprinted Organic Semiconductor Laser Pumped by a Light-Emitting Diode
DOI:10.1002/adma.201205096 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Tsiminis, Georgios;Wang, Yue;Kanibolotsky, Alexander L.;Inigo, Anto R.;Skabara, Peter J.;Samuel, Ifor D. W.;Turnbull, Graham A.;
2:119:18 Emission wavelength of multilayer distributed feedback dye lasers
DOI:10.1063/1.4759131 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Vannahme, Christoph;Smith, Cameron L. C.;Christiansen, Mads Brokner;Kristensen, Anders;
2:119:19 Improved performance of perylenediimide-based lasers
DOI:10.1039/c2tc00383j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Ramirez, Manuel G.;Morales-Vidal, Marta;Navarro-Fuster, Victor;Boj, Pedro G.;Quintana, Jose A.;Villalvilla, Jose M.;Retolaza, Aritz;Merino, Santos;Diaz-Garcia, Maria A.;
2:119:20 Thermally tunable liquid crystal distributed feedback laser based on a polymer grating with nanogrooves fabricated by nanoimprint lithography
DOI:10.1364/OME.4.000234 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:0 AU: Yu, Kai-Yu;Chang, Shih-Hui;Lee, Chia-Rong;Hsu, Teng-Yuan;Kuo, Chie-Tong;
2:119:21 Influence of index contrast in two dimensional photonic crystal lasers
DOI:10.1063/1.3443718 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Jorgensen, Mette Marie;Petersen, Sidsel Rubner;Christiansen, Mads Brokner;Buss, Thomas;Smith, Cameron L. C.;Kristensen, Anders;
2:119:22 Thickness dependence of the amplified spontaneous emission threshold and operational stability in poly(9,9-dioctylfluorene) active waveguides
DOI:10.1063/1.4711993 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Anni, M.;Perulli, A.;Monti, G.;
2:119:23 Output characteristics of organic distributed feedback lasers with varying grating heights
DOI:10.1063/1.4885400 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Doering, Sebastian;Rabe, Torsten;Stumpe, Joachim;
2:119:24 Influence of the cation type on the DFB lasing performance of dye-doped azobenzene-containing polyelectrolytes
DOI:10.1039/c4tc01413h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Goldenberg, Leonid M.;Lisinetskii, Victor;Ryabchun, Alexander;Bobrovsky, Alexey;Schrader, Sigurd;
2:119:25 Distributed feedback laser biosensor incorporating a titanium dioxide nanorod surface
DOI:10.1063/1.3394259 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Ge, Chun;Lu, Meng;Zhang, Wei;Cunningham, Brian T.;
2:119:26 Operational lifetime improvement of poly(9,9-dioctylfluorene) active waveguides by thermal lamination
DOI:10.1063/1.4733325 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Anni, M.;
2:119:27 Absolute analytical prediction of photonic crystal guided mode resonance wavelengths
DOI:10.1063/1.4893664 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Hermannsson, Petur Gordon;Vannahme, Christoph;Smith, Cameron L. C.;Kristensen, Anders;
2:119:28 New perylene-doped polymeric thin films for efficient and long-lasting lasers
DOI:10.1039/c2jm16745j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Cerdan, Luis;Costela, Angel;Duran-Sampedro, Gonzalo;Garcia-Moreno, Inmaculada;Calle, Mariola;Juan-y-Seva, Marta;de Abajo, Javier;Turnbull, Graham A.;
2:120:1 Single-Molecule Spectroscopy for Plastic Electronics: Materials Analysis from the Bottom-Up
DOI:10.1002/adma.200902306 JN:ADVANCED MATERIALS PY:2010 TC:83 AU: Lupton, John M.;
2:120:2 White Electroluminescence by Supramolecular Control of Energy Transfer in Blends of Organic-Soluble Encapsulated Polyfluorenes
DOI:10.1002/adfm.200901764 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:38 AU: Brovelli, Sergio;Meinardi, Francesco;Winroth, Gustaf;Fenwick, Oliver;Sforazzini, Giuseppe;Frampton, Michael J.;Zalewski, Leszek;Levitt, James A.;Marinello, Francesco;Schiavuta, Piero;Suhling, Klaus;Anderson, Harry L.;Cacialli, Franco;
2:120:3 Charge Trapping and Storage by Composite P3HT/PC60BM Nanoparticles Investigated by Fluorescence-Voltage/Single Particle Spectroscopy
DOI:10.1021/ja207244z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:9 AU: Hu, Zhongjian;Gesquiere, Andre J.;
2:120:4 Organic nanostructured host-guest materials for luminescent solar concentrators
DOI:10.1039/c2ta00632d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:10 AU: Botta, Chiara;Betti, Paolo;Pasini, Mariacecilia;
2:120:5 Cyclodextrin Insulation Prevents Static Quenching of Conjugated Polymer Fluorescence at the Single Molecule Level
DOI:10.1002/smll.201203272 JN:SMALL PY:2013 TC:12 AU: Thomsson, Daniel;Camacho, Rafael;Tian, Yuxi;Yadav, Dheerendra;Sforazzini, Giuseppe;Anderson, Harry L.;Scheblykin, Ivan G.;
2:120:6 A Self-Threading Polythiophene: Defect-Free Insulated Molecular Wires Endowed with Long Effective Conjugation Length
DOI:10.1021/ja107444m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:46 AU: Sugiyasu, Kazunori;Honsho, Yoshihito;Harrison, Ryan M.;Sato, Akira;Yasuda, Takeshi;Seki, Shu;Takeuchi, Masayuki;
2:120:7 Enhanced luminescence properties of highly threaded conjugated polyelectrolytes with potassium counter-ions upon blending with poly(ethylene oxide)
DOI:10.1063/1.3372616 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Latini, Gianluca;Winroth, Gustaf;Brovelli, Sergio;McDonnell, Shane O.;Anderson, Harry L.;Mativetsky, Jeffrey M.;Samori, Paolo;Cacialli, Franco;
2:120:8 Singlet-Triplet Annihilation Limits Exciton Yield in Poly(3-Hexylthiophene)
DOI:10.1103/PhysRevLett.112.137402 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:5 AU: Steiner, Florian;Vogelsang, Jan;Lupton, John M.;
2:120:9 Unmasking Bulk Exciton Traps and Interchain Electronic Interactions with Single Conjugated Polymer Aggregates
DOI:10.1021/nn203860u JN:ACS NANO PY:2012 TC:12 AU: Traub, Matthew C.;Vogelsang, Jan;Plunkett, Kyle N.;Nuckolls, Colin;Barbara, Paul F.;Vanden Bout, David A.;
2:120:10 Emission Color Trajectory and White Electroluminescence Through Supramolecular Control of Energy Transfer and Exciplex Formation in Binary Blends of Conjugated Polyrotaxanes
DOI:10.1002/adfm.201200786 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:25 AU: Brovelli, Sergio;Sforazzini, Giuseppe;Serri, Michele;Winroth, Gustaf;Suzuki, Kosuke;Meinardi, Francesco;Anderson, Harry L.;Cacialli, Franco;
2:120:11 Ultra-Broad Optical Amplification and Two-Colour Amplified Spontaneous Emission in Binary Blends of Insulated Molecular Wires
DOI:10.1002/adma.201000895 JN:ADVANCED MATERIALS PY:2010 TC:18 AU: Brovelli, Sergio;Virgili, Tersilla;Mroz, Marta M.;Sforazzini, Giuseppe;Paleari, Alberto;Anderson, Harry L.;Lanzani, Guglielmo;Cacialli, Franco;
2:120:12 Amplified Spontaneous Emission in Conjugated Polyrotaxanes Under Quasi-cw Pumping
DOI:10.1002/adma.201301703 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Mroz, Marta M.;Sforazzini, Giuseppe;Zhong, Yongchun;Wong, Kam Sing;Anderson, Harry L.;Lanzani, Guglielmo;Cabanillas-Gonzalez, Juan;
2:120:13 Effect of Conjugated Backbone Protection on Intrinsic and Light-Induced Fluorescence Quenching in Polythiophenes
DOI:10.1021/cm5021959 JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Sahoo, Dibakar;Sugiyasu, Kazunori;Tian, Yuxi;Takeuchi, Masayuki;Scheblykin, Ivan G.;
2:120:14 Excitonic Energy Migration in Conjugated Polymers: The Critical Role of Interchain Morphology
DOI:10.1021/ja508112k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Hu, Zhongjian;Adachi, Takuji;Haws, Ryan;Shuang, Bo;Ono, Robert J.;Bielawski, Christopher W.;Landes, Christy F.;Rossky, Peter J.;Vanden Bout, David A.;
2:120:15 Increased efficiency of light-emitting diodes incorporating anodes functionalized with fluorinated azobenzene monolayers and a green-emitting polyfluorene derivative
DOI:10.1063/1.4758682 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Lazzerini, G. M.;Mian, S.;Di Stasio, F.;Masillamani, A. Merari;Crivillers, N.;Reinders, F.;Mayor, M.;Samori, P.;Cacialli, F.;
2:120:16 Fluorescent polystyrene photonic crystals self-assembled with water-soluble conjugated polyrotaxanes
DOI:10.1063/1.4826544 JN:APL MATERIALS PY:2013 TC:1 AU: Di Stasio, Francesco;Berti, Luca;McDonnell, Shane O.;Robbiano, Valentina;Anderson, Harry L.;Comoretto, Davide;Cacialli, Franco;
2:120:17 Photo-induced fluorescence quenching in conjugated polymers dispersed in solid matrices at low concentration
DOI:10.1039/c4tc00831f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Sahoo, Dibakar;Tian, Yuxi;Sforazzini, Giuseppe;Anderson, Harry L.;Scheblykin, Ivan G.;
2:120:18 Optical and Electroluminescent Properties of Conjugated Polyrotaxanes
DOI:10.1002/smll.201001881 JN:SMALL PY:2010 TC:25 AU: Brovelli, Sergio;Cacialli, Franco;
2:120:19 Highly Polarized Emission from Oriented Films Incorporating Water-Soluble Conjugated Polymers in a Polyvinyl Alcohol Matrix
DOI:10.1002/adma.201004356 JN:ADVANCED MATERIALS PY:2011 TC:9 AU: Di Stasio, Francesco;Korniychuk, Platon;Brovelli, Sergio;Uznanski, Pawel;McDonnell, Shane O.;Winroth, Gustaf;Anderson, Harry L.;Tracz, Adam;Cacialli, Franco;
2:120:20 Electrochromic Properties of Polythiophene Polyrotaxane Film
DOI:10.1021/la1043816 JN:LANGMUIR PY:2011 TC:11 AU: Ikeda, Taichi;Higuchi, Masayoshi;
2:120:21 Conformation and physics of polymer chains: a single-molecule perspective
DOI:10.1038/asiamat.2010.135 JN:NPG ASIA MATERIALS PY:2010 TC:30 AU: Vacha, Martin;Habuchi, Satoshi;
2:120:22 Low-temperature treatment of semiconducting interlayers for high-efficiency light-emitting diodes based on a green-emitting polyfluorene derivative
DOI:10.1063/1.3668093 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Lazzerini, G. M.;Di Stasio, F.;Flechon, C.;Caruana, D. J.;Cacialli, F.;
2:120:23 Formation of a Defect-Free pi-Electron System in Single beta-Phase Polyfluorene Chains
DOI:10.1021/ja109342t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:16 AU: Da Como, Enrico;Borys, Nicholas J.;Strohriegl, Peter;Walter, Manfred J.;Lupton, John M.;
2:120:24 White luminescence from single-layer devices of nonresonant polymer blends
DOI:10.1063/1.3387816 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Brovelli, Sergio;Guan, Hao;Winroth, Gustaf;Fenwick, Oliver;Di Stasio, Francesco;Daik, Rusli;Feast, W. James;Meinardi, Francesco;Cacialli, Franco;
2:120:25 Temporal Switching of Homo-FRET Pathways in Single-Chromophore Dimer Models of pi-Conjugated Polymers
DOI:10.1021/ja3108643 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Stangl, Thomas;Bange, Sebastian;Schmitz, Daniela;Wuersch, Dominik;Hoeger, Sigurd;Vogelsang, Jan;Lupton, John M.;
2:120:26 Self-assembly of highly ordered conjugated polymer aggregates with long-range energy transfer
DOI:10.1038/NMAT3127 JN:NATURE MATERIALS PY:2011 TC:29 AU: Vogelsang, Jan;Adachi, Takuji;Brazard, Johanna;Bout, David A. Vanden;Barbara, Paul F.;
2:120:27 Watching two conjugated polymer chains breaking each other when colliding in solution
DOI:10.1038/am.2014.91 JN:NPG ASIA MATERIALS PY:2014 TC:3 AU: Tian, Yuxi;Kuzimenkova, Marina V.;Xie, Mingyi;Meyer, Matthias;Larsson, Per-Olof;Scheblykin, Ivan G.;
2:121:1 Many-body GW calculation of the oxygen vacancy in ZnO
DOI:10.1103/PhysRevB.81.113201 JN:PHYSICAL REVIEW B PY:2010 TC:72 AU: Lany, Stephan;Zunger, Alex;
2:121:2 New Perspective on Formation Energies and Energy Levels of Point Defects in Nonmetals
DOI:10.1103/PhysRevLett.108.066404 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:38 AU: Ramprasad, R.;Zhu, H.;Rinke, Patrick;Scheffler, Matthias;
2:121:3 Convergence of density and hybrid functional defect calculations for compound semiconductors
DOI:10.1103/PhysRevB.88.115201 JN:PHYSICAL REVIEW B PY:2013 TC:10 AU: Peng, Haowei;Scanlon, David O.;Stevanovic, Vladan;Vidal, Julien;Watson, Graeme W.;Lany, Stephan;
2:121:4 Angle-resolved photoemission and quasiparticle calculation of ZnO: The need for d band shift in oxide semiconductors
DOI:10.1103/PhysRevB.86.235113 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;Decomposition kinetics of Fe-Cr solid solutions during thermal aging;PHYSICAL REVIEW B;86;22;224109;10.1103/PhysRevB.86.224109;DEC 17 2012;2012;The decomposition of Fe-Cr solid solutions during thermal aging is;modeled by atomistic kinetic Monte Carlo simulations, using a rigid;lattice approximation with pair interactions that depend on the local;composition and temperature. The pair interactions are fitted on ab;initio calculations of mixing energies and vacancy migration barriers at;0 K. The entropic contributions to the mixing of Fe-Cr alloys and to the;vacancy formation and migration free energies are taken into account.;The model reproduces the change in sign of the mixing energy with the;alloy composition and gives realistic thermodynamic and kinetic;properties, including an asymmetrical miscibility gap at low temperature;and diffusion coefficients in good agreement with available experimental;data. Simulations of short-range ordering and alpha-alpha' decomposition;are performed at 773 and 813 K for Cr concentrations between 10% and;50%. They are compared with experimental kinetics based on;three-dimensional atom probe and neutron scattering measurements. The;possible effect of magnetic properties on diffusion in the alpha and;alpha' phases, and therefore on the decomposition kinetics, is;emphasized. DOI: 10.1103/PhysRevB.86.224109;soisson, frederic/B-2917-2009; Lujan Center, LANL/G-4896-2012;soisson, frederic/0000-0001-6435-6119;;6;0;0;0;6;1098-0121;WOS:000312364700001;;;J;Moon, Eun-Gook;Xu, Cenke;Exotic continuous quantum phase transition between Z(2) topological spin;liquid and Neel order;PHYSICAL REVIEW B;86;21;214414;10.1103/PhysRevB.86.214414;DEC 17 2012;2012;Recent numerical simulations with different techniques have all;suggested the existence of a continuous quantum phase transition between;the Z(2) topological spin-liquid phase and a conventional Neel order.;Motivated by this numerical progress, we propose a candidate theory for;such Z(2)-Neel transition. We first argue on general grounds that, for a;SU(2)-invariant system, this transition can not be interpreted as the;condensation of spinons in the Z(2) spin-liquid phase. Then, we propose;that such Z(2)-Neel transition is driven by proliferating the bound;state of the bosonic spinon and vison excitation of the Z(2) spin;liquid, i.e., the so-called (e, m)-type excitation. Universal critical;exponents associated with this exotic transition are computed using 1/N;expansion. This theory predicts that at the Z(2)-Neel transition, there;is an emergent quasi-long-range power-law correlation of columnar;valence bond solid order parameter.;6;0;0;0;6;1098-0121;WOS:000312364200003;;;J;Moskvin, A. S.;Gippius, A. A.;Tkachev, A. V.;Mahajan, A. V.;Chakrabarty, T.;Presniakov, I. A.;Sobolev, A. V.;Demazeau, G.;Direct evidence of non-Zhang-Rice Cu3+ centers in La2Li0.5Cu0.5O4;PHYSICAL REVIEW B;86;24;241107;10.1103/PhysRevB.86.241107;DEC 17 2012;2012;A well-isolated Zhang-Rice (ZR) singlet as a ground state of the Cu3+;center in hole-doped cuprates is a leading paradigm in modern theories;of high-temperature superconductivity. However, a dramatic temperature;evolution of the Li-6,Li-7 NMR signal in La2Li0.5Cu0.5O4, a system with;a regular lattice of well-isolated Cu3+ centers, reveals significant;magnetic fluctuations and suggests a quasidegeneracy to be a generic;property of their ground state at variance with the simple ZR model. We;argue for a competition of the ZR state with nearby states formed by a;"doped" hole occupying purely oxygen nonbonding a(2g)(pi) and e(u)(pi);orbitals rather than a conventional b(1g)(d(x2-y2))Cu 3d-O 2p hybrid.;The temperature variation of the Li-6,Li-7 NMR line shape and;spin-lattice relaxation rate point to a gradual slowing down of some;magnetic order parameter's fluctuations without distinct signatures of a;phase transition down to T = 2 K. This behavior agrees with a stripelike;ferrodistortive fluctuating Ammm order in a two-dimensional structure of;the (CuLi)O-2 planes accompanied by unconventional oxygen orbital;antiferromagnetic fluctuations. DOI: 10.1103/PhysRevB.86.241107;Gippius, Andrey/D-1139-2010; Sobolev, Alexey/C-3832-2009;Sobolev, Alexey/0000-0002-8085-5425;0;0;0;0;0;1098-0121;WOS:000312365800002;;;J;Nguyen, P. D.;Kepaptsoglou, D. M.;Erni, R.;Ramasse, Q. M.;Olsen, A.;Quantum confinement of volume plasmons and interband transitions in;germanium nanocrystals;PHYSICAL REVIEW B;86;24;245316;10.1103/PhysRevB.86.245316;DEC 17 2012;2012;The plasmonic properties of individual quantum-sized Ge nanocrystals;(NCs) were observed and systematically analyzed by aberration-corrected;scanning transmission electron microscopy (STEM) and electron energy;loss spectroscopy (EELS). For this purpose, Ge NCs embedded in an SiO2;matrix with controllable size, density, and structure were fabricated;using magnetron sputtering. The size dependence of the Ge plasmon;energies in the size range of 5-9 nm is shown to be well depicted by the;so-called medium quantum confinement (QC) model, with an effective mass;of 0.57m(0) (contrary to expectations of a stronger quantum effect). In;the very low-loss region of the EEL spectra, an apparent blue shift of;the E-2 interband transition peak up to 2 eV and a strong reduction in;the oscillator strength were measured for the NCs in the size range of;4-6 nm. It indicates for this smaller size range a transition to a QC;regime where the band structure and the density of states are modified;dramatically. These trends are explained by a combination of low-loss;and core-loss EELS results, which show that the Ge NCs are surrounded;uniformly by nearly stoichiometric SiO2. This local chemistry is shown;to provide an infinite potential barrier and to confine electrons and;holes in the spherically shaped Ge NCs. In addition to pure QC effects;in the Ge NCs, the SiO2 matrix thus plays an important role in the;strength of the observed QC and interband transitions. DOI:;10.1103/PhysRevB.86.245316;2;0;0;0;2;1098-0121;WOS:000312365800010;;;J;Roedl, Claudia;Bechstedt, Friedhelm;Optical and energy-loss spectra of the antiferromagnetic transition;metal oxides MnO, FeO, CoO, and NiO including quasiparticle and;excitonic effects;PHYSICAL REVIEW B;86;23;235122;10.1103/PhysRevB.86.235122;DEC 17 2012;2012;We calculate the frequency-dependent dielectric function for the series;of antiferromagnetic transition metal oxides (TMOs) from MnO to NiO;using many-body perturbation theory. Quasiparticle, excitonic, and;local-field effects are taken into account by solving the Bethe-Salpeter;equation in the framework of collinear spin polarization. The optical;spectra are based on electronic structures which have been obtained;using density-functional theory with a hybrid functional containing;screened exchange (HSE03) and a subsequent quasiparticle calculation in;the GW approximation to describe exchange and correlation effects;adequately. These sophisticated quasiparticle band structures are mapped;to electronic structures resulting from the computationally less;expensive GGA + U + Delta scheme that includes an on-site interaction U;and a scissors shift Delta and allows us to calculate the large number;of electronic states that is necessary to construct the Bethe-Salpeter;Hamiltonian. For an accurate description of the optical spectra, an;appropriate treatment of the strong electron-hole attraction is;mandatory to obtain agreement with the experimentally observed;absorption-peak positions. The itinerant s and p states as well as the;localized transition metal 3d states have to be considered on an equal;footing. We find that a purely atomic picture is not suitable to;understand the optical absorption spectra of the TMOs. Reflectivity;spectra, absorption coefficients, and loss functions at vanishing;momentum transfer are computed in a wide spectral range and discussed in;light of the available experimental data. DOI:;10.1103/PhysRevB.86.235122;8;1;0;0;8;1098-0121;WOS:000312365200002;;;J;Schlickeiser, F.;Atxitia, U.;Wienholdt, S.;Hinzke, D.;Chubykalo-Fesenko, O.;Nowak, U.;Temperature dependence of the frequencies and effective damping;parameters of ferrimagnetic resonance;PHYSICAL REVIEW B;86;21;214416;10.1103/PhysRevB.86.214416;DEC 17 2012;2012;Recent experiments on all-optical switching in GdFeCo and CoGd have;raised the question about the importance of the angular momentum or the;magnetization compensation point for ultrafast magnetization dynamics.;We investigate the dynamics of ferrimagnets by means of computer;simulations as well as analytically. The results from atomistic modeling;are explained by a theory based on the two-sublattice;Landau-Lifshitz-Bloch equation. Similarly to the experimental results;and unlike predictions based on the macroscopic Landau-Lifshitz;equation, we find an increase in the effective damping at temperatures;approaching the Curie temperature. Further results for the temperature;dependence of the frequencies and effective damping parameters of the;normal modes represent an improvement of former approximated solutions,;building a better basis for comparison to recent experiments.;Atxitia, Unai/A-8870-2010;4;0;0;0;4;1098-0121;WOS:000312364200005;;;J;Smith, R. F.;Minich, R. W.;Rudd, R. E.;Eggert, J. H.;Bolme, C. A.;Brygoo, S. L.;Jones, A. M.;Collins, G. W.;Orientation and rate dependence in high strain-rate compression of;single-crystal silicon;PHYSICAL REVIEW B;86;24;245204;10.1103/PhysRevB.86.245204;DEC 17 2012;2012;High strain-rate ((epsilon)over dot similar to 10(6)-10(9) s(-1));compression of single crystal Si reveals strong orientation- and;rate-dependent precursor stresses. At these high compression rates, the;peak elastic stress, sigma(E_Peak), for Si [100], [110], and [111];exceeds twice the Hugoniot elastic limit. Near the loading surface, the;rate at which Si evolves from uniaxial compression to a;three-dimensional relaxed state is exponentially dependent on;sigma(E_Peak) and independent of initial crystal orientation. At later;times, the high elastic wave speed results in a temporal decoupling of;the elastic precursor from the main inelastic wave. A rapid;high-(epsilon)over dot increase in the measured elastic stress at the;onset of inelastic deformation is consistent with a transition from;dislocation flow mediated by thermal activation to a phonon drag regime.;DOI: 10.1103/PhysRevB.86.245204;3;0;0;0;3;1098-0121;WOS:000312365800006;;;J;Svensson, S. P.;Sarney, W. L.;Hier, H.;Lin, Y.;Wang, D.;Donetsky, D.;Shterengas, L.;Kipshidze, G.;Belenky, G.;Band gap of InAs1-xSbx with native lattice constant;PHYSICAL REVIEW B;86;24;245205;10.1103/PhysRevB.86.245205;DEC 17 2012;2012;The band gap energy of the alloy InAsSb has been studied as a function;of composition with special emphasis on minimization of strain-induced;artifacts. The films were grown by molecular beam epitaxy on GaSb;substrates with compositionally graded buffer layers that were designed;to produce strain-free films. The compositions were precisely determined;by high-resolution x-ray diffraction. Evidence for weak, long-range,;group-V ordering was detected in materials exhibiting residual strain;and relaxation. In contrast, unstrained films having the nondistorted;cubic form showed no evidence of group-V ordering. The photoluminescence;(PL) peak positions therefore corresponds to the inherent band gap of;unstrained, unrelaxed, InAsSb. PL peaks were recorded for compositions;up to 46% Sb, reaching a peak wavelength of 10.3 mu m, observed under;low excitation at T = 13 K. The alloy band gap energies determined from;PL maxima are described with a bowing parameter of 0.87 eV, which is;significantly larger than measured for InAsSb in earlier work. The;sufficiently large bowing parameter and the ability to grow the alloys;without ordering allows direct band gap InAsSb to be a candidate;material for low-temperature long-wavelength infrared detector;applications. DOI: 10.1103/PhysRevB.86.245205;8;0;0;0;8;1098-0121;WOS:000312365800007;;;J;Thirupathaiah, S.;Evtushinsky, D. V.;Maletz, J.;Zabolotnyy, V. B.;Kordyuk, A. A.;Kim, T. K.;Wurmehl, S.;Roslova, M.;Morozov, I.;Buechner, B.;Borisenko, S. V.;Weak-coupling superconductivity in electron-doped NaFe0.95Co0.05As;revealed by ARPES;PHYSICAL REVIEW B;86;21;214508;10.1103/PhysRevB.86.214508;DEC 17 2012;2012;We report a systematic study on the electronic structure and;superconducting (SC) gaps in electron-doped NaFe0.95Co0.05As;superconductor using angle-resolved photoemission spectroscopy. Holelike;Fermi sheets are at the zone center and electronlike Fermi sheets are at;the zone corner, and are mainly contributed by xz and yz orbital;characters. Our results reveal a Delta/KBTc in the range of 1.8-2.1,;suggesting a weak-coupling superconductivity in these compounds. Gap;closing above the transition temperature (T-c) shows the absence of;pseudogaps. Gap evolution with temperature follows the BCS gap equation;near the Gamma, Z, and M high symmetry points. Furthermore, an almost;isotropic superconductivity along the k(z) direction in the momentum;space is observed by varying the excitation energies.;Wurmehl, Sabine/A-5872-2009; Morozov, Igor/C-4329-2011; Borisenko, Sergey/G-6743-2012; Roslova, Maria/F-7352-2013;Borisenko, Sergey/0000-0002-5046-4829;;6;0;0;0;6;1098-0121;WOS:000312364200007;;;J;Tsuda, Kenji;Sano, Rikiya;Tanaka, Michiyoshi;Nanoscale local structures of rhombohedral symmetry in the orthorhombic;and tetragonal phases of BaTiO3 studied by convergent-beam electron;diffraction;PHYSICAL REVIEW B;86;21;214106;10.1103/PhysRevB.86.214106;DEC 17 2012;2012;The symmetries of the rhombohedral, orthorhombic, and tetragonal phases;of barium titanate (BaTiO3) are investigated using convergent-beam;electron diffraction. Nanometer-sized local structures with rhombohedral;symmetry are observed in both the orthorhombic and tetragonal phases.;This indicates that an order-disorder character exists in phase;transformations of BaTiO3. The nanostructures in these phases are;discussed in terms of an order-disorder model with off-centered Ti in;the < 111 > directions.;6;0;0;0;6;1098-0121;WOS:000312364200001;;;J;Ulstrup, Soren;Frederiksen, Thomas;Brandbyge, Mads;Nonequilibrium electron-vibration coupling and conductance fluctuations;in a C-60 junction;PHYSICAL REVIEW B;86;24;245417;10.1103/PhysRevB.86.245417;DEC 17 2012;2012;We investigate chemical bond formation and conductance in a molecular;C-60 junction under finite bias voltage using first-principles;calculations based on density functional theory and nonequilibrium;Green's functions (DFT-NEGF). At the point of contact formation we;identify a remarkably strong coupling between the C-60 motion and the;molecular electronic structure. This is only seen for positive sample;bias, although the conductance itself is not strongly polarity;dependent. The nonequilibrium effect is traced back to a sudden shift in;the position of the voltage drop with a small C-60 displacement.;Combined with a vibrational heating mechanism we construct a model from;our results that explain the polarity-dependent two-level conductance;fluctuations observed in recent scanning tunneling microscopy (STM);experiments [N. Neel et al., Nano Lett. 11, 3593 (2011)]. These findings;highlight the significance of nonequilibrium effects in chemical bond;formation/breaking and in electron-vibration coupling in molecular;electronics. DOI: 10.1103/PhysRevB.86.245417;Frederiksen, Thomas/D-3545-2011; Brandbyge, Mads/C-6095-2008; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Frederiksen, Thomas/0000-0001-7523-7641;;4;0;0;0;4;1098-0121;WOS:000312365800012;;;J;Urdaniz, M. C.;Barral, M. A.;Llois, A. M.;Magnetic exchange coupling in 3d-transition-metal atomic chains adsorbed;on Cu2N/Cu(001);PHYSICAL REVIEW B;86;24;245416;10.1103/PhysRevB.86.245416;DEC 17 2012;2012;Covalent substrates can give rise to a variety of magnetic interaction;mechanisms among adsorbed transition-metal atoms building atomic;nanostructures. We show this by calculating the ground state magnetic;configuration of monoatomic 3d chains deposited on a monolayer of Cu2N;grown on Cu(001) as a function of d filling and of adsorption sites of;these nanostructures. DOI: 10.1103/PhysRevB.86.245416;1;0;0;0;1;1098-0121;WOS:000312365800011;;;J;Vaz, Eduardo;Kyriakidis, Jordan;Resonant regimes in the Fock-space coherence of multilevel quantum dots;PHYSICAL REVIEW B;86;23;235310;10.1103/PhysRevB.86.235310;DEC 17 2012;2012;The coherence between quantum states with different particle numbers-the;Fock-space coherence-qualitatively differs from the more common;Hilbert-space coherence between states with equal particle numbers. For;a quantum dot with multiple channels available for transport, we find;the conditions for decoupling the dynamics of the Fock-space coherence;from both the Hilbert-space coherence as well as the population;dynamics. We further find specific energy and coupling regimes where a;long-lived resonance in the Fock-space coherence of the system is;realized, even where no resonances are found either in the populations;or Hilbert-space coherence. Numerical calculations show this resonance;remains robust in the presence of both boson-mediated relaxation and;transport through the quantum dot. DOI: 10.1103/PhysRevB.86.235310;1;0;0;0;1;1098-0121;WOS:000312365200009;;;J;Ward, D. K.;Zhou, X. W.;Wong, B. M.;Doty, F. P.;Zimmerman, J. A.;Analytical bond-order potential for the Cd-Zn-Te ternary system;PHYSICAL REVIEW B;86;24;245203;10.1103/PhysRevB.86.245203;DEC 17 2012;2012;Cd-Zn-Te ternary alloyed semiconductor compounds are key materials in;radiation detection and photovoltaic applications. Currently,;crystalline defects such as dislocations limit the performance of these;materials. Atomistic simulations are a powerful method for exploring;crystalline defects at a resolution unattainable by experimental;techniques. To enable accurate atomistic simulations of defects in the;Cd-Zn-Te systems, we develop a full Cd-Zn-Te ternary bond-order;potential. This Cd-Zn-Te potential has numerous unique advantages over;other potential formulations: (1) It is analytically derived from;quantum mechanical theories and is therefore more likely to be;transferable to environments that are not explicitly tested. (2) A;variety of elemental and compound configurations (with coordination;varying from 1 to 12) including small clusters, bulk lattices, defects,;and surfaces are explicitly considered during parameterization. As a;result, the potential captures structural and property trends close to;those seen in experiments and quantum mechanical calculations and;provides a good description of melting temperature, defect;characteristics, and surface reconstructions. (3) Most importantly, this;potential is validated to correctly predict the crystalline growth of;the ground-state structures for Cd, Zn, Te elements as well as CdTe,;ZnTe, and Cd1-xZnxTe compounds during highly challenging molecular;dynamics vapor deposition simulations. DOI: 10.1103/PhysRevB.86.245203;Wong, Bryan/B-1663-2009;Wong, Bryan/0000-0002-3477-8043;7;0;0;0;7;1098-0121;WOS:000312365800005;;;J;Williams, M. E.;Sims, H.;Mazumdar, D.;Butler, W. H.;Effects of 3d and 4d transition metal substitutional impurities on the;electronic properties of CrO2;PHYSICAL REVIEW B;86;23;235124;10.1103/PhysRevB.86.235124;DEC 17 2012;2012;We present first-principles-based density functional theory calculations;of the electronic and magnetic structure of CrO2 with 3d and 4d;substitutional impurities. We find that the half-metallicity of CrO2;remains intact for the ground state of all of the calculated;substitutions. We also observe two periodic trends as a function of the;number of valence electrons: if the substituted atom has six or fewer;valence electrons, the number of down spin electrons associated with the;impurity ion is zero, resulting in ferromagnetic alignment of the;impurity magnetic moment with the magnetization of the CrO2 host. For;substituent atoms with eight to ten valence electrons (with the;exception of Ni), the number of down-spin electrons contributed by the;impurity ion remains fixed at three as the number contributed to the;majority increases from one to three resulting in antiferromagnetic;alignment between impurity moment and host magnetization. In impurities;with seven valence electrons, the zero down-spin and threse down-spin;configurations are very close in energy. At 11 valence electrons, the;energy is minimized when the substituent ion contributes five down-spin;electrons. The moments on the 4d impurities, particularly Nb and Mo,;tend to be delocalized compared with those of the 3ds. DOI:;10.1103/PhysRevB.86.235124;0;0;0;0;0;1098-0121;WOS:000312365200004;;;J;Yan, Xin-Zhong;Ting, C. S.;Possible broken inversion and time-reversal symmetry state of electrons;in bilayer graphene;PHYSICAL REVIEW B;86;23;235126;10.1103/PhysRevB.86.235126;DEC 17 2012;2012;With the two-band continuum model, we study the broken inversion and;time-reversal symmetry state of electrons with finite-range repulsive;interactions in bilayer graphene. In the state, there are overlapped;loop currents in each layer. With the analytical solution to the;mean-field Hamiltonian, we obtain the electronic spectra. The ground;state is gapped. In the presence of the magnetic field B, the energy gap;grows with increasing B, in excellent agreement with the experimental;observation. Such an energy-gap behavior originates from the;disappearance of a Landau level of n = 0 and 1 states. The present;result resolves explicitly the puzzle of the gap dependence of B. DOI:;10.1103/PhysRevB.86.235126;6;0;0;0;6;1098-0121;WOS:000312365200006;;;J;Yin, Z. P.;Haule, K.;Kotliar, G.;Fractional power-law behavior and its origin in iron-chalcogenide and;ruthenate superconductors: Insights from first-principles calculations;(vol 86, 195141, 2012);PHYSICAL REVIEW B;86;23;239904;10.1103/PhysRevB.86.239904;DEC 17 2012;2012;2;0;0;0;2;1098-0121;WOS:000312365200014;;;J;Zhigadlo, N. D.;Weyeneth, S.;Katrych, S.;Moll, P. J. W.;Rogacki, K.;Bosma, S.;Puzniak, R.;Karpinski, J.;Batlogg, B.;High-pressure flux growth, structural, and superconducting properties of;LnFeAsO (Ln = Pr, Nd, Sm) single crystals;PHYSICAL REVIEW B;86;21;214509;10.1103/PhysRevB.86.214509;DEC 17 2012;2012;Single crystals of the LnFeAsO (Ln1111, Ln = Pr, Nd, and Sm) family with;lateral dimensions up to 1 mm were grown from NaAs and KAs flux at high;pressure. The crystals are of good structural quality and become;superconducting when O is partially substituted by F (PrFeAsO1-xFx and;NdFeAsO1-xFx) or when Fe is substituted by Co (SmFe1-xCoxAsO). From;magnetization measurements, we estimate the temperature dependence and;anisotropy of the upper critical field and the critical current density;of underdoped PrFeAsO0.7F0.3 crystal with T-c approximate to 25 K.;Single crystals of SmFe1-xCoxAsO with maximal T-c up to 16.3 K for x;approximate to 0.08 were grown. From transport and magnetic;measurements, we estimate the critical fields and their anisotropy and;find these superconducting properties to be quite comparable to the ones;in SmFeAsO1-xFx with a much higher T-c approximate to 50 K. The;magnetically measured critical current densities are as high as 10(9);A/m(2) at 2 K up to 7 T, with indication of the usual fishtail effect.;The upper critical field estimated from resistivity measurements is;anisotropic with slopes of similar to - 8.7 T/K (H parallel to ab plane);and similar to - 1.7 T/K (H parallel to c axis). This anisotropy;(similar to 5) is similar to that in other Ln1111 crystals with various;higher T-c's.;Puzniak, Roman/N-1643-2013;Puzniak, Roman/0000-0001-5636-5541;7;0;0;0;7;1098-0121;WOS:000312364200008;;;J;Zhu, Guobao;Yang, Shengyuan A.;Fang, Cheng;Liu, W. M.;Yao, Yugui;Theory of orbital magnetization in disordered systems;PHYSICAL REVIEW B;86;21;214415;10.1103/PhysRevB.86.214415;DEC 17 2012;2012;We present a general formula of the orbital magnetization of disordered;systems based on the Keldysh Green's function theory in the;gauge-covariant Wigner space. In our approach, the gauge invariance of;physical quantities is ensured from the very beginning, and the vertex;corrections are easily included. Our formula applies not only for;insulators but also for metallic systems where the quasiparticle;behavior is usually strongly modified by the disorder scattering. In the;absence of disorders, our formula recovers the previous results obtained;from the semiclassical theory and the perturbation theory. As an;application, we calculate the orbital magnetization of a weakly;disordered two-dimensional electron gas with Rashba spin-orbit coupling.;We find that for the short-range disorder scattering, its major effect;is to the shifting of the distribution of orbital magnetization;corresponding to the quasiparticle energy renormalization.;Yao, Yugui/A-8411-2012; Yang, Shengyuan/L-2848-2014;6;0;1;0;7;1098-0121;WOS:000312364200004;;;J;Zhukov, E. A.;Yugov, O. A.;Yugova, I. A.;Yakovlev, D. R.;Karczewski, G.;Wojtowicz, T.;Kossut, J.;Bayer, M.;Resonant spin amplification of resident electrons in CdTe/(Cd,Mg)Te;quantum wells subject to tilted magnetic fields;PHYSICAL REVIEW B;86;24;245314;10.1103/PhysRevB.86.245314;DEC 17 2012;2012;Electron spin coherence in CdTe/(Cd,Mg)Te quantum wells is studied;experimentally and theoretically in tilted external magnetic fields;generated by a superconducting vector magnet. The long-lived spin;coherence is measured by pump-probe Kerr rotation in the resonant spin;amplification (RSA) regime. The shape of RSA signals is very sensitive;to weak magnetic field components deviating from the Voigt or Faraday;geometries. DOI: 10.1103/PhysRevB.86.245314;Yugova, Irina/F-6823-2011;Yugova, Irina/0000-0003-0020-3679;3;0;0;0;3;1098-0121;WOS:000312365800008;;;J;Adelstein, Nicole;Mun, B. Simon;Ray, Hannah L.;Ross, Philip N., Jr.;Neaton, Jeffrey B.;De Jonghe, Lutgard C.;Structure and electronic properties of cerium orthophosphate: Theory and;experiment (vol 83, 205104, 2011);PHYSICAL REVIEW B;86;23;239903;10.1103/PhysRevB.86.239903;DEC 14 2012;2012;Mun, Bongjin /G-1701-2013;0;0;0;0;0;1098-0121;WOS:000312365100009;;;J;Bagchi, Debarshee;Mohanty, P. K.;Thermally driven classical Heisenberg model in one dimension;PHYSICAL REVIEW B;86;21;214302;10.1103/PhysRevB.86.214302;DEC 14 2012;2012;We study thermal transport in a classical one-dimensional Heisenberg;model employing a discrete-time odd-even precessional update scheme.;This dynamics equilibrates a spin chain for any arbitrary temperature;and finite value of the integration time step Delta t. We rigorously;show that in presence of driving, the system attains local thermal;equilibrium, which is a strict requirement of Fourier law. In the;thermodynamic limit, heat current for such a system obeys Fourier law;for all temperatures, as has been recently shown [A. V. Savin, G. P.;Tsironis, and X. Zotos, Phys. Rev. B 72, 140402(R) (2005)]. Finite;systems, however, show an apparent ballistic transport which crosses;over to a diffusive one as the system size is increased. We provide;exact results for current and energy profiles in zero- and;infinite-temperature limits. DOI: 10.1103/PhysRevB.86.214302;3;0;0;0;3;1098-0121;WOS:000312364100001;;;J;Barasinski, A.;Kamieniarz, G.;Drzewinski, A.;Magnetization-based assessment of correlation energy in canted;single-chain magnets;PHYSICAL REVIEW B;86;21;214412;10.1103/PhysRevB.86.214412;DEC 14 2012;2012;We demonstrate numerically that for the strongly anisotropic;homometallic S = 2 canted single-chain magnet described by the quantum;antiferromagnetic Heisenberg model, the correlation energy and exchange;coupling constant can be directly estimated from the;in-field-magnetization profile found along the properly selected;crystallographic direction. In the parameter space defined by the;spherical angles (phi, theta) determining the axes orientation, four;regions are identified with different sequences of the characteristic;field-dependent magnetization profiles representing the;antiferromagnetic, metamagnetic, and weak ferromagnetic type behavior.;These sequences provide a criterion for the applicability of the;anisotropic quantum Heisenberg model to a given experimental system. Our;analysis shows that the correlation energy decreases linearly with field;and vanishes for a given value H-cr, which defines a special coordinates;in the metamagnetic profile relevant for the zero-field correlation;energy and magnetic coupling. For the single-chain magnet formed by the;strongly anisotropic manganese(III) acetate meso-tetraphenylporphyrin;complexes coupled to the phenylphosphinate ligands, the experimental;metamagnetic-type magnetization curve in the c direction yields an;accurate estimate of the values of correlation energy Delta(xi)/k(B) =;7.93 K and exchange coupling J/k(B) = 1.20 K. DOI:;10.1103/PhysRevB.86.214412;1;0;0;0;1;1098-0121;WOS:000312364100004;;;J;Brinzari, T. V.;Chen, P.;Tung, L. -C.;Kim, Y.;Smirnov, D.;Singleton, J.;Miller, Joel. S.;Musfeldt, J. L.;Magnetoelastic coupling in [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] molecule-based;magnet;PHYSICAL REVIEW B;86;21;214411;10.1103/PhysRevB.86.214411;DEC 14 2012;2012;Infrared and Raman vibrational spectroscopies were employed to explore;the lattice dynamics of [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] through the;field- and temperature-driven magnetic transitions. The high field work;reveals systematic changes in the C equivalent to N stretching mode and;Cr-containing phonons as the system is driven away from the;antiferromagnetic state. The magnetic intersublattice coalescence;transition at B-c similar or equal to 0.08 T, on the contrary, is purely;magnetic and takes place with no lattice involvement. The variable;temperature spectroscopy affirms overall [Cr(CN)(6)](3-) flexibility;along with stronger intermolecular interactions at low temperature.;Based on a displacement pattern analysis, we discuss the local lattice;distortions in terms of an adaptable chromium environment. These;findings provide deeper understanding of spin-lattice coupling in;[Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] and may be useful in the development of;technologically important molecule-based magnets. DOI:;10.1103/PhysRevB.86.214411;4;2;0;0;4;1098-0121;WOS:000312364100003;;;J;Chan, Tzu-Liang;Capacitance of metallic and semiconducting nanowires examined by;first-principles calculations;PHYSICAL REVIEW B;86;24;245414;10.1103/PhysRevB.86.245414;DEC 14 2012;2012;The capacitance of Al < 110 > and P-doped Si < 110 > nanowires a few;nanometers in diameter are examined by first-principles calculations.;During charging, the metallic nanowire expels the charge to its surface,;and its capacitance stays relatively constant. For the semiconducting;nanowire, depletion of conduction electrons can lead to an increase in;the work function, which results in a drop in the capacitance when;charged beyond a threshold. This study is made possible by developing a;formalism for total energy calculations of charged periodic systems with;a specific electrostatic boundary condition. DOI:;10.1103/PhysRevB.86.245414;1;0;0;0;1;1098-0121;WOS:000312365400006;;;J;Dias, R. G.;del Rio, Lidia;Goltsev, A. V.;Interplay between potential and spin-flip scattering in systems with;depleted density of states;PHYSICAL REVIEW B;86;23;235120;10.1103/PhysRevB.86.235120;DEC 14 2012;2012;We study the behavior of a magnetic impurity in systems with a depleted;density of states by use of the spin-1/2 single-impurity Anderson model;and the equation of motion approach. We calculate the impurity spectral;function and study the role of potential and spin-flip scattering. We;show that in these systems, if the hybridization is larger than a;critical value, a narrow virtual bound resonance emerges. The resonance;peak appears much below the Fermi energy and is dominated by the;contribution of potential scattering of conduction electrons by the;magnetic impurity while spin-flip scattering only gives a nonsingular;temperature-dependent contribution to this peak. These results are in;contrast to behavior of impurities in normal metals where it is;spin-flip scattering that is responsible for the Kondo peak near the;Fermi level while potential scattering gives a nonsignificant;renormalization of the exchange coupling. We also show that the virtual;bound resonance leads to a strong renormalization of the effective;exchange coupling between conduction and impurity spins. The narrow;virtual bound resonance can be observed in graphene with magnetic;impurities where its spectral weight and position is strongly influenced;by the van Hove singularity. DOI: 10.1103/PhysRevB.86.235120;Universidade Aveiro, Departamento Fisica/E-4128-2013; Dias, Ricardo/J-6007-2013;Dias, Ricardo/0000-0002-5128-5531;0;0;0;0;0;1098-0121;WOS:000312365100001;;;J;Ganeshan, Sriram;Abanov, Alexander G.;Averin, Dmitri V.;Fractional quantum Hall interferometers in a strong tunneling regime:;The role of compactness in edge fields;PHYSICAL REVIEW B;86;23;235309;10.1103/PhysRevB.86.235309;DEC 14 2012;2012;We consider multiple-point tunneling in the interferometers formed;between edges of electron liquids with, in general, different filling;factors in the regime of the fractional quantum Hall effect (FQHE). We;derive an effective matrix Caldeira-Leggett model for the multiple;tunneling contacts connecting the chiral single-mode FQHE edges. It is;shown that the compactness of the Wen-Frohlich chiral boson fields;describing the FQHE edge modes plays a crucial role in eliminating the;spurious nonlocality of the electron transport properties of the FQHE;interferometers arising in the regime of strong tunneling. DOI:;10.1103/PhysRevB.86.235309;0;0;0;0;0;1098-0121;WOS:000312365100004;;;J;Giannazzo, F.;Deretzis, I.;La Magna, A.;Roccaforte, F.;Yakimova, R.;Electronic transport at monolayer-bilayer junctions in epitaxial;graphene on SiC;PHYSICAL REVIEW B;86;23;235422;10.1103/PhysRevB.86.235422;DEC 14 2012;2012;Two-dimensional maps of the electronic conductance in epitaxial graphene;grown on SiC were obtained by calibrated conductive atomic force;microscopy. The correlation between morphological and electrical maps;revealed the local conductance degradation in epitaxial graphene over;the SiC substrate steps or at the junction between monolayer (1L) and;bilayer (2L) graphene regions. The effect of steps strongly depends on;the charge transfer phenomena between the step sidewall and graphene,;whereas the resistance increase at the 1L/2L junction is a purely;quantum-mechanical effect independent on the interaction with the;substrate. First-principles transport calculations indicate that the;weak wave-function coupling between the 1L pi/pi* bands with the;respective first bands of the 2L region gives rise to a strong;suppression of the conductance for energies within +/- 0.48 eV from the;Dirac point. Conductance degradation at 1L/2L junctions is therefore a;general issue for large area graphene with a certain fraction of;inhomogeneities in the layer number, including graphene grown by;chemical vapor deposition on metals. DOI: 10.1103/PhysRevB.86.235422;Materials, Semiconductor/I-6323-2013;11;0;0;0;11;1098-0121;WOS:000312365100005;;;J;Hintzsche, L. E.;Fang, C. M.;Watts, T.;Marsman, M.;Jordan, G.;Lamers, M. W. P. E.;Weeber, A. W.;Kresse, G.;Density functional theory study of the structural and electronic;properties of amorphous silicon nitrides: Si3N4-x:H;PHYSICAL REVIEW B;86;23;235204;10.1103/PhysRevB.86.235204;DEC 14 2012;2012;We present ab initio density functional theory studies for;stoichiometric as well as nonstoichiometric amorphous silicon nitride,;varying the stoichiometry between Si3N4.5 and Si3N3. Stoichiometric;amorphous Si3N4 possesses the same local structure as crystalline Si3N4,;with Si being fourfold coordinated and N being threefold coordinated.;Only few Si-Si and N-N bonds and other defects are found in;stoichiometric silicon nitride, and the electronic properties are very;similar to the crystalline bulk. In over-stoichiometric Si3N4+x, the;additional N results in N-N bonds, whereas in under-stoichiometric;Si3N4-x the number of homopolar Si-Si bonds increases with decreasing N;content. Analysis of the structure factor and the local coordination of;the Si atoms indicates a slight tendency towards Si clustering, although;at the investigated stoichiometries, phase separation is not observed.;In the electronic properties, the conduction-band minimum is dominated;by Si states, whereas the valence-band maximum is made up by lone pair N;states. Towards Si rich samples, the character of the valence-band;maximum becomes dominated by Si states corresponding to Si-Si bonding;linear combinations. Adding small amounts of hydrogen, as typically used;in passivating layers of photovoltaic devices, has essentially no impact;on the overall structural and electronic properties. DOI:;10.1103/PhysRevB.86.235204;Fang, Chang Ming/E-9213-2013;3;0;0;0;3;1098-0121;WOS:000312365100002;;;J;Joung, Daeha;Khondaker, Saiful I.;Efros-Shklovskii variable-range hopping in reduced graphene oxide sheets;of varying carbon sp(2) fraction;PHYSICAL REVIEW B;86;23;235423;10.1103/PhysRevB.86.235423;DEC 14 2012;2012;We investigate the low-temperature electron transport properties of;chemically reduced graphene oxide (RGO) sheets with different carbon;sp(2) fractions of 55% to 80%. We show that in the low-bias (Ohmic);regime, the temperature (T) dependent resistance (R) of all the devices;follow Efros-Shklovskii variable range hopping (ES-VRH) R similar to;exp[(T-ES/T)(1/2)] with T-ES decreasing from 3.1 x 10(4) to 0.42 x 10(4);K and electron localization length increasing from 0.46 to 3.21 nm with;increasing sp(2) fraction. From our data, we predict that for the;temperature range used in our study, Mott-VRH may not be observed even;at 100% sp(2) fraction samples due to residual topological defects and;structural disorders. From the localization length, we calculate a;band-gap variation of our RGO from 1.43 to 0.21 eV with increasing sp(2);fraction from 55 to 80%, which agrees remarkably well with theoretical;predictions. We also show that, in the high bias non-Ohmic regime at low;temperature, the hopping is field driven and the data follow R similar;to exp[(E0/E)(1/2)] providing further evidence of ES-VRH. DOI:;10.1103/PhysRevB.86.235423;14;0;0;0;14;1098-0121;WOS:000312365100006;;;J;Kim, Se-Heon;Homyk, Andrew;Walavalkar, Sameer;Scherer, Axel;High-Q impurity photon states bounded by a photonic band pseudogap in an;optically thick photonic crystal slab;PHYSICAL REVIEW B;86;24;245114;10.1103/PhysRevB.86.245114;DEC 14 2012;2012;We show that, taking a two-dimensional photonic crystal slab system as;an example, surprisingly high quality factors (Q) over 10(5) are;achievable, even in the absence of a rigorous photonic band gap. We find;that the density of in-plane Bloch modes can be controlled by creating;additional photon feedback from a finite-size photonic-crystal boundary;that serves as a low-Q resonator. This mechanism enables significant;reduction in the coupling strength between the bound state and the;extended Bloch modes by more than a factor of 40. DOI:;10.1103/PhysRevB.86.245114;Walavalkar, Sameer/B-3196-2013; Kim, Se-Heon/C-5498-2008;Walavalkar, Sameer/0000-0002-7628-9600;;2;0;0;0;2;1098-0121;WOS:000312365400001;;;J;Kravets, A. F.;Timoshevskii, A. N.;Yanchitsky, B. Z.;Bergmann, M. A.;Buhler, J.;Andersson, S.;Korenivski, V.;Temperature-controlled interlayer exchange coupling in strong/weak;ferromagnetic multilayers: A thermomagnetic Curie switch;PHYSICAL REVIEW B;86;21;214413;10.1103/PhysRevB.86.214413;DEC 14 2012;2012;We investigate interlayer exchange coupling based on driving a;strong/weak/strong ferromagnetic trilayer through the Curie point of the;weakly ferromagnetic spacer, with exchange coupling between the strongly;ferromagnetic outer layers that can be switched on and off, or varied;continuously in magnitude by controlling the temperature of the;material. We use Ni-Cu alloys of varied composition as the spacer;material and model the effects of proximity-induced magnetism and the;interlayer exchange coupling through the spacer from first principles,;taking into account not only thermal spin disorder but also the;dependence of the atomic moment of Ni on the nearest-neighbor;concentration of the nonmagnetic Cu. We propose and demonstrate a;gradient-composition spacer, with a lower Ni concentration at the;interfaces, for greatly improved effective-exchange uniformity and;significantly improved thermomagnetic switching in the structure. The;reported multilayer materials can form the base for a variety of;magnetic devices, such as sensors, oscillators, and memory elements;based on thermomagnetic Curie switching. DOI: 10.1103/PhysRevB.86.214413;Korenivski, Vladislav/N-7355-2014;Korenivski, Vladislav/0000-0003-2339-1692;4;0;0;0;4;1098-0121;WOS:000312364100005;;;J;Little, C. E.;Anufriev, R.;Iorsh, I.;Kaliteevski, M. A.;Abram, R. A.;Brand, S.;Tamm plasmon polaritons in multilayered cylindrical structures;PHYSICAL REVIEW B;86;23;235425;10.1103/PhysRevB.86.235425;DEC 14 2012;2012;It is shown that cylindrical Bragg reflector structures with either a;metal core, a metal cladding, or both can support Tamm plasmon;polaritons (TPPs) that can propagate axially along the interface between;the metallic layer and the adjacent dielectric. A transfer matrix;formalism for cylindrical multilayered structures is used in association;with cavity phase matching considerations to design structures that;support Tamm plasmon polaritons at specified frequencies, and to explore;the field distributions and the dispersion relations of the excitations.;The cylindrical TPPs can exist in both the TE and TM polarizations for;the special cases of modes with either azimuthal isotropy or zero axial;propagation constant and also as hybrid cylindrical modes when neither;of those conditions applies. In the cases considered the TPPs have low;effective masses and low group velocities. Also, when there is both;metallic core and cladding, near degenerate modes localized at each;metallic interface can couple to produce symmetric and antisymmetric;combinations whose frequency difference is in the terahertz regime. DOI:;10.1103/PhysRevB.86.235425;Brand, Stuart/A-1658-2009;Brand, Stuart/0000-0002-1757-5017;3;0;0;0;3;1098-0121;WOS:000312365100008;;;J;Machida, Manabu;Iitaka, Toshiaki;Miyashita, Seiji;ESR intensity and the Dzyaloshinsky-Moriya interaction of the nanoscale;molecular magnet V-15;PHYSICAL REVIEW B;86;22;224412;10.1103/PhysRevB.86.224412;DEC 14 2012;2012;The intensity of electron spin resonance (ESR) of the nanoscale;molecular magnet V-15 is studied. We calculate the temperature;dependence of the intensity at temperatures from high to low. In;particular, we find that the low-temperature ESR intensity is;significantly affected by the Dzyaloshinsky-Moriya interaction. DOI:;10.1103/PhysRevB.86.224412;1;0;0;0;1;1098-0121;WOS:000312364500003;;;J;Meinert, Markus;Friedrich, Christoph;Reiss, Guenter;Bluegel, Stefan;GW study of the half-metallic Heusler compounds Co2MnSi and Co2FeSi;PHYSICAL REVIEW B;86;24;245115;10.1103/PhysRevB.86.245115;DEC 14 2012;2012;Quasiparticle spectra of potentially half-metallic Co2MnSi and Co2FeSi;Heusler compounds have been calculated within the one-shot GW;approximation in an all-electron framework without adjustable;parameters. For Co2FeSi the many-body corrections are crucial: a;pseudogap opens and good agreement of the magnetic moment with;experiment is obtained. Otherwise, however, the changes with respect to;the density-functional-theory starting point are moderate. For both;cases we find that photoemission and x-ray absorption spectra are well;described by the calculations. By comparison with the GW density of;states, we conclude that the Kohn-Sham eigenvalue spectrum provides a;reasonable approximation for the quasiparticle spectrum of the Heusler;compounds considered in this work. DOI: 10.1103/PhysRevB.86.245115;Reiss, Gunter/A-3423-2010; Meinert, Markus/E-8794-2011; Blugel, Stefan/J-8323-2013; Friedrich, Christoph/L-5029-2013;Reiss, Gunter/0000-0002-0918-5940; Blugel, Stefan/0000-0001-9987-4733;;Friedrich, Christoph/0000-0002-3315-7536;7;1;0;0;7;1098-0121;WOS:000312365400002;;;J;Misiorny, Maciej;Weymann, Ireneusz;Barnas, Jozef;Underscreened Kondo effect in S=1 magnetic quantum dots: Exchange,;anisotropy, and temperature effects;PHYSICAL REVIEW B;86;24;245415;10.1103/PhysRevB.86.245415;DEC 14 2012;2012;We present a theoretical analysis of the effects of uniaxial magnetic;anisotropy and contact-induced exchange field on the underscreened Kondo;effect in S = 1 magnetic quantum dots coupled to ferromagnetic leads.;First, by using the second-order perturbation theory we show that the;coupling to spin-polarized electrode results in an effective exchange;field B-eff and an effective magnetic anisotropy D-eff. Second, we;confirm these findings by using the numerical renormalization group;method, which is employed to study the dependence of the quantum-dot;spectral functions, as well as quantum-dot spin, on various parameters;of the system. We show that the underscreened Kondo effect is generally;suppressed due to the presence of effective exchange field and can be;restored by tuning the anisotropy constant, when vertical bar D-eff;vertical bar = |B-eff vertical bar. The Kondo effect can also be;restored by sweeping an external magnetic field, and the restoration;occurs twice in a single sweep. From the distance between the restored;Kondo resonances one can extract the information about both the exchange;field and the effective anisotropy. Finally, we calculate the;temperature dependence of linear conductance for the parameters where;the Kondo effect is restored and show that the restored Kondo resonances;display a universal scaling of S = 1/2 Kondo effect. DOI:;10.1103/PhysRevB.86.245415;3;0;0;0;3;1098-0121;WOS:000312365400007;;;J;Monette, Gabriel;Nateghi, Nima;Masut, Remo A.;Francoeur, Sebastien;Menard, David;Plasmonic enhancement of the magneto-optical response of MnP;nanoclusters embedded in GaP epilayers;PHYSICAL REVIEW B;86;24;245312;10.1103/PhysRevB.86.245312;DEC 14 2012;2012;We report on the magneto-optical activity of MnP nanoclusters embedded;in GaP epilayers and MnP thin film as a function of temperature,;magnetic field, and wavelength in the near infrared and visible. The;measured Faraday rotation originates from the ferromagnetic;magnetization of the metallic MnP phase and exhibits a hysteretic;behavior as a function of an externally applied magnetic field closely;matching that of the magnetization. The Faraday rotation spectrum of MnP;shows a magnetoplasmonic resonance whose energy depends on the MnP;filling factor and surrounding matrix permittivity. At resonance, the;measured rotary power for the epilayer systems increases by a factor of;2 compared to that of the MnP film in terms of degrees of rotation per;MnP thickness for an applied magnetic field of 410 mT. We propose an;effective medium model, which qualitatively reproduces the Faraday;rotation and the magnetocircular dichroism spectra, quantitatively;determines the spectral shift induced by variations in the MnP volume;fraction, and demonstrates the influence of the shape and orientation;distributions of ellipsoidal MnP nanoclusters on the magneto-optical;activity and absorption spectra. DOI: 10.1103/PhysRevB.86.245312;Menard, David/A-6862-2010; Francoeur, Sebastien/E-6614-2011; Masut, Remo/I-3727-2014;Menard, David/0000-0003-2207-3422;;2;0;0;0;2;1098-0121;WOS:000312365400003;;;J;Morgan, Steven W.;Oganesyan, Vadim;Boutis, Gregory S.;Multispin correlations and pseudothermalization of the transient density;matrix in solid-state NMR: Free induction decay and magic echo;PHYSICAL REVIEW B;86;21;214410;10.1103/PhysRevB.86.214410;DEC 14 2012;2012;Quantum unitary evolution typically leads to thermalization of generic;interacting many-body systems. There are very few known general methods;for reversing this process, and we focus on the magic echo, a;radio-frequency pulse sequence known to approximately "rewind" the time;evolution of dipolar coupled homonuclear spin systems in a large;magnetic field. By combining analytic, numerical, and experimental;results, we systematically investigate factors leading to the;degradation of magic echoes, as observed in reduced revival of mean;transverse magnetization. Going beyond the conventional analysis based;on mean magnetization, we use a phase-encoding technique to measure the;growth of spin correlations in the density matrix at different points in;time following magic echoes of varied durations and compare the results;to those obtained during a free induction decay. While considerable;differences are documented at short times, the long-time behavior of the;density matrix appears to be remarkably universal among the types of;initial states considered: simple low-order multispin correlations are;observed to decay exponentially at the same rate, seeding the onset of;increasingly complex high-order correlations. This manifestly athermal;process is constrained by conservation of the second moment of the;spectrum of the density matrix and proceeds indefinitely, assuming;unitary dynamics. DOI: 10.1103/PhysRevB.86.214410;3;0;0;0;3;1098-0121;WOS:000312364100002;;;J;Sung, N. H.;Roh, C. J.;Kim, K. S.;Cho, B. K.;Possible multigap superconductivity and magnetism in single crystals of;superconducting La2Pt3Ge5 and Pr2Pt3Ge5;PHYSICAL REVIEW B;86;22;224507;10.1103/PhysRevB.86.224507;DEC 14 2012;2012;We herein describe our investigation of the superconducting and magnetic;properties of the rare-earth ternary germanide intermetallic compounds;La2Pt3Ge5 and Pr2Pt3Ge5. Single crystals of La2Pt3Ge5 and Pr2Pt3Ge5 were;synthesized using the high-temperature metal flux method. Both types of;crystal formed in a U2Co3Si5-type orthorhombic structure (space group;Ibam). La2Pt3Ge5 showed the onset of superconducting phase transition at;T-c = 8.1 K, which, to the best of our knowledge, is the highest Tc of;all the R2M3X5 (R = rare-earth elements, M = transition metal, and X =;s-p metal) superconductors, and from the specific heat data, it was;found to have multigap superconductivity. Pr2Pt3Ge5 showed both a;superconducting phase transition at T-c = 7.8 K and two;antiferromagnetic transitions at T-N1 = 3.5 K and T-N2 = 4.2 K, which;indicates the coexistence of superconductivity and magnetism. However,;the correlation between the superconductivity and the magnetism was too;weak to be observed. In its normal state, Pr2Pt3Ge5 revealed strong;magnetic anisotropy, probably due to the crystalline electric field;effect. DOI: 10.1103/PhysRevB.86.224507;1;0;0;0;1;1098-0121;WOS:000312364500004;;;J;Suzuki, Takafumi;Sato, Masahiro;Gapless edge states and their stability in two-dimensional quantum;magnets;PHYSICAL REVIEW B;86;22;224411;10.1103/PhysRevB.86.224411;DEC 14 2012;2012;We study the nature of edge states in extrinsically and spontaneously;dimerized states of two-dimensional spin-1/2 antiferromagnets, by;performing quantum Monte Carlo simulation. We show that a gapless edge;mode emerges in the wide region of the dimerized phases, and the;critical exponent of spin correlators along the edge deviates from the;value of Tomonaga-Luttinger liquid (TLL) universality in large but;finite systems at low temperatures. We also demonstrate that the gapless;nature at edges is stable against several perturbations such as external;magnetic field, easy-plane XXZ anisotropy, Dzyaloshinskii-Moriya;interaction, and further-neighbor exchange interactions. The edge states;exhibit non-TLL behavior, depending strongly on model parameters and;kinds of perturbations. Possible ways of detecting these edge states are;discussed. Properties of edge states we show in this paper could also be;used as reference points to study other edge states of more exotic;gapped magnetic phases such as spin liquids. DOI:;10.1103/PhysRevB.86.224411;0;0;0;0;0;1098-0121;WOS:000312364500002;;;J;Tian, H. Y.;Chan, K. S.;Wang, J.;Efficient spin injection in graphene using electron optics;PHYSICAL REVIEW B;86;24;245413;10.1103/PhysRevB.86.245413;DEC 14 2012;2012;We investigate theoretically spin injection efficiency from the;ferromagnetic graphene to normal graphene (FG/NG) based on electron;optics, where the magnetization in the FG is assumed from the magnetic;proximity effect. Based on a graphene lattice model, we demonstrated;that one spin-species electron flow from a point source could be nearly;suppressed through the FG-NG interface, when the total internal;reflection effect occurs with the help of an additional barrier masking;the Klein tunneling, while the opposite spin-species electron flow could;even be collimated due to the negative refraction under suitable;parameters. Not only at the focusing point is the efficient spin;injection achieved, but in the whole NG region the spin injection;efficiency can also be maintained at a high level. It is also shown that;the nonideal FG-NG interface could reduce the spin injection efficiency;since the electron optics phenomena are weakened owing to the;interfacial backscattering. Our findings may shed light on making;graphene-based spin devices in the spintronics field. DOI:;10.1103/PhysRevB.86.245413;3;0;2;0;3;1098-0121;WOS:000312365400005;;;J;Vasko, F. T.;Mitin, V. V.;Ryzhii, V.;Otsuji, T.;Interplay of intra- and interband absorption in a disordered graphene;PHYSICAL REVIEW B;86;23;235424;10.1103/PhysRevB.86.235424;DEC 14 2012;2012;The absorption of heavily doped graphene in the terahertz and;midinfrared spectral regions is considered, taking into account both the;elastic scattering due to finite-range disorder and the variations of;concentration due to long-range disorder. The interplay between intra-;and interband transitions is analyzed for the high-frequency regime of;response, near the Pauli blocking threshold. The gate voltage and;temperature dependencies of the absorption efficiency are calculated. It;is demonstrated that for typical parameters, the smearing of the;interband absorption edge is determined by a partly screened;contribution to long-range disorder while the intraband absorption is;determined by finite-range scattering. The latter yields the spectral;dependencies which deviate from those following from the Drude formula.;The obtained dependencies are in agreement with recent experimental;results. The comparison of the results of our calculations with the;experimental data provides a possibility to extract the disorder;characteristics. DOI: 10.1103/PhysRevB.86.235424;10;0;0;0;10;1098-0121;WOS:000312365100007;;;J;Violante, C.;Conte, A. Mosca;Bechstedt, F.;Pulci, O.;Geometric, electronic, and optical properties of the Si(111)2x1 surface:;Positive and negative buckling;PHYSICAL REVIEW B;86;24;245313;10.1103/PhysRevB.86.245313;DEC 14 2012;2012;The Si(111)2x1 is among the most investigated surfaces. Nonetheless,;several issues are still not understood. Its reconstruction is well;explained in terms of the Pandey model with a slight buckling (tilting);of the topmost atoms; two different isomers of the surface,;conventionally named positive and negative buckling, exist. Usually,;scanning tunneling microscopy (STM) experiments identify the positive;buckling isomer as the stable reconstruction at room temperature.;However, at low temperatures and for high n doping of the substrate,;recent scanning tunneling spectroscopy (STS) measurements found the;coexistence of positive and negative buckling on the Si(111) 2x1;surface. In this work, state-of-the-art ab initio methods, based on;density functional theory and on many-body perturbation theory, have;been used to obtain structural, electronic, and optical properties of;Si(111) 2x1 positive and negative buckling. The theoretical reflectance;anisotropy spectra (RAS), with the inclusion of the excitonic effects,;can provide a way to deepen the understanding of the coexistence of the;isomers. DOI: 10.1103/PhysRevB.86.245313;5;0;0;0;5;1098-0121;WOS:000312365400004;;;J;Yuge, Tatsuro;Sagawa, Takahiro;Sugita, Ayumu;Hayakawa, Hisao;Geometrical pumping in quantum transport: Quantum master equation;approach;PHYSICAL REVIEW B;86;23;235308;10.1103/PhysRevB.86.235308;DEC 14 2012;2012;For an open quantum system, we investigate the pumped current induced by;a slow modulation of control parameters on the basis of the quantum;master equation and full counting statistics. We find that the average;and the cumulant generating function of the pumped quantity are;characterized by the geometrical Berry-phase-like quantities in the;parameter space, which is associated with the generator of the master;equation. From our formulation, we can discuss the geometrical pumping;under the control of the chemical potentials and temperatures of;reservoirs. We demonstrate the formulation by spinless electrons in;coupled quantum dots. We show that the geometrical pumping is prohibited;for the case of noninteracting electrons if we modulate only;temperatures and chemical potentials of reservoirs, while the;geometrical pumping occurs in the presence of an interaction between;electrons. DOI: 10.1103/PhysRevB.86.235308;5;0;0;0;5;1098-0121;WOS:000312365100003;;;J;Zhang, Yanning;Wang, Hui;Wu, Ruqian;First-principles determination of the rhombohedral magnetostriction of;Fe100-xAlx and Fe100-xGax alloys;PHYSICAL REVIEW B;86;22;224410;10.1103/PhysRevB.86.224410;DEC 14 2012;2012;Through systematic density functional calculations using the full;potential linearized augmented plane-wave (FLAPW) method, the;rhombohedral magnetostriction (lambda(111)) of Fe100-xAlx and Fe100-xGax;alloys are studied for x up to 25. Theoretical calculations;satisfactorily reproduce the main features of experimental;lambda(111)(x) curves, except for dilute alloys with x < 5. Detailed;analyses on electronic and structural properties indicate the importance;of availability and symmetry of dangling bonds for the sign change of;lambda(111) around x = 16. In addition, the impurity induced local;distortion might be a possible reason for the disagreement between;theory and experiment for lambda(111) of the bulk bcc Fe. DOI:;10.1103/PhysRevB.86.224410;ZHANG, YANNING/A-3316-2013; Wu, Ruqian/C-1395-2013;0;0;0;0;0;1098-0121;WOS:000312364500001;;;J;Al Attar, Hameed A.;Monkman, Andrew P.;Controlled energy transfer between isolated donor-acceptor molecules;intercalated in thermally self-ensemble two-dimensional hydrogen bonding;cages;PHYSICAL REVIEW B;86;23;235420;10.1103/PhysRevB.86.235420;DEC 13 2012;2012;Thermally assembled hydrogen bonding cages which are neither size nor;guest specific have been developed using a poly (vinyl alcohol) (PVA);host. A water-soluble conjugated polymer;poly(2,5-bis(3-sulfonatopropoxy)-1,4-phenylene, disodium;salt-alt-1,4-phenylene) (PPP-OPSO3) as a donor and;tris(2,2-bipyridyl)-ruthenium(II) [Ru(bpy)(3)(2+)] as an acceptor have;been isolated and trapped in such a PVA matrix network. This is a unique;system that shows negligible exciton diffusion and the donor and;acceptor predominantly interact by a direct single step excitation;transfer process (DSSET). Singlet and triplet exciton quenching have;been studied. Time-resolved fluorescence lifetime measurement at;different acceptor concentrations has enabled us to determine the;dimensionality of the energy-transfer process within the PVA scaffold.;Our results reveal that the PVA hydrogen bonding network effectively;isolates the donor-acceptor molecules in a two-dimensional layer;structure (lamella) leading to the condition where a precise control of;the energy and charge transfer is possible.;Monkman, Andy/B-1521-2013;Monkman, Andy/0000-0002-0784-8640;0;0;0;0;0;1098-0121;WOS:000312291900005;;;J;Anzenberg, Eitan;Perkinson, Joy C.;Madi, Charbel S.;Aziz, Michael J.;Ludwig, Karl F., Jr.;Nanoscale surface pattern formation kinetics on germanium irradiated by;Kr+ ions;PHYSICAL REVIEW B;86;24;10.1103/PhysRevB.86.245412;DEC 13 2012;2012;Nanoscale surface topography evolution on Ge surfaces irradiated by 1;keV Kr+ ions is examined in both directions perpendicular and parallel;to the projection of the ion beam on the surface. Grazing incidence;small angle x-ray scattering is used to measure in situ the evolution of;surface morphology via the linear dispersion relation. A transition from;smoothing (stability) to pattern-forming instability is observed at a;critical ion incidence angle of approximately 62 degrees with respect to;the surface normal. The linear theory quadratic coefficients which;determine the surface stability/instability are determined as a function;of bombardment angle. The Ge surface evolution during Kr+ irradiation is;qualitatively similar to that observed for Ar+ irradiation of Si.;However, in contrast to the case of Si under Ar+ irradiation, the;critical angle separating stability and instability for Ge under Kr+;irradiation cannot be quantitatively reproduced by the simple;Carter-Vishnyakov mass redistribution model. DOI:;10.1103/PhysRevB.86.245412;5;0;0;0;5;1098-0121;WOS:000312292600006;;;J;Arnardottir, K. B.;Kyriienko, O.;Shelykh, I. A.;Hall effect for indirect excitons in an inhomogeneous magnetic field;PHYSICAL REVIEW B;86;24;245311;10.1103/PhysRevB.86.245311;DEC 13 2012;2012;We study the effect of an inhomogeneous out-of-plane magnetic field on;the behavior of two-dimensional (2D) spatially indirect excitons. Due to;the difference of the magnetic field acting on electrons and holes, the;total Lorentz force affecting the center of mass motion of an indirect;exciton appears. Consequently, an indirect exciton acquires an effective;charge proportional to the gradient of the magnetic field. The;appearance of the Lorentz force causes the Hall effect for neutral;bosons, which can be detected by measurement of the spatially;inhomogeneous blueshift of the photoluminescence using a counterflow;experiment. DOI: 10.1103/PhysRevB.86.245311;Kyriienko, Oleksandr/M-5163-2014;Kyriienko, Oleksandr/0000-0002-6259-6570;2;0;0;0;2;1098-0121;WOS:000312292600004;;;J;Baek, S. -H.;Loew, T.;Hinkov, V.;Lin, C. T.;Keimer, B.;Buechner, B.;Grafe, H. -J.;Evidence of a critical hole concentration in underdoped YBa2Cu3Oy single;crystals revealed by Cu-63 NMR;PHYSICAL REVIEW B;86;22;220504;10.1103/PhysRevB.86.220504;DEC 13 2012;2012;We report a Cu-63 NMR investigation in detwinned YBa2Cu3Oy single;crystals, focusing on the highly underdoped regime (y = 6.35-6.6).;Measurements of both the spectra and the spin-lattice relaxation rates;of Cu-63 uncover the emergence of static order at a well-defined onset;temperature T-0 with an as yet unknown order parameter. While T-0 is;rapidly suppressed with increasing hole doping concentration p, the spin;pseudogap was identified only near and above the doping content at which;T-0 -> 0. Our data indicate the presence of a critical hole doping p(c);similar to 0.1, which may control both the static order at p < p(c) and;the spin pseudogap at p > p(c). DOI: 10.1103/PhysRevB.86.220504;Baek, Seung-Ho/F-4733-2011;Baek, Seung-Ho/0000-0002-0059-8255;6;1;0;0;6;1098-0121;WOS:000312291200001;;;J;Bieri, Samuel;Serbyn, Maksym;Senthil, T.;Lee, Patrick A.;Paired chiral spin liquid with a Fermi surface in S=1 model on the;triangular lattice;PHYSICAL REVIEW B;86;22;224409;10.1103/PhysRevB.86.224409;DEC 13 2012;2012;Motivated by recent experiments on Ba3NiSb2O9, we investigate possible;quantum spin liquid ground states for spin S = 1 Heisenberg models on;the triangular lattice. We use variational Monte Carlo techniques to;calculate the energies of microscopic spin liquid wave functions where;spin is represented by three flavors of fermionic spinon operators.;These energies are compared with the energies of various competing;three-sublattice ordered states. Our approach shows that the;antiferromagnetic Heisenberg model with biquadratic term and single-ion;anisotropy does not have a low-temperature spin liquid phase. However,;for an SU(3)-invariant model with sufficiently strong ring-exchange;terms, we find a paired chiral quantum spin liquid with a Fermi surface;of deconfined spinons that is stable against all types of ordering;patterns we considered. We discuss the physics of this exotic spin;liquid state in relation to the recent experiment and suggest new ways;to test this scenario. DOI: 10.1103/PhysRevB.86.224409;Bieri, Samuel/L-1045-2013;11;0;0;0;11;1098-0121;WOS:000312291200002;;;J;Busch, M.;Seifert, J.;Meyer, E.;Winter, H.;Evidence for longitudinal coherence in fast atom diffraction;PHYSICAL REVIEW B;86;24;241402;10.1103/PhysRevB.86.241402;DEC 13 2012;2012;Angular distributions for grazing scattering of keV H atoms from an;Al2O3(11 (2) over bar0) surface were recorded. These distributions;reveal defined diffraction patterns which can be understood in terms of;quantum scattering from well-ordered surfaces. From the observation of;so-called Laue circles, we conclude a high degree of longitudinal;coherence for fast atom diffraction at surfaces which allows one to;resolve periodicity intervals of several 100 angstrom. We demonstrate;this feature in scattering experiments from the reconstructed (12 x 4);phase of an Al2O3(11 (2) over bar0) surface obtained after annealing at;temperatures of about 2000 K. DOI: 10.1103/PhysRevB.86.241402;4;0;0;0;4;1098-0121;WOS:000312292600002;;;J;Chen, Chien-Chun;Jiang, Huaidong;Rong, Lu;Salha, Sara;Xu, Rui;Mason, Thomas G.;Miao, Jianwei;Reply to "Comment on 'Three-dimensional imaging of a phase object from a;single sample orientation using an optical laser'";PHYSICAL REVIEW B;86;22;226102;10.1103/PhysRevB.86.226102;DEC 13 2012;2012;In a technical comment to our paper [Phys. Rev. B 84, 224104 (2011)],;Wei and Liu criticized our work without providing theoretical,;numerical, or experimental evidence. Furthermore, we believe they;misinterpreted our matrix rank analysis of ankylography and their;statements about our experiment are inaccurate. Below is our detailed;point-by-point response to their criticisms. DOI:;10.1103/PhysRevB.86.226102;Rong, Lu/L-6195-2014;Rong, Lu/0000-0003-4614-6411;0;0;0;0;0;1098-0121;WOS:000312291200004;;;J;Dubail, J.;Read, N.;Rezayi, E. H.;Edge-state inner products and real-space entanglement spectrum of trial;quantum Hall states;PHYSICAL REVIEW B;86;24;245310;10.1103/PhysRevB.86.245310;DEC 13 2012;2012;We consider the trial wave functions for the fractional quantum Hall;effect that are given by conformal blocks, and construct their;associated edge excited states in full generality. The inner products;between these edge states are computed in the thermodynamic limit,;assuming generalized screening (i.e., short-range correlations only);inside the quantum Hall droplet and using the language of boundary;conformal field theory (boundary CFT). These inner products take;universal values in this limit: they are equal to the corresponding;inner products in the bulk two-dimensional chiral CFT which underlies;the trial wave function. This is a bulk/edge correspondence; it shows;the equality between equal-time correlators along the edge and the;correlators of the bulk CFT up to a Wick rotation. This approach is then;used to analyze the entanglement spectrum of the ground state obtained;with a bipartition A boolean OR B in real space. Starting from our;universal result for inner products in the thermodynamic limit, we;tackle corrections to scaling using standard field-theoretic and;renormalization- group arguments. We prove that generalized screening;implies that the entanglement Hamiltonian H-E = -ln rho(A) is;isospectral to an operator that is local along the cut between A and B.;We also show that a similar analysis can be carried out for particle;partition. We discuss the close analogy between the formalism of trial;wave functions given by conformal blocks and tensor product states, for;which results analogous to ours have appeared recently. Finally, the;edge theory and entanglement spectrum of p(x) +/- ip(y) paired;superfluids are treated in a similar fashion in the Appendixes. DOI:;10.1103/PhysRevB.86.245310;Read, Nicholas/J-6030-2012;14;0;0;0;14;1098-0121;WOS:000312292600003;;;J;He, Jiangang;Franchini, Cesare;Screened hybrid functional applied to 3d(0)-> 3d(8) transition-metal;perovskites LaMO3 (M = Sc-Cu): Influence of the exchange mixing;parameter on the structural, electronic, and magnetic properties;PHYSICAL REVIEW B;86;23;235117;10.1103/PhysRevB.86.235117;DEC 13 2012;2012;We assess the performance of the Heyd-Scuseria-Ernzerhof (HSE) screened;hybrid density functional scheme applied to the perovskite family LaMO3;(M = Sc-Cu) and discuss the role of the mixing parameter alpha [which;determines the fraction of exact Hartree-Fock exchange included in the;density functional theory (DFT) exchange-correlation functional] on the;structural, electronic, and magnetic properties. The physical complexity;of this class of compounds, manifested by the largely varying electronic;characters (band/Mott-Hubbard/charge-transfer insulators and metals),;magnetic orderings, structural distortions (cooperative Jahn-Teller-type;instabilities), as well as by the strong competition between;localization/delocalization effects associated with the gradual filling;of the t(2g) and e(g) orbitals, symbolize a critical and challenging;case for theory. Our results indicate that HSE is able to provide a;consistent picture of the complex physical scenario encountered across;the LaMO3 series and significantly improve the standard DFT description.;The only exceptions are the correlated paramagnetic metals LaNiO3 and;LaCuO3, which are found to be treated better within DFT. By fitting the;ground-state properties with respect to alpha, we have constructed a set;of "optimum" values of alpha from LaScO3 to LaCuO3: it is found that the;optimum mixing parameter decreases with increasing filling of the d;manifold (LaScO3: 0.25; LaTiO3 and LaVO3: 0.10-0.15; LaCrO3, LaMnO3, and;LaFeO3: 0.15; LaCoO3: 0.05; LaNiO3 and LaCuO3: 0). This trend can be;nicely correlated with the modulation of the screening and dielectric;properties across the LaMO3 series, thus providing a physical;justification to the empirical fitting procedure. Finally, we show that;by using this set of optimum mixing parameter, HSE predict dielectric;constants in very good agreement with the experimental ones.;17;1;1;0;17;1098-0121;WOS:000312291900002;;;J;Imura, Ken-Ichiro;Yoshimura, Yukinori;Takane, Yositake;Fukui, Takahiro;Spherical topological insulator;PHYSICAL REVIEW B;86;23;235119;10.1103/PhysRevB.86.235119;DEC 13 2012;2012;The electronic spectrum on the spherical surface of a topological;insulator reflects an active property of the helical surface state that;stems from a constraint on its spin on a curved surface. The induced;spin connection can be interpreted as an effective vector potential;associated with a fictitious magnetic monopole induced at the center of;the sphere. The strength of the induced magnetic monopole is found to be;g = +/-2 pi, being the smallest finite (absolute) value compatible with;the Dirac quantization condition. We have established an explicit;correspondence between the bulk Hamiltonian and the effective Dirac;operator on the curved spherical surface. An explicit construction of;the surface spinor wave functions implies a rich spin texture possibly;realized on the surface of topological insulator nanoparticles. The;electronic spectrum inferred by the obtained effective surface Dirac;theory, confirmed also by the bulk tight-binding calculation, suggests a;specific photoabsorption/emission spectrum of such nanoparticles.;Imura, Ken/D-6633-2013;6;0;0;0;6;1098-0121;WOS:000312291900004;;;J;Kamburov, D.;Shayegan, M.;Winkler, R.;Pfeiffer, L. N.;West, K. W.;Baldwin, K. W.;Anisotropic Fermi contour of (001) GaAs holes in parallel magnetic;fields;PHYSICAL REVIEW B;86;24;241302;10.1103/PhysRevB.86.241302;DEC 13 2012;2012;We report a severe, spin-dependent, Fermi contour anisotropy induced by;parallel magnetic field in a high-mobility (001) GaAs two-dimensional;hole system. Employing commensurability oscillations created by a;unidirectional, surface-strain-induced, periodic potential modulation,;we directly probe the anisotropy of the two spin subband Fermi contours.;Their areas are obtained from the Fourier transform of the Shubnikov-de;Haas oscillations. Our findings are in semiquantitative agreement with;the results of parameter-free calculations of the energy bands. DOI:;10.1103/PhysRevB.86.241302;5;0;0;0;5;1098-0121;WOS:000312292600001;;;J;Kourtis, Stefanos;Venderbos, Joern W. F.;Daghofer, Maria;Fractional Chern insulator on a triangular lattice of strongly;correlated t(2g) electrons;PHYSICAL REVIEW B;86;23;235118;10.1103/PhysRevB.86.235118;DEC 13 2012;2012;We discuss the low-energy limit of three-orbital Kondo-lattice and;Hubbard models describing t(2g) orbitals on a triangular lattice near;half-filling. We analyze how very flat single-particle bands with;nontrivial topological character, a Chern number C = +/-1, arise both in;the limit of infinite on-site interactions as well as in more realistic;regimes. Exact diagonalization is then used to investigate an effective;one-orbital spinless-fermion model at fractional fillings including;nearest-neighbor interaction V; it reveals signatures of fractional;Chern insulator (FCI) states for several filling fractions. In addition;to indications based on energies, e. g., flux insertion and fractional;statistics of quasiholes, Chern numbers are obtained. It is shown that;FCI states are robust against disorder in the underlying magnetic;texture that defines the topological character of the band. We also;investigate competition between a FCI state and a charge density wave;(CDW) and discuss the effects of particle-hole asymmetry and;Fermi-surface nesting. FCI states turn out to be rather robust and do;not require very flat bands, but can also arise when filling or an;absence of Fermi-surface nesting disfavor the competing CDW.;Nevertheless, very flat bands allow FCI states to be induced by weaker;interactions than those needed for more dispersive bands.;Daghofer, Maria/C-5762-2008;Daghofer, Maria/0000-0001-9434-8937;10;0;0;0;10;1098-0121;WOS:000312291900003;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;23;230001;10.1103/PhysRevB.86.230001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312291900001;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;21;210001;10.1103/PhysRevB.86.210001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700001;;;J;Ochoa, H.;Castro Neto, A. H.;Fal'ko, V. I.;Guinea, F.;Spin-orbit coupling assisted by flexural phonons in graphene;PHYSICAL REVIEW B;86;24;245411;10.1103/PhysRevB.86.245411;DEC 13 2012;2012;We analyze the couplings between spins and phonons in graphene. We;present a complete analysis of the possible couplings between spins and;flexural, out-of-plane, vibrations. From tight-binding models, we obtain;analytical and numerical estimates of their strength. We show that;dynamical effects, induced by quantum and thermal fluctuations,;significantly enhance the spin-orbit gap. DOI:;10.1103/PhysRevB.86.245411;Guinea, Francisco/A-7122-2008; Castro Neto, Antonio/C-8363-2014;Guinea, Francisco/0000-0001-5915-5427; Castro Neto,;Antonio/0000-0003-0613-4010;9;1;0;0;9;1098-0121;WOS:000312292600005;;;J;Suewattana, Malliga;Singh, David J.;Limpijumnong, Sukit;Crystal structure and cation off-centering in Bi(Mg1/2Ti1/2)O-3 (vol 86,;064105, 2012);PHYSICAL REVIEW B;86;21;219903;10.1103/PhysRevB.86.219903;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700002;;;J;Wei, Haiqing;Liu, Shiyuan;Comment on "Three-dimensional imaging of a phase object from a single;sample orientation using an optical laser";PHYSICAL REVIEW B;86;22;226101;10.1103/PhysRevB.86.226101;DEC 13 2012;2012;A recent article by Chen et al. [Phys. Rev. B 84, 224104 (2011)];purports a "matrix rank analysis" and an optical experiment in support;of the three-dimensional (3D) imaging technique called "ankylography.";However, the mathematical analysis does not appear to be conclusive, and;the one used in the experiment is more a 3D-supported scattering object;of actually 2D complexity than a 3D-distributed scattering object of;truly 3D complexity. Consequently, the article provides little support;to the "ankylography" technique. DOI: 10.1103/PhysRevB.86.226101;Liu, Shiyuan/H-1463-2012;Liu, Shiyuan/0000-0002-0756-1439;1;0;0;0;1;1098-0121;WOS:000312291200003;;;J;Bobes, Omar;Zhang, Kun;Hofsaess, Hans;Ion beam induced surface patterns due to mass redistribution and;curvature-dependent sputtering;PHYSICAL REVIEW B;86;23;235414;10.1103/PhysRevB.86.235414;DEC 12 2012;2012;Recently it was reported that ion-induced mass redistribution would;solely determine nano pattern formation on ion-irradiated surfaces. We;investigate the pattern formation on amorphous carbon thin films;irradiated with Xe ions of energies between 200 eV and 10 keV. Sputter;yield as well as number of displacements within the collision cascade;vary strongly as function of ion energy and allow us to investigate the;contributions of curvature-dependent erosion according to the;Bradley-Harper model as well as mass redistribution according to the;Carter-Vishnyakov model. We find parallel ripple orientations for an ion;incidence angle of 60 degrees and for all energies. A transition to;perpendicular pattern orientation or a rather flat surface occurs around;80 degrees for energies between 1 keV and 10 keV. Our results are;compared with calculations based on both models. For the calculations we;extract the shape and size of Sigmund's energy ellipsoid (parameters a,;sigma, mu), the angle-dependent sputter yield, and the mean mass;redistribution distance from the Monte Carlo simulations with program;SDTrimSP. The calculated curvature coefficients S-x and S-y describing;the height evolution of the surface show that mass redistribution is;dominant for parallel pattern formation in the whole energy regime.;Furthermore, the angle where the parallel pattern orientation starts to;disappear is related to curvature-dependent sputtering. In addition, we;investigate the case of Pt erosion with 200 eV Ne ions, where mass;redistribution vanishes. In this case, we observe perpendicular ripple;orientation in accordance with curvature-dependent sputtering and the;predictions of the Bradley-Harper model.;10;0;0;0;10;1098-0121;WOS:000312291600004;;;J;Bradlyn, Barry;Goldstein, Moshe;Read, N.;Kubo formulas for viscosity: Hall viscosity, Ward identities, and the;relation with conductivity;PHYSICAL REVIEW B;86;24;245309;10.1103/PhysRevB.86.245309;DEC 12 2012;2012;Motivated by recent work on Hall viscosity, we derive from first;principles the Kubo formulas for the stress-stress response function at;zero wave vector that can be used to define the full complex;frequency-dependent viscosity tensor, both with and without a uniform;magnetic field. The formulas in the existing literature are frequently;incomplete, incorrect, or lack a derivation; in particular, Hall;viscosity is overlooked. Our approach begins from the response to a;uniform external strain field, which is an active time-dependent;coordinate transformation in d space dimensions. These transformations;form the group GL(d, R) of invertible matrices, and the infinitesimal;generators are called strain generators. These enable us to express the;Kubo formula in different ways, related by Ward identities; some of;these make contact with the adiabatic transport approach. The importance;of retaining contact terms, analogous to the diamagnetic term in the;familiar Kubo formula for conductivity, is emphasized. For;Galilean-invariant systems, we derive a relation between the stress;response tensor and the conductivity tensor that is valid at all;frequencies and in both the presence and absence of a magnetic field. In;the presence of a magnetic field and at low frequency, this yields a;relation between the Hall viscosity, the q(2) part of the Hall;conductivity, the inverse compressibility (suitably defined), and the;diverging part of the shear viscosity (if any); this relation;generalizes a result found recently by others. We show that the correct;value of the Hall viscosity at zero frequency can be obtained (at least;in the absence of low-frequency bulk and shear viscosity) by assuming;that there is an orbital spin per particle that couples to a perturbing;electromagnetic field as a magnetization per particle. We study several;examples as checks on our formulation. We also present formulas for the;stress response that directly generalize the Berry (adiabatic) curvature;expressions for zero-frequency Hall conductivity or viscosity to the;full tensors at all frequencies. DOI: 10.1103/PhysRevB.86.245309;Read, Nicholas/J-6030-2012;21;0;0;0;21;1098-0121;WOS:000312292400010;;;J;Calvo, Hernan L.;Classen, Laura;Splettstoesser, Janine;Wegewijs, Maarten R.;Interaction-induced charge and spin pumping through a quantum dot at;finite bias;PHYSICAL REVIEW B;86;24;245308;10.1103/PhysRevB.86.245308;DEC 12 2012;2012;We investigate charge and spin transport through an adiabatically;driven, strongly interacting quantum dot weakly coupled to two metallic;contacts with finite bias voltage. Within a kinetic equation approach,;we identify coefficients of response to the time-dependent external;driving and relate these to the concepts of charge and spin emissivities;previously discussed within the time-dependent scattering matrix;approach. Expressed in terms of auxiliary vector fields, the response;coefficients allow for a straightforward analysis of recently predicted;interaction-induced pumping under periodic modulation of the gate and;bias voltage [Reckermann et al., Phys. Rev. Lett. 104, 226803 (2010)].;We perform a detailed study of this effect and the related adiabatic;Coulomb blockade spectroscopy, and, in particular, extend it to spin;pumping. Analytic formulas for the pumped charge and spin in the regimes;of small and large driving amplitude are provided for arbitrary bias. In;the absence of a magnetic field, we obtain a striking, simple relation;between the pumped charge at zero bias and at bias equal to the Coulomb;charging energy. At finite magnetic field, there is a possibility to;have interaction-induced pure spin pumping at this finite bias value,;and generally, additional features appear in the pumped charge. For;large-amplitude adiabatic driving, the magnitude of both the pumped;charge and spin at the various resonances saturates at values which are;independent of the specific shape of the pumping cycle. Each of these;values provides an independent, quantitative measure of the junction;asymmetry. DOI: 10.1103/PhysRevB.86.245308;Calvo, Hernan/D-9825-2011; Wegewijs, Maarten/A-3512-2012; Splettstoesser, Janine/B-4003-2012;Wegewijs, Maarten/0000-0002-2972-3822;;6;0;1;0;6;1098-0121;WOS:000312292400009;;;J;Drummond, David;Pryadko, Leonid P.;Shtengel, Kirill;Suppression of hyperfine dephasing by spatial exchange of double quantum;dots;PHYSICAL REVIEW B;86;24;245307;10.1103/PhysRevB.86.245307;DEC 12 2012;2012;We examine the logical qubit system of a pair of electron spins in;double quantum dots. Each electron experiences a different hyperfine;interaction with the local nuclei of the lattice, leading to a relative;phase difference, and thus decoherence. Methods such as nuclei;polarization, state narrowing, and spin-echo pulses have been proposed;to delay decoherence. Instead we propose to suppress hyperfine dephasing;by the adiabatic rotation of the dots in real space, leading to the same;average hyperfine interaction. We show that the additional effects due;to the motion in the presence of spin-orbit coupling are still smaller;than the hyperfine interaction, and result in an infidelity below 10(-4);after ten decoupling cycles. We discuss a possible experimental setup;and physical constraints for this proposal. DOI:;10.1103/PhysRevB.86.245307;0;0;0;0;0;1098-0121;WOS:000312292400008;;;J;Estienne, B.;Regnault, N.;Bernevig, B. A.;D-algebra structure of topological insulators;PHYSICAL REVIEW B;86;24;241104;10.1103/PhysRevB.86.241104;DEC 12 2012;2012;In the quantum Hall effect, the density operators at different wave;vectors generally do not commute and give rise to the Girvin-MacDonald-;Plazmann (GMP) algebra, with important consequences such as ground-state;center-of-mass degeneracy at fractional filling fraction, and;W1+infinity symmetry of the filled Landau levels. We show that the;natural generalization of the GMP algebra to higher-dimensional;topological insulators involves the concept of a D commutator. For;insulators in even-dimensional space, the D commutator is isotropic and;closes, and its structure factors are proportional to the D/2 Chern;number. In odd dimensions, the algebra is not isotropic, contains the;weak topological insulator index (layers of the topological insulator in;one fewer dimension), and does not contain the Chern-Simons theta form.;This algebraic structure paves the way towards the identification of;fractional topological insulators through the counting of their;excitations. The possible relation to D-dimensional volume-preserving;diffeomorphisms and parallel transport of extended objects is also;discussed. DOI: 10.1103/PhysRevB.86.241104;7;0;0;0;7;1098-0121;WOS:000312292400001;;;J;Gingrich, E. C.;Quarterman, P.;Wang, Yixing;Loloee, R.;Pratt, W. P., Jr.;Birge, Norman O.;Spin-triplet supercurrent in Co/Ni multilayer Josephson junctions with;perpendicular anisotropy;PHYSICAL REVIEW B;86;22;224506;10.1103/PhysRevB.86.224506;DEC 12 2012;2012;We have measured spin-triplet supercurrent in Josephson junctions of the;form S/F'/F/F'/S, where S is superconducting Nb, F' is a thin Ni layer;with in-plane magnetization, and F is a Ni/[Co/Ni](n) multilayer with;out-of-plane magnetization. The supercurrent in these junctions decays;very slowly with F-layer thickness and is much larger than in similar;junctions not containing the two F' layers. Those two features are the;characteristic signatures of spin-triplet supercurrent, which is;maximized by the orthogonality of the magnetizations in the F and F';layers. Magnetic measurements confirm the out-of-plane anisotropy of the;Co/Ni multilayers. These samples have their critical current optimized;in the as-prepared state, which will be useful for future applications.;DOI: 10.1103/PhysRevB.86.224506;7;1;0;0;7;1098-0121;WOS:000312291100001;;;J;Golub, Anatoly;Grosfeld, Eytan;Charge resistance in a Majorana RC circuit;PHYSICAL REVIEW B;86;24;241105;10.1103/PhysRevB.86.241105;DEC 12 2012;2012;We investigate the dynamical charge response in a "Majorana Coulomb box";realized by two Majorana bound states hosted at the ends of a mesoscopic;topological superconductor. One side of the wire is coupled to a normal;lead and low frequency gate voltage is applied to the system. There is;no dc current; the system can be considered as an RC quantum circuit. We;calculate the effective capacitance and charge relaxation resistance.;The latter is in agreement with the Korringa-Shiba formula where,;however, the charge relaxation resistance is equal to h/2e(2). This;value corresponds to the strong Coulomb blockade limit described by a;resonant model formulated by Fu [Phys. Rev. Lett. 104, 056402 (2010)].;We also performed direct calculations using the latter model and defined;its parameters by direct comparison with our perturbation theory;results. DOI: 10.1103/PhysRevB.86.241105;4;1;0;0;4;1098-0121;WOS:000312292400002;;;J;Guenter, T.;Rubano, A.;Paparo, D.;Lilienblum, M.;Marrucci, L.;Granozio, F. Miletto;di Uccio, U. Scotti;Jany, R.;Richter, C.;Mannhart, J.;Fiebig, M.;Spatial inhomogeneities at the LaAlO3/SrTiO3 interface: Evidence from;second harmonic generation;PHYSICAL REVIEW B;86;23;235418;10.1103/PhysRevB.86.235418;DEC 12 2012;2012;Phase-sensitive, spatially resolved optical second-harmonic-generation;experiments were performed on LaAlO3/SrTiO3 heterostructures. Lateral;inhomogeneities on a length scale of approximate to 30 mu m are found;when a one-unit-cell-thick epitaxial monolayer of LaAlO3 is grown on;TiO2-terminated SrTiO3 single crystals. The inhomogeneity is absent in;samples with LaAlO3 layers of more than one unit cell. The results are;discussed in the framework of electronic, oxidic, and chemical;inhomogeneities.;Marrucci, Lorenzo/A-4331-2012; Richter, Christoph/A-6172-2013;Marrucci, Lorenzo/0000-0002-1154-8966; Richter,;Christoph/0000-0002-6591-1118;7;0;0;0;7;1098-0121;WOS:000312291600008;;;J;Huang, Zhoushen;Arovas, Daniel P.;Entanglement spectrum and Wannier center flow of the Hofstadter problem;PHYSICAL REVIEW B;86;24;245109;10.1103/PhysRevB.86.245109;DEC 12 2012;2012;We examine the quantum entanglement spectra and Wannier functions of the;square lattice Hofstadter model. Consistent with previous work on;entanglement spectra of topological band structures, we find that the;entanglement levels exhibit a spectral flow similar to that of the full;system's energy spectrum. While the energy spectra are continuous, with;cylindrical boundary conditions the entanglement spectra exhibit;discontinuities associated with the passage of an energy edge state;through the Fermi level. We show how the entanglement spectrum can be;understood by examining the band projectors of the full system and their;behavior under adiabatic pumping. In so doing we make connections with;the original work by Thouless, Kohmoto, Nightingale, and den Nijs (TKNN);[Phys. Rev. Lett. 49, 405 (1982)] on topological two-dimensional band;structures and their Chern numbers. Finally, we consider Wannier states;and their adiabatic flows and draw connections to the entanglement;properties. DOI: 10.1103/PhysRevB.86.245109;5;0;0;0;5;1098-0121;WOS:000312292400003;;;J;Humeniuk, Stephan;Roscilde, Tommaso;Quantum Monte Carlo calculation of entanglement Renyi entropies for;generic quantum systems;PHYSICAL REVIEW B;86;23;235116;10.1103/PhysRevB.86.235116;DEC 12 2012;2012;We present a general scheme for the calculation of the Renyi entropy of;a subsystem in quantum many-body models that can be efficiently;simulated via quantum Monte Carlo. When the simulation is performed at;very low temperature, the above approach delivers the entanglement Renyi;entropy of the subsystem, and it allows us to explore the crossover to;the thermal Renyi entropy as the temperature is increased. We implement;this scheme explicitly within the stochastic series expansion as well as;within path-integral Monte Carlo, and apply it to quantum spin and;quantum rotor models. In the case of quantum spins, we show that;relevant models in two dimensions with reduced symmetry (XX model or;hard-core bosons, transverse-field Ising model at the quantum critical;point) exhibit an area law for the scaling of the entanglement entropy.;23;0;0;0;23;1098-0121;WOS:000312291600002;;;J;Jacobs, Th;Katterwe, S. O.;Motzkau, H.;Rydh, A.;Maljuk, A.;Helm, T.;Putzke, C.;Kampert, E.;Kartsovnik, M. V.;Krasnov, V. M.;Electron-tunneling measurements of low-T-c single-layer;Bi2+xSr2-yCuO6+delta: Evidence for a scaling disparity between;superconducting and pseudogap states;PHYSICAL REVIEW B;86;21;214506;10.1103/PhysRevB.86.214506;DEC 12 2012;2012;We experimentally study intrinsic tunneling and high magnetic field (up;to 65 T) transport characteristics of the single-layer cuprate;Bi2+xSr2-yCuO6+delta, with a very low superconducting critical;temperature T-c less than or similar to 4 K. It is observed that the;superconducting gap, the collective bosonic mode energy, the upper;critical field, and the fluctuation temperature range are scaling down;with T-c, while the corresponding pseudogap characteristics remain the;same as in high-T-c cuprates with 20 to 30 times higher T-c. The;observed disparity of the superconducting and pseudogap scales clearly;reveals their different origins. DOI: 10.1103/PhysRevB.86.214506;Kartsovnik, Mark/E-3598-2013; Rydh, Andreas/A-7068-2012;Kartsovnik, Mark/0000-0002-3011-0169; Rydh, Andreas/0000-0001-6641-4861;4;1;0;0;4;1098-0121;WOS:000312290600002;;;J;Klinovaja, Jelena;Ferreira, Gerson J.;Loss, Daniel;Helical states in curved bilayer graphene;PHYSICAL REVIEW B;86;23;235416;10.1103/PhysRevB.86.235416;DEC 12 2012;2012;We study spin effects of quantum wires formed in bilayer graphene by;electrostatic confinement. With a proper choice of the confinement;direction, we show that in the presence of magnetic field, spin orbit;interaction induced by curvature, and intervalley scattering, bound;states emerge that are helical. The localization length of these helical;states can be modulated by the gate voltage which enables the control of;the tunnel coupling between two parallel wires. Allowing for proximity;effect via an s-wave superconductor, we show that the helical modes give;rise to Majorana fermions in bilayer graphene.;J. Ferreira, Gerson/K-1948-2013; Klinovaja, Jelena/L-2510-2013; Loss, Daniel/A-3721-2008;J. Ferreira, Gerson/0000-0002-4933-3119; Loss,;Daniel/0000-0001-5176-3073;17;0;0;0;17;1098-0121;WOS:000312291600006;;;J;Lee, Wei-Cheng;Phillips, Philip W.;Non-Fermi liquid due to orbital fluctuations in iron pnictide;superconductors;PHYSICAL REVIEW B;86;24;245113;10.1103/PhysRevB.86.245113;DEC 12 2012;2012;We study the influence of quantum fluctuations on the electron;self-energy in the normal state of iron pnictide superconductors using a;five-orbital tight-binding model with generalized Hubbard on-site;interactions. Within a one-loop treatment, we find that an overdamped;collective mode develops at low frequency in channels associated with;quasi-one-dimensional d(xz) and d(yz) bands. When the critical point for;the C-4-symmetry-broken phase (structural phase transition) is;approached, the overdamped collective modes soften, and acquire;increased spectral weight, resulting in non-Fermi-liquid behavior at the;Fermi surface characterized by a frequency dependence of the imaginary;part of the electron self-energy of the form. omega(lambda), 0 < lambda;< 1. We argue that this non-Fermi-liquid behavior is responsible for the;recently observed zero-bias enhancement in the tunneling signal in;point-contact spectroscopy. A key experimental test of this proposal is;the absence of non-Fermi-liquid behavior in the hole-doped materials.;Our result suggests that quantum criticality plays an important role in;understanding the normal-state properties of iron pnictide;superconductors. DOI: 10.1103/PhysRevB.86.245113;11;0;0;0;11;1098-0121;WOS:000312292400007;;;J;McKenna, Keith P.;Blumberger, Jochen;Crossover from incoherent to coherent electron tunneling between defects;in MgO;PHYSICAL REVIEW B;86;24;245110;10.1103/PhysRevB.86.245110;DEC 12 2012;2012;Long-range electron tunneling is a fundamental process that is critical;to the performance of oxide materials in microelectronics, energy;generation, and photocatalysis, but extremely challenging to probe;experimentally. Here we devise a computational approach that allows one;to probe the mechanism and calculate the rate of electron transfer (ET);in such materials from first principles. Application to ET between;defects in MgO reveals that the activation energy for ET depends;strongly on defect separation, an effect not usually taken into account;in semiempirical models of ET processes in oxides. Importantly, for;distances below a critical defect separation (6 angstrom), the nature of;ET changes from incoherent to coherent tunneling, suggesting that;existing empirical models require essential modifications. These;calculations extend first-principles modeling of ET in oxides to the;regime of long-range incoherent transport, an outstanding problem;important for modeling many processes of technological relevance. DOI:;10.1103/PhysRevB.86.245110;Blumberger, Jochen/L-5949-2013; McKenna, Keith/A-5084-2010;6;1;0;0;6;1098-0121;WOS:000312292400004;;;J;Mol, L. A. S.;Pereira, A. R.;Moura-Melo, W. A.;Extending spin ice concepts to another geometry: The artificial;triangular spin ice (vol 85, 184410, 2012);PHYSICAL REVIEW B;86;21;219902;10.1103/PhysRevB.86.219902;DEC 12 2012;2012;Mol, Lucas/D-9575-2013;Mol, Lucas/0000-0002-5001-0499;0;0;0;0;0;1098-0121;WOS:000312290600003;;;J;Palotas, Krisztian;Mandi, Gabor;Szunyogh, Laszlo;Orbital-dependent electron tunneling within the atom superposition;approach: Theory and application to W(110);PHYSICAL REVIEW B;86;23;235415;10.1103/PhysRevB.86.235415;DEC 12 2012;2012;We introduce an orbital-dependent electron tunneling model and implement;it within the atom superposition approach for simulating scanning;tunneling microscopy (STM) and spectroscopy (STS). Applying our method,;we analyze the convergence and the orbital contributions to the;tunneling current and the corrugation of constant-current STM images;above the W(110) surface. In accordance with a previous study [Heinze et;al., Phys. Rev. B 58, 16432 (1998)], we find atomic contrast reversal;depending on the bias voltage. Additionally, we analyze this effect;depending on the tip-sample distance using different tip models and find;two qualitatively different behaviors based on the tip orbital;composition. As an explanation, we highlight the role of the real-space;shape of the orbitals involved in the tunneling. STM images calculated;by our model agree well with those obtained using Tersoff and Hamann's;and Bardeen's approaches. The computational efficiency of our model is;remarkable as the k-point samplings of the surface and tip Brillouin;zones do not affect the computation time, in contrast to the Bardeen;method.;Palotas, Krisztian/C-5338-2009;5;0;0;0;5;1098-0121;WOS:000312291600005;;;J;Rodrigues, J. N. B.;Peres, N. M. R.;Lopes dos Santos, J. M. B.;Scattering by linear defects in graphene: A continuum approach;PHYSICAL REVIEW B;86;21;214206;10.1103/PhysRevB.86.214206;DEC 12 2012;2012;We study the low-energy electronic transport across periodic extended;defects in graphene. In the continuum low-energy limit, such defects act;as infinitessimally thin stripes separating two regions where the Dirac;Hamiltonian governs the low-energy phenomena. The behavior of these;systems is defined by the boundary condition imposed by the defect on;the massless Dirac fermions. We demonstrate how this low-energy boundary;condition can be computed from the tight-binding model of the defect;line. For simplicity we consider defect lines oriented along the zigzag;direction, which requires the consideration of only one copy of the;Dirac equation. Three defect lines of this kind are studied and shown to;be mappable between them: the pentagon-only, the zz(558), and the;zz(5757) defect lines. In addition, in this same limit, we calculate the;conductance across such defect lines with size L and find it to be;proportional to k(F)L at low temperatures. DOI:;10.1103/PhysRevB.86.214206;6;0;0;0;6;1098-0121;WOS:000312290600001;;;J;Saloriutta, Karri;Uppstu, Andreas;Harju, Ari;Puska, Martti J.;Ab initio transport fingerprints for resonant scattering in graphene;PHYSICAL REVIEW B;86;23;235417;10.1103/PhysRevB.86.235417;DEC 12 2012;2012;We have recently shown that by using a scaling approach for randomly;distributed topological defects in graphene, reliable estimates for;transmission properties of macroscopic samples can be calculated based;even on single-defect calculations [A. Uppstu et al., Phys. Rev. B 85,;041401 (2012)]. We now extend this approach of energy-dependent;scattering cross sections to the case of adsorbates on graphene by;studying hydrogen and carbon adatoms as well as epoxide and hydroxyl;groups. We show that a qualitative understanding of resonant scattering;can be gained through density functional theory results for a;single-defect system, providing a transmission "fingerprint";characterizing each adsorbate type. This information can be used to;reliably predict the elastic mean free path for moderate defect;densities directly using ab initio methods. We present tight-binding;parameters for carbon and epoxide adsorbates, obtained to match the;density-functional theory based scattering cross sections.;Puska, Martti/E-7362-2012; Harju, Ari/C-2828-2009;Harju, Ari/0000-0002-2233-2896;4;0;0;0;4;1098-0121;WOS:000312291600007;;;J;Schuster, R.;Pyon, S.;Knupfer, M.;Azuma, M.;Takano, M.;Takagi, H.;Buechner, B.;Angle-dependent spectral weight transfer and evidence of a;symmetry-broken in-plane charge response in Ca1.9Na0.1CuO2Cl2;PHYSICAL REVIEW B;86;24;245112;10.1103/PhysRevB.86.245112;DEC 12 2012;2012;We report about the energy and momentum dependent charge response in;Ca1.9Na0.1CuO2Cl2 employing electron energy-loss spectroscopy. Along the;diagonal of the Brillouin zone (BZ) we find a plasmon peak-indicating;the presence of metallic states in this momentum region-which emerges as;a consequence of substantial spectral-weight transfer from excitations;across the charge-transfer (CT) gap and is the two-particle;manifestation of the small Fermi pocket or arc observed with;photoemission in this part of the BZ. In contrast, the spectrum along;the [100] direction is almost entirely dominated by CT excitations,;reminiscent of the insulating parent compound. We argue that the;observed polarization dependent shape of the spectrum is suggestive of a;breaking of the underlying tetragonal lattice symmetry, possibly due to;fluctuating nematic order in the charge channel. In addition we find the;plasmon bandwidth to be suppressed compared to optimally doped cuprates.;DOI: 10.1103/PhysRevB.86.245112;Takagi, Hidenori/B-2935-2010; PYON, Sunseng/B-2618-2011; Azuma, Masaki/C-2945-2009;0;0;0;0;0;1098-0121;WOS:000312292400006;;;J;Swingle, Brian;Experimental signatures of three-dimensional fractional topological;insulators;PHYSICAL REVIEW B;86;24;245111;10.1103/PhysRevB.86.245111;DEC 12 2012;2012;In this paper we explore experimental signatures of fractional;topological insulators in three dimensions. These are states of matter;with a fully gapped bulk that host exotic gapless surface states and;fractionally charged quasiparticles. They are partially characterized by;a nontrivial magneto-electric response while preserving time reversal.;We describe how these phases appear in a variety of probes including;photoemmission, tunneling, and quantum oscillations. We also discuss the;effects of doping and proximate superconductivity. We argue that despite;our current theoretical inability to predict materials where such phases;will be realized, they should be relatively easy to detect;experimentally. DOI:10.1103/PhysRevB.86.245111;0;0;0;0;0;1098-0121;WOS:000312292400005;;;J;Thomas, Mark;Romito, Alessandro;Decoherence effects on weak value measurements in double quantum dots;PHYSICAL REVIEW B;86;23;235419;10.1103/PhysRevB.86.235419;DEC 12 2012;2012;We study the effect of decoherence on a weak value measurement in a;paradigm system consisting of a double quantum dot continuously measured;by a quantum point contact. Fluctuations of the parameters controlling;the dot state induce decoherence. We find that, for measurements longer;than the decoherence time, weak values are always reduced within the;range of the eigenvalues of the measured observable. For measurements at;shorter time scales, the measured weak value strongly depends on the;interplay between the decoherence dynamics of the system and the;detector backaction. In particular, depending on the postselected state;and the strength of the decoherence, a more frequent classical readout;of the detector might lead to an enhancement of weak values.;Romito, Alessandro/L-3564-2013;Romito, Alessandro/0000-0003-3082-6279;1;0;0;0;1;1098-0121;WOS:000312291600009;;;J;Witczak-Krempa, William;Sachdev, Subir;Quasinormal modes of quantum criticality;PHYSICAL REVIEW B;86;23;235115;10.1103/PhysRevB.86.235115;DEC 12 2012;2012;We study charge transport of quantum critical points described by;conformal field theories in 2 + 1 space-time dimensions. The transport;is described by an effective field theory on an asymptotically anti-de;Sitter space-time, expanded to fourth order in spatial and temporal;gradients. The presence of a horizon at nonzero temperatures implies;that this theory has quasinormal modes with complex frequencies. The;quasinormal modes determine the poles and zeros of the conductivity in;the complex frequency plane, and so fully determine its behavior on the;real frequency axis, at frequencies both smaller and larger than the;absolute temperature. We describe the role of particle-vortex or S;duality on the conductivity, specifically how it maps poles to zeros and;vice versa. These analyses motivate two sum rules obeyed by the quantum;critical conductivity: the holographic computations are the first to;satisfy both sum rules, while earlier Boltzmann-theory computations;satisfy only one of them. Finally, we compare our results with the;analytic structure of the O(N) model in the large-N limit, and other;CFTs.;Sachdev, Subir/A-8781-2013;Sachdev, Subir/0000-0002-2432-7070;13;0;0;0;13;1098-0121;WOS:000312291600001;;;J;Zielke, Robert;Braunecker, Bernd;Loss, Daniel;Cotunneling in the v=5/2 fractional quantum Hall regime;PHYSICAL REVIEW B;86;23;235307;10.1103/PhysRevB.86.235307;DEC 12 2012;2012;We show that cotunneling in the 5/2 fractional quantum Hall regime;allows us to test the Moore-Read wave function, proposed for this;regime, and to probe the nature of the fractional charge carriers. We;calculate the cotunneling current for electrons that tunnel between two;quantum Hall edge states via a quantum dot and for quasiparticles with;fractional charges e/4 and e/2 that tunnel via an antidot. While;electron cotunneling is strongly suppressed, the quasiparticle tunneling;shows signatures characteristic of the Moore-Read state. For comparison,;we also consider cotunneling between Laughlin states, and find that;electron transport between Moore-Read states and between Laughlin states;at filling factor 1/3 have identical voltage dependences.;Loss, Daniel/A-3721-2008;Loss, Daniel/0000-0001-5176-3073;0;0;0;0;0;1098-0121;WOS:000312291600003;;;J;de Andres, P. L.;Guinea, F.;Katsnelson, M. I.;Density functional theory analysis of flexural modes, elastic constants,;and corrugations in strained graphene;PHYSICAL REVIEW B;86;24;245409;10.1103/PhysRevB.86.245409;DEC 11 2012;2012;Ab initio density functional theory has been used to analyze flexural;modes, elastic constants, and atomic corrugations on single-and bi-layer;graphene. Frequencies of flexural modes are sensitive to compressive;stress; its variation under stress can be related to the anomalous;thermal expansion via a simple model based in classical elasticity;theory [P. L. de Andres, F. Guinea, and M. I. Katsnelson, Phys. Rev. B;86, 144103 (2012)]. Under compression, flexural modes are responsible;for a long-wavelength rippling with a large amplitude and a marked;anharmonic behavior. This is compared with corrugations created by;thermal fluctuations and the adsorption of a light impurity (hydrogen).;Typical values for the later are in the sub-Angstrom regime, while;maximum corrugations associated to bending modes quickly increase up to;a few Angstroms under a compressive stress, due to the intrinsic;instability of flexural modes. DOI: 10.1103/PhysRevB.86.245409;Katsnelson, Mikhail/D-4359-2012; Guinea, Francisco/A-7122-2008; de Andres, Pedro/B-2043-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Guinea, Francisco/0000-0001-5915-5427;;8;1;0;0;8;1098-0121;WOS:000312292100004;;;J;Glaessl, M.;Axt, V. M.;Polarization dependence of phonon influences in exciton-biexciton;quantum dot systems;PHYSICAL REVIEW B;86;24;245306;10.1103/PhysRevB.86.245306;DEC 11 2012;2012;We report on a strong dependence of the phonon-induced damping of Rabi;dynamics in an optically driven exciton-biexciton quantum dot system on;the polarization of the exciting pulse. While for a fixed pulse;intensity the damping is maximal for linearly polarized excitation, it;decreases with increasing ellipticity of the polarization. This finding;is most remarkable considering that the carrier-phonon coupling is spin;independent. In addition to simulations based on a numerically exact;real-time path-integral approach, we present an analysis within a;weak-coupling theory that allows for analytical expressions for the;pertinent damping rates. We demonstrate that an efficient coupling to;the biexciton state is of central importance for the reported;polarization dependencies. Further, we discuss influences of various;system parameters and show that, for finite biexciton binding energies,;Rabi scenarios differ qualitatively from the widely studied two-level;dynamics. DOI: 10.1103/PhysRevB.86.245306;2;0;0;0;2;1098-0121;WOS:000312292100003;;;J;Ishioka, J.;Fujii, T.;Katono, K.;Ichimura, K.;Kurosawa, T.;Oda, M.;Tanda, S.;Reply to "Comment on 'Charge-parity symmetry observed through Friedel;oscillations in chiral charge-density waves' ";PHYSICAL REVIEW B;86;24;247102;10.1103/PhysRevB.86.247102;DEC 11 2012;2012;We are responding to the Comment by J. Wezel on our paper. This study;was developed from our previous work [Ishioka et al., Phys. Rev. Lett.;105, 176401 (2010)]. In the PRL paper, H-CDW was defined as a new;parameter for expressing CDW chirality for the first time. In his;Comment, he claims that H-CDW is ill defined. He also claims that the;initial phase phi of the CDW wave function is a more appropriate;parameter for expressing chiral CDW, despite our early introduction of;phi to explain the experimental data described in the PRL paper.;However, we conclude that H-CDW can distinguish the CDW chirality by its;sign. Moreover, by considering different H-CDW signs, we had succeeded;in demonstrating the difference of the spatial distributions of CDWs as;shown in Fig. 4 of the PRB paper [Phys. Rev. B 84, 245125 (2011)]. In;our Reply, we discuss the validity of H-CDW. We show that his argument;regarding the identification of the CDW with the opposite sign of q is;wrong, since the logic is inapplicable to a wave function with a nonzero;phi. We also discuss the applicability of H-CDW to two- or;three-dimensional CDWs in transition metal dichalcogenides. DOI:;10.1103/PhysRevB.86.247102;0;0;0;0;0;1098-0121;WOS:000312292100007;;;J;Kallos, Efthymios;Chremmos, Ioannis;Yannopapas, Vassilios;Resonance properties of optical all-dielectric metamaterials using;two-dimensional multipole expansion;PHYSICAL REVIEW B;86;24;245108;10.1103/PhysRevB.86.245108;DEC 11 2012;2012;We examine the electromagnetic response of metamaterial unit elements;consisting of dielectric rods embedded in a nonmagnetic background;medium. We establish a theoretical framework in which the response is;described through the electric and magnetic multipole moments that are;simultaneously generated via the polarization currents that are excited;upon the incidence of plane waves. The corresponding dipole and;quadrupole polarizabilities are then calculated as a function of the Mie;scattering coefficients, and their resonances are mapped for the case of;dielectric cylindrical rods as a function of the geometry and the;material parameters used. The results provide critical insight into the;anisotropic response of two-dimensional rod-type metamaterials and can;be used as a unified methodology in the calculation of exotic effective;electromagnetic parameters involved in phenomena such as optical;magnetism. DOI: 10.1103/PhysRevB.86.245108;5;0;0;0;5;1098-0121;WOS:000312292100001;;;J;Lim, Linda Y.;Lany, Stephan;Chang, Young Jun;Rotenberg, Eli;Zunger, Alex;Toney, Michael F.;
2:121:5 Semiconducting transition-metal oxides based on d(5) cations: Theory for MnO and Fe2O3
DOI:10.1103/PhysRevB.85.201202 JN:PHYSICAL REVIEW B PY:2012 TC:12 AU: Peng, Haowei;Lany, Stephan;
2:121:6 Polymorphic energy ordering of MgO, ZnO, GaN, and MnO within the random phase approximation
DOI:10.1103/PhysRevB.87.174113 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Peng, Haowei;Lany, Stephan;
2:121:7 Tunable Oxygen Vacancy Formation Energetics in the Complex Perovskite Oxide SrxLa1-xMnyAl1-yO3
DOI:10.1021/cm5033755 JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Deml, Ann M.;Stevanovic, Vladan;Holder, Aaron M.;Sanders, Michael;O'Hayre, Ryan;Musgrave, Charles B.;
2:121:8 Multivalency of Group 15 Dopants in SnO2
DOI:10.1021/cm502411g JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Peng, Haowei;Perkins, John D.;Lany, Stephan;
2:121:9 Concentration of Vacancies at Metal-Oxide Surfaces: Case Study of MgO(100)
DOI:10.1103/PhysRevLett.111.045502 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:12 AU: Richter, Norina A.;Sicolo, Sabrina;Levchenko, Sergey V.;Sauer, Joachim;Scheffler, Matthias;
2:121:10 Energetic stability and magnetic properties of MnO in the rocksalt, wurtzite, and zinc-blende structures: Influence of exchange and correlation
DOI:10.1103/PhysRevB.82.165109 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Schroen, A.;Roedl, C.;Bechstedt, F.;
2:121:11 Importance of the correct Fermi energy on the calculation of defect formation energies in semiconductors
DOI:10.1063/1.4745779 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: West, D.;Sun, Y. Y.;Zhang, S. B.;
2:121:12 Observation of a large gate-controlled persistent photoconduction in single crystal ZnO at room temperature
DOI:10.1063/1.3534790 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Mondal, Shahnewaz;Raychaudhuri, A. K.;
2:121:13 Enhancing photoresponse by synergy of gate and illumination in electric double layer field effect transistors fabricated on n-ZnO
DOI:10.1063/1.4838656 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Mondal, Shahnewaz;Ghimire, Rishi Ram;Raychaudhuri, A. K.;
2:121:14 New Crystal Structure: Synthesis and Characterization of Hexagonal Wurtzite MnO
DOI:10.1021/ja302440y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Nam, Ki Min;Kim, Yong-Il;Jo, Younghun;Lee, Seung Mi;Kim, Bog G.;Choi, Ran;Choi, Sang-Il;Song, Hyunjoon;Park, Joon T.;
2:121:15 Selection rule of preferred doping site for n-type oxides
DOI:10.1063/1.4731766 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Li, Chong;Li, Jingbo;Li, Shu-Shen;Xia, Jian-Bai;Wei, Su-Huai;
2:121:16 Boron-Silicon complex defects in GaAs: An ab initio study
DOI:10.1063/1.3561373 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Leitsmann, R.;Chicker, F.;Plaenitz, Ph.;Radehaus, C.;Kretzer, U.;Scheffer-Czygan, M.;Eichler, S.;
2:122:1 Temperature dependence of the charge carrier mobility in disordered organic semiconductors at large carrier concentrations
DOI:10.1103/PhysRevB.81.045202 JN:PHYSICAL REVIEW B PY:2010 TC:38 AU: Fishchuk, I. I.;Kadashchuk, A. K.;Genoe, J.;Ullah, Mujeeb;Sitter, H.;Singh, Th. B.;Sariciftci, N. S.;Baessler, H.;
2:122:2 Strain induced anisotropic effect on electron mobility in C-60 based organic field effect transistors
DOI:10.1063/1.4747451 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Nigam, Akash;Schwabegger, Guenther;Ullah, Mujeeb;Ahmed, Rizwan;Fishchuk, Ivan I.;Kadashchuk, Andrey;Simbrunner, Clemens;Sitter, Helmut;Premaratne, Malin;Rao, V. Ramgopal;
2:122:3 Electric field dependence of charge carrier hopping transport within the random energy landscape in an organic field effect transistor
DOI:10.1103/PhysRevB.86.045207 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Fishchuk, I. I.;Kadashchuk, A.;Ullah, Mujeeb;Sitter, H.;Pivrikas, A.;Genoe, J.;Baessler, H.;
2:122:4 Electric field dependent activation energy of electron transport in fullerene diodes and field effect transistors: Gill's law
DOI:10.1063/1.3557503 JN:APPLIED PHYSICS LETTERS PY:2011 TC:16 AU: Pivrikas, A.;Ullah, Mujeeb;Sitter, H.;Sariciftci, N. S.;
2:122:5 Electric Field Confinement Effect on Charge Transport in Organic Field-Effect Transistors
DOI:10.1103/PhysRevLett.108.066601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:8 AU: Li, Xiaoran;Kadashchuk, Andrey;Fishchuk, Ivan I.;Smaal, Wiljan T. T.;Gelinck, Gerwin;Broer, Dirk J.;Genoe, Jan;Heremans, Paul;Baessler, Heinz;
2:122:6 Dependence of Meyer-Neldel energy on energetic disorder in organic field effect transistors
DOI:10.1063/1.3435477 JN:APPLIED PHYSICS LETTERS PY:2010 TC:20 AU: Ullah, Mujeeb;Fishchuk, I. I.;Kadashchuk, A.;Stadler, P.;Pivrikas, A.;Simbrunner, C.;Poroshin, V. N.;Sariciftci, N. S.;Sitter, H.;
2:122:7 Effect of source-drain electric field on the Meyer-Neldel energy in organic field effect transistors
DOI:10.1063/1.3584131 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Ullah, Mujeeb;Pivrikas, A.;Fishchuk, I. I.;Kadashchuk, A.;Stadler, P.;Simbrunner, C.;Sariciftci, N. S.;Sitter, H.;
2:122:8 Air stability of C-60 based n-type OFETs
DOI:10.1016/j.synthmet.2013.12.007 JN:SYNTHETIC METALS PY:2014 TC:6 AU: Ahmed, Rizwan;Simbrunner, Clemens;Schwabegger, Guenther;Baig, M. A.;Sitter, H.;
2:122:9 The role of metal contacts in the stability of n-type organic field effect transistors
DOI:10.1007/s00339-014-8652-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Ahmed, Rizwan;Simbrunner, Clemens;Schwabegger, G.;Baig, M. A.;Sitter, H.;
2:122:10 A unified physical model of Seebeck coefficient in amorphous oxide semiconductor thin-film transistors
DOI:10.1063/1.4895046 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Lu, Nianduan;Li, Ling;Sun, Pengxiao;Banerjee, Writam;Liu, Ming;
2:122:11 Origin of Electric Field Dependence of the Charge Mobility and Spatial Energy Correlations in C60-Based Field Effect Transistors
DOI:10.1080/15421406.2013.871859 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Fishchuk, I. I.;Kadashchuk, A.;Novikov, S. V.;Ullah, Mujeeb;Genoe, J.;Sariciftci, N. S.;Sitter, H.;Baessler, H.;
2:122:12 High mobility, low voltage operating C-60 based n-type organic field effect transistors
DOI:10.1016/j.synthmet.2011.06.042 JN:SYNTHETIC METALS PY:2011 TC:19 AU: Schwabegger, G.;Ullah, Mujeeb;Irimia-Vladu, M.;Baumgartner, M.;Kanbur, Y.;Ahmed, R.;Stadler, P.;Bauer, S.;Sariciftci, N. S.;Sitter, H.;
2:122:13 Stability of low voltage n-type organic field effect transistors
DOI:10.1016/j.synthmet.2014.07.020 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Ahmed, Rizwan;Simbrunner, Clemens;Schwabegger, Guenther;Baig, M. A.;Sitter, H.;
2:122:14 Oxygen and water-related impurities in C-60 crystals: A density-functional theory study
DOI:10.1103/PhysRevB.82.045201 JN:PHYSICAL REVIEW B PY:2010 TC:11 AU: Tsetseris, L.;Pantelides, S. T.;
2:122:15 Charge carrier relaxation model in disordered organic semiconductors
DOI:10.1063/1.4834135 JN:AIP ADVANCES PY:2013 TC:2 AU: Lu, Nianduan;Li, Ling;Sun, Pengxiao;Liu, Ming;
2:122:16 Disorder-tuned charge transport in organic semiconductors
DOI:10.1063/1.4793399 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Xu, Feng;Qiu, Dong;Yan, Dadong;
2:122:17 Geometrical Structure and Interface Dependence of Bias Stress Induced Threshold Voltage Shift in C-60-Based OFETs
DOI:10.1021/am50321921 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Ahmed, Rizwan;Kadashchuk, Andrey;Simbrunner, Clemens;Schwabegger, Guenther;Baig, Muhammad Aslam;Sitter, Helmut;
2:122:18 Meyer-Neldel rule and Poole-Frenkel effect in chalcogenide glasses
DOI:10.1063/1.4813128 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Abdel-Wahab, F.;Yelon, A.;
2:122:19 Reproducibility and stability of C-60 based organic field effect transistor
DOI:10.1016/j.synthmet.2011.08.008 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Ahmed, Rizwan;Sams, Michael;Simbrunner, Clemens;Ullah, Mujeeb;Rehman, Kamila;Schwabegger, Guenther;Sitter, H.;Ostermann, Timm;
2:122:20 Exciton formation as a rate limiting step for charge recombination in disordered organic molecules or polymers
DOI:10.1063/1.3527062 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Preezant, Yevgeni;Tessler, Nir;
2:122:21 Self-Heating, Bistability, and Thermal Switching in Organic Semiconductors
DOI:10.1103/PhysRevLett.110.126601 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:1 AU: Fischer, A.;Pahner, P.;Luessem, B.;Leo, K.;Scholz, R.;Koprucki, T.;Gaertner, K.;Glitzky, A.;
2:122:22 Charge-carrier and polaron hopping mobility in disordered organic solids: Carrier-concentration and electric-field effects
DOI:10.1080/14786430903341394 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:6 AU: Fishchuk, Ivan I.;Kadashchuk, Andrey;Poroshin, Volodymyr N.;Baessler, Heinz;
2:122:23 The role of mobility in bulk heterojunction solar cells
DOI:10.1063/1.3639273 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Xu, Feng;Yan, Dadong;
2:122:24 Electric field and grain size dependence of Meyer-Neldel energy in C-60 films
DOI:10.1016/j.synthmet.2011.07.008 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Ullah, Mujeeb;Pivrikas, A.;Fishchuk, I. I.;Kadashchuk, A.;Stadler, P.;Simbrunner, C.;Sariciftci, N. S.;Sitter, H.;
2:122:25 Transit Phenomena in Organic Field-Effect Transistors Through Kelvin-Probe Force Microscopy
DOI:10.1002/adma.201300004 JN:ADVANCED MATERIALS PY:2013 TC:0 AU: Melzer, Christian;Siol, Christopher;von Seggern, Heinz;
2:122:26 Role of diffusion in two-dimensional bimolecular recombination
DOI:10.1063/1.3435469 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Nenashev, A. V.;Jansson, F.;Baranovskii, S. D.;Osterbacka, R.;Dvurechenskii, A. V.;Gebhard, F.;
2:123:1 Dithieno[3,2-c:2 ',3 '-e]-2,7-diketophosphepin: A Unique Building Block for Multifunctional pi-Conjugated Materials
DOI:10.1021/ja310680x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: He, Xiaoming;Borau-Garcia, Javier;Woo, Alva Y. Y.;Trudel, Simon;Baumgartner, Thomas;
2:123:2 Thiophene-Fused Borepins As Directly Functionalizable Boron-Containing pi-Electron Systems
DOI:10.1021/ja502644e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Levine, David R.;Siegler, Maxime A.;Tovar, John D.;
2:123:3 Expanded Hexapyrrolohexaazacoronenes. Near-Infrared Absorbing Chromophores with Interrupted Peripheral Conjugation
DOI:10.1021/ja508963v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Gonka, Elzbieta;Chmielewski, Piotr J.;Lis, Tadeusz;Stepien, Marcin;
2:123:4 A Porphyrin Fused to Four Anthracenes
DOI:10.1021/ja109671f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:73 AU: Davis, Nicola K. S.;Thompson, Amber L.;Anderson, Harry L.;
2:123:5 Dibenzophosphapentaphenes: Exploiting P Chemistry for Gap Fine-Tuning and Coordination-Driven Assembly of Planar Polycyclic Aromatic Hydrocarbons
DOI:10.1021/ja300171y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:23 AU: Bouit, Pierre-Antoine;Escande, Aude;Szucs, Rozsa;Szieberth, Denes;Lescop, Christophe;Nyulaszi, Laszlo;Hissler, Muriel;Reau, Regis;
2:123:6 Molecular Engineering of "Click"-Phospholes Towards Self-Assembled Luminescent Soft Materials
DOI:10.1002/adfm.201302294 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: He, Xiaoming;Lin, Jian-Bin;Kan, Wang Hay;Dong, Pengcheng;Trudel, Simon;Baumgartner, Thomas;
2:123:7 Polycyclic pi-Electron System with Boron at Its Center
DOI:10.1021/ja3036042 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:38 AU: Saito, Shohei;Matsuo, Kyohei;Yamaguchi, Shigehiro;
2:123:8 Planarized Triarylboranes: Stabilization by Structural Constraint and Their Plane-to-Bowl Conversion
DOI:10.1021/ja211944q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:50 AU: Zhou, Zhiguo;Wakamiya, Atsushi;Kushida, Tomokatsu;Yamaguchi, Shigehiro;
2:123:9 Propeller-Shaped Fused Oligothiophenes: A Remarkable Effect of the Topology of Sulfur Atoms on Columnar Stacking
DOI:10.1021/ja4092769 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:9 AU: Xiao, Qi;Sakurai, Tsuneaki;Fukino, Takahiro;Akaike, Kouki;Honsho, Yoshihito;Saeki, Akinori;Seki, Shu;Kato, Kenichi;Takata, Masaki;Aida, Takuzo;
2:123:10 Synthesis of Dibenzophosphole Oxides via Palladium-Catalyzed Intramolecular Direct Arylation Reactions of ortho-Halodiaryl-phosphine Oxides
DOI:10.1002/adsc.201301081 JN:ADVANCED SYNTHESIS & CATALYSIS PY:2014 TC:2 AU: Cui, Yuming;Fu, Lingzi;Cao, Jian;Deng, Yuan;Jiang, Jianxiong;
2:123:11 Dually Switchable Heterotetracenes: Addressing the Photophysical Properties and Self-Organization of the P-S System
DOI:10.1021/ja108081b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:49 AU: Ren, Yi;Baumgartner, Thomas;
2:123:12 Planar Subporphyrin Borenium Cations
DOI:10.1021/ja2056566 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:36 AU: Tsurumaki, Eiji;Hayashi, Shin-ya;Tham, Fook S.;Reed, Christopher A.;Osuka, Atsuhiro;
2:123:13 Peripherally Fused Porphyrins via the Scholl Reaction: Synthesis, Self-Assembly, and Mesomorphism
DOI:10.1021/ja210991f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:19 AU: Mysliwiec, Damian;Donnio, Bertrand;Chmielewski, Piotr J.;Heinrich, Benoit;Stepien, Marcin;
2:123:14 Synthesis and Optical Properties of Stable Gallafluorene Derivatives: Investigation of Their Emission via Triplet States
DOI:10.1021/ja400287y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: Matsumoto, Takuya;Tanaka, Kazuo;Chujo, Yoshiki;
2:123:15 Thiophene-Fused Ladder Boroles with High Antiaromaticity
DOI:10.1021/ja2019977 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:37 AU: Iida, Azusa;Yamaguchi, Shigehiro;
2:123:16 C-Functionalized, Air- and Water-Stable 9,10-Dihydro-9,10-diboraanthracenes: Efficient Blue to Red Emitting Luminophores
DOI:10.1021/ja406766e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:23 AU: Reus, Christian;Weidlich, Sabine;Bolte, Michael;Lerner, Hans-Wolfram;Wagner, Matthias;
2:123:17 Photodissociation of B-N Lewis Adducts: A Partially Fused Trinaphthylborane with Dual Fluorescence
DOI:10.1021/ja506980p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Matsuo, Kyohei;Saito, Shohei;Yamaguchi, Shigehiro;
2:123:18 Star-Shaped Oligotriarylamines with Planarized Triphenylamine Core: Solution-Processable, High-T-g Hole-Injecting and Hole-Transporting Materials for Organic Light-Emitting Devices
DOI:10.1021/cm1018585 JN:CHEMISTRY OF MATERIALS PY:2011 TC:44 AU: Jiang, Zuoquan;Ye, Tengling;Yang, Chuluo;Yang, Dezhi;Zhu, Minrong;Zhong, Cheng;Qin, Jingui;Ma, Dongge;
2:123:19 Ultrasensitive microchip sensor based on boron-containing polyfluorene nanofilms
DOI:10.1016/j.bios.2010.08.077 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:7 AU: Ribeiro, Celso;Brogueira, Pedro;Lavareda, Guilherme;Carvalho, Carlos N.;Amaral, Ana;Santos, Luis;Morgado, Jorge;Scherf, Ulrich;Bonifacio, Vasco D. B.;
2:123:20 Phosphorus Can Also Be a "Photocopy"
DOI:10.1021/ja1009426 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:25 AU: Washington, Marlene P.;Gudimetla, Vittal B.;Laughlin, Feng L.;Deligonul, Nihal;He, Susan;Payton, John L.;Simpson, M. Cather;Protasiewicz, John D.;
2:123:21 Improved Synthesis of 1,2-Bis(trimethylsilyl)benzenes using Rieke-Magnesium or the Entrainment Method
DOI:10.1002/adsc.201000560 JN:ADVANCED SYNTHESIS & CATALYSIS PY:2010 TC:17 AU: Lorbach, Andreas;Reus, Christian;Bolte, Michael;Lerner, Hans-Wolfram;Wagner, Matthias;
2:123:22 Transfer of a Disilenyl Moiety to Aromatic Substrates and Lateral Functional Group Transformation in Aryl Disilenes
DOI:10.1021/ja107547s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:14 AU: Jeck, Jonathan;Bejan, Lulia;White, Andrew J. P.;Nied, Dominik;Breher, Frank;Scheschkewitz, David;
2:123:23 Synthesis and Properties of Boron(III)-Coordinated Subbacteriochlorins
DOI:10.1021/ja200669a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:18 AU: Hayashi, Shin-ya;Tsurumaki, Eiji;Inokuma, Yasuhide;Kim, Pyosang;Sung, Young Mo;Kim, Dongho;Osuka, Atsuhiro;
2:123:24 A Pentacoordinate Boron-Containing pi-Electron System with CI-B-CI Three-Center Four-Electron Bonds
DOI:10.1021/ja404724f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:10 AU: Dou, Chuandong;Saito, Shohei;Yamaguchi, Shigehiro;
2:123:25 Negative Differential Resistance by Molecular Resonant Tunneling between Neutral Tribenzosubporphine Anchored to a Au(111) Surface and Tribenzosubporphine Cation Adsorbed on to a Tungsten Tip
DOI:10.1021/ja404512w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Majima, Yutaka;Ogawa, Daisuke;Iwamoto, Masachika;Azuma, Yasuo;Tsurumaki, Eiji;Osuka, Atsuhiro;
2:123:26 Liquid crystalline 21,23-dithiaporphyrins
DOI:10.1039/c2jm35080g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Bromby, Ashley D.;Kan, Wang Hay;Sutherland, Todd C.;
2:124:1:1 Patterned piezo-, pyro-, and ferroelectricity of poled polymer electrets
DOI:10.1063/1.3457141 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:57 AU: Qiu, Xunlin;
2:124:1:2 Direct hysteresis measurements on ferroelectret films by means of a modified Sawyer-Tower circuit
DOI:10.1063/1.4809556 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Qiu, Xunlin;Hollaender, Lars;Wirges, Werner;Gerhard, Reimund;Basso, Heitor Cury;
2:124:1:3 Towards a better understanding of dielectric barrier discharges in ferroelectrets: Paschen breakdown fields in micrometer sized voids
DOI:10.1063/1.4871678 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Harris, Scott;Mellinger, Axel;
2:124:1:4 Pressure dependence of space charge deposition in piezoelectric polymer foams: simulations and experimental verification
DOI:10.1007/s00339-012-6835-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:3 AU: Harris, Scott;Mellinger, Axel;
2:124:1:5 Screen printing for producing ferroelectret systems with polymer-electret films and well-defined cavities
DOI:10.1007/s00339-013-7998-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Sborikas, Martynas;Qiu, Xunlin;Wirges, Werner;Gerhard, Reimund;Jenninger, Werner;Lovera, Deliani;
2:124:1:6 Heteropolar Charging of Ferroelectrets for Flexible Keyboards and Tactile Sensors
DOI:10.1080/00150193.2014.964601 JN:FERROELECTRICS PY:2014 TC:0 AU: Kogler, A.;Schwoediauer, R.;Buchberger, G.;Bauer-Gogonea, S.;Bauer, S.;
2:124:1:7 Piezoelectricity and ferroelectricity of cellular polypropylene electrets films characterized by piezoresponse force microscopy
DOI:10.1063/1.4891395 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Miao, Hongchen;Sun, Yao;Zhou, Xilong;Li, Yingwei;Li, Faxin;
2:124:1:8 Fluoropolymer piezoelectrets with tubular channels: resonance behavior controlled by channel geometry
DOI:10.1007/s00339-012-6848-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:4 AU: Pisani Altafim, Ruy Alberto;Corra Altafim, Ruy Alberto;Qiu, Xunlin;Raabe, Sebastian;Wirges, Werner;Basso, Heitor Cury;Gerhard, Reimund;
2:124:1:9 Alternating current-generated plasma discharges for the controlled direct current charging of ferroelectrets
DOI:10.1063/1.4821113 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Basso, Heitor Cury;Monteiro, Jose Roberto B. de A.;Mazulquim, Daniel Baladelli;de Paula, Geyverson Teixeira;Goncalves Neto, Luiz;Gerhard, Reimund;
2:124:1:10 Dielectric elastomer and ferroelectret films combined in a single device: how do they reinforce each other?
DOI:10.1007/s00339-012-6833-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:2 AU: Wirges, Werner;Raabe, Sebastian;Qiu, Xunlin;
2:124:1:11 Temporal evolution of the re-breakdown voltage in small gaps from nanoseconds to milliseconds
DOI:10.1063/1.4773518 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Basso, Heitor Cury;Qiu, Xunlin;Wirges, Werner;Gerhard, Reimund;
2:124:1:12 Polarization and Hysteresis in Tubular-Channel Fluoroethylenepropylene-Copolymer Ferroelectrets
DOI:10.1080/00150193.2014.964603 JN:FERROELECTRICS PY:2014 TC:0 AU: Qiu, X.;Wirges, W.;Gerhard, R.;
2:124:1:13 Patterned piezo-, pyro-, and ferroelectricity of poled polymer electrets (vol 108, 011101, 2010)
DOI:10.1063/1.3638069 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:0 AU: Qiu, Xunlin;
2:124:2:1 Fabrication of fluoropolymer piezoelectrets by using rigid template: Structure and thermal stability
DOI:10.1063/1.3482011 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:21 AU: Zhang, Xiaoqing;Cao, Gongxun;Sun, Zhuanlan;Xia, Zhongfu;
2:124:2:2 Polarization and piezoelectricity in polymer films with artificial void structure
DOI:10.1007/s00339-011-6481-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:7 AU: Sun, Zhuanlan;Zhang, Xiaoqing;Xia, Zhongfu;Qiu, Xunlin;Wirges, Werner;Gerhard, Reimund;Zeng, Changchun;Zhang, Chuck;Wang, Ben;
2:124:2:3 Fluoroethylenepropylene ferroelectrets with patterned microstructure and high, thermally stable piezoelectricity
DOI:10.1007/s00339-012-6840-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:13 AU: Zhang, X.;Hillenbrand, J.;Sessler, G. M.;Haberzettl, S.;Lou, K.;
2:124:2:4 Fluoroethylenepropylene ferroelectret films with cross-tunnel structure for piezoelectric transducers and micro energy harvesters
DOI:10.1063/1.4893367 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Zhang, Xiaoqing;Sessler, Gerhard M.;Wang, Yujie;
2:124:2:5 Piezoelectric performance of fluor polymer sandwiches with different void structures
DOI:10.1007/s00339-012-6839-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:0 AU: Lou, Kexing;Zhang, Xiaoqing;Xia, Zhongfu;
2:124:2:6 Beneficial and detrimental fatigue effects of dielectric barrier discharges on the piezoelectricity of polypropylene ferroelectrets
DOI:10.1063/1.3610507 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Qiu, Xunlin;Wirges, Werner;Gerhard, Reimund;
2:124:3:1 Figure of merit of piezoelectret transducers for pulse-echo or transmit-receive systems for airborne ultrasound
DOI:10.1063/1.4821647 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Sessler, G. M.;Hillenbrand, J.;
2:124:3:2 Vibration-based energy harvesting with stacked piezoelectrets
DOI:10.1063/1.4874305 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Pondrom, P.;Hillenbrand, J.;Sessler, G. M.;Boes, J.;Melz, T.;
2:124:3:3 Nonlinear electromechanical response of the ferroelectret ultrasonic transducers
DOI:10.1007/s00339-010-5752-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:8 AU: Doering, Joachim;Bovtun, Viktor;Bartusch, Juergen;Erhard, Anton;Kreutzbruck, Marc;Yakymenko, Yuriy;
2:124:3:4 DC-Biased Piezoelectret Film Transducers for Airborne Ultrasound
DOI:10.1080/00150193.2014.964598 JN:FERROELECTRICS PY:2014 TC:0 AU: Hillenbrand, J.;Sessler, G. M.;
2:124:3:5 Piezoelectric and electrostrictive effects in ferroelectret ultrasonic transducers
DOI:10.1063/1.4759052 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Doering, Joachim;Bovtun, Viktor;Gaal, Mate;Bartusch, Juergen;Erhard, Anton;Kreutzbruck, Marc;Yakymenko, Yuriy;
2:124:3:6 Trench-filled cellular parylene electret for piezoelectric transducer
DOI:10.1063/1.4730952 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Feng, Yue;Hagiwara, Kei;Iguchi, Yoshinori;Suzuki, Yuji;
2:124:4:1 Continuum modeling of charging process and piezoelectricity of ferroelectrets
DOI:10.1063/1.4819441 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Xu, Bai-Xiang;von Seggern, Heinz;Zhukov, Sergey;Gross, Dietmar;
2:124:4:2 Time dependence of piezoelectric d(33) coefficient of cellular ferroelectret polypropylene film
DOI:10.1063/1.3569950 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Wan, Yongping;Xie, Longtao;Zhang, Xiaoqing;Zhong, Zheng;
2:124:4:3 Finite element modeling of temporal evolution of the quasi-piezoelectric d(33) coefficient of cellular piezoelectret Polypropylene film
DOI:10.1016/j.commatsci.2011.11.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:24 AU: Wan, Yongping;Fan, Liangliang;Zhong, Zheng;
2:124:4:4 Micromechanical prediction of the effective electromechanical properties of cellular ferroelectrets
DOI:10.1063/1.3481435 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Wan, Yongping;Xie, Longtao;Zhong, Zheng;
2:124:4:5 Three-layer piezoelectrets from fluorinated ethylene-propylene (FEP) copolymer films
DOI:10.1007/s00339-010-6008-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:7 AU: Fang, Peng;Wang, Feipeng;Wirges, Werner;Gerhard, Reimund;Basso, Heitor Cury;
2:124:5:1 Higher stabilities of positive and negative charge on tetrafluoroethylene-hexafluoropropylene copolymer (FEP) electrets treated with titanium-tetrachloride vapor
DOI:10.1007/s00339-013-7821-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:2 AU: Rychkov, D.;Rychkov, A.;Efimov, N.;Malygin, A.;Gerhard, R.;
2:124:5:2 Treatment with orthophosphoric acid enhances the thermal stability of the piezoelectricity in low-density polyethylene ferroelectrets
DOI:10.1063/1.4729866 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Rychkov, Dmitry;Altafim, Ruy Alberto Pisani;Qiu, Xunlin;Gerhard, Reimund;
2:124:5:3 Chemical and physical surface modification of PTFE films-an approach to produce stable electrets
DOI:10.1007/s00339-012-6834-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:6 AU: Rychkov, D.;Yablokov, M.;Rychkov, A.;
2:124:5:4 Stabilization of positive charge on polytetrafluoroethylene electret films treated with titanium-tetrachloride vapor
DOI:10.1063/1.3565166 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Rychkov, Dmitry;Gerhard, Reimund;
2:124:5:5 Piezoelectric Properties of Ferroelectret
DOI:10.1080/00150193.2011.577372 JN:FERROELECTRICS PY:2011 TC:2 AU: Tajitsu, Y.;
2:124:6:1 Polarization from dielectric-barrier discharges in ferroelectrets: Mapping of the electric-field profiles by means of thermal-pulse tomography
DOI:10.1063/1.3481802 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Qiu, Xunlin;Hollaender, Lars;Suarez, Rosaura Flores;Wirges, Werner;Gerhard, Reimund;
2:124:6:2 Resolution-enhanced polarization imaging with focused thermal pulses
DOI:10.1063/1.4825212 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Aryal, Saurav;Mellinger, Axel;
2:124:6:3 Inverse Problem Solution for Laser Intensity Modulated Method
DOI:10.1080/00150193.2014.964591 JN:FERROELECTRICS PY:2014 TC:0 AU: Tuncer, E.;
2:125:1 Direct evaluation of low-field mobility and access resistance in pentacene field-effect transistors
DOI:10.1063/1.3432716 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:47 AU: Xu, Yong;Minari, Takeo;Tsukagoshi, Kazuhito;Chroboczek, J. A.;Ghibaudo, Gerard;
2:125:2 Evaluating injection and transport properties of organic field-effect transistors by the convergence point in transfer-length method
DOI:10.1063/1.4860958 JN:APPLIED PHYSICS LETTERS PY:2014 TC:6 AU: Liu, Chuan;Xu, Yong;Ghibaudo, Gerard;Lu, Xubing;Minari, Takeo;Noh, Yong-Young;
2:125:3 Optimal Structure for High-Performance and Low-Contact-Resistance Organic Field-Effect Transistors Using Contact-Doped Coplanar and Pseudo-Staggered Device Architectures
DOI:10.1002/adfm.201201094 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:9 AU: Darmawan, Peter;Minari, Takeo;Xu, Yong;Li, Song-Lin;Song, Haisheng;Chan, Meiyin;Tsukagoshi, Kazuhito;
2:125:4 Carrier mobility in organic field-effect transistors
DOI:10.1063/1.3662955 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:13 AU: Xu, Yong;Benwadih, Mohamed;Gwoziecki, Romain;Coppard, Romain;Minari, Takeo;Liu, Chuan;Tsukagoshi, Kazuhito;Chroboczek, Jan;Balestra, Francis;Ghibaudo, Gerard;
2:125:5 Modified transmission-line method for contact resistance extraction in organic field-effect transistors
DOI:10.1063/1.3479476 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Xu, Yong;Gwoziecki, R.;Chartier, I.;Coppard, R.;Balestra, F.;Ghibaudo, G.;
2:125:6 Reduction of charge injection barrier by 1-nm contact oxide interlayer in organic field effect transistors
DOI:10.1063/1.3673842 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Darmawan, Peter;Minari, Takeo;Kumatani, Akichika;Li, Yun;Liu, Chuan;Tsukagoshi, Kazuhito;
2:125:7 Electrical mobility in organic thin-film transistors determined by noise spectroscopy
DOI:10.1063/1.3658846 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Bonavolonta, C.;Albonetti, C.;Barra, M.;Valentino, M.;
2:125:8 Theoretical analysis of carrier mobility in organic field-effect transistors
DOI:10.1063/1.3599485 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Xu, Yong;Balestra, Francis;Ghibaudo, Gerard;
2:125:9 Joule's law for organic transistors exploration: Case of contact resistance
DOI:10.1063/1.4792066 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Xu, Yong;Liu, Chuan;Li, Yun;Minari, Takeo;Darmawan, Peter;Balestra, Francis;Ghibaudo, Gerard;Tsukagoshi, Kazuhito;
2:125:10 Diagnosis of low-frequency noise sources in contact resistance of staggered organic transistors
DOI:10.1063/1.3544583 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Xu, Y.;Gwoziecki, R.;Coppard, R.;Benwadih, M.;Minari, T.;Tsukagoshi, K.;Chroboczek, J. A.;Balestra, F.;Ghibaudo, G.;
2:125:11 Field effect mobility model in organic thin film transistor
DOI:10.1063/1.3543900 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Li, Ling;Chung, Kwan-Soo;Jang, Jin;
2:125:12 Highly enhanced charge injection in thienoacene-based organic field-effect transistors with chemically doped contact
DOI:10.1063/1.3690949 JN:APPLIED PHYSICS LETTERS PY:2012 TC:16 AU: Minari, Takeo;Darmawan, Peter;Liu, Chuan;Li, Yun;Xu, Yong;Tsukagoshi, Kazuhito;
2:125:13 Modeling the effect of top gate voltage on the threshold of a double gate organic field effect transistor
DOI:10.1063/1.4754807 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Karimi-Alavijeh, Hamidreza;Katebi-Jahromi, Alireza;Gharavi, Alireza;
2:125:14 Room-Temperature Printing of Organic Thin-Film Transistors with pi-Junction Gold Nanoparticles
DOI:10.1002/adfm.201400169 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Minari, Takeo;Kanehara, Yuki;Liu, Chuan;Sakamoto, Kenji;Yasuda, Takeshi;Yaguchi, Asuka;Tsukada, Shigemi;Kashizaki, Kei;Kanehara, Masayuki;
2:125:15 Low-frequency noise behavior of tunneling field effect transistors
DOI:10.1063/1.3526722 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Wan, J.;Le Royer, C.;Zaslavsky, A.;Cristoloveanu, S.;
2:125:16 Extraction of low-frequency noise in contact resistance of organic field-effect transistors
DOI:10.1063/1.3467057 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Xu, Y.;Minari, T.;Tsukagoshi, K.;Gwoziecki, R.;Coppard, R.;Balestra, F.;Chroboczek, J. A.;Ghibaudo, G.;
2:125:17 Organic light emitting field effect transistors based on an ambipolar p-i-n layered structure
DOI:10.1063/1.3377911 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Maiorano, V.;Bramanti, A.;Carallo, S.;Cingolani, R.;Gigli, G.;
2:125:18 Study of poly(3-hexylthiophene)/cross-linked poly(vinyl alcohol) as semiconductor/insulator for application in low voltage organic field effect transistors
DOI:10.1063/1.4809285 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Benvenho, Adriano R. V.;Machado, Wagner S.;Cruz-Cruz, Isidro;Huemmelgen, Ivo A.;
2:125:19 Double-gate organic thin-film transistor using a photosensitive polymer as the dielectric layer
DOI:10.1016/j.tsf.2010.05.013 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Wang, Chun Chieh;Lee, Wen-His;Liu, Chao-Te;
2:125:20 Effect of dipole layer on the density-of-states and charge transport in organic thin film transistors
DOI:10.1063/1.4852137 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Li, Ling;Lu, Nianduan;Liu, Ming;
2:125:21 Improved contact resistivity and intra-die variation in organic thin film transistors
DOI:10.1063/1.4804239 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Pankalla, S.;Spiehl, D.;Sauer, H. M.;Doersam, E.;Glesner, M.;
2:125:22 Evaluating injection and transport properties of organic field-effect transistors by the convergence point in transfer-length method (vol 104, 013301, 2014)
DOI:10.1063/1.4866287 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Chuan;Xu, Yong;Ghibaudo, Gerard;Lu, Xubing;Minari, Takeo;Noh, Yong-Young;
2:125:23 Does the Temperature Dependence of the Charge Carrier Mobility in Disordered Organic Semiconductors at Large Carrier Concentrations Obey the Meyer-Neldel Compensation Law?
DOI:10.1080/15421406.2010.537869 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Fishchuk, I. I.;Kadashchuk, A. K.;Genoe, J.;Poroshin, V. N.;Baessler, H.;
2:126:1 Processable Multipurpose Conjugated Polymer for Electrochromic and Photovoltaic Applications
DOI:10.1021/cm100372t JN:CHEMISTRY OF MATERIALS PY:2010 TC:85 AU: Baran, Derya;Balan, Abidin;Celebi, Selin;Esteban, Beatriz Meana;Neugebauer, Helmut;Sariciftci, N. Serdar;Toppare, Levent;
2:126:2 Influence of Alkyl Side-Chain Length on the Performance of Poly(3-alkylthiophene)/Polyfluorene All-Polymer Solar Cells
DOI:10.1021/cm100189t JN:CHEMISTRY OF MATERIALS PY:2010 TC:54 AU: Friedel, Bettina;McNeill, Christopher R.;Greenham, Neil C.;
2:126:3 Benzotriazole and benzothiadiazole containing conjugated copolymers for organic solar cell applications
DOI:10.1016/j.polymer.2012.01.030 JN:POLYMER PY:2012 TC:16 AU: Karakus, Melike;Apaydin, Dogukan Hazar;Yildiz, Dilber Esra;Toppare, Levent;Cirpan, Ali;
2:126:4 Solution processable benzotriazole and fluorene containing copolymers for photovoltaic applications
DOI:10.1016/j.solmat.2011.12.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Kaya, Emine;Apaydin, Dogukan Hazar;Yildiz, Dilber Esra;Toppare, Levent;Cirpan, Ali;
2:126:5 Dielectric and electrical properties of an organic device containing benzotriazole and fluorene bearing copolymer
DOI:10.1002/app.38315 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:11 AU: Yildiz, Dilber Esra;Apaydin, Dogukan Hazar;Toppare, Levent;Cirpan, Ali;
2:126:6 Synthesis and characterizations of benzotriazole based donor-acceptor copolymers for organic photovoltaic applications
DOI:10.1016/j.synthmet.2012.04.006 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Murugesan, Vajjiravel;de Bettignies, Remi;Mercier, Regis;Guillerez, Stephane;Perrin, Lara;
2:126:7 Electrochemical and optical properties of solution processable benzotriazole and benzothiadiazole containing copolymers
DOI:10.1016/j.synthmet.2011.11.014 JN:SYNTHETIC METALS PY:2012 TC:8 AU: Karakus, Melike;Balan, Abidin;Baran, Derya;Toppare, Levent;Cirpan, Ali;
2:126:8 Spray processable ambipolar benzotriazole bearing electrochromic polymers with multi-colored and transmissive states
DOI:10.1039/c0jm03000g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:16 AU: Hizalan, Goenuel;Balan, Abidin;Baran, Derya;Toppare, Levent;
2:126:9 Leakage current by Frenkel-Poole emission on benzotriazole and benzothiadiazole based organic devices
DOI:10.1016/j.mssp.2014.06.038 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:0 AU: Yildiz, D. E.;Karakus, M.;Toppare, L.;Cirpan, A.;
2:126:10 Optimizing the organic solar cell efficiency: Role of the active layer thickness
DOI:10.1016/j.solmat.2013.02.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: Apaydin, Dogukan Hazar;Yildiz, Dilber Esra;Cirpan, Ali;Toppare, Levent;
2:126:11 Electrochromic device and bulk heterojunction solar cell applications of poly 4,7-bis(2,3-dihydrothieno[3,4-b][1,4] dioxin-5-yl)-2-dodecyl-2H-benzo[1,2,3]triazole (PBEBT)
DOI:10.1016/j.solmat.2010.05.048 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:20 AU: Balan, Abidin;Baran, Derya;Sariciftci, Niyazi Serdar;Toppare, Levent;
2:126:12 Electrochemical and optical properties of 5,6-bis(octyloxy)-2,1,3 benzooxadiazole containing low band gap polymers
DOI:10.1016/j.synthmet.2014.02.010 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Goker, Seza;Hizalan, Gonul;Udum, Yasemin Arslan;Toppare, Levent;
2:126:13 Synthesis and characterization of perylene-based donor-acceptor copolymers containing triple bonds
DOI:10.1016/j.synthmet.2010.02.015 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Kozma, E.;Munno, F.;Kotowski, D.;Bertini, F.;Luzzati, S.;Catellani, M.;
2:126:14 Benzyl substituted benzotriazole containing conjugated polymers: Effect of position of the substituent on electrochromic properties
DOI:10.1016/j.synthmet.2010.10.001 JN:SYNTHETIC METALS PY:2010 TC:17 AU: Yigitsoy, Basak;Karim, S. M. Abdul;Balan, Abidin;Baran, Derya;Toppare, Levent;
2:126:15 Synthesis and Spectroelectrochemistry of Dithieno(3,2-b:2 ',3 '-d)pyrrole Derivatives
DOI:10.1002/app.40701 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Udum, Yasemin Arslan;Yildiz, Huseyin Bekir;Azak, Hacer;Sahin, Elif;Talaz, Oktay;Cirpan, Ali;Toppare, Levent;
2:126:16 Synthesis, characterization and photovoltaic properties of random poly(arylene-vinylene)s containing benzothiadiazole
DOI:10.1016/j.polymer.2011.04.066 JN:POLYMER PY:2011 TC:6 AU: Colella, Silvia;Melcarne, Giovanna;Mazzeo, Marco;Gigli, Giuseppe;Grisorio, Roberto;Suranna, Gian Paolo;Mastrorilli, Piero;
2:126:17 Bulk heterojunction and inverted type solar cells using a CN-PPV derivative
DOI:10.1016/j.solmat.2011.09.055 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Cevik, Emel;Ilicali, Derya;Egbe, Daniel Ayuk Mbi;Gunes, Serap;
2:126:18 Synthesis, Characterization, and Photovoltaic Properties of Poly(3-Phenyl Azomethine Alkylthiophene) Polymers
DOI:10.1007/s11664-010-1448-1 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:2 AU: Pokhrel, B.;Kamrupi, I. R.;Maiti, J.;Adhikari, B.;Dolui, S. K.;
2:126:19 The effects of surface states and series resistance on the performance of Au/SnO2/n-Si and Al/SnO2/p-Si (MIS) Schottky barrier diodes
DOI:10.1016/j.mssp.2010.02.004 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2010 TC:9 AU: Yildiz, D. E.;Altindal, S.;Tekeli, Z.;Ozer, M.;
2:126:20 A novel low band gap conjugated polymer based on N-substituted dithieno[3,2-b:2 ',3 '-d]pyrrole
DOI:10.1016/j.synthmet.2010.05.001 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Lu, Yong;Chen, Hui;Hou, Xiaoya;Hu, Xiao;Ng, Siu-Choon;
2:127:1 Oxide Sandwiched Metal Thin-Film Electrodes for Long-Term Stable Organic Solar Cells
DOI:10.1002/adfm.201201592 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:29 AU: Schubert, Sylvio;Hermenau, Martin;Meiss, Jan;Mueller-Meskamp, Lars;Leo, Karl;
2:127:2 Improvement of Transparent Metal Top Electrodes for Organic Solar Cells by Introducing a High Surface Energy Seed Layer
DOI:10.1002/aenm.201200903 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:33 AU: Schubert, Sylvio;Meiss, Jan;Mueller-Meskamp, Lars;Leo, Karl;
2:127:3 Semi-transparent small molecule organic solar cells with laminated free-standing carbon nanotube top electrodes
DOI:10.1016/j.solmat.2011.10.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:33 AU: Kim, Yong Hyun;Mueller-Meskamp, Lars;Zakhidov, Alexander A.;Sachse, Christoph;Meiss, Jan;Bikova, Julia;Cook, Alexander;Zakhidov, Anvar A.;Leo, Karl;
2:127:4 Improvement of transparent silver thin film anodes for organic solar cells with a decreased percolation threshold of silver
DOI:10.1016/j.solmat.2014.04.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Wang, Zhizhe;Zhang, Chunfu;Gao, Rui;Chen, Dazheng;Tang, Shi;Zhang, Jincheng;Wang, Dong;Lu, Xiaoli;Hao, Yue;
2:127:5 Unusually High Optical Transmission in Ca:Ag Blend Films: High-Performance Top Electrodes for Efficient Organic Solar Cells
DOI:10.1002/adfm.201401854 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Schubert, Sylvio;Mueller-Meskamp, Lars;Leo, Karl;
2:127:6 ITO Breakers: Highly Transparent Conducting Polymer/Metal/Dielectric (P/M/D) Films for Organic Solar Cells
DOI:10.1002/aenm.201400539 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Ham, Juyoung;Lee, Jong-Lam;
2:127:7 Collecting the Electrons on n-Doped Fullerene C-60 Transparent Conductors for All-Vacuum-Deposited Small-Molecule Organic Solar Cells
DOI:10.1002/aenm.201300658 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:3 AU: Kim, Yong Hyun;Schubert, Sylvio;Timmreck, Ronny;Mueller-Meskamp, Lars;Leo, Karl;
2:127:8 Surface-plasmon-induced light absorption on a rough silver surface
DOI:10.1063/1.3537812 JN:APPLIED PHYSICS LETTERS PY:2011 TC:22 AU: Kim, Sun-Kyung;Ee, Ho-Seok;Choi, Woonkyung;Kwon, Soon-Hong;Kang, Ju-Hyung;Kim, Yoon-Ho;Kwon, Hoki;Park, Hong-Gyu;
2:127:9 Highly doped fullerene C60 thin films as transparent stand alone top electrode for organic solar cells
DOI:10.1016/j.solmat.2013.08.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Schubert, Sylvio;Kim, Yong Hyun;Menke, Torben;Fischer, Axel;Timmreck, Ronny;Mueller-Meskamp, Lars;Leo, Karl;
2:127:10 A new method to improve the lifetime stability of small molecule bilayer heterojunction organic solar cells
DOI:10.1016/j.solmat.2012.11.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:8 AU: AL-Amar, Mohammad M.;Hamam, Khalil J.;Mezei, Gellert;Guda, Ramakrishna;Hamdan, Nasser M.;Burns, Clement A.;
2:127:11 Stability and degradation of unencapsulated CuPc bilayer heterojunction cells under different atmospheric conditions
DOI:10.1016/j.solmat.2013.11.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: AL-Amar, Mohammad M.;Hamam, Khalil J.;Mezei, Gellert;Guda, Ramakrishna;Burns, Clement A.;
2:127:12 Improved light output of GaN-based vertical light emitting diodes using SiO2 nanotube arrays and transparent metal oxide current conduction layer
DOI:10.1063/1.3645003 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Wang, Shui-Jinn;Wang, Pei-Ren;Kuo, Der-Ming;Kuo, Hsiun-Rong;Kuo, Jian-Shian;
2:127:13 Influence of Interference on Extraction Efficiency of Ultraviolet Vertical Light-Emitting Diodes
DOI:10.1007/s11664-013-2611-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:0 AU: Kim, Seung Hwan;Song, Young Ho;Jeon, Seong Ran;Yang, Gye Mo;Ha, Jun Seok;Lee, Sang Hern;Baek, Jong Hyeob;Park, Hyung Jo;
2:127:14 On the influence of sub-wavelength Al/Si interface roughness on the efficiency of crystalline Si-solar cells
DOI:10.1016/j.tsf.2012.10.050 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Fenske, Frank;Ruske, Florian;George, Benjamin M.;
2:127:15 Observation of feature ripening inversion effect at the percolation threshold for the growth of thin silver films
DOI:10.1016/j.tsf.2014.01.067 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Nehm, Frederik;Schubert, Sylvio;Mueller-Meskamp, Lars;Leo, Karl;
2:127:16 Four-mode plasmonic structure based on a prism-grating anticrossing bandgap
DOI:10.1063/1.3682081 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Chulia-Jordan, R.;Santamaria-Perez, D.;
2:127:17 Optimizing the photovoltage of polymer/zinc oxide hybrid solar cells by calcium doping
DOI:10.1063/1.4748059 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Wang, Mingqing;Sun, Jon-Paul;Suei, Sandy;Hill, Ian G.;
2:127:18 Parasitic absorption in the rear reflector of a silicon solar cell: Simulation and measurement of the sub-bandgap reflectance for common dielectric/metal reflectors
DOI:10.1016/j.solmat.2013.06.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:13 AU: Holman, Zachary C.;Filipic, Miha;Lipovsek, Benjamin;De Wolf, Stefaan;Smole, Franc;Topic, Marko;Ballif, Christophe;
2:128:1 Structural and electrical properties of mixture based on P3HT:PCBM and low band gap naphthalene diimide-imines
DOI:10.1016/j.synthmet.2014.01.016 JN:SYNTHETIC METALS PY:2014 TC:6 AU: Iwan, Agnieszka;Boharewicz, Bartosz;Tazbir, Igor;Sikora, Andrzej;Schab-Balcerzak, Ewa;Grucela-Zajac, Marzena;Skorka, Lukasz;
2:128:2 Solution-processable, high-T-g, ambipolar polyimide electrochromics bearing pyrenylamine units
DOI:10.1039/c0jm02642e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:32 AU: Kung, Yi-Chun;Hsiao, Sheng-Huei;
2:128:3 New naphthalene diimide-based compounds containing triarylamine units and imine linkages: Thermal, optical and electrochemical properties
DOI:10.1016/j.synthmet.2011.08.032 JN:SYNTHETIC METALS PY:2011 TC:15 AU: Schab-Balcerzak, Ewa;Grucela-Zajac, Marzena;Krompiec, Michal;Janeczek, Henryk;Siwy, Mariola;Sek, Danuta;
2:128:4 Thermal, optical, electrochemical, and electrochromic characteristics of novel polyimides bearing the Acridine Yellow moiety
DOI:10.1016/j.matchemphys.2012.09.011 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:13 AU: Grucela-Zajac, Marzena;Filapek, Michal;Skorka, Lukasz;Gasiorowski, Jacek;Glowacki, Eric Daniel;Neugebauer, Helmut;Schab-Balcerzak, Ewa;
2:128:5 New low band gap compounds comprised of naphthalene diimide and imine units
DOI:10.1016/j.synthmet.2012.01.016 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Schab-Balcerzak, Ewa;Grucela-Zajac, Marzena;Krompiec, Michal;Niestroj, Anna;Janeczek, Henryk;
2:128:6 New room-temperature thermotropic perylene-based bisimides: Synthesis, liquid crystalline, light-emitting and electrochemical properties
DOI:10.1016/j.optmat.2012.12.019 JN:OPTICAL MATERIALS PY:2013 TC:6 AU: Bijak, Katarzyna;Janeczek, Henryk;Grucela-Zajac, Marzena;Schab-Balcerzak, Ewa;
2:128:7 Synthesis and study on the light absorbing, emitting, redox and electrochromic properties of azines and polyazines with thiophene units
DOI:10.1016/j.synthmet.2012.06.019 JN:SYNTHETIC METALS PY:2012 TC:14 AU: Sek, Danuta;Bijak, Katarzyna;Grucela-Zajac, Marzena;Filapek, Michal;Skorka, Lukasz;Siwy, Mariola;Janeczek, Henryk;Schab-Balcerzak, Ewa;
2:128:8 Spectral, electrochemical and thermal characteristics of glass forming hydrazine derivatives
DOI:10.1016/j.optmat.2014.07.013 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Bijak, Katarzyna;Sek, Danuta;Siwy, Mariola;Grucela-Zajac, Marzena;Janeczek, Henryk;Wiacek, Malgorzata;Malecki, Grzegorz;Schab-Balcerzak, Ewa;
2:128:9 New thermotropic azomethine-naphthalene diimides for optoelectronic applications
DOI:10.1016/j.synthmet.2010.08.011 JN:SYNTHETIC METALS PY:2010 TC:15 AU: Schab-Balcerzak, Ewa;Iwan, Agnieszka;Krompiec, Michal;Siwy, Mariola;Tapa, Daniel;Sikora, Andrzej;Palewicz, Marcin;
2:128:10 Arylene bisimides with triarylamine N-substituents as new solution processable organic semiconductors: Synthesis, spectroscopic, electrochemical and electronic properties
DOI:10.1016/j.synthmet.2011.05.025 JN:SYNTHETIC METALS PY:2011 TC:14 AU: Rybakiewicz, Renata;Djurado, David;Cybulski, Hubert;Dobrzynska, Ewelina;Kulszewicz-Bajer, Irena;Boudinet, Damien;Verilhac, Jean-Marie;Zagorska, Malgorzata;Pron, Adam;
2:128:11 Electron-transporting naphthalenetetracarboxy diimide based monomers and polymers
DOI:10.1016/j.synthmet.2013.08.009 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Lygaitis, Ramunas;Gudeika, Dalius;Grazulevicius, Juozas Vidas;Jankauskas, Vygintas;
2:128:12 Characterization, liquid crystalline behavior, optical and electrochemical study of new aliphatic-aromatic polyimide with naphthalene and perylene subunits
DOI:10.1016/j.synthmet.2011.05.036 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Schab-Balcerzak, Ewa;Iwan, Agnieszka;Grucela-Zajac, Marzena;Krompiec, Michal;Podgorna, Marzena;Domanski, Marian;Siwy, Mariola;Janeczek, Henryk;
2:128:13 Photophysical, electrochemical and thermal properties of new (co)polyimides incorporating oxadiazole moieties
DOI:10.1016/j.synthmet.2013.12.012 JN:SYNTHETIC METALS PY:2014 TC:5 AU: Grucela-Zajac, Marzena;Filapek, Michal;Skorka, Lukasz;Bijak, Katarzyna;Smolarek, Karolina;Mackowski, Sebastian;Schab-Balcerzak, Ewa;
2:128:14 Electronic and thermal properties of compounds bearing diimide, azomethine and triphenylamine units
DOI:10.1016/j.optmat.2014.07.020 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: Grucela-Zajac, Marzena;Bijak, Katarzyna;Zaleckas, Ernestas;Grigalevicius, Saulius;Wiacek, Malgorzata;Janeczek, Henryk;Schab-Balcerzak, Ewa;
2:128:15 Synthesis, characterization and hydrolysis of aromatic polyazomethines containing non-coplanar biphenyl structures
DOI:10.1016/j.polymer.2011.01.011 JN:POLYMER PY:2011 TC:18 AU: Chen, Jyh-Chien;Liu, Yen-Chun;Ju, Jyh-Jong;Chiang, Chi-Jui;Chern, Yaw-Tern;
2:128:16 New azomethine-phthalic diimides: Synthesis and thermal, optical and electrochemical characterization
DOI:10.1016/j.synthmet.2013.05.017 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Bijak, Katarzyna;Grucela-Zajac, Marzena;Janeczek, Henryk;Wiacek, Malgorzata;Schab-Balcerzak, Ewa;
2:128:17 Synthesis and AC impedance studies of 2,6-distyrylbenzofuro[5,6-b]furan based new organic semiconductor
DOI:10.1016/j.synthmet.2012.08.013 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Kadac, Kornelia;Bosiak, Mariusz J.;Nowaczyk, Jacek;
2:128:18 Liquid-crystalline phases formed by symmetrical azines with different terminal chains: Thermal, optical and electrical study
DOI:10.1016/j.synthmet.2010.01.035 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Iwan, Agnieszka;Rannou, Patrice;Janeczek, Henryk;Palewicz, Marcin;Hreniak, Agnieszka;Bilski, Pawel;Oswald, Frederic;Pociecha, Damian;
2:128:19 Synthesis, Characterization and Mesomorphic Properties of Unsymmetrical N-[4-(Alkoxy)-2-Hydroxybenzylidene]-N '-(4-Alkoxybenzylidene) Azines and Their Copper (II) Complexes
DOI:10.1080/15421406.2011.607323 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Pandey, Ashwini;Singh, Bachcha;
2:128:20 Electro-active polymers containing electronically isolated N-phenyl-N-naphtylamine fragments
DOI:10.1016/j.synthmet.2013.10.011 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Zaleckas, E.;Zostautiene, R.;Tavgeniene, D.;Grazulevicius, J. V.;Liu, L.;Zhang, B.;Xie, Z.;Grigalevicius, S.;
2:128:21 Liquid Crystalline Properties of Unsymmetrical N-(o-hydroxybenzylidene)-N '-(4-n-alkoxybenzoyloxybenzylidene)azines: Synthesis and Characterization
DOI:10.1080/15421400903483973 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Singh, Bachcha;Pandey, Ashwini;
2:129:1 Realizing Molecular Pixel System for Full-Color Fluorescence Reproduction: RGB-Emitting Molecular Mixture Free from Energy Transfer Crosstalk
DOI:10.1021/ja404256s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:20 AU: Kwon, Ji Eon;Park, Sanghyuk;Park, Soo Young;
2:129:2 Advanced Organic Optoelectronic Materials: Harnessing Excited-State Intramolecular Proton Transfer (ESIPT) Process
DOI:10.1002/adma.201102046 JN:ADVANCED MATERIALS PY:2011 TC:160 AU: Kwon, Ji Eon;Park, Soo Young;
2:129:3 Organic Light-Emitting Diodes with a White-Emitting Molecule: Emission Mechanism and Device Characteristics
DOI:10.1002/adfm.201001779 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:47 AU: Kim, Se Hun;Park, Sanghyuk;Kwon, Ji Eon;Park, Soo Young;
2:129:4 Fine Tuning the Energetics of Excited-State Intramolecular Proton Transfer (ESIPT): White Light Generation in A Single ESIPT System
DOI:10.1021/ja2062693 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:74 AU: Tang, Kuo-Chun;Chang, Ming-Jen;Lin, Tsung-Yi;Pan, Hsiao-An;Fang, Tzu-Chien;Chen, Kew-Yu;Hung, Wen-Yi;Hsu, Yu-Hsiang;Chou, Pi-Tai;
2:129:5 En Route to White-Light Generation Utilizing Nanocomposites Composed of Ultrasmall CdSe Nanodots and Excited-State Intramolecular Proton Transfer Dyes
DOI:10.1021/am200229t JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:11 AU: Peng, Hsin-Chieh;Kang, Chia-Cheng;Liang, Ming-Ren;Chen, Chun-Yen;Demchenko, Alexander;Chen, Chao-Tsen;Chou, Pi-Tai;
2:129:6 Modulation of surface plasmons coupling for enhancement of optical transmittance of silver-coated alkaline-earth metal films
DOI:10.1039/c2jm32244g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:1 AU: Hong, Kihyon;Son, Jun Ho;Kim, Kisoo;Kim, Sungjun;Lee, Illhwan;Lee, Jong-Lam;
2:129:7 Fabrication of Colorless Organic Materials Exhibiting White Luminescence Using Normal and Excited-State Intramolecular Proton Transfer Processes
DOI:10.1021/am200022z JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:40 AU: Shono, Hideaki;Ohkawa, Tatsuya;Tomoda, Haruhiko;Mutai, Toshiki;Araki, Koji;
2:129:8 Bright, emission tunable fluorescent dyes based on imidazole and pi-expanded imidazole
DOI:10.1039/c2jm33891b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:24 AU: Skonieczny, Kamil;Ciuciu, Adina I.;Nichols, Eva M.;Hugues, Vincent;Blanchard-Desce, Mireille;Flamigni, Lucia;Gryko, Daniel T.;
2:129:9 Synthesis and characterization of excited state intramolecular proton transfer based 2-hydroxylaryl imidazole fluorescent materials
DOI:10.1016/j.synthmet.2011.11.009 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Mahajan, Aman;Aulakh, Ramanpreet Kaur;Bedi, R. K.;Kumar, Sandeep;Kumar, Subodh;Aswal, D. K.;
2:129:10 An ESIPT fluorescent dye based on HBI with high quantum yield and large Stokes shift for selective detection of Cys
DOI:10.1039/c4tb00190g JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:10 AU: Zhang, Ying;Wang, Jun-Hao;Zheng, Wenjie;Chen, Tianfeng;Tong, Qing-Xiao;Li, Dan;
2:129:11 A blue-white-yellow color-tunable excited state intramolecular proton transfer (ESIPT) fluorophore: sensitivity to polar-nonpolar solvent ratios
DOI:10.1039/c3tc31526f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Sakai, Ken-ichi;Ishikawa, Takaaki;Akutagawa, Tomoyuki;
2:129:12 Impact of selective thermal annealing on rubrene-C-60 heterojunction solar cells
DOI:10.1016/j.synthmet.2012.10.005 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Pandey, Ajay K.;Nunzi, Jean-Michel;
2:129:13 Hydroxyphenyl-benzothiazole based full color organic emitting materials generated by facile molecular modification
DOI:10.1039/c1jm00009h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:21 AU: Yao, Dandan;Zhao, Shanshan;Guo, Jianhua;Zhang, Zuolun;Zhang, Hongyu;Liu, Yu;Wang, Yue;
2:129:14 FT-Raman and FTIR spectra of photoactive aminobenzazole derivatives in the solid state: A combined experimental and theoretical study
DOI:10.1016/j.matchemphys.2014.08.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Alves, Rodrigo Martins;Rodembusch, Fabiano Severo;Habis, Charles;Moreira, Eduardo Ceretta;
2:129:15 A guanidine derivative of naphthalimide with excited-state deprotonation coupled intramolecular charge transfer properties and its application
DOI:10.1039/c3tc30853g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Zhou, Jin;Liu, Huiying;Jin, Bing;Liu, Xiangjun;Fu, Hongbing;Shangguan, Dihua;
2:129:16 Fluorescent silica hybrid materials containing benzimidazole dyes obtained by sol-gel method and high pressure processing
DOI:10.1016/j.matchemphys.2010.12.002 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:18 AU: Hoffmann, Helena Sofia;Stefani, Valter;Benvenutti, Edilson Valmir;Costa, Tania Maria Haas;Gallas, Marcia Russman;
2:129:17 Ligandless Copper-Catalyzed Coupling of Heteroaryl Bromides with Gaseous Ammonia
DOI:10.1002/adsc.201201010 JN:ADVANCED SYNTHESIS & CATALYSIS PY:2013 TC:4 AU: Fantasia, Serena;Windisch, Johannes;Scalone, Michelangelo;
2:129:18 Optimizing Electron Transfer Mediators Based on Arylimidazoles by Ring Fusion: Synthesis, Electrochemistry, and Computational Analysis of 2-Aryl-1-methylphenanthro[9,10-d]imidazoles
DOI:10.1021/ja410865z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:10 AU: Francke, Robert;Little, R. Daniel;
2:129:19 roton Transfer Dye: Enhancement on the Performance of Bulk Heterojunction Solar Cells
DOI:10.1021/am100126y JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:10 AU: Chen, Dong-Yi;Chen, Chyi-Lin;Cheng, Yi-Ming;Lai, Cheng-Hsuan;Yu, Jian-Yuan;Chen, Bo-So;Hsieh, Cheng-Chih;Chen, Hsieh-Chih;Chen, Li-Yin;Wei, Ching-Yen;Wu, Chung-Chih;Chou, Pi-Tai;
2:129:20 Electroluminescence Characteristics of a New Green-Emitting Phenothiazine Derivative with Biphenyl Benzimidazole Substituent
DOI:10.1080/15421401003608378 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Lee, Sun-Hee;Kim, Man Su;Cha, Yong-Bum;Ahn, Kwang-Hyun;Kim, Young Chul;
2:130:1:1 Analyzing photo-induced interfacial charging in IZO/pentacene/C-60/bathocuproine/Al organic solar cells by electric-field-induced optical second-harmonic generation measurement
DOI:10.1063/1.4728225 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:14 AU: Chen, Xiangyu;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:2 Analyzing carrier lifetime of double-layer organic solar cells by using optical electric-field-induced second-harmonic generation measurement
DOI:10.1063/1.3574002 JN:APPLIED PHYSICS LETTERS PY:2011 TC:25 AU: Taguchi, Dai;Shino, Tatsunori;Chen, Xiangyu;Zhang, Le;Li, Jun;Weis, Martin;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:3 Transport limited interfacial carrier relaxation in a double-layer device investigated by time-resolved second harmonic generation and impedance spectroscopy
DOI:10.1063/1.3560054 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Zhang, Le;Taguchi, Dai;Li, Jun;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:4 Probing of interfacial charging and discharging in double-layer devices with a polyimide blocking layer by time-resolved optical second harmonic generation
DOI:10.1063/1.3483929 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:23 AU: Zhang, Le;Taguchi, Dai;Li, Jun;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:5 Analyzing photovoltaic effect of double-layer organic solar cells as a Maxwell-Wagner effect system by optical electric-field-induced second-harmonic generation measurement
DOI:10.1063/1.3662914 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Taguchi, Dai;Shino, Tatsunori;Chen, Xiangyu;Zhang, Le;Li, Jun;Weis, Martin;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:6 Bulk-trap modulated Maxwell-Wagner type interfacial carrier relaxation process in a fullerene/polyimide double-layer device investigated by time-resolved second harmonic generation
DOI:10.1063/1.3610952 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Zhang, Le;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:7 Direct probing of the selective electron and hole accumulation at organic/organic interfaces in a triple-layer organic device by time-resolved optical second harmonic generation
DOI:10.1063/1.3626851 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Zhang, Le;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:8 Analysis of interface carrier accumulation and relaxation in pentacene/C-60 double-layer organic solar cell by impedance spectroscopy and electric-field-induced optical second harmonic generation
DOI:10.1063/1.3642964 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:15 AU: Chen, Xiangyu;Taguchi, Dai;Shino, Tatsunori;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:9 Selective observation of photo-induced electric fields inside different material components in bulk-heterojunction organic solar cell
DOI:10.1063/1.4861620 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Chen, Xiangyu;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:10 Study of interface layer effect in organic solar cells by electric-field-induced optical second-harmonic generation measurement
DOI:10.1016/j.tsf.2013.05.056 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Taguchi, Dai;Sumiyoshi, Ryota;Chen, Xiangyu;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:11 Interfacial charging of copper phthalocyanine/C-60 double-layer organic solar cells induced by photoillumination: Effect of photoconductivity change
DOI:10.1016/j.tsf.2013.04.094 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Chen, Xiangyu;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:12 Direct observation of space charge field in tetracene field-effect transistor using time-resolved microscopic optical second harmonic generation
DOI:10.1063/1.3554835 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Satou, Hideki;Ohshima, Yuki;Kohn, Hideki;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:1:13 Investigate the role of the active layers' structures and morphology in the performance of the organic solar cell devices
DOI:10.1063/1.4793201 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Rahimi, Ronak;Roberts, Alex;Narang, V.;Korakakis, D.;
2:130:2:1 Direct probing of selective electron and hole accumulation processes along the channel of an ambipolar double-layer field-effect transistor by optical modulation spectroscopy
DOI:10.1063/1.3692581 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Zhang, Le;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:2:2 Spatially Mapping Charge Carrier Density and Defects in Organic Electronics Using Modulation-Amplified Reflectance Spectroscopy
DOI:10.1002/adma.201400859 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Davis, Andrew R.;Pye, Lorelle N.;Katz, Noam;Hudgings, Janice A.;Carter, Kenneth R.;
2:130:2:3 Exploiting optical properties of P3HT:PCBM films for organic solar cells with semitransparent anode
DOI:10.1016/j.tsf.2010.05.021 JN:THIN SOLID FILMS PY:2010 TC:23 AU: Lee, W. H.;Chuang, S. Y.;Chen, H. L.;Su, W. F.;Lin, C. H.;
2:130:2:4 Modelling of optical transport behavior of organic photovoltaic devices with nano-pillar transparent conducting electrodes
DOI:10.1063/1.4893560 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Jagdish, A. K.;Ramamurthy, Praveen C.;Mahapatra, D. Roy;Hegde, Gopalkrishna;
2:130:3:1 Capacitance-voltage characteristics of a 4,4 '-bis[(N-carbazole)styryl]biphenyl based organic light-emitting diode: Implications for characteristic times and their distribution
DOI:10.1063/1.4819436 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Zhang, Le;Nakanotani, Hajime;Adachi, Chihaya;
2:130:3:2 Suppression of roll-off characteristics of electroluminescence at high current densities in organic light emitting diodes by introducing reduced carrier injection barriers
DOI:10.1063/1.3488883 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Setoguchi, Yousuke;Adachi, Chihaya;
2:130:3:3 Improvement of Current Efficiency at High Field Regime Via Description of Roll-off Characteristic in Model Device of OLEDs
DOI:10.1080/15421406.2014.935926 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kim, Hyeok;Park, Jaehoon;Park, Gyeong-Tae;Nam, Youngmin;Kim, Seongmin;Kim, Sungjin;Song, Dong-Seok;Kim, Jae-Hyun;Kwon, Jin-Hyuk;Kang, In-Man;Park, Suyeon;Lee, Changhee;Lee, Doh-Kwon;Bae, Jin-Hyuk;
2:130:4:1 Influence of traps on transient electric field and mobility evaluation in organic field-effect transistors
DOI:10.1063/1.3285503 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Manaka, Takaaki;Liu, Fei;Weis, Martin;Iwamoto, Mitsumasa;
2:130:4:2 Modeling carrier transport and electric field evolution in Gaussian disordered organic field-effect transistors
DOI:10.1063/1.3590154 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Liu, Fei;Lin, Jack;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:4:3 Probing and modeling of interfacial carrier motion in organic devices by optical second harmonic generation
DOI:10.1116/1.3454371 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:12 AU: Iwamoto, Mitsumasa;Manaka, Takaaki;Weis, Martin;Taguchi, Dai;
2:130:4:4 Carrier injection from polypyrrole coated gold electrode in pentacene field effect transistors
DOI:10.1016/j.synthmet.2010.07.041 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Mir, Irfan A.;Ahuja, Tarushee;Kumar, Devendra;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:4:5 Master equation model for Gaussian disordered organic field-effect transistors
DOI:10.1063/1.4818497 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Liu, Fei;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:5:1 Probing interfacial charge accumulation in ITO/alpha-NPD/Alq(3)/Al diodes under two electroluminescence operational modes by electric-field induced optical second-harmonic generation
DOI:10.1063/1.4762014 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Sadakata, Atsuo;Osada, Kenshiro;Taguchi, Dai;Yamamoto, Tetsuya;Fukuzawa, Masahiro;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:5:2 Analyzing two electroluminescence modes of indium tin oxide/alpha-NPD/Alq(3)/Al diodes by using large alternating current square voltages
DOI:10.1063/1.3662149 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Sadakata, Atsuo;Taguchi, Dai;Yamamoto, Tetsuya;Fukuzawa, Masahiro;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:5:3 Probing space charge effect on electroluminescence of indium tin oxide (ITO)/N,N '-di-[(1-naphthyl)-N,N '-diphenyl]-(1,1 '-biphenyl)-4,4 '-diamine (alpha-NPD)/tris(8-hydroxy-quinolinato) aluminum (III) (Alq(3))/Al diodes by time-resolved electric-field-induced optical second-harmonic generation measurement
DOI:10.1016/j.tsf.2013.08.015 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Sadakata, Atsuo;Osada, Kenshiro;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:5:4 Electroluminescence Enhanced from Electrode Interface in ITO/Tetracene/Al Diodes
DOI:10.1080/15421406.2011.563671 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Sadakata, Atsuo;Ohshima, Yuki;Taguchi, Dai;Fukuzawa, Masahiro;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:130:6:1 Spectroscopic investigation of excitons, photocarriers, and bias-induced carriers in regioregular poly(3-alkylthiophene)
DOI:10.1103/PhysRevB.83.205203 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Kanemoto, Katsuichi;Yasui, Motoaki;Higuchi, Tatsuya;Kosumi, Daisuke;Akai, Ichiro;Karasawa, Tsutomu;Hashimoto, Hideki;
2:130:6:2 Determination of photocarrier density under continuous photoirradiation using spectroscopic techniques as applied to polymer: Fullerene blend films
DOI:10.1063/1.4899609 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Kanemoto, Katsuichi;Nakatani, Hitomi;Domoto, Shinya;
2:130:6:3 Direct optical probing of negative carriers from an operating [6,6]-phenyl C61 butyric acid methyl ester diode
DOI:10.1063/1.3467007 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Kanemoto, Katsuichi;Ogata, Akihiko;Inoue, Nobuyuki;Kusumoto, Toshiyuki;Hashimoto, Hideki;Akai, Ichiro;Karasawa, Tsutomu;
2:131:1:1 Lasing effect in a hybrid dye-doped biopolymer and photochromic polymer system
DOI:10.1063/1.3377912 JN:APPLIED PHYSICS LETTERS PY:2010 TC:23 AU: Mysliwiec, Jaroslaw;Sznitko, Lech;Sobolewska, Anna;Bartkiewicz, Stanislaw;Miniewicz, Andrzej;
2:131:1:2 Biopolymer based system doped with nonlinear optical dye as a medium for amplified spontaneous emission and lasing
DOI:10.1063/1.3610566 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Sznitko, Lech;Mysliwiec, Jaroslaw;Karpinski, Pawel;Palewska, Krystyna;Parafiniuk, Kacper;Bartkiewicz, Stanislaw;Rau, Ileana;Kajzar, Francois;Miniewicz, Andrzej;
2:131:1:3 Low threshold amplified spontaneous emission from dye-doped DNA biopolymer
DOI:10.1063/1.4728218 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Hung, Yu-Chueh;Su, Che-Hsuan;Huang, Hsien-Wen;
2:131:1:4 Effect of deoxyribonucleic acid on nonlinear optical properties of Rhodamine 6G-polyvinyl alcohol solution
DOI:10.1063/1.3520657 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:13 AU: Nithyaja, B.;Misha, H.;Radhakrishnan, P.;Nampoori, V. P. N.;
2:131:1:5 Amplified spontaneous emission of 3-(1,1-dicyanoethenyl)-1-phenyl-4,5-dihydro-1H-pyrazole molecule embedded in various polymer matrices
DOI:10.1016/j.optmat.2012.01.041 JN:OPTICAL MATERIALS PY:2012 TC:9 AU: Mysliwiec, Jaroslaw;Sznitko, Lech;Szukalski, Adam;Parafiniuk, Kacper;Bartkiewicz, Stanislaw;Miniewicz, Andrzej;Sahraoui, Bouchta;Rau, Ileana;Kajzar, Francois;
2:131:1:6 Amplified spontaneous emission of Rhodamine 6G embedded in pure deoxyribonucleic acid
DOI:10.1063/1.4764535 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Rau, Ileana;Szukalski, Adam;Sznitko, Lech;Miniewicz, Andrzej;Bartkiewicz, Stanislaw;Kajzar, Francois;Sahraoui, Bouchta;Mysliwiec, Jaroslaw;
2:131:1:7 Light amplification in DNA-surfactant complex films stained by hemicyanine dye with immersion method
DOI:10.1364/OME.4.001411 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:1 AU: Suzuki, Takemasa;Kawabe, Yutaka;
2:131:1:8 Influence of surfactant on dynamics of photoinduced motions and light emission of a dye-doped deoxyribonucleic
DOI:10.1016/j.optmat.2013.06.038 JN:OPTICAL MATERIALS PY:2013 TC:5 AU: Sznitko, Lech;Parafiniuk, Kacper;Miniewicz, Andrzej;Rau, Ileana;Kajzar, Francois;Niziol, Jacek;Hebda, Edyta;Pielichowski, Jan;Sahraoui, Bouchta;Mysliwiec, Jaroslaw;
2:131:1:9 A significant improvement of luminance vs current density efficiency of a BioLED
DOI:10.1016/j.optmat.2014.01.018 JN:OPTICAL MATERIALS PY:2014 TC:3 AU: Grykien, Remigiusz;Luszczynska, Beata;Glowacki, Ireneusz;Ulanski, Jacek;Kajzar, Francois;Zgarian, Roxana;Rau, Ileana;
2:131:1:10 Physically Transient Photonics: Random versus Distributed Feedback Lasing Based on Nanoimprinted DNA
DOI:10.1021/nn504720b JN:ACS NANO PY:2014 TC:2 AU: Camposeo, Andrea;Del Carro, Pompilio;Persano, Luana;Cyprych, Konrad;Szukalski, Adam;Sznitko, Lech;Mysliwiec, Jaroslaw;Pisignano, Dario;
2:131:1:11 Transient grating formation in azo-doped polymer and its application to DNA-based tunable dye laser
DOI:10.1016/j.optmat.2013.11.027 JN:OPTICAL MATERIALS PY:2014 TC:4 AU: Chida, Toshifumi;Kawabe, Yutaka;
2:131:1:12 Influence of temperature on dynamics of birefringence switching in photochromic nematic phase
DOI:10.1063/1.3665123 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Mysliwiec, Jaroslaw;Czajkowski, Maciej;Bartkiewicz, Stanislaw;Zygadlo, Krystian;Galewski, Zbigniew;Sahraoui, Bouchta;
2:131:1:13 Distributed feedback laser action in reflection geometry from a dye-doped polymer film
DOI:10.1016/j.optmat.2012.02.037 JN:OPTICAL MATERIALS PY:2012 TC:2 AU: Chen, Fei;Nunzi, Jean-Michel;
2:131:1:14 Enhancement of linear and nonlinear optical properties of deoxyribonucleic acid-silica thin films doped with rhodamine
DOI:10.1063/1.3669406 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Sahraoui, Bouchta;Pranaitis, Mindaugas;Iliopoulos, Konstantinos;Mihaly, Maria;Comanescu, Alina F.;Moldoveanu, Mirela;Rau, Ileana;Kazukauskas, Vaidotas;
2:131:1:15 Effect of betanin natural dye extracted from red beet root on the non linear optical properties ZnO nanoplates embedded in polymeric matrices
DOI:10.1063/1.4768930 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:9 AU: Thankappan, Aparna;Thomas, Sheenu;Nampoori, V. P. N.;
2:131:1:16 Plastic evanescent microlaser
DOI:10.1063/1.3651294 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Kobayashi, Takeyuki;Byrne, Nuala;
2:131:2:1 Color-tunable multilayer organic light emitting diode composed of DNA complex and tris(8-hydroxyquinolinato)aluminum
DOI:10.1063/1.3512861 JN:APPLIED PHYSICS LETTERS PY:2010 TC:27 AU: Nakamura, Kazuki;Ishikawa, Takayuki;Nishioka, Daisuke;Ushikubo, Takahiro;Kobayashi, Norihisa;
2:131:2:2 Enhanced fluorescence of isophorone derivatives in DNA based materials
DOI:10.1016/j.optmat.2013.04.021 JN:OPTICAL MATERIALS PY:2013 TC:6 AU: Massin, Julien;Parola, Stephane;Andraud, Chantal;Kajzar, Francois;Rau, Ileana;
2:131:2:3 Tunable photo-luminescent properties of novel transparent CdSe-QD/silicone nanocomposites
DOI:10.1016/j.compscitech.2011.07.015 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:10 AU: Yang, Yang;Shi, Han-Qiao;Li, Wan-Nan;Xiao, Hong-Mei;Luo, Yong-Song;Fu, Shao-Yun;Liu, Tianxi;
2:131:2:4 Voltage-induced electroluminescence characteristics of hybrid light-emitting diodes with CdSe/Cd/ZnS core-shell nanoparticles embedded in a conducting polymer on plastic substrates
DOI:10.1063/1.4868643 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kwak, Kiyeol;Cho, Kyoungah;Kim, Sangsig;
2:131:2:5 Non-volatile transistor memory fabricated using DNA and eliminating influence of mobile ions on electric properties
DOI:10.1039/c1jm12229k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Yukimoto, Tomoyoshi;Uemura, Sei;Kamata, Toshihide;Nakamura, Kazuki;Kobayashi, Norihisa;
2:131:2:6 Chromophore design for large two-photon absorption
DOI:10.1016/j.optmat.2014.08.023 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Dudley, Christopher;
2:131:3:1 Thermal treatment effects imposed on solid DNA cationic lipid complex with hexadecyltrimethylammonium chloride, observed by variable angle spectroscopic ellipsometry
DOI:10.1063/1.4904196 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Niziol, Jacek;
2:131:3:2 Opportunities of deoxyribonucleic acid complexes composites for nonlinear optical applications
DOI:10.1063/1.3655985 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Sahraoui, B.;Pranaitis, M.;Gindre, D.;Niziol, J.;Kazukauskas, V.;
2:131:3:3 Hydration effect on solid DNA-didecyldimethylammonium chloride complexes measured using H-1-nuclear magnetic resonance spectroscopy
DOI:10.1063/1.4824374 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Niziol, J.;Haranczyk, H.;Kobierski, J.;Hebda, E.;Pielichowski, J.;Ostachowicz, B.;
2:131:3:4 Biopolymer Thin Films for Optoelectronics Applications
DOI:10.1080/15421401003722757 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:6 AU: Popescu, Roxana;Pirvu, Cristian;Moldoveanu, Mirela;Grote, James G.;Kajzar, Francois;Rau, Ileana;
2:131:3:5 Stability of Selected Chromophores in Biopolymer Matrix
DOI:10.1080/15421406.2012.633025 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:4 AU: Rau, Ileana;Tane, Alexandrina;Zgarian, Roxana;Meghea, Aurelia;Grote, James G.;Kajzar, Francois;
2:131:3:6 Deoxyribonucleic acid-ceramic hybrid dielectrics for potential application as gate insulators in organic field effect transistors
DOI:10.1063/1.4821019 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Ouchen, Fahima;Venkat, Narayanan;Joyce, Donna M.;Singh, Kristi M.;Smith, Steven R.;Yaney, Perry P.;Heckman, Emily M.;Bartsch, Carrie M.;Grote, James G.;
2:131:3:7 Mild hydration of didecyldimethylammonium chloride modified DNA by 1H-nuclear magnetic resonance and by sorption isotherm
DOI:10.1063/1.4789011 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Haranczyk, H.;Kobierski, J.;Niziol, J.;Hebda, E.;Pielichowski, J.;Zalitacz, D.;Marzec, M.;El-Ghayoury, A.;
2:131:3:8 On the Stability and Degradation of DNA Based Thin Films
DOI:10.1080/15421401003723086 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Moldoveanu, Mirela;Meghea, Aurelia;Popescu, Roxana;Grote, James G.;Kajzar, Francois;Rau, Ileana;
2:131:3:9 Usability of epoxy resins in conjunction with carbazole dyes in non-linear optics applications
DOI:10.1016/j.optmat.2010.01.035 JN:OPTICAL MATERIALS PY:2010 TC:7 AU: Niziol, Jacek;Pielichowski, Jan;
2:131:4:1 Functional DNA biopolymers and nanocomposite for optoelectronic applications
DOI:10.1016/j.optmat.2012.01.035 JN:OPTICAL MATERIALS PY:2012 TC:11 AU: Hung, Yu-Chueh;Lin, Ting-Yu;Hsu, Wei-Ting;Chiu, Yi-Wen;Wang, Yu-Sheng;Fruk, Ljiljana;
2:131:4:2 Photoinduced write-once read-many-times memory device based on DNA biopolymer nanocomposite
DOI:10.1063/1.3671153 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Hung, Yu-Chueh;Hsu, Wei-Ting;Lin, Ting-Yu;Fruk, Ljiljana;
2:131:4:3 Thermal annealing effect on physical properties of DNA-CTMA thin films
DOI:10.1016/j.optmat.2013.06.022 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Niziol, Jacek;Dendzik, Maciej;Sitarz, Maciej;Hebda, Edyta;Pielichowski, Jan;Lojewska, Joanna;Rogulska, Anna;Bakasse, Mina;
2:131:4:4 Hole mobility characterization of DNA biopolymer by time-of-flight technique
DOI:10.1063/1.4758477 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Lin, Ting-Yu;Chen, I-Ching;Hung, Yu-Chueh;
2:131:4:5 DNA biopolymer conductive cladding for polymer electro-optic waveguide modulators
DOI:10.1063/1.3562953 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Heckman, Emily M.;Aga, Roberto S.;Rossbach, Adam T.;Telek, Brian A.;Bartsch, Carrie M.;Grote, James G.;
2:131:4:6 Dielectric Tunability of DNA Biopolymer Films with Varying Amounts of Hexadecyltrimethylammonium Chloride
DOI:10.1007/s11664-012-2347-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:0 AU: Aga, Roberto S., Jr.;Telek, Brian A.;Lombardi, Jack P., III;Heckman, Emily M.;Bartsch, Carrie M.;
2:132:1 The Nature of In-Plane Skeleton Raman Modes of P3HT and Their Correlation to the Degree of Molecular Order in P3HT:PCBM Blend Thin Films
DOI:10.1021/ja2013104 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:70 AU: Tsoi, Wing C.;James, David T.;Kim, Jong Soo;Nicholson, Patrick G.;Murphy, Craig E.;Bradley, Donal D. C.;Nelson, Jenny;Kim, Ji-Seon;
2:132:2 Effects of a Heavy Atom on Molecular Order and Morphology in Conjugated Polymer:Fullerene Photovoltaic Blend Thin Films and Devices
DOI:10.1021/nn304024g JN:ACS NANO PY:2012 TC:26 AU: Tsoi, Wing C.;James, David T.;Domingo, Ester Buchaca;Kim, Jong Soo;Al-Hashimi, Mohammed;Murphy, Craig E.;Stingelin, Natalie;Heeney, Martin;Kim, Ji-Seon;
2:132:3 Enhanced Air Stability of Polymer Solar Cells with a Nanofibril-Based Photoactive Layer
DOI:10.1021/am501034g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Oh, Jin Young;Shin, Minkwan;Lee, Hyun Woo;Lee, Yu-Jeong;Baik, Hong Koo;Jeong, Unyong;
2:132:4 Morphology Related Photodegradation of Low-Band-Gap Polymer Blends
DOI:10.1002/aenm.201400497 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Wang, Xiao;Egelhaaf, Hans-Joachim;Mack, Hans-Georg;Azimi, Hamed;Brabec, Christoph J.;Meixner, Alfred J.;Zhang, Dai;
2:132:5 In-situ monitoring of molecular vibrations of two organic semiconductors in photovoltaic blends and their impact on thin film morphology
DOI:10.1063/1.4803912 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Tsoi, Wing C.;Zhang, Weimin;Hollis, Joseph Razzell;Suh, Minwon;Heeney, Martin;McCulloch, Iain;Kim, Ji-Seon;
2:132:6 High-Resolution Spectroscopic Mapping of the Chemical Contrast from Nanometer Domains in P3HT:PCBM Organic Blend Films for Solar-Cell Applications
DOI:10.1002/adfm.200901930 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:43 AU: Wang, Xiao;Zhang, Dai;Braun, Kai;Egelhaaf, Hans-Joachim;Brabec, Christoph J.;Meixner, Alfred J.;
2:132:7 Interfacial molecular order of conjugated polymer in P3HT:ZnO bilayer photovoltaics and its impact on device performance
DOI:10.1063/1.4824847 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Wood, Sebastian;Franklin, Joseph B.;Stavrinou, Paul N.;McLachlan, Martyn A.;Kim, Ji-Seon;
2:132:8 Scanning Angle Raman Spectroscopy of Poly(3-hexylthiophene)-Based Films on Indium Tin Oxide, Gold, and Sapphire Surfaces
DOI:10.1021/am4023225 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Meyer, Matthew W.;Larson, Kelsey L.;Mahadevapuram, Rakesh C.;Lesoine, Michael D.;Carr, John A.;Chaudhary, Sumit;Smith, Emily A.;
2:132:9 Raman and low temperature photoluminescence spectroscopy of polymer disorder in bulk heterojunction solar cell films
DOI:10.1063/1.4747320 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Carach, C.;Riisness, I.;Gordon, M. J.;
2:132:10 Photochemical stability of high efficiency PTB7:PC70BM solar cell blends
DOI:10.1039/c4ta05641h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Razzell-Hollis, Joseph;Wade, Jessica;Tsoi, Wing Chung;Soon, Ying;Durrant, James;Kim, Ji-Seon;
2:132:11 Chain ordering of regioregular polythiophene films through blending with a nickel bisdithiolene complex
DOI:10.1063/1.4868106 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Hernandez-Maldonado, D.;Ramos, B.;Villeneuve-Faure, C.;Bedel-Pereira, E.;Seguy, I.;Sournia-Saquet, A.;Alary, F.;Heully, J. L.;Ching, K. I. Moineau-Chane;
2:132:12 Directly probing the molecular order of conjugated polymer in OPV blends induced by different film thicknesses, substrates and additives
DOI:10.1039/c3tc31245c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Razzell-Hollis, Joseph;Tsoi, Wing Chung;Kim, Ji-Seon;
2:132:13 Charge mobility anisotropy of functionalized pentacenes in organic field effect transistors fabricated by solution processing
DOI:10.1039/c4tc01353k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Wade, Jessica;Steiner, Florian;Niedzialek, Dorota;James, David T.;Jung, Youngsuk;Yun, Dong-Jin;Bradley, Donal D. C.;Nelson, Jenny;Kim, Ji-Seon;
2:132:14 Probing the Nanoscale Phase Separation and Photophysics Properties of Low-Bandgap Polymer: Fullerene Blend Film by Near-Field Spectroscopic Mapping
DOI:10.1002/smll.201101000 JN:SMALL PY:2011 TC:6 AU: Wang, Xiao;Azimi, Hamed;Mack, Hans-Georg;Morana, Mauro;Egelhaaf, Hans-Joachim;Meixner, Alfred J.;Zhang, Dai;
2:132:15 Enhanced Nanoscale Imaging of Polymer Blends by Temperature-Controlled Selective Dissolution
DOI:10.1002/smll.201101860 JN:SMALL PY:2012 TC:1 AU: Friedel, Bettina;Ehrler, Bruno;Huettner, Sven;Greenham, Neil C.;
2:132:16 Vertical concentration gradients in bulk heterojunction solar cells induced by differential material solubility
DOI:10.1016/j.tsf.2010.11.054 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Susarova, Diana K.;Troshin, Pavel A.;Moskvin, Yuriy L.;Babenko, Sergey D.;Razumov, Vladimir F.;
2:132:17 Characterization of P3HT:PCBM Thin Film Interfaces by Doubly Resonant Sum-Frequency Generation Spectroscopy
DOI:10.1080/15421406.2014.931781 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Miyamae, Takayuki;Shimoi, Yukihiro;
2:133:1 All-aromatic liquid crystal triphenylamine-based poly(azomethine)s as hole transport materials for opto-electronic applications
DOI:10.1039/b919159c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:60 AU: Hindson, James C.;Ulgut, Burak;Friend, Richard H.;Greenham, Neil C.;Norder, Ben;Kotlewski, Arek;Dingemans, Theo J.;
2:133:2 Polythiophenoazomethines - alternate photoactive materials for organic photovoltaics
DOI:10.1039/c4ta03202k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Bolduc, Andreanne;Barik, Satyananda;Lenze, Martin R.;Meerholz, Klaus;Skene, W. G.;
2:133:3 Opto(electrical) properties of new aromatic polyazomethines with fluorene moieties in the main chain for polymeric photovoltaic devices
DOI:10.1016/j.synthmet.2011.11.024 JN:SYNTHETIC METALS PY:2012 TC:31 AU: Iwan, Agnieszka;Palewicz, Marcin;Chuchmala, Andrzej;Gorecki, Lech;Sikora, Andrzej;Mazurek, Boleslaw;Pasciak, Grzegorz;
2:133:4 Surface-nanostructured cactus-like carbon microspheres for efficient photovoltaic devices
DOI:10.1039/c4ta02979h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Qiu, Longbin;Jiang, Yi;Sun, Xuemei;Liu, Xikui;Peng, Huisheng;
2:133:5 Investigation of optical and electrical properties of new aromatic polyazomethine with thiophene and cardo moieties toward application in organic solar cells
DOI:10.1016/j.synthmet.2013.10.008 JN:SYNTHETIC METALS PY:2013 TC:12 AU: Iwan, Agnieszka;Schab-Balcerzak, Ewa;Korona, Krzysztof P.;Grankowska, Sylwia;Kaminska, Maria;
2:133:6 New air-stable aromatic polyazomethines with triphenylamine or phenylenevinylene moieties towards photovoltaic application
DOI:10.1016/j.synthmet.2014.07.004 JN:SYNTHETIC METALS PY:2014 TC:9 AU: Iwan, Agnieszka;Boharewicz, Bartosz;Parafiniuk, Kacper;Tazbir, Igor;Gorecki, Lech;Sikora, Andrzej;Filapek, Michal;Schab-Balcerzak, Ewa;
2:133:7 Small-molecule azomethines: organic photovoltaics via Schiff base condensation chemistry
DOI:10.1039/c4ta01629g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:9 AU: Petrus, M. L.;Bouwer, R. K. M.;Lafont, U.;Athanasopoulos, S.;Greenham, N. C.;Dingemans, T. J.;
2:133:8 New glass forming triarylamine based azomethines as a hole transport materials: Thermal, optical and electrochemical properties
DOI:10.1016/j.optmat.2012.02.014 JN:OPTICAL MATERIALS PY:2012 TC:14 AU: Sek, Danuta;Grucela-Zajac, Marzena;Krompiec, Michal;Janeczek, Henryk;Schab-Balcerzak, Ewa;
2:133:9 Vertically standing nanowalls of pristine poly(azomethine) on a graphite by chemical liquid deposition
DOI:10.1016/j.polymer.2013.04.065 JN:POLYMER PY:2013 TC:4 AU: Higuchi, Rintaro;Tanoue, Ryota;Sakaguchi, Kazuki;Yanai, Kaiyo;Uemura, Shinobu;Kunitake, Masashi;
2:133:10 Characterization, liquid crystalline behavior, electrochemical and optoelectrical properties of new poly(azomethine)s and a poly(imide) with siloxane linkages
DOI:10.1016/j.optmat.2011.07.004 JN:OPTICAL MATERIALS PY:2011 TC:15 AU: Iwan, Agnieszka;Schab-Balcerzak, Ewa;Pociecha, Damian;Krompiec, Michal;Grucela, Marzena;Bilski, Pawel;Klosowski, Mariusz;Janeczek, Henryk;
2:133:11 Optical and electrochemical properties of three-dimensional conjugated triphenylamine-azomethine molecules
DOI:10.1016/j.synthmet.2012.04.024 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Sek, Danuta;Lapkowski, Mieczyslaw;Dudek, Helena;Karon, Krzysztof;Janeczek, Henryk;Jarzabek, Bozena;
2:133:12 A study of thermal, optical and electrical properties of new branched triphenylamine-based polyazomethines
DOI:10.1016/j.synthmet.2010.07.026 JN:SYNTHETIC METALS PY:2010 TC:17 AU: Sek, Danuta;Jarzabek, Bozena;Grabiec, Eugenia;Kaczmarczyk, Bozena;Janeczek, Henryk;Sikora, Andrzej;Hreniak, Agnieszka;Palewicz, Marcin;Lapkowski, Mieczyslaw;Karon, Krzysztof;Iwan, Agnieszka;
2:133:13 Aliphatic-aromatic poly(azomethine)s with ester groups as thermotropic materials for opto(electronic) applications
DOI:10.1016/j.synthmet.2010.06.029 JN:SYNTHETIC METALS PY:2010 TC:25 AU: Iwan, Agnieszka;Palewicz, Marcin;Sikora, Andrzej;Chmielowiec, Jacek;Hreniak, Agnieszka;Pasciak, Grzegorz;Bilski, Pawel;
2:133:14 Impedance Spectroscopy of Siloxane-Containing Polyazomethines Blended with SiO2
DOI:10.1002/app.38254 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:0 AU: Chuchmala, Andrzej;Hreniak, Agnieszka;Palewicz, Marcin;Iwan, Agnieszka;
2:133:15 A study of optical properties and annealing effect on the absorption edge of pristine- and iodine-doped polyazomethine thin films
DOI:10.1016/j.synthmet.2011.03.002 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Jarzabek, Bozena;Weszka, Jan;Hajduk, Barbara;Jurusik, Jan;Domanski, Marian;Cisowski, Jan;
2:133:16 The effect of heat treatment on the optical properties of thin films of polyazomethine with flexible-side chains
DOI:10.1016/j.jnoncrysol.2013.07.034 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:1 AU: Jarzabek, B.;Kaczmarczyk, B.;Jurusik, J.;Weszka, J.;
2:133:17 Structure-properties relationship of linear and star-shaped imines with triphenylamine moieties as hole-transporting materials
DOI:10.1016/j.optmat.2010.06.013 JN:OPTICAL MATERIALS PY:2010 TC:17 AU: Sek, Danuta;Grabiec, Eugenia;Janeczek, Henryk;Jarzabek, Bozena;Kaczmarczyk, Bozena;Domanski, Marian;Iwan, Agnieszka;
2:133:18 Band-gap tuning of pendant polymers for organic light-emitting devices and photovoltaic applications
DOI:10.1016/j.synthmet.2011.02.013 JN:SYNTHETIC METALS PY:2011 TC:17 AU: Gupta, Akhil;Watkins, Scott E.;Scully, Andrew D.;Singh, Th. Birendra;Wilson, Gerard J.;Rozanski, Lynn J.;Evans, Richard A.;
2:133:19 Optical properties of thin films of polyazomethine with flexible side chains
DOI:10.1016/j.jnoncrysol.2013.05.013 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:3 AU: Jarzabek, B.;Kaczmarczyk, B.;Jurusik, J.;Siwy, M.;Weszka, J.;
2:133:20 A new imine coupled pyrrole-carbazole-pyrrole polymer: Electra-optical properties and electrochromism
DOI:10.1016/j.polymer.2010.02.020 JN:POLYMER PY:2010 TC:24 AU: Is, Ozde Deniz;Koyuncu, Fatma Baycan;Koyuncu, Sermet;Ozdemir, Eyup;
2:133:21 New heteroaromatic polyazomethines containing naphthyridine moieties: Synthesis, characterization, and biological screening
DOI:10.1002/app.36395 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Hussein, Mahmoud A.;Abdel-Rahman, Mona A.;Geies, Ahmed A.;
2:133:22 Unusual band-gap migration of N-alkylcarbazole-thiophene derivative
DOI:10.1016/j.optmat.2011.02.018 JN:OPTICAL MATERIALS PY:2011 TC:13 AU: Lapkowski, M.;Data, P.;Golba, S.;Soloducho, J.;Nowakowska-Oleksy, A.;
2:134:1 Emerging Applications of Carbon Nanotubes
DOI:10.1021/cm102406h JN:CHEMISTRY OF MATERIALS PY:2011 TC:220 AU: Schnorr, Jan M.;Swager, Timothy M.;
2:134:2 Highly conductive and transparent carbon nanotube composite thin films deposited on polyethylene terephthalate solution dipping
DOI:10.1016/j.tsf.2009.11.021 JN:THIN SOLID FILMS PY:2010 TC:27 AU: Xiao, Gaozhi;Tao, Ye;Lu, Jianping;Zhang, Zhiyi;
2:134:3 Flexible organic light-emitting diodes with transparent carbon nanotube electrodes: problems and solutions
DOI:10.1088/0957-4484/21/15/155202 JN:NANOTECHNOLOGY PY:2010 TC:30 AU: Hu, Liangbing;Li, Jianfeng;Liu, Jun;Gruener, George;Marks, Tobin;
2:134:4 Modification of carbon nanotube transparent conducting films for electrodes in organic light-emitting diodes
DOI:10.1088/0957-4484/24/43/435201 JN:NANOTECHNOLOGY PY:2013 TC:6 AU: Gao, Jing;Mu, Xue;Li, Xiao-Yun;Wang, Wen-Yi;Meng, Yan;Xu, Xiao-Bing;Chen, Li-Ting;Cui, Li-Jun;Wu, Xiaoming;Geng, Hong-Zhang;
2:134:5 Single wall carbon nanotube/poly(3,4-ethylenedioxythiophene) nanocomposite film as a transparent electrode for flexible organic light-emitting diodes
DOI:10.1016/j.synthmet.2014.09.033 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Kim, Mansu;Kim, Young Chul;
2:134:6 Sheet resistance, transmittance, and chromatic property of CNTs coated with PEDOT:PSS films for transparent electrodes of touch screen panels
DOI:10.1016/j.tsf.2014.08.015 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Kim, Bu-Jong;Han, Sang-Hoon;Park, Jin-Seok;
2:134:7 Silver/germanium/silver: an effective transparent electrode for flexible organic light-emitting devices
DOI:10.1039/c3tc31927j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Liu, Shihao;Liu, Wenbo;Yu, Jing;Zhang, Wei;Zhang, Letian;Wen, Xuemei;Yin, Yongming;Xie, Wenfa;
2:134:8 A solution processed top emission OLED with transparent carbon nanotube electrodes
DOI:10.1088/0957-4484/21/13/134020 JN:NANOTECHNOLOGY PY:2010 TC:22 AU: Chien, Yu-Mo;Lefevre, Florent;Shih, Ishiang;Izquierdo, Ricardo;
2:134:9 Lambertian white top-emitting organic light emitting device with carbon nanotube cathode
DOI:10.1063/1.4767439 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Freitag, P.;Zakhidov, Al A.;Luessem, B.;Zakhidov, A. A.;Leo, K.;
2:134:10 Flexible electroluminescent device with inkjet-printed carbon nanotube electrodes
DOI:10.1088/0957-4484/23/34/344003 JN:NANOTECHNOLOGY PY:2012 TC:17 AU: Azoubel, Suzanna;Shemesh, Shay;Magdassi, Shlomo;
2:134:11 Surface-Selective Directed Assembly of Carbon Nanotubes Using Side-Chain Functionalized Poly(thiophene)s
DOI:10.1021/cm401881w JN:CHEMISTRY OF MATERIALS PY:2013 TC:4 AU: Lobez, Jose M.;Afzali, Ali;
2:134:12 A comparison of effects of plasma and acid functionalizations on structure and electrical property of multi-wall carbon nanotubes
DOI:10.1016/j.apsusc.2014.01.005 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Pourfayaz, Fathollah;Mortazavi, Yadollah;Khodadadi, Abbas-ali;Jafari, Seyed Hassan;Boroun, Shahab;Naseh, Masoud Vesali;
2:134:13 Processing of loose carbon nanotubes into isolated, high density submicron channels
DOI:10.1088/0957-4484/21/11/115301 JN:NANOTECHNOLOGY PY:2010 TC:4 AU: Hendricks, Troy R.;Ivanov, Ilia N.;Schaeffer, Daniel A.;Menchhofer, Paul A.;Simpson, John T.;
2:134:14 Improvement of single-walled carbon nanotube transparent conductive films using substrate pretreatment
DOI:10.1016/j.synthmet.2011.05.024 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Shin, Kwonwoo;Park, Rak-Kyung;Yu, Lan;Park, Chong-Yun;Lee, Young Sil;Lim, Yun-Soo;Han, Jong Hun;
2:134:15 Rapid and enhanced functionalization of MWCNTs in a dielectric barrier discharge plasma in presence of diluted CO2
DOI:10.1007/s00339-012-6769-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:8 AU: Pourfayaz, Fathollah;Mortazavi, Yadollah;Khodadadi, Abbas Ali;Jafari, Seyed-Hassan;
2:134:16 Enhancement of electrical, thermal and mechanical properties of carbon nanotube additive Se85Te10Ag5 glassy composites
DOI:10.1016/j.matlet.2014.08.092 JN:MATERIALS LETTERS PY:2014 TC:4 AU: Upadhyay, A. N.;Tiwari, R. S.;Mehta, N.;Singh, Kedar;
2:134:17 Composites of low bandgap conducting polymer-wrapped MWNT and poly(methyl methacrylate) for low percolation and high transparency
DOI:10.1016/j.synthmet.2010.07.032 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Pyo, Myoungho;Bae, Eun Gyoung;Cho, Younkyung;Jung, Youn Su;Zong, KyuKwan;
2:134:18 Highly conductive PEDOT:PSS electrode films hybridized with gold-nanoparticle-doped-carbon nanotubes
DOI:10.1016/j.synthmet.2014.02.025 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Shin, Na-Ri;Choi, Sul-Hwa;Kim, Jin-Yeol;
2:134:19 Highly conductive and transparent carbon nanotube composite thin films deposited on polyethylene terephthalate by solution dipping (vol 518, pg 2822, 2010)
DOI:10.1016/j.tsf.2010.02.061 JN:THIN SOLID FILMS PY:2010 TC:1 AU: Xiao, Gaozhi;Tao, Ye;Lu, Jianping;Zhang, Zhiyi;
2:135:1 High Current, Low Voltage Carbon Nanotube Enabled Vertical Organic Field Effect Transistors
DOI:10.1021/nl101589x JN:NANO LETTERS PY:2010 TC:34 AU: McCarthy, Mitchell A.;Liu, Bo;Rinzler, Andrew G.;
2:135:2 Improved Transfer of Graphene for Gated Schottky-Junction, Vertical, Organic, Field-Effect Transistors
DOI:10.1021/nn303848k JN:ACS NANO PY:2012 TC:23 AU: Lemaitre, Maxime G.;Donoghue, Evan P.;McCarthy, Mitchell A.;Liu, Bo;Tongay, Sefaattin;Gila, Brent;Kumar, Purushottam;Singh, Rajiv K.;Appleton, Bill R.;Rinzler, Andrew G.;
2:135:3 Low-Voltage Organic Electronics Based on a Gate-Tunable Injection Barrier in Vertical graphene-organic Semiconductor Heterostructures
DOI:10.1021/nl5029599 JN:NANO LETTERS PY:2015 TC:3 AU: Hlaing, Htay;Kim, Chang-Hyun;Carta, Fabio;Nam, Chang-Yong;Barton, Rob A.;Petrone, Nicholas;Hone, James;Kymissis, Ioannis;
2:135:4 One-Volt Operation of High-Current Vertical Channel Polymer Semiconductor Field-Effect Transistors
DOI:10.1021/nl301759j JN:NANO LETTERS PY:2012 TC:17 AU: Johnston, Danvers E.;Yager, Kevin G.;Nam, Chang-Yong;Ocko, Benjamin M.;Black, Charles T.;
2:135:5 An all C-60 vertical transistor for high frequency and high current density applications
DOI:10.1063/1.4767391 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Fischer, Axel;Scholz, Reinhard;Leo, Karl;Luessem, Bjoern;
2:135:6 High-Performance Vertical Organic Transistors
DOI:10.1002/smll.201202321 JN:SMALL PY:2013 TC:11 AU: Kleemann, Hans;Guenther, Alrun A.;Leo, Karl;Luessem, Bjoern;
2:135:7 Reorientation of the High Mobility Plane in Pentacene-Based Carbon Nanotube Enabled Vertical Field Effect Transistors
DOI:10.1021/nn102721v JN:ACS NANO PY:2011 TC:9 AU: McCarthy, Mitchell A.;Liu, Bo;Jayaraman, Ramesh;Gilbert, Stephen M.;Kim, Do Young;So, Franky;Rinzler, Andrew G.;
2:135:8 Non-Volatile Organic Memory Elements Based on Carbon-Nanotube-Enabled Vertical Field-Effect Transistors
DOI:10.1002/adfm.201001175 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:14 AU: Liu, Bo;McCarthy, Mitchell A.;Rinzler, Andrew G.;
2:135:9 N-channel carbon nanotube enabled vertical field effect transistors with solution deposited ZnO nanoparticle based channel layers
DOI:10.1063/1.4709618 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Wang, Po-Hsiang;Liu, Bo;Shen, Yu;Zheng, Ying;McCarthy, Mitchell A.;Holloway, Paul;Rinzler, Andrew G.;
2:135:10 Fast switching characteristics in vertical organic field effect transistors
DOI:10.1063/1.4818585 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Greenman, Michael;Ben-Sasson, Ariel J.;Chen, Zhihua;Facchetti, Antonio;Tessler, Nir;
2:135:11 Vertical organic field effect phototransistor with two dissimilar source and drain contacts
DOI:10.1016/j.tsf.2014.04.080 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Woon, K. L.;Yeo, G. N.;
2:135:12 Patterned electrode vertical field effect transistor: Theory and experiment
DOI:10.1063/1.3622291 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Ben-Sasson, Ariel J.;Tessler, Nir;
2:135:13 Unraveling the Physics of Vertical Organic Field Effect Transistors through Nanoscale Engineering of a Self-Assembled Transparent Electrode
DOI:10.1021/nl302163q JN:NANO LETTERS PY:2012 TC:12 AU: Ben-Sasson, Ariel J.;Tessler, Nir;
2:135:14 Bidirectional operation of vertical organic triodes
DOI:10.1063/1.3686744 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Fischer, Axel;Siebeneicher, Philipp;Kleemann, Hans;Leo, Karl;Luessem, Bjoern;
2:135:15 Low-Temperature Molecular Vapor Deposition of Ultrathin Metal Oxide Dielectric for Low-Voltage Vertical Organic Field Effect Transistors
DOI:10.1021/am3026773 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Ben-Sasson, Ariel J.;Ankonina, Guy;Greenman, Michael;Grimes, Michael T.;Tessler, Nir;
2:135:16 Towards Gigahertz Operation: Ultrafast Low Turn-on Organic Diodes and Rectifiers Based on C-60 and Tungsten Oxide
DOI:10.1002/adma.201002246 JN:ADVANCED MATERIALS PY:2011 TC:13 AU: Im, Dongmo;Moon, Hanul;Shin, Minchul;Kim, Joungho;Yoo, Seunghyup;
2:135:17 Enhancement-mode polymer space-charge-limited transistor with low switching swing of 96 mV/decade
DOI:10.1063/1.3586255 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Chao, Yu-Chiang;Tsai, Hung-Kuo;Zan, Hsiao-Wen;Hsu, Yung-Hsuan;Meng, Hsin-Fei;Horng, Sheng-Fu;
2:135:18 Computational study of graphene-based vertical field effect transistor
DOI:10.1063/1.4794508 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Chen, Wenchao;Rinzler, Andrew;Guo, Jing;
2:135:19 Vertical low-voltage oxide transistors gated by microporous SiO2/LiCl composite solid electrolyte with enhanced electric-double-layer capacitance
DOI:10.1063/1.3477949 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Jiang, Jie;Sun, Jia;Zhou, Bin;Lu, Aixia;Wan, Qing;
2:135:20 Anisotropy of electrical conductivity in a pentacene crystal grain on SiO2 evaluated by atomic-force-microscope potentiometry and electrostatic simulation
DOI:10.1063/1.3430041 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Ohashi, Noboru;Tomii, Hiroshi;Sakai, Masatoshi;Kudo, Kazuhiro;Nakamura, Masakazu;
2:135:21 Intrinsic delay of permeable base transistor
DOI:10.1063/1.4891231 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Chen, Wenchao;So, Franky;Guo, Jing;
2:136:1 A low-bandgap alternating copolymer containing the dimethylbenzimidazole moiety
DOI:10.1039/c0jm00772b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:41 AU: Song, Suhee;Jin, Youngeup;Park, Sung Heum;Cho, Shinuk;Kim, Il;Lee, Kwanghee;Heeger, Alan J.;Suh, Hongsuk;
2:136:2 Annealing-free fabrication of P3HT:PCBM solar cells via simple brush painting
DOI:10.1016/j.solmat.2009.08.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:31 AU: Kim, Seok-Soon;Na, Seok-In;Kang, Seok-Ju;Kim, Dong-Yu;
2:136:3 Synthesis and properties of pyrrolo[3,2-b]pyrrole-1,4-diones (isoDPP) derivatives
DOI:10.1039/c4tc00427b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Gendron, David;Gann, Eliot;Pattison, Katherine;Maasoumi, Fatemeh;McNeill, Christopher R.;Watkins, Scott E.;Burn, Paul L.;Powell, Benjamin J.;Shaw, Paul E.;
2:136:4 Low bandgap small molecules based on 2,2-bithiophene-3,3-dicarboximide for soluble-processed solar cells
DOI:10.1016/j.synthmet.2013.09.001 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Song, Suhee;Kim, Taehyo;Park, Hyeji;Jin, Youngeup;Kim, Il;Kim, Jin Young;Suh, Hongsuk;
2:136:5 Conjugated copolymers based on dihexyl-benzimidazole moiety for organic photovoltaics
DOI:10.1016/j.polymer.2010.09.035 JN:POLYMER PY:2010 TC:15 AU: Song, Suhee;Park, Sung Heum;Jin, Youngeup;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:136:6 Synthesis and photovoltaic property of copolymers with phenanthrothiadiazole moiety
DOI:10.1016/j.solmat.2012.05.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Song, Suhee;Park, Seijung;Kwon, Sooncheol;Lee, Byoung Hoon;Shim, Joo Young;Lee, Jongjin;Park, Sung Heum;Jin, Youngeup;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:136:7 Pyrrolo[3,2-b]pyrrole based small molecules as donor materials for OPVs
DOI:10.1016/j.solmat.2013.01.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:5 AU: Song, Suhee;Ko, Seo-Jin;Shin, Hyunmin;Jin, Youngeup;Kim, Il;Kim, Jin Young;Suh, Hongsuk;
2:136:8 Synthesis of the pyrrolo[3,2-b]pyrrole-based copolymer with enhanced open circuit voltage
DOI:10.1016/j.synthmet.2012.10.016 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Song, Suhee;Ko, Seo-Jin;Shin, Hyunmin;Jin, Youngeup;Kim, Il;Kim, Jin Young;Suh, Hongsuk;
2:136:9 Synthesis of the Copolymer Based on Diketopyrrolopyrrole with Didecyl Chain for OPVs
DOI:10.1080/15421406.2014.936791 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Song, Suhee;Ko, Seo-Jin;Kim, Taehyo;Shin, Hyunmin;Kim, Il;Kim, Jin Young;Suh, Hongsuk;
2:136:10 Synthesis and Characterization of Polymers Based on Benzimidazole Segments for Polymer Solar Cells
DOI:10.1080/15421406.2013.808141 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Kim, Hayoung;Jeong, Youngjun;Lee, Youngu;
2:136:11 Synthesis of the 2H-benzimidazole-based conjugated polymers with various thiophene units and their application in photovoltaic
DOI:10.1016/j.solmat.2011.11.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Song, Suhee;Kim, Junkuk;Shim, Jooyoung;Kim, Junghwan;Lee, Byoung Hoon;Jin, Youngeup;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:136:12 Synthesis and characterization of phenathrothiadiazole-based conjugated polymer for photovoltaic device
DOI:10.1016/j.synthmet.2012.08.009 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Song, Suhee;Park, Seijung;Kwon, Sooncheol;Lee, Byoung Hoon;Kim, Ju Ae;Park, Sung Heum;Jin, Youngeup;Lee, Jongjin;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:136:13 Synthesis and characterization of dimethyl-benzimidazole based low bandgap copolymers for OPVs
DOI:10.1016/j.synthmet.2012.04.014 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Song, Suhee;Kim, Junkuk;Shim, Joo Young;Kim, Geunjin;Lee, Byoung Hoon;Jin, Youngeup;Park, Sung Heum;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:136:14 Dimethyl-2H-benzimidazole based small molecules as donor materials for organic photovoltaics
DOI:10.1016/j.solmat.2011.02.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Song, Suhee;Han, Hyojung;Kim, Yonghee;Lee, Byoung Hoon;Park, Sung Heum;Jin, Youngeup;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:136:15 Synthesis and characterization of 2H-benzimidazole- and terthiophene-based polymer for organic photovoltaics
DOI:10.1016/j.synthmet.2010.11.042 JN:SYNTHETIC METALS PY:2011 TC:1 AU: Song, Suhee;Park, Sung Heum;Jin, Youngeup;Kim, Jinwoo;Shim, Joo Young;Goo, Youngran;Jung, Ok-Sang;Kim, Il;Lee, Heesoo;Jeong, Euh Duck;Jin, Jong Sung;Lee, Kwanghee;Suh, Hongsuk;
2:136:16 Synthesis and photovoltaic properties of copolymers based on 2,2-(1,5-pentamethylene)-2H-benzimidazole
DOI:10.1016/j.synthmet.2011.12.001 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Song, Suhee;Kang, Ilsoo;Kim, Gi-hwan;Jin, Youngeup;Kim, Il;Kim, Jin Young;Suh, Flongsuk;
2:136:17 Synthesis and characterization of low-bandgap copolymers based on dihexyl-2H-benzimidazole and terthiophene
DOI:10.1016/j.synthmet.2010.10.013 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Song, Suhee;Park, Sung Heum;Jin, Youngeup;Goo, Youngran;Kim, Il;Lee, Heesoo;Lee, Kwanghee;Suh, Hongsuk;
2:136:18 Increasing of stability depended on the position of alkoxy group in PPV
DOI:10.1016/j.synthmet.2011.03.032 JN:SYNTHETIC METALS PY:2011 TC:0 AU: Song, Suhee;Park, Sung Heum;Jung, Jaeyeon;Kim, Il;Lee, Kwanghee;Jin, Youngeup;Suh, Hongsuk;
2:137:1 Electronic Processes at Organic-Organic Interfaces: Insight from Modeling and Implications for Opto-electronic Devices
DOI:10.1021/cm1023426 JN:CHEMISTRY OF MATERIALS PY:2011 TC:85 AU: Beljonne, David;Cornil, Jerome;Muccioli, Luca;Zannoni, Claudio;Bredas, Jean-Luc;Castet, Frederic;
2:137:2 Intermixing at the Pentacene-Fullerene Bilayer Interface: A Molecular Dynamics Study
DOI:10.1002/adma.201203412 JN:ADVANCED MATERIALS PY:2013 TC:25 AU: Fu, Yao-Tsung;Risko, Chad;Bredas, Jean-Luc;
2:137:3 Materials-Scale Implications of Solvent and Temperature on [6,6]-Phenyl-C61-butyric Acid Methyl Ester (PCBM): A Theoretical Perspective
DOI:10.1002/adfm.201300918 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:13 AU: Tummala, Naga Rajesh;Mehraeen, Shafigh;Fu, Yao-Tsung;Risko, Chad;Bredas, Jean-Luc;
2:137:4 Simulation of Vapor-Phase Deposition and Growth of a Pentacene Thin Film on C-60 (001)
DOI:10.1002/adma.201101652 JN:ADVANCED MATERIALS PY:2011 TC:28 AU: Muccioli, Luca;D'Avino, Gabriele;Zannoni, Claudio;
2:137:5 Electron transport in crystalline PCBM-like fullerene derivatives: a comparative computational study
DOI:10.1039/c4tc00502c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Ide, Julien;Fazzi, Daniele;Casalegno, Mose;Meille, Stefano Valdo;Raos, Guido;
2:137:6 Diffusion-Controlled Growth of Molecular Heterostructures: Fabrication of Two-, One-, and Zero-Dimensional C-60 Nanostructures on Pentacene Substrates
DOI:10.1021/am402868s JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:5 AU: Breuer, Tobias;Witte, Gregor;
2:137:7 Molecular dynamics simulations of the solvent- and thermal history-dependent structure of the PCBM fullerene derivative
DOI:10.1039/c2jm16142g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Frigerio, Francesco;Casalegno, Mose;Carbonera, Chiara;Nicolini, Tommaso;Meille, Stefano Valdo;Raos, Guido;
2:137:8 High-responsivity solution-processed organic-inorganic hybrid bilayer thin film photoconductors
DOI:10.1039/c3tc31143k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Jin, Zhiwen;Wang, Jizheng;
2:137:9 Micro-focused X-ray diffraction characterization of high-quality [6,6]-phenyl-C-61-butyric acid methyl ester single crystals without solvent impurities
DOI:10.1039/c3tc31075b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Paterno, Giuseppe;Warren, Anna J.;Spencer, Jacob;Evans, Gwyndaf;Sakai, Victoria Garcia;Blumberger, Jochen;Cacialli, Franco;
2:137:10 Fullerene C-60: Surface Energy and Interfacial Interactions in Aqueous Systems
DOI:10.1021/la101109h JN:LANGMUIR PY:2010 TC:25 AU: Ma, Xin;Wigington, Bethany;Bouchard, Dermont;
2:137:11 Computationally Derived Rules for Persistence of C-60 Nanowires on Recumbent Pentacene Bilayers
DOI:10.1021/la201576z JN:LANGMUIR PY:2011 TC:14 AU: Cantrell, Rebecca A.;James, Christine;Clancy, Paulette;
2:137:12 Organic Semiconducting Single Crystals as Next Generation of Low-Cost, Room-Temperature Electrical X-ray Detectors
DOI:10.1002/adma.201200283 JN:ADVANCED MATERIALS PY:2012 TC:10 AU: Fraboni, Beatrice;Ciavatti, Andrea;Merlo, Francesco;Pasquini, Luca;Cavallini, Anna;Quaranta, Alberto;Bonfiglio, Annalisa;Fraleoni-Morgera, Alessandro;
2:137:13 Solution growth of single crystals of 4-hydroxycyanobenzene (4HCB) suitable for electronic applications
DOI:10.1016/j.jcrysgro.2010.08.057 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:8 AU: Fraleoni-Morgera, A.;Benevoli, L.;Fraboni, B.;
2:137:14 Highly Ordered Assembly of Single-Domain Dichloropentacene over Large Areas on Vicinal Gold Surfaces
DOI:10.1021/nn102468p JN:ACS NANO PY:2011 TC:5 AU: Wang, Jun;Kaur, Irvinder;Diaconescu, Bogdan;Tang, Jian-Ming;Miller, Glen P.;Pohl, Karsten;
2:138:1 Electrochemical Considerations for Determining Absolute Frontier Orbital Energy Levels of Conjugated Polymers for Solar Cell Applications
DOI:10.1002/adma.201004554 JN:ADVANCED MATERIALS PY:2011 TC:382 AU: Cardona, Claudia M.;Li, Wei;Kaifer, Angel E.;Stockdale, David;Bazan, Guillermo C.;
2:138:2 Conjugated Polymer Energy Level Shifts in Lithium-Ion Battery Electrolytes
DOI:10.1021/am505416m JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Song, Charles Kiseok;Eckstein, Brian J.;Tam, Teck Lip Dexter;Trahey, Lynn;Marks, Tobin J.;
2:138:3 Photosensitizing porphyrin-triazine compound for bulk heterojunction solar cells
DOI:10.1039/c2jm33840h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Luechai, Aritat;Gasiorowski, Jacek;Petsom, Amorn;Neugebauer, Helmut;Sariciftci, Niyazi Serdar;Thamyongkit, Patchanita;
2:138:4 On the potential of porphyrin-spiked triarylamine stars for bulk heterojunction solar cells
DOI:10.1039/c3ta11095h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:7 AU: Kengthanomma, Thanisa;Thamyongkit, Patchanita;Gasiorowski, Jacek;Ramil, Alberto Montaigne;Sariciftci, Niyazi Serdar;
2:138:5 Synthesis and characterization of quinoxaline-based polymers for bulk-heterojunction polymer solar cells
DOI:10.1016/j.tsf.2013.04.137 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Bathula, Chinna;Song, Chang Eun;Lee, Woo-Hyung;Lee, Jaemin;Badgujar, Sachin;Koti, Rajesh;Kang, In-Nam;Shin, Won Suk;Ahn, Taek;Lee, Jong-Cheol;Moon, Sang-Jin;Lee, Sang Kyu;
2:138:6 Organic field effect transistors based on 5,10,15,20-tetrakis(4-pentyloxyphenyl)porphyrin single crystal
DOI:10.1016/j.synthmet.2009.11.040 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Ma, Pan;Chen, Yanli;Cai, Xue;Wang, Hailong;Zhang, Yuexing;Gao, Yingning;Jiang, Jianzhuang;
2:138:7 N-Fused quinoxalines and benzoquinoxalines as attractive emitters for organic light emitting diodes
DOI:10.1039/c3tc30828f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Lindner, Benjamin D.;Zhang, Yexiang;Hoefle, Stefan;Berger, Nancy;Teusch, Claudia;Jesper, Malte;Hardcastle, Kenneth I.;Qian, Xuhong;Lemmer, Uli;Colsmann, Alexander;Bunz, Uwe H. F.;Hamburger, Manuel;
2:138:8 Synthesis and Characterization of Benzodithiophene-Based Copolymers for Polymer Solar Cells
DOI:10.1080/15421406.2014.933306 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Bathula, Chinna;Lee, Jaemin;Ahn, Taek;Lee, Sang Kyu;
2:138:9 Comparative analysis of the energy levels of planar and core-twisted perylene bisimides in solution and solid state by UV/VIS, CV, and UPS/IPES
DOI:10.1007/s00339-012-6941-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:8 AU: Arantes, C.;Scholz, M.;Schmidt, R.;Dehm, V.;Rocco, M. L. M.;Schoell, A.;Reinert, F.;Wuerthner, F.;
2:138:10 Side chain tuning of frontier orbitals in polymers of thieno[3,4-b]-pyrazine-based terthienyls
DOI:10.1016/j.synthmet.2014.03.025 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Schwiderski, Ryan L.;Rasmussen, Seth C.;
2:138:11 Planar Ni(II), Cu(II) and Co(II) tetraaza[14]annulenes: structural, electronic and magnetic properties and application to field effect transistors
DOI:10.1039/c2jm33079b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Whyte, Alexander M.;Shuku, Yoshiaki;Nichol, Gary S.;Matsushita, Michio M.;Awaga, Kunio;Robertson, Neil;
2:139:1 Flexible Ag electrode for use in organic photovoltaics
DOI:10.1016/j.solmat.2011.06.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Yambem, Soniya D.;Liao, Kang-Shyang;Curran, Seamus A.;
2:139:2 Optimization of organic solar cells with thin film Au as anode
DOI:10.1016/j.solmat.2011.04.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:22 AU: Yambem, Soniya D.;Haldar, Amrita;Liao, Kang-Shyang;Dillon, Eoghan P.;Barron, Andrew R.;Curran, Seamus A.;
2:139:3 Stable organic photovoltaics using Ag thin film anodes
DOI:10.1039/c2jm15670a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Yambem, Soniya D.;Liao, Kang-Shyang;Alley, Nigel J.;Curran, Seamus A.;
2:139:4 Investigation of recombination dynamics for indium tin oxide-free organic photovoltaics by illumination dependence study
DOI:10.1063/1.4817240 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Zhang, Xin;Liao, Kang-Shyang;Haldar, Amrita;Alley, Nigel J.;Curran, Seamus A.;
2:139:5 Enhancing current density using vertically oriented organic photovoltaics
DOI:10.1016/j.solmat.2012.02.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:2 AU: Yambem, Soniya D.;Liao, Kang-Shyang;Curran, Seamus A.;
2:139:6 Fabrication of inkjet printed organic photovoltaics on flexible Ag electrode with additives
DOI:10.1016/j.solmat.2014.03.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Haldar, Amrita;Liao, Kang-Shyang;Curran, Seamus A.;
2:139:7 Electrochemically crosslinked surface-grafted PVK polymer brushes as a hole transport layer for organic photovoltaics
DOI:10.1039/c1jm11068c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Tria, Maria Celeste;Liao, Kang-Shyang;Alley, Nigel;Curran, Seamus;Advincula, Rigoberto;
2:139:8 Effect of printing parameters and annealing on organic photovoltaics performance
DOI:10.1557/jmr.2012.217 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:2 AU: Haldar, Amrita;Liao, Kang-Shyang;Curran, Seamus A.;
2:139:9 Design and fabrication of linear pixel arrays for organic photovoltaic modules to achieve scalable power output
DOI:10.1016/j.tsf.2010.12.033 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Liao, Kang-Shyang;Dias, Sampath;Alley, Nigel J.;Yambem, Soniya D.;Haldar, Amrita;Curran, Seamus A.;
2:139:10 PPy:PSS as alternative to PEDOT:PSS in organic photovoltaics
DOI:10.1016/j.synthmet.2013.10.005 JN:SYNTHETIC METALS PY:2013 TC:9 AU: Andreoli, Enrico;Liao, Kang-Shyang;Haldar, Amrita;Alley, Nigel J.;Curran, Seamus A.;
2:139:11 Effect of carbon nanotube-fullerene hybrid additive on P3HT:PCBM bulk-heterojunction organic photovoltaics
DOI:10.1016/j.synthmet.2011.11.017 JN:SYNTHETIC METALS PY:2012 TC:16 AU: Alley, Nigel J.;Liao, Kang-Shyang;Andreoli, Enrico;Dias, Sampath;Dillon, Eoghan P.;Orbaek, Alvin W.;Barron, Andrew R.;Byrne, Hugh J.;Curran, Seamus A.;
2:139:12 Imbedding germanium quantum dots in silica by a modified Stober method
DOI:10.1016/j.mssp.2013.08.005 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:0 AU: Rutledge, Hannah;Oliva-Chatelain, Brittany L.;Maguire-Boyle, Samuel J.;Flood, Dennis L.;Barron, Andrew R.;
2:139:13 Organic photovoltaics using thin gold film as an alternative anode to indium tin oxide
DOI:10.1016/j.tsf.2011.04.071 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Haldar, Amrita;Yambem, Soniya D.;Liao, Kang-Shyang;Alley, Nigel J.;Dillon, Eoghan P.;Barron, Andrew R.;Curran, Seamus A.;
2:139:14 Thin films of silica imbedded silicon and germanium quantum dots by solution processing
DOI:10.1016/j.mssp.2012.03.018 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2012 TC:1 AU: Oliva, Brittany L.;Barron, Andrew R.;
2:139:15 Influence of functional derivatives of an amino-coumarin/MWCNT composite organic hetero-junction on the photovoltaic characteristics
DOI:10.1016/j.mssp.2014.01.001 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:0 AU: Sahoo, R. K.;Atta, S.;Singh, N. D. P.;Jacob, C.;
2:139:16 Fabrication, characterization, and optical modeling of a new architecture for organic photovoltaics: The vertically orientated stack device
DOI:10.1063/1.3699274 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Alley, Nigel J.;Dias, Sampath;Liao, Kang-Shyang;Curran, Seamus A.;
2:139:17 Direct writing of semiconducting polythiophene and fullerene derivatives composite from bulk heterojunction solar cell by inkjet printing
DOI:10.1016/j.tsf.2011.03.016 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Lee, Jae Kwan;Lee, Ue Jin;Kim, Myung-Ki;Lee, Sang Ho;Kang, Kyung-Tae;
2:140:1 12-GHz Thin-Film Transistors on Transferrable Silicon Nanomembranes for High-Performance Flexible Electronics
DOI:10.1002/smll.201000522 JN:SMALL PY:2010 TC:59 AU: Sun, Lei;Qin, Guoxuan;Seo, Jung-Hun;Celler, George K.;Zhou, Weidong;Ma, Zhenqiang;
2:140:2 Inorganic semiconductor nanomaterials for flexible and stretchable bio-integrated electronics
DOI:10.1038/am.2012.27 JN:NPG ASIA MATERIALS PY:2012 TC:31 AU: Kim, Dae-Hyeong;Lu, Nanshu;Ghaffari, Roozbeh;Rogers, John A.;
2:140:3 In Vivo Silicon-Based Flexible Radio Frequency Integrated Circuits Monolithically Encapsulated with Biocompatible Liquid Crystal Polymers
DOI:10.1021/nn401246y JN:ACS NANO PY:2013 TC:12 AU: Hwang, Geon-Tae;Im, Donggu;Lee, Sung Eun;Lee, Jooseok;Koo, Min;Park, So Young;Kim, Seungjun;Yang, Kyounghoon;Kim, Sung June;Lee, Kwyro;Lee, Keon Jae;
2:140:4 Metamaterials on parylene thin film substrates: Design, fabrication, and characterization at terahertz frequency
DOI:10.1063/1.3275015 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Liu, X.;MacNaughton, S.;Shrekenhamer, D. B.;Tao, H.;Selvarasah, S.;Totachawattana, A.;Averitt, R. D.;Dokmeci, M. R.;Sonkusale, S.;Padilla, W. J.;
2:140:5 Flexible high-frequency microwave inductors and capacitors integrated on a polyethylene terephthalate substrate
DOI:10.1063/1.3280040 JN:APPLIED PHYSICS LETTERS PY:2010 TC:22 AU: Sun, Lei;Qin, Guoxuan;Huang, Hai;Zhou, Han;Behdad, Nader;Zhou, Weidong;Ma, Zhenqiang;
2:140:6 Solution-processed high-performance colloidal quantum dot tandem photodetectors on flexible substrates
DOI:10.1063/1.4893897 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Jiang, Zhenyu;You, Guanjun;Wang, Li;Liu, Jie;Hu, Wenjia;Zhang, Yu;Xu, Jian;
2:140:7 Transparent functional oxide stretchable electronics: micro-tectonics enabled high strain electrodes
DOI:10.1038/am.2013.41 JN:NPG ASIA MATERIALS PY:2013 TC:13 AU: Gutruf, Philipp;Shah, Charan M.;Walia, Sumeet;Nili, Hussein;Zoolfakar, Ahmad S.;Karnutsch, Christian;Kalantar-zadeh, Kourosh;Sriram, Sharath;Bhaskaran, Madhu;
2:140:8 Elastomeric silicone substrates for terahertz fishnet metamaterials
DOI:10.1063/1.3665180 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Khodasevych, I. E.;Shah, C. M.;Sriram, S.;Bhaskaran, M.;Withayachumnankul, W.;Ung, B. S. Y.;Lin, H.;Rowe, W. S. T.;Abbott, D.;Mitchell, A.;
2:140:9 Photosensitive hole transport in Schottky-contacted Si nanomembranes
DOI:10.1063/1.4896490 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Feng, Ping;Wu, Guodong;Schmidt, Oliver G.;Mei, Yongfeng;
2:140:10 Electrically conducting film of silver sub-micron particles as mechanical and electrical interfaces for transfer printed micro- and nano-pillar devices
DOI:10.1007/s00339-012-7516-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:3 AU: Ombaba, Matthew Monari;Logeeswaran, V. J.;Islam, M. Saif;
2:140:11 Impact of strain on radio frequency characteristics of flexible microwave single-crystalline silicon nanomembrane p-intrinsic-n diodes on plastic substrates
DOI:10.1063/1.3521409 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Qin, Guoxuan;Yuan, Hao-Chih;Celler, George K.;Ma, Jianguo;Ma, Zhenqiang;
2:140:12 Influence of bending strains on radio frequency characteristics of flexible microwave switches using single-crystal silicon nanomembranes on plastic substrate
DOI:10.1063/1.3651276 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Qin, Guoxuan;Yuan, Hao-Chih;Celler, George K.;Ma, Jianguo;Ma, Zhenqiang;
2:140:13 Lifetime assessment of atomic-layer-deposited Al2O3-Parylene C bilayer coating for neural interfaces using accelerated age testing and electrochemical characterization
DOI:10.1016/j.actbio.2013.10.031 JN:ACTA BIOMATERIALIA PY:2014 TC:9 AU: Minnikanti, Saugandhika;Diao, Guoqing;Pancrazio, Joseph J.;Xie, Xianzong;Rieth, Loren;Solzbacher, Florian;Peixoto, Nathalia;
2:140:14 Experimental characterization and modeling of the bending strain effect on flexible microwave diodes and switches on plastic substrate
DOI:10.1063/1.3668112 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Qin, Guoxuan;Yang, Laichun;Seo, Jung-Hun;Yuan, Hao-Chih;Celler, George K.;Ma, Jianguo;Ma, Zhenqiang;
2:140:15 Efficient measurement of broadband terahertz optical activity
DOI:10.1063/1.4729148 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Aschaffenburg, Daniel J.;Williams, Michael R. C.;Talbayev, Diyar;Santavicca, Daniel F.;Prober, Daniel E.;Schmuttenmaer, Charles A.;
2:140:16 The effects of encapsulation on deformation behavior and failure mechanisms of stretchable interconnects
DOI:10.1016/j.tsf.2010.10.069 JN:THIN SOLID FILMS PY:2011 TC:19 AU: Hsu, Yung-Yu;Gonzalez, Mario;Bossuyt, Frederick;Axisa, Fabrice;Vanfleteren, Jan;De Wolf, Ingrid;
2:140:17 Transfer printing of flexible hybrid inductor-capacitor filters via pre-etched silicon-on-insulator mother wafer
DOI:10.1063/1.4742341 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Pang, Liang;Seo, Hui-Chan;Kim, Kyekyoon (Kevin);
2:140:18 A robust polymer microcable structure for flexible devices
DOI:10.1063/1.4788917 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Kim, Eric;Tu, Hongen;Lv, Cheng;Jiang, Hanqing;Yu, Hongyu;Xu, Yong;
2:140:19 Flexible radio-frequency single-crystal germanium switch on plastic substrates
DOI:10.1063/1.4872256 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Qin, Guoxuan;Cai, Tianhao;Yuan, Hao-Chih;Seo, Jung-Hun;Ma, Jianguo;Ma, Zhenqiang;
2:140:20 Origami-enabled deformable silicon solar cells
DOI:10.1063/1.4866145 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Tang, Rui;Huang, Hai;Tu, Hongen;Liang, Hanshuang;Liang, Mengbing;Song, Zeming;Xu, Yong;Jiang, Hanqing;Yu, Hongyu;
2:140:21 Strain response of stretchable micro-electrodes: Controlling sensitivity with serpentine designs and encapsulation
DOI:10.1063/1.4862264 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Gutruf, Philipp;Walia, Sumeet;Ali, Md Nur;Sriram, Sharath;Bhaskaran, Madhu;
2:141:1 Electron spin resonance observation of charge carrier concentration in organic field-effect transistors during device operation
DOI:10.1103/PhysRevB.87.045309 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Tanaka, Hisaaki;Hirate, Masataka;Watanabe, Shun-ichiro;Kaneko, Kazuaki;Marumoto, Kazuhiro;Takenobu, Taishi;Iwasa, Yoshihiro;Kuroda, Shin-ichi;
2:141:2 Low-temperature carrier dynamics in high-mobility organic transistors of alkylated dinaphtho-thienothiophene as investigated by electron spin resonance
DOI:10.1063/1.4890962 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kinoshita, Yutaro;Tanaka, Hisaaki;Shimoi, Yukihiro;Takimiya, Kazuo;Kuroda, Shin-ichi;
2:141:3 Microscopic mechanisms behind the high mobility in rubrene single-crystal transistors as revealed by field-induced electron spin resonance
DOI:10.1103/PhysRevB.83.075302 JN:PHYSICAL REVIEW B PY:2011 TC:27 AU: Marumoto, Kazuhiro;Arai, Norimichi;Goto, Hiromasa;Kijima, Masashi;Murakami, Kouichi;Tominari, Yukihiro;Takeya, Jun;Shimoi, Yukihiro;Tanaka, Hisaaki;Kuroda, Shin-ichi;Kaji, Toshihiko;Nishikawa, Takao;Takenobu, Taishi;Iwasa, Yoshihiro;
2:141:4 Correlation between interdomain carrier hopping and apparent mobility in polycrystalline organic transistors as investigated by electron spin resonance
DOI:10.1103/PhysRevB.85.035308 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Matsui, Hiroyuki;Kumaki, Daisuke;Takahashi, Eiji;Takimiya, Kazuo;Tokito, Shizuo;Hasegawa, Tatsuo;
2:141:5 Observation of field-induced charge carriers in high-mobility organic transistors of a thienothiophene-based small molecule: Electron spin resonance measurements
DOI:10.1103/PhysRevB.84.081306 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Tanaka, Hisaaki;Kozuka, Masato;Watanabe, Shun-ichiro;Ito, Hiroshi;Shimoi, Yukihiro;Takimiya, Kazuo;Kuroda, Shin-ichi;
2:141:6 Microscopic Signature of Metallic State in Semicrystalline Conjugated Polymers Doped with Fluoroalkylsilane Molecules
DOI:10.1002/adma.201304691 JN:ADVANCED MATERIALS PY:2014 TC:6 AU: Tanaka, Hisaaki;Hirate, Masataka;Watanabe, Shun;Kuroda, Shin-ichi;
2:141:7 Electron spin resonance observation of field-induced charge carriers in ultrathin-film transistors of regioregular poly(3-hexylthiophene) with controlled in-plane chain orientation
DOI:10.1063/1.3421538 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Watanabe, Shun-ichiro;Tanaka, Hisaaki;Kuroda, Shin-ichi;Toda, Akio;Nagano, Shusaku;Seki, Takahiro;Kimoto, Atsushi;Abe, Jiro;
2:141:8 Direct Observation of Hole Accumulation in Polymer Solar Cells During Device Operation using Light-Induced Electron Spin Resonance
DOI:10.1002/adma.201204015 JN:ADVANCED MATERIALS PY:2013 TC:7 AU: Nagamori, Tatsuya;Marumoto, Kazuhiro;
2:141:9 Charge Formation in Pentacene Layers During Solar-Cell Fabrication: Direct Observation by Electron Spin Resonance
DOI:10.1002/aenm.201100774 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:13 AU: Marumoto, Kazuhiro;Fujimori, Takuya;Ito, Masaaki;Mori, Tatsuo;
2:141:10 Dramatic enhancement of fullerene anion formation in polymer solar cells by thermal annealing: Direct observation by electron spin resonance
DOI:10.1063/1.4883858 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Liu, Dong;Nagamori, Tatsuya;Yabusaki, Masaki;Yasuda, Takeshi;Han, Liyuan;Marumoto, Kazuhiro;
2:141:11 Electron spin resonance of thin films of organic light-emitting material tris(8-hydroxyquinoline) aluminum doped by magnesium
DOI:10.1016/j.synthmet.2012.11.009 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Son, Donghyun;Marumoto, Kazuhiro;Kizuka, Tokushi;Shimoi, Yukihiro;
2:141:12 Two-dimensional magnetic interactions and magnetism of high-density charges in a polymer transistor
DOI:10.1063/1.4800550 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Tsuji, Masaki;Takahashi, Yuki;Sakurai, Yuki;Yomogida, Yohei;Takenobu, Taishi;Iwasa, Yoshihiro;Marumoto, Kazuhiro;
2:141:13 Study on n-type Doped Electron-Transporting Layers in OLEDs by Electron Spin Resonance
DOI:10.1080/15421406.2014.935978 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Son, D.;Shimoi, Y.;Marumoto, K.;
2:141:14 Correlation between Hole Accumulation and Deterioration of Device Performance in Polymer Solar Cells as Investigated by Light-Induced Electron Spin Resonance
DOI:10.1080/15421406.2014.931780 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Marumoto, K.;Nagamori, T.;
2:141:15 Doping of organic semiconductors induced by lithium fluoride/aluminum electrodes studied by electron spin resonance and infrared reflection-absorption spectroscopy
DOI:10.1063/1.3615799 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Glowacki, E. D.;Marshall, K. L.;Tang, C. W.;Sariciftci, N. S.;
2:141:16 Theoretical ESR g Values in Rubrene and Oligoacenes: Implication to Molecular Orientation at Interfaces in Organic FETs
DOI:10.1080/15421406.2012.701113 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Shimoi, Y.;Marumoto, K.;Kuroda, S.;
2:141:17 Angular distribution of field-effect mobility in oriented poly[5,5 '-bis(3-dodecyl-2-thienyl)-2,2 '-bithiophene] fabricated by roll-transfer printing
DOI:10.1063/1.4867980 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kushida, Takashi;Nagase, Takashi;Naito, Hiroyoshi;
2:141:18 Tuning energy levels in magnesium modified Alq(3)
DOI:10.1063/1.3573774 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Lin, Chien-Hung;Chou, Chi-Ta;Chen, Yu-Hung;Wu, Meng-Hsiu;Lee, Jiun-Haw;Wu, Chih-I;Chattopadhyay, Surojit;Liu, Chin-Hsin J.;Song, Ker-Jar;Tai, Yian;Wang, Juen-Kai;Chen, Kuei-Hsien;Chen, Li-Chyong;
2:141:19 Improvement of P3HT-ICBA solar cell photovoltaic characteristics due to the incorporation of the maleic anhydride additive: P3HT morphology study of P3HT-ICBA and P3HT-ICBA-MA films by means of X-band LESR
DOI:10.1016/j.synthmet.2014.09.012 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Konkin, A.;Ritter, U.;Scharff, P.;Schroedner, M.;Sensfuss, S.;Aganov, A.;Klochkov, V.;Ecke, G.;
2:142:1 Determination of energy level alignment at interfaces of hybrid and organic solar cells under ambient environment
DOI:10.1039/c0jm02349c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:63 AU: Davis, Robert J.;Lloyd, Matthew T.;Ferreira, Summer R.;Bruzek, Matthew J.;Watkins, Scott E.;Lindell, Linda;Sehati, Parisa;Fahlman, Mats;Anthony, John E.;Hsu, Julia W. P.;
2:142:2 Trap-Assisted Recombination via Integer Charge Transfer States in Organic Bulk Heterojunction Photovoltaics
DOI:10.1002/adfm.201401513 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:5 AU: Bao, Qinye;Sandberg, Oskar;Dagnelund, Daniel;Sanden, Simon;Braun, Slawomir;Aarnio, Harri;Liu, Xianjie;Chen, Weimin M.;Osterbacka, Ronald;Fahlman, Mats;
2:142:3 Oxygen-and Water-Based Degradation in [6,6]-Phenyl-C-61-Butyric Acid Methyl Ester ( PCBM) Films
DOI:10.1002/aenm.201301272 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Bao, Qinye;Liu, Xianjie;Braun, Slawomir;Fahlman, Mats;
2:142:4 Calculating the Universal Energy-Level Alignment of Organic Molecules on Metal Oxides
DOI:10.1002/adfm.201201412 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:22 AU: Ley, Lothar;Smets, Yaou;Pakes, Christopher I.;Ristein, Juergen;
2:142:5 Band-Bending in Organic Semiconductors: the Role of Alkali-Halide Interlayers
DOI:10.1002/adma.201303467 JN:ADVANCED MATERIALS PY:2014 TC:17 AU: Wang, Haibo;Amsalem, Patrick;Heimel, Georg;Salzmann, Ingo;Koch, Norbert;Oehzelt, Martin;
2:142:6 First-principles study of the dipole layer formation at metal-organic interfaces
DOI:10.1103/PhysRevB.81.125403 JN:PHYSICAL REVIEW B PY:2010 TC:23 AU: Rusu, Paul C.;Giovannetti, Gianluca;Weijtens, Christ;Coehoorn, Reinder;Brocks, Geert;
2:142:7 Fermi level pinning by integer charge transfer at electrode-organic semiconductor interfaces
DOI:10.1063/1.3565963 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Bokdam, Menno;Cakir, Deniz;Brocks, Geert;
2:142:8 Rethinking Band Bending at the P3HT-TiO2 Interface
DOI:10.1021/am500101u JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Haring, Andrew J.;Ahrenholtz, Spencer R.;Morris, Amanda J.;
2:142:9 Modeling charge transfer at organic donor-acceptor semiconductor interfaces
DOI:10.1063/1.4717985 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Cakir, Deniz;Bokdam, Menno;de Jong, Michel P.;Fahlman, Mats;Brocks, Geert;
2:142:10 Role of intrinsic molecular dipole in energy level alignment at organic interfaces
DOI:10.1063/1.4809567 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Lindell, Linda;Cakir, Deniz;Brocks, Geert;Fahlman, Mats;Braun, Slawomir;
2:142:11 A (time-dependent) density functional theory study of the optoelectronic properties of bis-triisopropylsilylethynyl-functionalized acenes
DOI:10.1016/j.tsf.2013.03.072 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Malloci, G.;Cappellini, G.;Mulas, G.;Mattoni, A.;
2:143:1 Comparative study: the effect of annealing conditions on the properties of P3HT:PCBM blends
DOI:10.1007/s10853-012-6937-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:7 AU: Motaung, David E.;Malgas, Gerald F.;Nkosi, Steven S.;Mhlongo, Gugu H.;Mwakikunga, Bonex W.;Malwela, Thomas;Arendse, Christopher J.;Muller, Theophillus F. G.;Cummings, Franscious R.;
2:143:2 Determination of the structure, morphology and complex refractive index in ZnO-nanopencils/P3HT hybrid structures
DOI:10.1016/j.matchemphys.2012.04.066 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:13 AU: Motaung, David E.;Malgas, Gerald F.;Arendse, Christopher J.;Mavundla, Sipho E.;
2:143:3 Insights into the stability and thermal degradation of P3HT:C-60 blended films for solar cell applications
DOI:10.1007/s10853-011-5408-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:21 AU: Motaung, David E.;Malgas, Gerald F.;Arendse, Christopher J.;
2:143:4 Annealing effect of hybrid solar cells based on poly (3-hexylthiophene) and zinc-oxide nanostructures
DOI:10.1016/j.tsf.2013.04.037 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Motaung, David E.;Malgas, Gerald F.;Ray, Suprakas S.;Arendse, Christopher J.;
2:143:5 Comparative study: The effects of solvent on the morphology, optical and structural features of regioregular poly(3-hexylthiophene):fullerene thin films
DOI:10.1016/j.synthmet.2010.01.038 JN:SYNTHETIC METALS PY:2010 TC:18 AU: Motaung, David E.;Malgas, Gerald F.;Arendse, Christopher J.;
2:143:6 The influence of ZnO nanostructures on the structure, optical and photovoltaic properties of organic materials
DOI:10.1016/j.tsf.2013.08.012 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Malgas, Gerald F.;Motaung, David E.;Mhlongo, Gugu H.;Nkosi, Steven S.;Mwakikunga, Bonex W.;Govendor, Malcolm;Arendse, Christopher J.;Muller, Theophillus F. G.;
2:143:7 Correlation between the morphology and photo-physical properties of P3HT:fullerene blends
DOI:10.1007/s10853-010-4339-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:18 AU: Motaung, David E.;Malgas, Gerald F.;Arendse, Christopher J.;
2:143:8 Temperature-dependence on the optical properties and the phase separation of polymer-fullerene thin films
DOI:10.1007/s10853-012-6278-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:8 AU: Malgas, Gerald F.;Motaung, David E.;Arendse, Christopher J.;
2:143:9 Co-solvent effects on the morphology of P3HT:PCBM thin films
DOI:10.1016/j.synthmet.2011.08.005 JN:SYNTHETIC METALS PY:2012 TC:17 AU: Reisdorffer, F.;Haas, O.;Le Rendu, P.;Nguyen, T. P.;
2:143:10 Investigation of the effects of substrate annealing on the properties of polymer blends
DOI:10.1016/j.matchemphys.2010.06.021 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:9 AU: Motaung, David E.;Malgas, Gerald F.;Arendse, Christopher J.;Malwela, Thomas;
2:143:11 Structural, Optical, and Conductive Properties of a Poly(styrene)-b-Poly(thiophene) Copolymer Doped with Fullerenes Under Different Conditions
DOI:10.1002/app.40084 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Politakos, Nikolaos;Grana, Eftychia;Zalakain, Inaki;Katsigiannopoulos, Dimitrios;Eceiza, Arantxa;Kortaberria, Galder;Avgeropoulos, Apostolos;
2:143:12 Performance of PCDTBT:PC70BM Organic Photovoltaic Cells Fabricated Using Dipolar and Common Dopants as Processing Additives
DOI:10.1080/15421406.2013.808139 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Ok, Sunseong;Choe, Youngson;
2:143:13 Electron transport properties in ZnO nanowires/poly(3-hexylthiophene) hybrid nanostructure
DOI:10.1016/j.matchemphys.2010.08.064 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:9 AU: Cheng, Ke;Cheng, Gang;Wang, Shujie;Fu, Dongwei;Zou, Bingsuo;Du, Zuliang;
2:144:1 Single-crystal organic charge-transfer interfaces probed using Schottky-gated heterostructures
DOI:10.1038/NMAT3383 JN:NATURE MATERIALS PY:2012 TC:21 AU: Lezama, Ignacio Gutierrez;Nakano, Masaki;Minder, Nikolas A.;Chen, Zhihua;Di Girolamo, Flavia V.;Facchetti, Antonio;Morpurgo, Alberto F.;
2:144:2 Organic heterostructures in organic field-effect transistors
DOI:10.1038/asiamat.2010.44 JN:NPG ASIA MATERIALS PY:2010 TC:37 AU: Wang, Haibo;Yan, Donghang;
2:144:3 Surface Potential Mapping of SAM-Functionalized Organic Semiconductors by Kelvin Probe Force Microscopy
DOI:10.1002/adma.201003122 JN:ADVANCED MATERIALS PY:2011 TC:24 AU: Ellison, David J.;Lee, Bumsu;Podzorov, V.;Frisbie, C. Daniel;
2:144:4 Voltage dependent displacement current as a tool to measure the vacuum level shift caused by self-assembled monolayers on aluminum oxide
DOI:10.1063/1.4844875 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Nyman, Mathias;Sandberg, Oskar;Hardigree, Josue F. Martinez;Kola, Srinivas;Katz, Howard E.;Osterbacka, Ronald;
2:144:5 Reducing Leakage Currents in n-Channel Organic Field-Effect Transistors Using Molecular Dipole Mono layers on Nanoscale Oxides
DOI:10.1021/am401278p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Hardigree, Josue F. Martinez;Dawidczyk, Thomas J.;Ireland, Robert M.;Johns, Gary L.;Jung, Byung-Jun;Nyman, Mathias;Osterbacka, Ronald;Markovic, Nina;Katz, Howard E.;
2:144:6 Naphthalenetetracarboxylic Diimide Layer-Based Transistors with Nanometer Oxide and Side Chain Dielectrics Operating below One Volt
DOI:10.1021/nn103115h JN:ACS NANO PY:2011 TC:14 AU: Jung, Byung Jun;Hardigree, Josue F. Martinez;Dhar, Bal Mukund;Dawidczyk, Thomas J.;Sun, Jia;See, Kevin Cua;Katz, Howard E.;
2:144:7 Multi-Alternating Organic Semiconducting Films with High Electric Conductivity
DOI:10.1002/adfm.201400468 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Mo, Hin-Wai;Lo, Ming-Fai;Yang, Qing-Dan;Ng, Tsz-Wai;Lee, Chun-Sing;
2:144:8 Organic-inorganic heterojunction field-effect transistors
DOI:10.1063/1.3291135 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:20 AU: Wang, Haibo;Liu, Zengtao;Lo, Ming Fai;Ng, Tsz Wai;Lee, Chun-Sing;Yan, Donghang;Lee, Shuit-Tong;
2:144:9 Tellurium Thin Films in Hybrid Organic Electronics: Morphology and Mobility
DOI:10.1002/adma.201203647 JN:ADVANCED MATERIALS PY:2013 TC:1 AU: Ireland, Robert M.;Zhang, Lushuai;Gopalan, Padma;Katz, Howard E.;
2:144:10 Effects of Pulsing and Interfacial Potentials on Tellurium-Organic Heterostructured Films
DOI:10.1021/am302221h JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Ireland, Robert M.;Dawidczyk, Thomas J.;Cottingham, Patrick;McQueen, Tyrel;Johns, Gary;Markovic, Nina;Zhang, Lushuai;Gopalan, Padma;Katz, Howard E.;
2:144:11 Novel liquid crystalline conjugated oligomers based on phenanthrene for organic thin film transistors
DOI:10.1039/c1jm13086b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:2 AU: He, Bo;Tian, Hongkun;Yan, Donghang;Geng, Yanhou;Wang, Fosong;
2:144:12 Band Alignment at Organic-Inorganic Heterojunctions between P3HT and n-Type 6H-SiC
DOI:10.1021/am200952s JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:7 AU: Dietmueller, Roland;Nesswetter, Helmut;Schoell, Sebastian J.;Sharp, Ian D.;Stutzmann, Martin;
2:144:13 Electron depletion and accumulation regions in n-type copper-hexadecafluoro-phthalocyanine and their effects on electronic properties
DOI:10.1063/1.3691257 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Wang, Haibo;Liu, Zengtao;Lo, Ming Fai;Ng, Tsz Wai;Yan, Donghang;Lee, Chun-Sing;
2:144:14 Realization of ohmic-like contact between ferromagnet and rubrene single crystal
DOI:10.1063/1.4745778 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Kitamura, Yuta;Shikoh, Eiji;Sawabe, Kosuke;Takenobu, Taishi;Shiraishi, Masashi;
2:144:15 Electrical investigation of the interface band structure in rubrene single-crystal/nickel junction
DOI:10.1063/1.3615704 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Kitamura, Yuta;Shikoh, Eiji;Bisri, Satria Zulkarnaen;Takenobu, Taishi;Shiraishi, Masashi;
2:144:16 Charge Conduction Properties at the Contact Interface between (Phthalocyaninato)nickel(II) and Electron Acceptor Single Crystals
DOI:10.1021/cm403033b JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Takahashi, Yukihiro;Hayakawa, Kei;Takayama, Katsuya;Yokokura, Seiya;Harada, Jun;Hasegawa, Hiroyuki;Inabe, Tamotsu;
2:144:17 Development and Comparison Analysis of OTFT Gas Sensors Based on P3HT-ZnO Composite Film and P3HT/ZnO Bilayer Film
DOI:10.1080/10584587.2014.902719 JN:INTEGRATED FERROELECTRICS PY:2014 TC:1 AU: Tai, Huiling;Li, Xian;Duan, Chengli;Xie, Guangzhong;Jiang, Yadong;
2:144:18 Surface Chemistry and Annealing-Driven Interfacial Changes in Organic Semiconducting Thin Films on Silica Surfaces
DOI:10.1021/la202958a JN:LANGMUIR PY:2011 TC:9 AU: O'Brien, Daniel B.;Anglin, Timothy C.;Massari, Aaron M.;
2:145:1 Synthesis and tunable chiroptical properties of chiral BODIPY-based D-pi-A conjugated polymers
DOI:10.1039/c3tc32029d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Ma, Xiao;Azeem, Eman Abdel;Liu, Xiaolin;Cheng, Yixiang;Zhu, Chengjian;
2:145:2 Helically pi-Stacked Thiophene-Based Copolymers with Circularly Polarized Fluorescence: High Dissymmetry Factors Enhanced by Self-Ordering in Chiral Nematic Liquid Crystal Phase
DOI:10.1021/cm2028788 JN:CHEMISTRY OF MATERIALS PY:2012 TC:42 AU: Watanabe, Kazuyoshi;Osaka, Itaru;Yorozuya, Shinichi;Akagi, Kazuo;
2:145:3 Chemical-Stimuli-Controllable Circularly Polarized Luminescence from Anion-Responsive pi-Conjugated Molecules
DOI:10.1021/ja203206g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:81 AU: Maeda, Hiromitsu;Bando, Yuya;Shimomura, Konomi;Yamada, Ippei;Naito, Masanobu;Nobusawa, Kazuyuki;Tsumatori, Hiroyuki;Kawai, Tsuyoshi;
2:145:4 Rhodium-Catalyzed Enantioselective Synthesis, Crystal Structures, and Photophysical Properties of Helically Chiral 1,1 '-Bitriphenylenes
DOI:10.1021/ja300278e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:60 AU: Sawada, Yayoi;Furumi, Seiichi;Takai, Atsuro;Takeuchi, Masayuki;Noguchi, Keiichi;Tanaka, Ken;
2:145:5 Hierarchically self-assembled helical aromatic conjugated polymers
DOI:10.1039/c3tc00045a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:20 AU: Watanabe, Kazuyoshi;Suda, Kiyoshi;Akagi, Kazuo;
2:145:6 Helically pi-Stacked Conjugated Polymers Bearing Photoresponsive and Chiral Moieties in Side Chains: Reversible Photoisomerization-Enforced Switching Between Emission and Quenching of Circularly Polarized Fluorescence
DOI:10.1002/adfm.200902059 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:46 AU: Hayasaka, Hiroyuki;Miyashita, Tatsuaki;Tamura, Kazuya;Akagi, Kazuo;
2:145:7 Circularly Polarized Luminescence by Visible-Light Absorption in a Chiral O-BODIPY Dye: Unprecedented Design of CPL Organic Molecules from Achiral Chromophores
DOI:10.1021/ja412294s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:12 AU: Sanchez-Carnerero, Esther M.;Moreno, Florencio;Maroto, Beatriz L.;Agarrabeitia, Antonia R.;Ortiz, Maria J.;Vo, Bryan G.;Muller, Gilles;de la Moya, Santiago;
2:145:8 Circularly Polarized Blue Luminescent Spherulites Consisting of Hierarchically Assembled Ionic Conjugated Polymers with a Helically pi-Stacked Structure
DOI:10.1002/adma.201203155 JN:ADVANCED MATERIALS PY:2012 TC:24 AU: Watanabe, Kazuyoshi;Iida, Hiroshi;Akagi, Kazuo;
2:145:9 Induction of Circularly Polarized Electroluminescence from an Achiral Light-Emitting Polymer via a Chiral Small-Molecule Dopant
DOI:10.1002/adma.201204961 JN:ADVANCED MATERIALS PY:2013 TC:19 AU: Yang, Ying;da Costa, Rosenildo Correa;Smilgies, Detlef-M.;Campbell, Alasdair J.;Fuchter, Matthew J.;
2:145:10 Enantioselective Synthesis and Enhanced Circularly Polarized Luminescence of S-Shaped Double Azahelicenes
DOI:10.1021/ja500841f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Nakamura, Kyosuke;Furumi, Seiichi;Takeuchi, Masayuki;Shibuya, Tetsuro;Tanaka, Ken;
2:145:11 Liquid crystalline PEDOT derivatives exhibiting reversible anisotropic electrochromism and linearly and circularly polarized dichroism
DOI:10.1039/c0jm04183a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Jeong, Yong Soo;Akagi, Kazuo;
2:145:12 Circularly Polarized Luminescence of Curium: A New Characterization of the 5f Actinide Complexes
DOI:10.1021/ja306354n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Law, Ga-Lai;Andolina, Christopher M.;Xu, Jide;Luu, Vinh;Rutkowski, Philip X.;Muller, Gilles;Shuh, David K.;Gibson, John K.;Raymond, Kenneth N.;
2:145:13 Complexation-induced circular dichroism and circularly polarised luminescence of an aggregation-induced emission luminogen
DOI:10.1039/c3tc31633e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:8 AU: Ng, Jason C. Y.;Liu, Jianzhao;Su, Huimin;Hong, Yuning;Li, Hongkun;Lam, Jacky W. Y.;Wong, Kam Sing;Tang, Ben Zhong;
2:145:14 Helicity Control of pi-Stacked Assemblies of Oligo(para-phenylene) Derivatives Using Photoresponsive Chiral Moieties at Terminal Sites
DOI:10.1002/adfm.201401453 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: San Jose, Benedict A.;Ashibe, Tomoki;Tada, Naoki;Yorozuya, Shinichi;Akagi, Kazuo;
2:145:15 Thermo- and Solvent-Responsive Polymer Complex Created from Supramolecular Complexation between a Helix-Forming Polysaccharide and a Cationic Polythiophene
DOI:10.1021/ja1067349 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:27 AU: Shiraki, Tomohiro;Dawn, Arnab;Tsuchiya, Youichi;Shinkai, Seiji;
2:145:16 Lyotropic Chiral Nematic Liquid Crystalline Aliphatic Conjugated Polymers Based on Disubstituted Polyacetylene Derivatives That Exhibit High Dissymmetry Factors in Circularly Polarized Luminescence
DOI:10.1021/ja3086565 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:3 AU: Jose, Benedict A. San;Matsushita, Satoshi;Akagi, Kazuo;
2:145:17 Planar Chiral Tetrasubstituted [2.2]Paracyclophane: Optical Resolution and Functionalization
DOI:10.1021/ja412197j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:16 AU: Morisaki, Yasuhiro;Gon, Masayuki;Sasamori, Takahiro;Tokitoh, Norihiro;Chujo, Yoshiki;
2:145:18 Valine-containing silole: synthesis, aggregation-induced chirality, luminescence enhancement, chiral-polarized luminescence and self-assembled structures
DOI:10.1039/c4tc00432a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Ng, Jason C. Y.;Li, Hongkun;Yuan, Qin;Liu, Jianzhao;Liu, Chunhua;Fan, Xiaolin;Li, Bing Shi;Tang, Ben Zhong;
2:145:19 Synthesis and Characterization of Two Phenyl Ring Core-Based Thiophene Mesogens
DOI:10.1080/15421406.2013.790635 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:3 AU: Reddy, M. Kesava;Reddy, K. Subramanyam;Prakash, M.;Narasimhaswamy, T.;
2:146:1 Organic molecules based on dithienyl-2,1,3-benzothiadiazole as new donor materials for solution-processed organic photovoltaic cells
DOI:10.1016/j.solmat.2010.07.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:22 AU: Wu, Zhonglian;Fan, Benhu;Xue, Feng;Adachi, Chihaya;Ouyang, Jianyong;
2:146:2 Low band gap polymers based on 1,4-dialkoxybenzene, thiophene, bithiophene donors and the benzothiadiazole acceptor
DOI:10.1016/j.solmat.2009.12.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:28 AU: Carle, Jon Eggert;Andreasen, Jens Wenzel;Jorgensen, Mikkel;Krebs, Frederik Christian;
2:146:3 Random copolymers consisting of dithienylcyclopentadienone, thiophene and benzothiadiazole for bulk heterojunction solar cells
DOI:10.1016/j.solmat.2012.06.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Ranjith, K.;Swathi, S. K.;Malavika, A.;Ramamurthy, Praveen C.;
2:146:4 Improvement of intramolecular charge transfer within a donor-acceptor blend by doping novel synthesized benzothiadiazole small molecules in solid state
DOI:10.1016/j.optmat.2014.04.019 JN:OPTICAL MATERIALS PY:2014 TC:2 AU: Dincalp, Haluk;Murat, Gozde;Icli, Siddik;
2:146:5 Synthesis and characterization of a novel fullerene derivative for use in organic solar cells
DOI:10.1016/j.solmat.2010.12.052 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Mi, Dongbo;Kim, Ji-Hoon;Xu, Fei;Lee, Soo-Hyung;Yoon, Sung Cheol;Shin, Won Suk;Moon, Sang-Jin;Lee, Changjin;Hwang, Do-Hoon;
2:146:6 Dithienylcyclopentadienone derivative-co-benzothiadiazole: An alternating copolymer for organic photovoltaics
DOI:10.1016/j.solmat.2011.11.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Ranjith, K.;Swathi, S. K.;Kumar, Prajwal;Ramamurthy, Praveen C.;
2:146:7 Synthesis, characterization and comparative photovoltaic behavior of diketopyrrolopyrrole (DPP)-containing poly(phenylene vinylene)s varying at N-alkyl or 3,6-aryl substituents in DPP units
DOI:10.1016/j.synthmet.2010.07.014 JN:SYNTHETIC METALS PY:2010 TC:15 AU: Zhang, Guoqiang;Xu, Hao;Liu, Kuan;Li, Yang;Yang, Ligong;Yang, Mujie;
2:146:8 Elaboration and characterization of donor-acceptor polymer through electropolymerization of fullerene substituted N-alkylcarbazole
DOI:10.1016/j.synthmet.2012.09.003 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Lav, T. X.;Tran-Van, F.;Aubert, P. H.;Chevrot, C.;
2:146:9 PL Quenching of Poly(3-hexylthiophene) by 2,2 ',7,7 '-Tetradiphenylamino-9,9 '-Bifluorenylidene
DOI:10.1080/15421406.2014.936803 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Park, On You;Kim, Hee Un;Hwang, Do-Hoon;
2:146:10 Synthesis of a soluble fulleropyrrolidine derivative for use as an electron acceptor in bulk-heterojunction polymer solar cells
DOI:10.1016/j.synthmet.2012.01.004 JN:SYNTHETIC METALS PY:2012 TC:13 AU: Mi, Dongbo;Kim, Hee-Un;Kim, Ji-Hoon;Xu, Fei;Jin, Sung-Ho;Hwang, Do-Hoon;
2:146:11 A new intramolecular donor-acceptor polyfluorene copolymer for bulk heterojunction solar cells
DOI:10.1016/j.solmat.2010.03.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:9 AU: Lee, Jung Feng;Hsu, Steve Lien Chung;Lee, Po I.;Chuang, Hung Yi;Yang, Ming Lun;Chen, Jen Sue;Chou, Wei Yang;
2:146:12 Efficient bulk heterojunction solar cells with copolymers based on fluorene, dithienylbenzothiadiazole, and thiophene derivatives
DOI:10.1016/j.solmat.2011.01.044 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Lee, Po-I;Hsu, Steve Lien-Chung;Lee, Jung Feng;
2:146:13 Synthesis and characterization of a novel fullerene derivative containing carbazole group for use in organic solar cells
DOI:10.1016/j.synthmet.2011.04.031 JN:SYNTHETIC METALS PY:2011 TC:9 AU: Mi, Dongbo;Kim, Ji-Hoon;Yoon, Sung Cheol;Lee, Changjin;Lee, Jin-Kyun;Hwang, Do-Hoon;
2:146:14 Synthesis and photovoltaic properties of a low bandgap donor-acceptor alternating copolymer with benzothiadiazole unit
DOI:10.1016/j.solmat.2011.07.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Wang, Tzong-Liu;Yeh, An-Chi;Yang, Chien-Hsin;Shieh, Yeong-Tarng;Chen, Wen-Janq;Ho, Tsung-Han;
2:146:15 Synthesis, characterization and photovoltaic application of N,N '-bisfluorenyl substituted perylene bisimide
DOI:10.1016/j.solmat.2010.06.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:6 AU: Lu, Yong;Chen, Hui;Qiao, Fen;Hu, Xiao;Ng, Siu-Choon;
2:146:16 Efficient polymer solar cells based on dialkoxynaphthalene and benzo[c][1,2,5]thiadiazole: A new approach for simple donor-acceptor pair
DOI:10.1016/j.solmat.2011.01.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Kim, Seul-Ong;Chung, Dae Sung;Cha, Hyojung;Hwang, Moon Chan;Park, Jong-Won;Kim, Yun-Hi;Park, Chan Eon;Kwon, Soon-Ki;
2:146:17 Copolymer derived from dihexyl-2H-benzimidazole and carbazole for organic photovoltaic cells
DOI:10.1016/j.solmat.2010.09.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Song, Suhee;Park, Sung Heum;Jin, Youngeup;Kim, Il;Lee, Kwanghee;Suh, Hongsuk;
2:146:18 Synthesis and characterization of dithienothiophene/benzothiadiazole based low band gap donor-acceptor copolymers for bulk hetero junction photovoltaic cells
DOI:10.1016/j.synthmet.2011.06.016 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Patil, Abasaheb V.;Lee, Woo-Hyung;Kim, Kyuri;Lee, Youn-Sik;Kang, In-Nam;Lee, Soo-Hyoung;
2:146:19 Oligo(benzo[c]thiophene-2-oxide) a poly(isothianaphthene) derivative with good photovoltaic properties
DOI:10.1016/j.synthmet.2011.08.044 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Sanchez, C. O.;Bernede, J. C.;Cattin, L.;Diaz, F. R.;
2:146:20 A novel 2,7-linked carbazole based "double cable" polymer with pendant perylene diimide functional groups: preparation, spectroscopy and photovoltaic properties
DOI:10.1039/c0jm02673e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Mohamad, David K.;Fischereder, Achim;Yi, Hunan;Cadby, Ashley J.;Lidzey, David G.;Iraqi, Ahmed;
2:147:1 Alkylated-C-60 based soft materials: regulation of self-assembly and optoelectronic properties by chain branching
DOI:10.1039/c3tc00066d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:18 AU: Li, Hongguang;Babu, Sukumaran Santhosh;Turner, Sarah T.;Neher, Dieter;Hollamby, Martin J.;Seki, Tomohiro;Yagai, Shiki;Deguchi, Yonekazu;Moehwald, Helmuth;Nakanishi, Takashi;
2:147:2 Optoelectronic Functional Materials Based on Alkylated-pi Molecules: Self-Assembled Architectures and Nonassembled Liquids
DOI:10.1021/la400202r JN:LANGMUIR PY:2013 TC:29 AU: Li, Hongguang;Choi, Jiyoung;Nakanishi, Takashi;
2:147:3 Superstructures and superhydrophobic property in hierarchical organized architectures of fullerenes bearing long alkyl tails
DOI:10.1039/b916612b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:49 AU: Nakanishi, Takashi;Shen, Yanfei;Wang, Jiaobing;Li, Hongguang;Fernandes, Paulo;Yoshida, Kaname;Yagai, Shiki;Takeuchi, Masayuki;Ariga, Katsuhiko;Kurth, Dirk G.;Moehwald, Helmuth;
2:147:4 The power of branched chains: optimising functional molecular materials
DOI:10.1039/c3tc31381f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Hollamby, Martin J.;Nakanishi, Takashi;
2:147:5 Structural Requirements for Producing Solvent-Free Room Temperature Liquid Fullerenes
DOI:10.1021/la400969f JN:LANGMUIR PY:2013 TC:12 AU: Michinobu, Tsuyoshi;Okoshi, Kensuke;Murakami, Yoshihiko;Shigehara, Kiyotaka;Ariga, Katsuhiko;Nakanishi, Takashi;
2:147:6 Improvement of Electroluminescence Performance of Organic Light-Emitting Diodes with a Liquid-Emitting Layer by Introduction of Electrolyte and a Hole-Blocking Layer
DOI:10.1002/adma.201003505 JN:ADVANCED MATERIALS PY:2011 TC:32 AU: Hirata, Shuzo;Kubota, Korefumi;Jung, Heo Hyo;Hirata, Osamu;Goushi, Kenichi;Yahiro, Masayuki;Adachi, Chihaya;
2:147:7 Multifunctional, Polymorphic, Ionic Fullerene Supramolecular Materials: Self-Assembly and Thermotropic Properties
DOI:10.1021/la2015176 JN:LANGMUIR PY:2011 TC:14 AU: Li, Hongguang;Hollamby, Martin J.;Seki, Tomohiro;Yagai, Shiki;Moehwald, Helmuth;Nakanishi, Takashi;
2:147:8 CdSe Nanocrystal/C-60-liquid composite material with enhanced photoelectrochemical performance
DOI:10.1039/c2jm35294j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Kramer, Theodore J.;Babu, Sukumaran Santhosh;Saeki, Akinori;Seki, Shu;Aimi, Junko;Nakanishi, Takashi;
2:147:9 Nematic self-organization of regioselectively polyfunctionalized [60]fullerene
DOI:10.1039/c1jm10982k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Mamlouk-Chaouachi, Hind;Heinrich, Benoit;Bourgogne, Cyril;Guillon, Daniel;Donnio, Bertrand;Felder-Flesch, Delphine;
2:147:10 Hierarchical Preferences of Hydroxylated Oxanorbornane-Based Achiral Amphiphiles
DOI:10.1021/la4034172 JN:LANGMUIR PY:2013 TC:1 AU: Janni, D. Sirisha;Manheri, Muraleedharan K.;
2:147:11 Fullerene Hollow Microspheres Prepared by Bubble-Templates as Sensitive and Selective Electrocatalytic Sensor for Biomolecules
DOI:10.1021/am201769u JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:15 AU: Wei, Lang;Lei, Yilong;Fu, Hongbing;Yao, Jiannian;
2:147:12 Molecular Arrangement of Alkylated Fullerenes in the Liquid Crystalline Phase Studied with X-ray Diffraction
DOI:10.1021/la903429j JN:LANGMUIR PY:2010 TC:9 AU: Fernandes, Paulo A. L.;Yagai, Shiki;Moehwald, Helmuth;Nakanishi, Takashi;
2:147:13 Uniform and refreshable liquid electroluminescent device with a back side reservoir
DOI:10.1063/1.4749791 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Shim, Chang-Hoon;Hirata, Shuzo;Oshima, Juro;Edura, Tomohiko;Hattori, Reiji;Adachi, Chihaya;
2:147:14 Tunable One-, Two-, and Three-Dimensional Self-Assemblies from an Acceptor-Donor Fullerene-N,N-Dimethylaminoazobenzene Dyad: Interfacial Geometry and Temporal Evolution
DOI:10.1021/la201849u JN:LANGMUIR PY:2011 TC:5 AU: Kumar, K. Senthil;Patnaik, Archita;
2:147:15 Synthesis and Characterization of Fullerene-Metal Compound with Long Alkyl Chain for Liquid Crystals, Supramolecules, and Optoelectronic Materials
DOI:10.1080/15421406.2014.936768 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Park, Bo Keun;
2:147:16 Toroidal beta-barrels from self-assembling beta-sheet peptides
DOI:10.1039/c1jm10916b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Lim, Yong-Beom;Lee, Myongsoo;
2:148:1:1 Carborane-Based Optoelectronically Active Organic Molecules: Wide Band Gap Host Materials for Blue Phosphorescence
DOI:10.1021/ja3066623 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:44 AU: Wee, Kyung-Ryang;Cho, Yang-Jin;Jeong, Soyeong;Kwon, Soonnam;Lee, Jong-Dae;Suh, Il-Hwan;Kang, Sang Ook;
2:148:1:2 Transition-Metal-Mediated Three-Component Cascade Cyclization: Selective Cage B-C(sp(2)) Coupling of Carborane with Aromatics and Synthesis of Carborane-Fused Tricyclics
DOI:10.1021/ja503489b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:5 AU: Quan, Yangjian;Qiu, Zaozao;Xie, Zuowei;
2:148:1:3 Unprecedented Boron-Functionalized Carborane Derivatives by Facile and Selective Cobalt-Induced B-H Activation
DOI:10.1021/ja4047075 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:13 AU: Wang, Zhaojin;Ye, Hongde;Li, Yuguang;Li, Yizhi;Yan, Hong;
2:148:1:4 Synthesis and Properties of Carborane-Appended C-3-Symmetrical Extended pi Systems
DOI:10.1021/ja101845m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:60 AU: Dash, Barada Prasanna;Satapathy, Rashmirekha;Gaillard, Elizabeth R.;Maguire, John A.;Hosmane, Narayan S.;
2:148:1:5 Iridium Catalyzed Regioselective Cage Boron Alkenylation of o-Carboranes via Direct Cage B-H Activation
DOI:10.1021/ja509557j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Quan, Yangjian;Xie, Zuowei;
2:148:1:6 Cobalt-Promoted B-H and C-H Activation: Facile B-C Coupling of Carboranedithiolate and Cyclopentadienyl
DOI:10.1021/ja303334t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:22 AU: Zhang, Rui;Zhu, Lin;Liu, Guifeng;Dai, Huimin;Lu, Zhenzhong;Zhao, Jianbo;Yan, Hong;
2:148:1:7 Palladium-Catalyzed Selective Fluorination of o-Carboranes
DOI:10.1021/ja405808t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Qiu, Zaozao;Quan, Yangjian;Xie, Zuowei;
2:148:2:1 Three-Component [2+2+1] Cross-cyclotrimerization of Carboryne, Unactivated Alkene, and Trimethylsilylalkyne Co-mediated by Zr and Ni
DOI:10.1021/ja410233e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Quan, Yangjian;Zhang, Jiji;Xie, Zuowei;
2:148:2:2 Palladium/Nickel-Cocatalyzed Cycloaddition of 1,3-Dehydro-o-Carborane with Alkynes. Facile Synthesis of C,B-Substituted Carboranes
DOI:10.1021/ja1058789 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:22 AU: Qiu, Zaozao;Xie, Zuowei;
2:148:2:3 Transition-Metal-Promoted or -Catalyzed Exocyclic Alkyne Insertion via Zirconacyclopentene with Carborane Auxiliary: Formation of Symmetric or Unsymmetric Benzocarboranes
DOI:10.1021/ja211485t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:19 AU: Ren, Shikuo;Qiu, Zaozao;Xie, Zuowei;
2:148:2:4 Insertion of Carboryne into Aromatic Rings: Formation of Cyclooctatetraenocarboranes
DOI:10.1021/ja1044488 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:21 AU: Wang, Sunewang R.;Qiu, Zaozao;Xie, Zuowei;
2:148:2:5 Regioselective Insertion of Carborynes into Ethereal C-H Bond: Facile Synthesis of alpha-Carboranylated Ethers
DOI:10.1021/ja201126h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:18 AU: Wang, Sunewang R.;Qiu, Zaozao;Xie, Zuowei;
2:148:2:6 Polyhedral Borane Analogues of the Benzynes and Beyond: Bonding in Variously Charged B-12 H-10 Isomers
DOI:10.1021/ja212055x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:7 AU: Pancharatna, Pattath D.;Balakrishnarajan, Musiri M.;Jemmis, Eluvathingal D.;Hoffmann, Roald;
2:148:2:7 The Double [3+2] Photocycloaddition Reaction
DOI:10.1021/ja906163s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:15 AU: Penkett, Clive S.;Woolford, Jason A.;Day, Iain J.;Coles, Martyn P.;
2:148:3:1 Highly Luminescent, Electron-Deficient Bora-cyclophanes
DOI:10.1021/ja209602z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:44 AU: Chen, Pangkuan;Jaekle, Frieder;
2:148:3:2 Functionalization of Boron Diiminates with Unique Optical Properties: Multicolor Tuning of Crystallization-Induced Emission and Introduction into the Main Chain of Conjugated Polymers
DOI:10.1021/ja510985v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Yoshii, Ryousuke;Hirose, Amane;Tanaka, Kazuo;Chujo, Yoshiki;
2:148:3:3 Applying the Oligomer Approach to Luminescent Conjugated Organoboranes
DOI:10.1021/ja201436a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:36 AU: Chen, Pangkuan;Lalancette, Roger A.;Jaekle, Frieder;
2:148:3:4 Electron-Deficient Triarylborane Block Copolymers: Synthesis by Controlled Free Radical Polymerization and Application in the Detection of Fluoride Ions
DOI:10.1021/ja409525j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:16 AU: Cheng, Fei;Bonder, Edward M.;Jaekle, Frieder;
2:148:3:5 Ditopic Ambiphilicity of an Anionic Dimetalloborylene Complex
DOI:10.1021/ja310895w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Braunschweig, Holger;Damme, Alexander;Dewhurst, Rian D.;Kramer, Thomas;Oestreicher, Sebastian;Radacki, Krzysztof;Vargas, Alfredo;
2:148:4:1 Triarylborane-functionalized polynorbornenes: Direct polymerization and signal amplification in fluoride sensing
DOI:10.1016/j.polymer.2012.02.035 JN:POLYMER PY:2012 TC:17 AU: Sung, Woo Young;Park, Myung Hwan;Park, Jun Ha;Eo, Maengsun;Yu, Mee-Seon;Do, Youngkyu;Lee, Min Hyung;
2:148:4:2 Polynorbornene copolymers with pendent o-carborane and carbazole groups: Novel side-chain donor-acceptor copolymers for turn-on sensing of nucleophilic anions
DOI:10.1016/j.polymer.2013.09.031 JN:POLYMER PY:2013 TC:3 AU: Eo, Maengsun;Park, Myung Hwan;Kim, Taewon;Do, Youngkyu;Lee, Min Hyung;
2:148:4:3 Luminescent polyethylene with side-chain triarylboranes: Synthesis and fluoride sensing properties
DOI:10.1016/j.polymer.2011.02.010 JN:POLYMER PY:2011 TC:15 AU: Park, Myung Hwan;Kim, Taewon;Huh, Jung Oh;Do, Youngkyu;Lee, Min Hyung;
2:148:4:4 Metallocene-catalyzed synthesis of polyethylenes with side-chain triarylamines: Effects of catalyst structure and triarylamine functionality
DOI:10.1016/j.polymer.2010.08.033 JN:POLYMER PY:2010 TC:9 AU: Park, Myung Hwan;Park, Jun Ha;Do, Youngkyu;Lee, Min Hyung;
2:148:4:5 Synthesis and hole-transporting properties of vinyl-type polynorbornenes with ethyl ester linked triarylamine side groups
DOI:10.1016/j.synthmet.2010.07.025 JN:SYNTHETIC METALS PY:2010 TC:12 AU: Park, Myung Hwan;Yun, Changhun;Huh, Jung Oh;Do, Youngkyu;Yoo, Seunghyup;Lee, Min Hyung;
2:148:4:6 Carboranylamidinates
DOI:10.1021/ja108051u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:21 AU: Droese, Peter;Hrib, Cristian G.;Edelmann, Frank T.;
2:149:1 Boron Subphthalocyanines as Organic Electronic Materials
DOI:10.1021/am3015197 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:38 AU: Morse, Graham E.;Bender, Timothy P.;
2:149:2 Pentafluorophenoxy Boron Subphthalocyanine (F(5)BsubPc) as a Multifunctional Material for Organic Photovoltaics
DOI:10.1021/am404179z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:8 AU: Morse, Graham E.;Gantz, Jeremy L.;Steirer, K. Xerxes;Armstrong, Neal R.;Bender, Timothy P.;
2:149:3 Boron Subphthalocyanine Chloride as an Electron Acceptor for High-Voltage Fullerene-Free Organic Photovoltaics
DOI:10.1002/adfm.201101782 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:39 AU: Beaumont, Nicola;Cho, Sang Wan;Sullivan, Paul;Newby, David;Smith, Kevin E.;Jones, Tim S.;
2:149:4 An Insight into the Mechanism of the Axial Ligand Exchange Reaction in Boron Subphthalocyanine Macrocycles
DOI:10.1021/ja508181b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Guilleme, Julia;Martinez-Fernandez, Lara;Gonzalez-Rodriguez, David;Corral, Ines;Yanez, Manuel;Torres, Tomas;
2:149:5 Axial Thiophene-Boron(subphthalocyanine) Dyads and Their Application in Organic Photovoltaics
DOI:10.1021/am100516a JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:28 AU: Mauldin, Clayton E.;Piliego, Claudia;Poulsen, Daniel;Unruh, David A.;Woo, Claire;Ma, Biwu;Mynar, Justin L.;Frechet, Jean M. J.;
2:149:6 In Situ Scanning Tunneling Microscopy Investigation of Subphthalocyanine and Subnaphthalocyanine Adlayers on a Au(111) Electrode
DOI:10.1021/la3042742 JN:LANGMUIR PY:2013 TC:1 AU: Gu, Jing-Ying;Cui, Bo;Chen, Ting;Yan, Hui-Juan;Wang, Dong;Wan, Li-Jun;
2:149:7 Fluorinated Phenoxy Boron Subphthalocyanines in Organic Light-Emitting Diodes
DOI:10.1021/am1002603 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:48 AU: Morse, Graham E.;Helander, Michael G.;Maka, Jozef F.;Lu, Zheng-Hong;Bender, Timothy P.;
2:149:8 An STM Study of the pH Dependent Redox Activity of a Two-Dimensional Hydrogen Bonding Porphyrin Network at an Electrochemical Interface
DOI:10.1021/ja907397u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:19 AU: Yuan, Qunhui;Xing, Yangjun;Borguet, Eric;
2:149:9 Phthalimido-boronsubphthalocyanines: New Derivatives of Boronsubphthalocyanine with Bipolar Electrochemistry and Functionality in OLEDs.
DOI:10.1021/am200758w JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:22 AU: Morse, Graham E.;Castrucci, Jeffery S.;Helander, Michael G.;Lu, Zheng-Hong;Bender, Timothy P.;
2:149:10 Pentafluorophenoxy Boron Subphthalocyanine As a Fluorescent Dopant Emitter in Organic Light Emitting Diodes
DOI:10.1021/am100632y JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:24 AU: Helander, Michael G.;Morse, Graham E.;Qiu, Jacky;Castrucci, Jeffrey S.;Bender, Timothy P.;Lu, Zheng-Hong;
2:149:11 Dielectric Spectroscopic Studies of Boron Subphthalocyanine Chloride Thin Films
DOI:10.1007/s13391-012-2089-8 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:4 AU: Singh, Mandeep;Mahajan, Aman;Bedi, R. K.;Aswal, D. K.;
2:149:12 Electrostatic-Interaction-Induced Molecular Deposition of a Hybrid Bilayer on Au(111): A Scanning Tunneling Microscopy Study
DOI:10.1021/la500873y JN:LANGMUIR PY:2014 TC:2 AU: Gu, Jing-Ying;Chen, Ting;Wang, Lin;Dong, Wei-Long;Yan, Hui-Juan;Wang, Dong;Wan, Li-Jun;
2:149:13 Self-Assembly of Insoluble Porphyrins on Au(111) under Aqueous Electrochemical Control
DOI:10.1021/la201308g JN:LANGMUIR PY:2011 TC:7 AU: Hassani, Sedigheh Sadegh;Kim, Youn-Geun;Borguet, Eric;
2:149:14 Activating Multistep Charge-Transfer Processes in Fullerene-Subphthalocyanine-Ferrocene Molecular Hybrids as a Function of pi-pi Orbital Overlap
DOI:10.1021/ja105864r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:33 AU: Gonzalez-Rodriguez, David;Carbonell, Esther;Rojas, Gustavo de Miguel;Castellanos, Carmen Atienza;Guldi, Dirk M.;Torres, Tomas;
2:149:15 Subphthalocyanine-polymethine cyanine conjugate: an all organic panchromatic light harvester that reveals charge transfer
DOI:10.1039/c1jm13203b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Romero Nieto, Carlos;Guilleme, Julia;Villegas, Carmen;Luis Delgado, Juan;Gonzalez-Rodriguez, David;Martin, Nazario;Torres, Tomas;Guldi, Dirk M.;
2:149:16 Bromine-Passivated Au(111) as a Platform for the Formation of Organic Self-Assembled Monolayers under Electrochemical Conditions
DOI:10.1021/la904182p JN:LANGMUIR PY:2010 TC:7 AU: Thorgaard, Scott N.;Buhlmann, Philippe;
2:150:1 The essence and efficiency limits of bulk-heterostructure organic solar cells: A polymer-to-panel perspective
DOI:10.1557/jmr.2012.425 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:10 AU: Alam, Muhammad A.;Ray, Biwajit;Khan, Mohammad Ryyan;Dongaonkar, Sourabh;
2:150:2 Universality of non-Ohmic shunt leakage in thin-film solar cells
DOI:10.1063/1.3518509 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:41 AU: Dongaonkar, S.;Servaites, J. D.;Ford, G. M.;Loser, S.;Moore, J.;Gelfand, R. M.;Mohseni, H.;Hillhouse, H. W.;Agrawal, R.;Ratner, M. A.;Marks, T. J.;Lundstrom, M. S.;Alam, M. A.;
2:150:3 Random vs regularized OPV: Limits of performance gain of organic bulk heterojunction solar cells by morphology engineering
DOI:10.1016/j.solmat.2011.11.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:37 AU: Ray, Biswajit;Alam, Muhammad A.;
2:150:4 Device optimization in PCPDTBT:PCBM plastic solar cells
DOI:10.1016/j.solmat.2010.01.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:24 AU: Boland, Patrick;Lee, Keejoo;Namkoong, Gon;
2:150:5 Prospects of layer-split tandem cells for high-efficiency OPV
DOI:10.1016/j.solmat.2013.08.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Khan, M. Ryyan;Ray, Biswajit;Alam, Muhammad A.;
2:150:6 Controlling Molecular Packing for Charge Transport in Organic Thin Films
DOI:10.1002/aenm.201000021 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:12 AU: Li, Liqiang;Hu, Wenping;Fuchs, Harald;Chi, Lifeng;
2:150:7 Modeling morphology evolution during solvent-based fabrication of organic solar cells
DOI:10.1016/j.commatsci.2011.12.012 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:15 AU: Wodo, Olga;Ganapathysubramanian, Baskar;
2:150:8 A computational study on optimal design for organic tandem solar cells
DOI:10.1016/j.solmat.2010.12.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:19 AU: Nam, Young Min;Huh, June;Jo, Won Ho;
2:150:9 Effect of incidence angle and polarization on the optimized layer structure of organic solar cells
DOI:10.1016/j.solmat.2013.07.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:13 AU: Lee, Sanghwa;Jeong, Inkyung;Kim, Hyeong Pil;Hwang, Soon Yong;Kim, Tae Jung;Kim, Young Dong;Jang, Jin;Kim, Jungho;
2:150:10 Nanostructured electrodes for organic bulk heterojunction solar cells: Model study using carbon nanotube dispersed polythiophene-fullerene blend devices
DOI:10.1063/1.3633236 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Nam, Chang-Yong;Wu, Qin;Su, Dong;Chiu, Chien-yang;Tremblay, Noah J.;Nuckolls, Colin;Black, Charles T.;
2:150:11 Verification of numerical simulation of the self-assembly of polymer-polymer-solvent ternary blends on a heterogeneously functionalized substrate
DOI:10.1016/j.polymer.2011.01.038 JN:POLYMER PY:2011 TC:2 AU: Shang, Yingrui;Fang, Liang;Wei, Ming;Barry, Carol;Mead, Joey;Kazmer, David;
2:150:12 Sensitivity analysis of current generation in organic solar cells-comparing bilayer, sawtooth, and bulk heterojunction morphologies
DOI:10.1016/j.solmat.2012.12.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Kodali, Hari K.;Ganapathysubramanian, Baskar;
2:150:13 Predicting microstructure development during casting of drug-eluting coatings
DOI:10.1016/j.actbio.2010.09.019 JN:ACTA BIOMATERIALIA PY:2011 TC:1 AU: Saylor, David M.;Guyer, Jonathan E.;Wheeler, Daniel;Warren, James A.;
2:150:14 The essence and efficiency limits of bulk-heterostructure organic solar cells: A polymer-to-panel perspective (vol 28, pg 541, 2013)
DOI:10.1557/jmr.2014.257 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Alam, Muhammad A.;Ray, Biwajit;Khan, Mohammad Ryyan;Dongaonkar, Sourabh;
2:150:15 Study on Low-Band Gap Polymers Based on Diketopyrrolopyrrole for Organic Photovoltaic Applications
DOI:10.1080/15421406.2013.804371 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Song, Ho-Sung;Ahn, Sung Kwang;Karthikeyan, N. S.;Gal, Yong-Soon;Jin, Sung-Ho;Lee, Jae Wook;
2:151:1 On the Role of Single Regiodefects and Polydispersity in Regioregular Poly(3-hexylthiophene): Defect Distribution, Synthesis of Defect-Free Chains, and a Simple Model for the Determination of Crystallinity
DOI:10.1021/ja210871j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:53 AU: Kohn, Peter;Huettner, Sven;Komber, Hartmut;Senkovskyy, Volodymyr;Tkachov, Roman;Kiriy, Anton;Friend, Richard H.;Steiner, Ullrich;Huck, Wilhelm T. S.;Sommer, Jens-Uwe;Sommer, Michael;
2:151:2 Design and Synthesis of Monofunctionalized, Water-Soluble Conjugated Polymers for Biosensing and Imaging Applications
DOI:10.1021/ja202877q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:44 AU: Traina, Christopher A.;Bakus, Ronald C., II;Bazan, Guillermo C.;
2:151:3 Random Catalyst Walking along Polymerized Poly(3-hexylthlophene) Chains in Kumada Catalyst-Transfer Polycondensation
DOI:10.1021/ja102210r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:89 AU: Tkachov, Roman;Senkovskyy, Volodymyr;Komber, Hartmut;Sommer, Jens-Uwe;Kiriy, Anton;
2:151:4 Synthesis and Photophysics of Fully pi-Conjugated Heterobis-Functionalized Polymeric Molecular Wires via Suzuki Chain-Growth Polymerization
DOI:10.1021/ja3080677 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:24 AU: Elmalem, Einat;Biedermann, Frank;Johnson, Kerr;Friend, Richard H.;Huck, Wilhelm T. S.;
2:151:5 Chain-Growth Polymerization of Unusual Anion-Radical Monomers Based on Naphthalene Diimide: A New Route to Well-Defined n-Type Conjugated Copolymers
DOI:10.1021/ja208710x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:49 AU: Senkovskyy, Volodymyr;Tkachov, Roman;Komber, Hartmut;Sommer, Michael;Heuken, Maria;Voit, Brigitte;Huck, Wilhelm T. S.;Kataev, Vladislav;Petr, Andreas;Kiriy, Anton;
2:151:6 Thermal and Structural Characteristics of Oligo(3-hexylthiophene)s (3HT)(n), n=4-36
DOI:10.1021/ja405792b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:21 AU: Koch, Felix Peter Vinzenz;Heeney, Martin;Smith, Paul;
2:151:7 Designing and Refining Ni(II)diimine Catalysts Toward the Controlled Synthesis of Electron-Deficient Conjugated Polymers
DOI:10.1021/ja4073904 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: Bridges, Colin R.;McCormick, Theresa M.;Gibson, Gregory L.;Hollinger, Jon;Seferos, Dwight S.;
2:151:8 Dielectric switching of the nature of excited singlet state in a donor-acceptor-type polyfluorene copolymer
DOI:10.1103/PhysRevB.81.205421 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Petrozza, Annamaria;Laquai, Frederic;Howard, Ian A.;Kim, Ji-Seon;Friend, Richard H.;
2:151:9 Polymorphism in Crystalline Microfibers of Achiral Octithiophene: The Effect on Charge Transport, Supramolecular Chirality and Optical Properties
DOI:10.1002/adfm.201400534 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Di Maria, Francesca;Fabiano, Eduardo;Gentili, Denis;Biasiucci, Mariano;Salzillo, Tommaso;Bergamini, Giacomo;Gazzano, Massimo;Zanelli, Alberto;Brillante, Aldo;Cavallini, Massimiliano;Della Sala, Fabio;Gigli, Giuseppe;Barbarella, Giovanna;
2:151:10 Solution-Based Single Molecule Imaging of Surface-Immobilized Conjugated Polymers
DOI:10.1021/ja311874f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:1 AU: Dalgarno, Paul A.;Traina, Christopher A.;Penedo, J. Carlos;Bazan, Guillermo C.;Samuel, Ifor D. W.;
2:151:11 The Elusive Structure of Pd-2(dba)(3). Examination by Isotopic Labeling, NMR Spectroscopy, and X-ray Diffraction Analysis: Synthesis and Characterization of Pd-2(dba-Z)(3) Complexes
DOI:10.1021/ja403259c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:7 AU: Kapdi, Anant R.;Whitwood, Adrian C.;Williamson, David C.;Lynam, Jason M.;Burns, Michael J.;Williams, Thomas J.;Reay, Alan J.;Holmes, Jordan;Fairlamb, Ian J. S.;
2:151:12 Controlled Pd(0)/t-Bu3P-Catalyzed Suzuki Cross-Coupling Polymerization of AB-Type Monomers with PhPd(t-Bu3P)I or Pd-2(dba)(3)/t-Bu3P/Arl as the Initiator
DOI:10.1021/ja302745t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:22 AU: Zhang, Hong-Hai;Xing, Chun-Hui;Hu, Qiao-Sheng;
2:151:13 Role of the transition metal in Grignard metathesis polymerization (GRIM) of 3-hexylthiophene
DOI:10.1039/c3ta13258g JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:5 AU: Bhatt, Mahesh P.;Magurudeniya, Harsha D.;Sista, Prakash;Sheina, Elena E.;Jeffries-EL, Malika;Janesko, Benjamin G.;McCullough, Richard D.;Stefan, Mihaela C.;
2:151:14 Electrothermal Manipulation of Individual Chromophores in Single Conjugated Polymer Chains: Controlling Intrachain FRET, Blinking, and Spectral Diffusion
DOI:10.1021/nl101526p JN:NANO LETTERS PY:2010 TC:3 AU: Schindler, Florian;Lupton, John M.;
2:151:15 Self-templating surface-initiated polymerization: a route to synthesize conductive brushes
DOI:10.1039/c2jm34480g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Szuwarzynski, Michal;Kowal, Justyna;Zapotoczny, Szczepan;
2:152:1 Local Nature of Substituent Effects in Stacking Interactions
DOI:10.1021/ja202932e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:105 AU: Wheeler, Steven E.;
2:152:2 Probing Substituent Effects in Aryl-Aryl Interactions Using Stereoselective Diels Alder Cycloadditions
DOI:10.1021/ja903653j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:71 AU: Wheeler, Steven E.;McNeil, Anne J.;Mueller, Peter;Swager, Timothy M.;Houk, K. N.;
2:152:3 ortho-Phenylenes: Unusual Conjugated Oligomers with a Surprisingly Long Effective Conjugation Length
DOI:10.1021/ja106050s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:44 AU: He, Jian;Crase, Jason L.;Wadumethrige, Shriya H.;Thakur, Khushabu;Dai, Lin;Zou, Shouzhong;Rathore, Rajendra;Hartley, C. Scott;
2:152:4 The Role of Arene-Arene Interactions in the Folding of ortho-Phenylenes
DOI:10.1021/ja4026006 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: Mathew, Sanyo M.;Engle, James T.;Ziegler, Christopher J.;Hartley, C. Scott;
2:152:5 Face-to-Face Arene-Arene Binding Energies: Dominated by Dispersion but Predicted by Electrostatic and Dispersion/Polarizability Substituent Constants
DOI:10.1021/ja105975a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:46 AU: Watt, Michelle;Hardebeck, Laura K. E.;Kirkpatrick, Charles C.;Lewis, Michael;
2:152:6 Enhanced Helical Folding of ortho-Phenylenes through the Control of Aromatic Stacking Interactions
DOI:10.1021/ja509902m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Mathew, Sanyo;Crandall, Laura A.;Ziegler, Christopher J.;Hartley, C. Scott;
2:152:7 Electrostatic Modulation of Aromatic Rings via Explicit Solvation of Substituents
DOI:10.1021/ja402566w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: Muchowska, Kamila B.;Adam, Catherine;Mati, Ioulia K.;Cockroft, Scott L.;
2:152:8 Remarkable Effects of Terminal Groups and Solvents on Helical Folding of o-Phenylene Oligomers
DOI:10.1021/ja303117z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:16 AU: Ando, Shinji;Ohta, Eisuke;Kosaka, Atsuko;Hashizume, Daisuke;Koshino, Hiroyuki;Fukushima, Takanori;Aida, Takuzo;
2:152:9 o-Phenylene Octamers as Surface Modifiers for Homeotropic Columnar Ordering of Discotic Liquid Crystals
DOI:10.1021/ja4087853 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Kajitani, Takashi;Suna, Yuki;Kosaka, Atsuko;Osawa, Terutsune;Fujikawa, Shigenori;Takata, Masaki;Fukushima, Takanori;Aida, Takuzo;
2:152:10 Origin of Enantioselectivity in the Propargylation of Aromatic Aldehydes Catalyzed by Helical N-Oxides
DOI:10.1021/ja209241n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:16 AU: Lu, Tongxiang;Zhu, Rongxiu;An, Yi;Wheeler, Steven E.;
2:152:11 Formal Aryne Polymerization: Use of [2.2.1]Oxabicyclic Alkenes as Aryne Equivalents
DOI:10.1021/ja502073k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Ito, Shingo;Takahashi, Keisuke;Nozaki, Kyoko;
2:152:12 Additivity of Substituent Effects in Aromatic Stacking Interactions
DOI:10.1021/ja504378p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:3 AU: Hwang, Jungwun;Li, Ping;Carroll, William R.;Smith, Mark D.;Pellechia, Perry J.;Shimizu, Ken D.;
2:152:13 Origin of the Surprising Enhancement of Electrostatic Energies by Electron-Donating Substituents in Substituted Sandwich Benzene Dimers
DOI:10.1021/ja204294q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:43 AU: Hohenstein, Edward G.;Duan, Jiana;Sherrill, C. David;
2:152:14 Quantum-Mechanical Evaluation of pi-pi versus Substituent-pi Interactions in pi Stacking: Direct Evidence for the Wheeler-Houk Picture
DOI:10.1021/ja5101245 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Parrish, Robert M.;Sherrill, C. David;
2:152:15 Board-like dibenzo[fg,op]naphthacenes: synthesis, characterization, self-assembly, and liquid crystallinity
DOI:10.1039/c3tc31353k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: He, Jian;Agra-Kooijman, Dena M.;Singh, Gautam;Wang, Chen;Dugger, Cherrelle;Zeng, Jianbo;Zang, Ling;Kumar, Satyendra;Hartley, C. Scott;
2:152:16 Control of the Stability of a Protein-RNA Complex by the Position of Fluorine in a Base Analogue
DOI:10.1021/ja102601h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Benitex, Yulia;Baranger, Anne M.;
2:152:17 Do Deuteriums Form Stronger CH-pi Interactions?
DOI:10.1021/ja305788p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:17 AU: Zhao, Chen;Parrish, Robert M.;Smith, Mark D.;Pellechia, Perry J.;Sherrill, C. David;Shimizu, Ken D.;
2:152:18 Superoleophilic nanoporous polymeric ionic liquids loaded with palladium acetate: Reactants enrichment and efficient heterogeneous catalysts for Suzuki-Miyaura coupling reaction
DOI:10.1016/j.jcis.2014.08.010 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:3 AU: Liu, Fujian;Feng, Gaofeng;Lin, Mengyi;Wang, Cong;Hu, Baowei;Qi, Chenze;
2:152:19 pi-Conjugated alternating copolymer based on the 3,5-dinitro-9-fluorenone for electron-acceptor type materials
DOI:10.1016/j.synthmet.2012.06.029 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Hayashi, Shotaro;Nishioka, Noriyuki;Nishiyama, Hironari;Koizumi, Toshio;
2:152:20 Accurate Predictions of Nonpolar Solvation Free Energies Require Explicit Consideration of Binding-Site Hydration
DOI:10.1021/ja202972m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:21 AU: Genheden, Samuel;Mikulskis, Paulius;Hu, LiHong;Kongsted, Jacob;Soederhjelm, Paer;Ryde, Ulf;
2:152:21 The Role of Arene-Arene Interactions in the Folding of ortho-Phenylenes (vol 135, pg 6714, 2013)
DOI:10.1021/ja406543a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:0 AU: Mathew, Sanyo M.;Engle, James T.;Ziegler, Christopher J.;Hartley, C. Scott;
2:152:22 Quantum-Mechanical Analysis of the Energetic Contributions to pi Stacking in Nucleic Acids versus Rise, Twist, and Slide
DOI:10.1021/ja30633091 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:14 AU: Parker, Trent M.;Hohenstein, Edward G.;Parrish, Robert M.;Hud, Nicholas V.;Sherrill, C. David;
2:152:23 Control of the Stability of a Protein RNA Complex by the Position of Fluorine in a Base Analogue (vol 133, pg 3687, 2011)
DOI:10.1021/ja507210h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Benitex, Yulia;Baranger, Anne M.;
2:152:24 Phase Behavior and Molecular Packing of Octadecyl Phenols and their Methyl Ethers at the Air/Water Interface
DOI:10.1021/la404340h JN:LANGMUIR PY:2014 TC:2 AU: Peikert, Miroslawa;Chen, Xiadong;Chi, Lifeng;Brezesinski, Gerald;Janich, Simon;Wuerthwein, Ernst-Ulrich;Schaefert, Hans J.;
2:153:1 Scalable Fabrication of Multifunctional Freestanding Carbon Nanotube/Polymer Composite Thin Films for Energy Conversion
DOI:10.1021/nn2041544 JN:ACS NANO PY:2012 TC:35 AU: Li, Xiaokai;Gittleson, Forrest;Carmo, Marcelo;Sekol, Ryan C.;Taylor, Andre D.;
2:153:2 Device Area Scale-Up and Improvement of SWNT/Si Solar Cells Using Silver Nanowires
DOI:10.1002/aenm.201400186 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:4 AU: Li, Xiaokai;Jung, Yeonwoong;Huang, Jing-Shun;Goh, Tenghooi;Taylor, Andre D.;
2:153:3 Improving the Assembly Speed, Quality, and Tunability of Thin Conductive Multilayers
DOI:10.1021/nn204384f JN:ACS NANO PY:2012 TC:21 AU: Gittleson, Forrest S.;Kohn, David J.;Li, Xiaokai;Taylor, Andre D.;
2:153:4 Controlled Doping of Carbon Nanotubes with Metallocenes for Application in Hybrid Carbon Nanotube/Si Solar Cells
DOI:10.1021/nl500894h JN:NANO LETTERS PY:2014 TC:5 AU: Li, Xiaokai;Guard, Louise M.;Jiang, Jie;Sakimoto, Kelsey;Huang, Jing-Shun;Wu, Jianguo;Li, Jinyang;Yu, Lianqing;Pokhrel, Ravi;Brudvig, Gary W.;Ismail-Beigi, Sohrab;Hazari, Nilay;Taylor, Andre D.;
2:153:5 n-Type Transparent Conducting Films of Small Molecule and Polymer Amine Doped Single-Walled Carbon Nanotubes
DOI:10.1021/nn200076r JN:ACS NANO PY:2011 TC:29 AU: Mistry, Kevin S.;Larsen, Brian A.;Bergeson, Jeremy D.;Barnes, Teresa M.;Teeter, Glenn;Engtrakul, Chaiwat;Blackburn, Jeffrey L.;
2:153:6 Stratified rod network model of electrical conductance in ultrathin polymer-carbon nanotube multilayers
DOI:10.1103/PhysRevB.87.195449 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Zurita-Gotor, Mauricio;Gittleson, Forrest S.;Taylor, Andre D.;Blawzdziewicz, Jerzy;
2:153:7 A comparative study on the influence of alkyl thiols on the structural transformations in P3HT/PCBM and P3OT/PCBM blends
DOI:10.1016/j.polymer.2013.10.023 JN:POLYMER PY:2013 TC:5 AU: Ramani, Ramasubbu;Alam, Sarfaraz;
2:153:8 Poly(3-hexylthiophene): Functionalized single-walled carbon nanotubes: (6,6)-phenyl-C-61-butyric acid methyl ester composites for photovoltaic cell at ambient condition
DOI:10.1016/j.solmat.2010.08.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:15 AU: Singh, Rajiv K.;Kumar, Jitendra;Kumar, Amit;Kumar, Vikram;Kant, Rama;Singh, Ramadhar;
2:153:9 Role of HF in Oxygen Removal from Carbon Nanotubes: Implications for High Performance Carbon Electronics
DOI:10.1021/n1502401c JN:NANO LETTERS PY:2014 TC:4 AU: Li, Xiaokai;Huang, Jing-Shun;Nejati, Siamak;McMillon, Lyndsey;Huang, Su;Osuji, Chinedum O.;Hazari, Nilay;Taylor, Andre D.;
2:153:10 Simulations and generalized model of the effect of filler size dispersity on electrical percolation in rod networks
DOI:10.1103/PhysRevB.86.214306 JN:PHYSICAL REVIEW B PY:2012 TC:68 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;
2:153:11 P3HT:PCBM Incorporated with Silicon Nanoparticles as Photoactive Layer in Efficient Organic Photovoltaic Devices
DOI:10.1155/2013/354035 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:4 AU: Chang, Shang-Chou;Hsiao, Yu-Jen;Li, To-Sing;
2:153:12 Simulations and generalized model of the effect of filler size dispersity on electrical percolation in rod networks (vol 86, 214306, 2012)
DOI:10.1103/PhysRevB.87.019902 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;
2:154:1 Surface engineering for high performance organic electronic devices: the chemical approach
DOI:10.1039/b922385a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:60 AU: Miozzo, Luciano;Yassar, Abderrahim;Horowitz, Gilles;
2:154:2 Thermal stability of thiol and silane monolayers: A comparative study
DOI:10.1016/j.apsusc.2009.11.020 JN:APPLIED SURFACE SCIENCE PY:2010 TC:38 AU: Chandekar, Amol;Sengupta, Sandip K.;Whitten, James E.;
2:154:3 Adsorption and removal dynamics of polymeric micellar nanocarriers loaded with a therapeutic agent on silica surfaces
DOI:10.1039/c3sm51692j JN:SOFT MATTER PY:2013 TC:3 AU: Zhang, Ming;Soto-Rodriguez, Jessica;Chen, I-Cheng;Akbulut, Mustafa;
2:154:4 Poly(ethylene glycol) and Hydroxy Functionalized Alkane Phosphate Mixed Self-Assembled Monolayers to Control Nonspecific Adsorption of Proteins on Titanium Oxide Surfaces
DOI:10.1021/la904066y JN:LANGMUIR PY:2010 TC:14 AU: Bozzini, Sabrina;Petrini, Paola;Tanzi, Maria Cristina;Zuercher, Stefan;Tosatti, Samuele;
2:154:5 Phosphonate-Anchored Monolayers for Antibody Binding to Magnetic Nanoparticles
DOI:10.1021/la202190x JN:LANGMUIR PY:2011 TC:4 AU: Benbenishty-Shamir, Helly;Gilert, Roni;Gotman, Irena;Gutmanas, Elazar Y.;Sukenik, Chaim N.;
2:154:6 Molecular Mechanism of Stabilization of Thin Films for Improved Water Evaporation Protection
DOI:10.1021/la402275p JN:LANGMUIR PY:2013 TC:8 AU: Yiapanis, George;Christofferson, Andrew J.;Plazzer, Michael;Weir, Michael P.;Prime, Emma L.;Qiao, Greg G.;Solomon, David H.;Yarovsky, Irene;
2:154:7 Tridentate Adsorbates with Cyclohexyl Headgroups Assembled on Gold
DOI:10.1021/la303101x JN:LANGMUIR PY:2013 TC:10 AU: Singhana, Burapol;Rittikulsittichai, Supachai;Lee, T. Randall;
2:154:8 Preparation and Characterization of Alkylphosphonic Acid Self-Assembled Mono layers on Titanium Alloy by Chemisorption and Electrochemical Deposition
DOI:10.1021/la404829b JN:LANGMUIR PY:2014 TC:5 AU: Metoki, Noah;Liu, Liang;Beilis, Edith;Eliaz, Noam;Mandler, Daniel;
2:154:9 Adsorption behavior of plasmid DNA on binary self-assembled monolayers modified gold substrates
DOI:10.1016/j.jcis.2012.06.002 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:5 AU: Kao, Wei-Lun;Chang, Hsun-Yun;Yen, Guo-Ji;Kuo, Ding-Yuan;You, Yun-Wen;Huang, Chih-Chieh;Kuo, Yu-Ting;Lin, Jiun-Hao;Shyue, Jing-Jong;
2:154:10 Effect of molecular desorption on the electronic properties of self-assembled polarizable molecular monolayers
DOI:10.1016/j.jcis.2013.12.052 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:1 AU: Wang, Gunuk;Jeong, Hyunhak;Kul, Jamin;Na, Seok-In;Kang, Hungu;Ito, Eisuke;Jang, Yun Hee;Noh, Jaegeun;Lee, Takhee;
2:154:11 Adsorption, Desorption, and Removal of Polymeric Nanomedicine on and from Cellulose Surfaces: Effect of Size
DOI:10.1021/la202287k JN:LANGMUIR PY:2011 TC:9 AU: Zhang, Ming;Akbulut, Mustafa;
2:154:12 Functionalization of electropolished titanium surfaces with silane-based self-assembled monolayers and their application in drug delivery
DOI:10.1016/j.jcis.2012.07.005 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:4 AU: Ajami, Elnaz;Aguey-Zinsou, Kondo-Francois;
2:154:13 Electrochemical Stability of Self-Assembled Alkylphosphate Monolayers on Conducting Metal Oxides
DOI:10.1021/la200925v JN:LANGMUIR PY:2011 TC:3 AU: Yildirim, Oktay;Yilmaz, M. Deniz;Reinhoudt, David N.;Blank, Dave H. A.;Rijnders, Guus;Huskens, Jurriaan;
2:154:14 Self-Assembled Monolayer Films Derived from Tridentate Cyclohexyl Adsorbates with Alkyl Tailgroups of Increasing Chain Length
DOI:10.1021/la401899q JN:LANGMUIR PY:2013 TC:5 AU: Singhana, Burapol;Jamison, Andrew C.;Hoang, Johnson;Lee, T. Randall;
2:154:15 Phosphonate-anchored thin films on titanium and niobium oxide surfaces: Fabrication and characterization
DOI:10.1016/j.tsf.2009.07.038 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Adadi, Racheli;Zorn, Gilad;Brener, Reuven;Gotman, Irena;Gutmanas, Elazar Y.;Sukenik, Chaim N.;
2:154:16 2,1,3-Benzothiadiazole (BTD)-moiety-containing red emitter conjugated amphiphilic poly(ethylene glycol)-block-poly(epsilon-caprolactone) copolymers for bioimaging
DOI:10.1039/b922435c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Tian, Yanqing;Wu, Wen-Chung;Chen, Ching-Yi;Strovas, Tim;Li, Yongzhong;Jin, Yuguang;Su, Fengyu;Meldrum, Deirdre R.;Jen, Alex K-Y.;
2:154:17 Dielectric behavior of self-assembled monolayers on conducting metal oxides
DOI:10.1039/c1jm15061h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:1 AU: Yildirim, Oktay;de Veen, Peter J.;Maas, Michiel G.;Nguyen, Minh D.;Reinhoudt, David N.;Blank, Dave H. A.;Rijnders, Guus;Huskens, Jurriaan;
2:154:18 Ideal Redox Behavior of the High-Density Self-Assembled Monolayer of a Molecular Tripod on a Au(111) Surface with a Terminal Ferrocene Group
DOI:10.1021/la305092g JN:LANGMUIR PY:2013 TC:10 AU: Kitagawa, Toshikazu;Matsubara, Hiroaki;Komatsu, Koichi;Hirai, Katsuyuki;Okazaki, Takao;Hase, Takahiro;
2:154:19 Preparation and characterization of APTES films on modification titanium by SAMs
DOI:10.1016/j.tsf.2011.01.068 JN:THIN SOLID FILMS PY:2011 TC:17 AU: Tan, Guoxin;Zhang, Lin;Ning, Chengyun;Liu, Xujian;Liao, Jingwen;
2:154:20 Conventional and microwave-assisted processing of Cu-loaded ICAs for electronic interconnect applications
DOI:10.1007/s10853-013-7537-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Qi, Siyuan;Vaidhyanathan, Bala;Hutt, David;
2:154:21 X-ray photoelectron spectroscopy study of para-substituted benzoic acids chemisorbed to aluminum oxide thin films
DOI:10.1116/1.4824166 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:0 AU: Kreil, Justin;Ellingsworth, Edward;Szulczewski, Greg;
2:155:1 Electrochemistry, Electrogenerated Chemiluminescence, and Excimer Formation Dynamics of Intramolecular pi-Stacked 9-Naphthylanthracene Derivatives and Organic Nanoparticles
DOI:10.1021/ja203731n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:20 AU: Suk, Jungdon;Wu, Zhiyong;Wang, Lei;Bard, Allen J.;
2:155:2 Electrochemical Behavior and Electrogenerated Chemiluminescence of Star-Shaped D-A Compounds with a 1,3,5-Triazine Core and Substituted Fluorene Arms
DOI:10.1021/ja104160f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:42 AU: Omer, Khalid M.;Ku, Sung-Yu;Chen, Yu-Chen;Wong, Ken-Tsung;Bard, Allen J.;
2:155:3 Synthesis, Photophysical, Electrochemical, and Electrogenerated Chemiluminescence Studies. Multiple Sequential Electron Transfers in BODIPY Monomers, Dinners, Trimers, and Polymer
DOI:10.1021/ja2010219 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:58 AU: Nepomnyashchii, Alexander B.;Broering, Martin;Ahrens, Johannes;Bard, Allen J.;
2:155:4 An Organic Down-Converting Material for White-Light Emission from Hybrid LEDs
DOI:10.1002/adma.201402661 JN:ADVANCED MATERIALS PY:2014 TC:3 AU: Findlay, Neil J.;Bruckbauer, Jochen;Inigo, Anto R.;Breig, Benjamin;Arumugam, Sasikumar;Wallis, David J.;Martin, Robert W.;Skabara, Peter J.;
2:155:5 Efficient Greenish Blue Electrochemiluminescence from Fluorene and Spirobifluorene Derivatives
DOI:10.1021/ja3054018 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Polo, Federico;Rizzo, Fabio;Veiga-Gutierrez, Manoel;De Cola, Luisa;Quici, Silvio;
2:155:6 Electrogenerated Chemiluminescence of Solutions, Films, and Nanoparticles of Dithienylbenzothiadiazole-Based Donor-Acceptor-Donor Red Fluorophore. Fluorescence Quenching Study of Organic Nanoparticles
DOI:10.1021/ja312189k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:11 AU: Shen, Mei;Zhu, Xu-Hui;Bard, Allen J.;
2:155:7 Dependence of Electrochemical and Electrogenerated Chemiluminescence Properties on the Structure of BODIPY Dyes. Unusually Large Separation between Sequential Electron Transfers
DOI:10.1021/ja108108d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:32 AU: Nepomnyashchii, Alexander B.;Cho, Sangik;Rossky, Peter J.;Bard, Allen J.;
2:155:8 Electrochemistry and Electrogenerated Chemiluminescence of Dithienylbenzothiadiazole Derivative. Differential Reactivity of Donor and Acceptor Groups and Simulations of Radical Cation-Anion and Dication-Radical Anion Annihilations
DOI:10.1021/ja105282u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:21 AU: Shen, Mei;Rodriguez-Lopez, Joaquin;Huang, Ju;Liu, Quan;Zhu, Xu-Hui;Bard, Allen J.;
2:155:9 Polarons, Bipolarons, and Side-By-Side Polarons in Reduction of Oligofluorenes
DOI:10.1021/ja301494n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Zaikowski, Lori;Kaur, Parmeet;Gelfond, Claudia;Selvaggio, Elicia;Asaoka, Sadayuki;Wu, Qin;Chen, Hung-Cheng;Takeda, Norihiko;Cook, Andrew R.;Yang, Alex;Rosanelli, John;Miller, John R.;
2:155:10 Linear oligofluorene-BODIPY structures for fluorescence applications
DOI:10.1039/c3tc00706e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Findlay, Neil J.;Orofino-Pena, Clara;Bruckbauer, Jochen;Elmasly, Saadeldin E. T.;Arumugam, Sasikumar;Inigo, Anto R.;Kanibolotsky, Alexander L.;Martin, Robert W.;Skabara, Peter J.;
2:155:11 Chemical and Electrochemical Dimerization of BODIPY Compounds: Electrogenerated Chemiluminescent Detection of Dimer Formation
DOI:10.1021/ja207545t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:21 AU: Nepomnyashchii, Alexander B.;Broering, Martin;Ahrens, Johannes;Bard, Allen J.;
2:155:12 Electrochemistry and Electrogenerated Chemiluminescence of a Spirobifluorene-Based Donor (Triphenylamine)-Acceptor (2,1,3-Benzothiadiazole) Molecule and Its Organic Nanoparticles
DOI:10.1021/ja2000825 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:22 AU: Omer, Khalid M.;Ku, Sung-Yu;Cheng, Jian-Zhang;Chou, Shu-Hua;Wong, Ken-Tsung;Bard, Allen J.;
2:155:13 Electrochemistry and Electrogenerated Chemiluminescence of Three Phenanthrene Derivatives, Enhancement of Radical Stability, and Electrogenerated Chemiluminescence Efficiency by Substituent Groups
DOI:10.1021/ja403166s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:1 AU: Qi, Honglan;Chen, Yu-Han;Cheng, Chien-Hong;Bard, Allen J.;
2:155:14 Electrochemistry and Electrogenerated Chemiluminescence of pi-Stacked Poly(fluorenemethylene) Oligomers. Multiple, Interacting Electron Transfers
DOI:10.1021/ja3057997 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:7 AU: Qi, Honglan;Chang, Jinho;Abdelwahed, Sameh H.;Thakur, Khushabu;Rathore, Rajendra;Bard, Allen J.;
2:155:15 Synthesis, Electrochemistry, and Electrogenerated Chemiluminescence of Two BODIPY-Appended Bipyridine Homologues
DOI:10.1021/ja406731f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:11 AU: Qi, Honglan;Teesdale, Justin J.;Pupillo, Rachel C.;Rosenthal, Joel;Bard, Allen J.;
2:155:16 Broadly tunable deep blue laser based on a star-shaped oligofluorene truxene
DOI:10.1016/j.synthmet.2010.04.016 JN:SYNTHETIC METALS PY:2010 TC:26 AU: Wang, Yue;Tsiminis, Georgios;Yang, Ying;Ruseckas, Arvydas;Kanibolotsky, Alexander L.;Perepichka, Igor F.;Skabara, Peter J.;Turnbull, Graham A.;Samuel, Ifor D. W.;
2:155:17 Contrasting Electrogenerated Chemiluminescence for a Dissolved and Surface-Attached Carbazole Thiophene Cyanoacrylate Dye
DOI:10.1021/am503743v JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Nepomnyashchii, Alexander B.;Parkinson, B. A.;
2:155:18 Localized Electron Transfer and the Effect of Tunneling on the Rates of Ru(bpy)(3)(2+) Oxidation and Reduction As Measured by Scanning Electrochemical Microscopy
DOI:10.1021/ja206136h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Shen, Mei;Bard, Allen J.;
2:155:19 Star-shaped dendritic molecules based on carboxylated carbazole and pyrrole as peripheral oxidizable units
DOI:10.1016/j.synthmet.2011.09.004 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Lellouche, Jean-Paul;Pomerantz, Zvika;Persky, Rachel;Gottlieb, Hugo E.;Ghosh, Subrata;
2:155:20 Electrochemistry and Electrogenerated Chemiluminescence of Twisted Anthracene-Functionalized Bimesitylenes
DOI:10.1021/ja209894q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Suk, Jungdon;Natarajan, Palani;Moorthy, Jarugu Narasimha;Bard, Allen J.;
2:155:21 Dip-pen nanolithography of nanostructured oligofluorene truxenes in a photo-curable host matrix
DOI:10.1039/c1jm11378j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Hernandez-Santana, Aaron;Mackintosh, Allan R.;Guilhabert, Benoit;Kanibolotsky, Alexander L.;Dawson, Martin D.;Skabara, Peter J.;Graham, Duncan;
2:155:22 Hybrid GaN/Organic white light emitters with aggregation induced emission organic molecule
DOI:10.1364/OME.3.001906 JN:OPTICAL MATERIALS EXPRESS PY:2013 TC:1 AU: Yue, Zhounan;Cheung, Yuk Fai;Choi, Hoi Wai;Zhao, Zujin;Tang, Ben Zhong;Wong, Kam Sing;
2:155:23 Highly photostable distributed-feedback polymer waveguide blue laser using spirobifluorene derivatives
DOI:10.1016/j.optmat.2010.12.011 JN:OPTICAL MATERIALS PY:2011 TC:6 AU: So, Hirotaka;Watanabe, Hirofumi;Yahiro, Masayuki;Yang, Yu;Oki, Yuji;Adachi, Chihaya;
2:155:24 Electrogenerated Chemiluminescence of BODIPY, Ru(bpy)(3)(2+), and 9,10-Diphenylanthracene Using Interdigitated Array Electrodes
DOI:10.1021/am4010623 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Nepomnyashchii, Alexander B.;Kolesov, G.;Parkinson, B. A.;
2:155:25 Scanning Electrochemical Microscopy Study of Ion Annihilation Electrogenerated Chemiluminescence of Rubrene and [Ru(bpy)(3)](2+)
DOI:10.1021/ja301016n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:2 AU: Rodriguez-Lopez, Joaquin;Shen, Mei;Nepomnyashchii, Alexander B.;Bard, Allen J.;
2:156:1 Grafting of poly(3-hexylthiophene) brushes on oxides using click chemistry
DOI:10.1039/b920233a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:41 AU: Paoprasert, Peerasak;Spalenka, Josef W.;Peterson, Dane L.;Ruther, Rose E.;Hamers, Robert J.;Evans, Paul G.;Gopalan, Padma;
2:156:2 Grafting P3HT brushes on GO sheets: distinctive properties of the GO/P3HT composites due to different grafting approaches
DOI:10.1039/c2jm35317b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:21 AU: Meng, Dongli;Sun, Jinhua;Jiang, Shidong;Zeng, Yi;Li, Yi;Yan, Shouke;Geng, Jianxin;Huang, Yong;
2:156:3 Surface-Initiated Poly(3-methylthiophene) as a Hole-Transport Layer for Polymer Solar Cells with High Performance
DOI:10.1021/am301401n JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:25 AU: Yang, Liqiang;Sontag, S. Kyle;LaJoie, Travis W.;Li, Wentao;Huddleston, N. Eric;Locklin, Jason;You, Wei;
2:156:4 Surface-Initiated Synthesis of Poly(3-methylthiophene) from Indium Tin Oxide and its Electrochemical Properties
DOI:10.1021/la204117u JN:LANGMUIR PY:2012 TC:25 AU: Doubina, Natalia;Jenkins, Judith L.;Paniagua, Sergio A.;Mazzio, Katherine A.;MacDonald, Gordon A.;Jen, Alex K. -Y.;Armstrong, Neal R.;Marder, Seth R.;Luscombe, Christine K.;
2:156:5 Synthesis of TiO2-Poly(3-hexylthiophene) Hybrid Particles through Surface-Initiated Kumada Catalyst-Transfer Polycondensation
DOI:10.1021/la502944g JN:LANGMUIR PY:2014 TC:2 AU: Boon, Florian;Moerman, David;Laurencin, Danielle;Richeter, Sebastien;Guari, Yannick;Mehdi, Ahmad;Dubois, Philippe;Lazzaroni, Roberto;Clement, Sebastien;
2:156:6 Emissive Conjugated Polymer Networks with Tunable Band-Gaps via Thiol-Ene Click Chemistry
DOI:10.1021/cm302790a JN:CHEMISTRY OF MATERIALS PY:2012 TC:10 AU: Koyuncu, Fatma Baycan;Davis, Andrew R.;Carter, Kenneth R.;
2:156:7 Electroluminescent Networks via Photo "Click" Chemistry
DOI:10.1021/ja2088579 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:15 AU: Davis, Andrew R.;Maegerlein, Janet A.;Carter, Kenneth R.;
2:156:8 Surface-Confined Nickel Mediated Cross-Coupling Reactions: Characterization of Initiator Environment in Kumada Catalyst-Transfer Polycondensation
DOI:10.1021/la202911t JN:LANGMUIR PY:2011 TC:25 AU: Sontag, S. Kyle;Sheppard, Gareth R.;Usselman, Nathan M.;Marshall, Nicholas;Locklin, Jason;
2:156:9 Surface Grafting of Vinyl-Functionalized Poly(fluorene)s via Thiol-Ene Click Chemistry
DOI:10.1021/la5000588 JN:LANGMUIR PY:2014 TC:4 AU: Davis, Andrew R.;Carter, Kenneth R.;
2:156:10 Surface-Grafted Rodlike Polymers: Adaptive Self-Assembled Mono layers and Rapid Photo-Patterning of Surfaces
DOI:10.1021/cm201138u JN:CHEMISTRY OF MATERIALS PY:2011 TC:6 AU: Han, Mingu;Rahman, M. Shahinur;Lee, Jae-Suk;Khim, Dongyoon;Kim, Dong-Yu;Park, Ji-Woong;
2:156:11 Controlled Catalyst Transfer Polycondensation and Surface-Initiated Polymerization of a p-Phenyleneethynylene-Based Monomer
DOI:10.1021/ja401740m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:21 AU: Kang, Songsu;Ono, Robert J.;Bielawski, Christopher W.;
2:156:12 Grafting density effects, optoelectrical properties and nano-patterning of poly(para-phenylene) brushes
DOI:10.1039/c3ta12745a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:2 AU: Chen, Jihua;Alonzo, Jose;Yu, Xiang;Hong, Kunlun;Messman, Jamie M.;Ivanov, Ilia;Lavrik, Nickolay V.;Banerjee, Moloy;Rathore, Rajendra;Sun, Zhenzhong;Li, Dawen;Mays, Jimmy W.;Sumpter, Bobby G.;Kilbey, S. Michael, II;
2:157:1 Chemical Degradation in Organic Light-Emitting Devices: Mechanisms and Implications for the Design of New Materials
DOI:10.1002/adma.201205022 JN:ADVANCED MATERIALS PY:2013 TC:26 AU: Schmidbauer, Susanna;Hohenleutner, Andreas;Koenig, Burkhard;
2:157:2 Exciton-Polaron-Induced Aggregation of Wide-Bandgap Materials and its Implication on the Electroluminescence Stability of Phosphorescent Organic Light-Emitting Devices
DOI:10.1002/adfm.201303840 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Wang, Qi;Sun, Bin;Aziz, Hany;
2:157:3 Triplet-polaron quenching by charges on guest molecules in phosphorescent organic light emitting devices
DOI:10.1063/1.4745194 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Siboni, Hossein Zamani;Aziz, Hany;
2:157:4 Photodegradation of the organic/metal cathode interface in organic light-emitting devices
DOI:10.1063/1.3480412 JN:APPLIED PHYSICS LETTERS PY:2010 TC:20 AU: Wang, Qi;Luo, Yichun;Aziz, Hany;
2:157:5 Degradation mechanism in simplified phosphorescent organic light-emitting devices utilizing one material for hole transport and emitter host
DOI:10.1063/1.4817918 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Zhang, Yingjie;Abdelmalek, Mina M. A.;Wang, Qi;Aziz, Hany;
2:157:6 Degradation of Organic/Organic Interfaces in Organic Light-Emitting Devices due to Polaron-Exciton Interactions
DOI:10.1021/am402537j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Wang, Qi;Aziz, Hany;
2:157:7 Role of oxygen-bonds in the degradation process of phosphorescent organic light emitting diodes
DOI:10.1063/1.3617459 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: de Moraes, Ines Rabelo;Scholz, Sebastian;Luessem, Bjoern;Leo, Karl;
2:157:8 Luminescence degradation in phosphorescent organic light-emitting devices by hole space charges
DOI:10.1063/1.3549128 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Siboni, Hossein Zamani;Luo, Yichun;Aziz, Hany;
2:157:9 In Situ Observation of Degradation by Ligand Substitution in Small-Molecule Phosphorescent Organic Light-Emitting Diodes
DOI:10.1021/cm503336d JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Jurow, Matthew J.;Bossi, Alberto;Djurovich, Peter I.;Thompson, Mark E.;
2:157:10 Photochemical deterioration of the organic/metal contacts in organic optoelectronic devices
DOI:10.1063/1.4752252 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:9 AU: Wang, Qi;Williams, Graeme;Tsui, Ting;Aziz, Hany;
2:157:11 Degradation induced decrease of the radiative quantum efficiency in organic light-emitting diodes
DOI:10.1063/1.4749815 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Schmidt, Tobias D.;Setz, Daniel S.;Flaemmich, Michael;Scholz, Bert J.;Jaeger, Arndt;Diez, Carola;Michaelis, Dirk;Danz, Norbert;Bruetting, Wolfgang;
2:157:12 Causes of driving voltage rise in phosphorescent organic light emitting devices during prolonged electrical driving
DOI:10.1063/1.4764021 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Siboni, Hossein Zamani;Aziz, Hany;
2:157:13 Incident photon-to-current efficiency measurements as a helpful tool to analyze luminescence loss mechanisms in organic light-emitting diodes
DOI:10.1063/1.4816039 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Huber, R.;Borchert, H.;von Hauff, E.;Heun, S.;Buchholz, H.;Parisi, J.;
2:157:14 Simplified Organic Light-Emitting Devices Utilizing Ultrathin Electron Transport Layers and New Insights on Their Roles
DOI:10.1021/am404589m JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Zhang, Yingjie;Wang, Qi;Aziz, Hany;
2:157:15 Structural, Optical and Electrical Characterization of Hot Wall Grown 9,10-dibromoanthracene Films for Light Emitting Applications
DOI:10.1007/s13391-013-3153-8 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Brar, Sukhwinder Singh;Mahajan, Aman;Bedi, R. K.;
2:157:16 Chemical reactivity of aromatic hydrocarbons and operational degradation of organic light-emitting diodes
DOI:10.1063/1.3289489 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Kondakov, Denis Y.;Brown, Christopher T.;Pawlik, Thomas D.;Jarikov, Viktor V.;
2:157:17 Variable sensitivity of organic light-emitting diodes to operation-induced chemical degradation: Nature of the antagonistic relationship between lifetime and efficiency
DOI:10.1063/1.3483251 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Kondakov, Denis Y.;Young, Ralph H.;
2:157:18 Very high efficiency phosphorescent organic light-emitting devices by using rough indium tin oxide
DOI:10.1063/1.4890316 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Zhang, Yingjie;Aziz, Hany;
2:157:19 Evidence of intermolecular species formation with electrical aging in anthracene-based blue organic light-emitting devices
DOI:10.1063/1.3386519 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Wang, Qi;Luo, Yichun;Aziz, Hany;
2:157:20 The effects of low temperature and pressure on the fracture behaviors of organosilicate thin films
DOI:10.1557/jmr.2011.253 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:3 AU: Barakat, Soheil;Lee-Sullivan, Pearl;Vitale, Steven A.;Tsui, Ting Y.;
2:157:21 Dependence of dark spot growth on cathode/organic interfacial adhesion in organic light emitting devices
DOI:10.1063/1.3692390 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Phatak, R.;Tsui, T. Y.;Aziz, H.;
2:157:22 A high performance liquid chromatography method to determine phenanthroline derivatives used in OLEDs and OSCs
DOI:10.1016/j.synthmet.2012.08.003 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Auschill, Stefan;de Moraes, Ines Rabelo;Luessem, Bjoern;Gather, Malte C.;Leo, Karl;
2:158:1 Localized Ligand Induced Electroless Plating (LIEP) Process for the Fabrication of Copper Patterns Onto Flexible Polymer Substrates
DOI:10.1002/adfm.201100041 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:25 AU: Garcia, Alexandre;Polesel-Maris, Jerome;Viel, Pascal;Palacin, Serge;Berthelot, Thomas;
2:158:2 ABS Polymer Electroless Plating through a One-Step Poly(acrylic acid) Covalent Grafting
DOI:10.1021/am1000163 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:27 AU: Garcia, Alexandre;Berthelot, Thomas;Viel, Pascal;Mesnage, Alice;Jegou, Pascale;Nekelson, Fabien;Roussel, Sebastien;Palacin, Serge;
2:158:3 Site-Selective Electroless Nickel Plating on Patterned Thin Films of Macromolecular Metal Complexes
DOI:10.1021/am100853t JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:16 AU: Kimura, Mutsumi;Yamagiwa, Hiroki;Asakawa, Daisuke;Noguchi, Makoto;Kurashina, Tadashi;Fukawa, Tadashi;Shirai, Hirofusa;
2:158:4 A facile method of nickel electroless deposition on various neutral hydrophobic polymer surfaces
DOI:10.1016/j.apsusc.2013.06.108 JN:APPLIED SURFACE SCIENCE PY:2013 TC:8 AU: Wang, Wei;Ji, Shaowen;Lee, Ilsoon;
2:158:5 Polymer grafting surface as templates for the site-selective metallization
DOI:10.1016/j.apsusc.2013.02.137 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Yang, Fang;Li, Peiyuan;Li, Xiangcheng;Huo, Lini;Chen, Jinhao;Chen, Rui;Na, Wei;Tang, Wanning;Liang, Lifang;Su, Wei;
2:158:6 Selectively Metallized Polymeric Substrates by Microcontact Printing an Aluminum(III) Porphyrin Complex
DOI:10.1021/ja908433p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:17 AU: Miller, Michael S.;Filiatrault, Heather L.;Davidson, Gregory J. E.;Luo, Minmin;Carmichael, Tricia Breen;
2:158:7 A Vapor-Phase Deposited Polymer Film to Improve the Adhesion of Electroless-Deposited Copper Layer onto Various Kinds of Substrates
DOI:10.1021/la404251h JN:LANGMUIR PY:2014 TC:3 AU: You, Jae Bem;Kim, Shin Young;Park, Yong Jin;Ko, Young Gwan;Im, Sung Gap;
2:158:8 Modification of Cu nanoparticles with a disulfide for polyimide metallization
DOI:10.1039/b920626d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Dow, Wei-Ping;Liao, Guo-Liang;Huang, Shang-En;Chen, Sinn-Wen;
2:158:9 Microscopic Study of a Ligand Induced Electroless Plating Process onto Polymers
DOI:10.1021/am100907j JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:14 AU: Garcia, Alexandre;Berthelot, Thomas;Viel, Pascal;Polesel-Maris, Jerome;Palacin, Serge;
2:158:10 Improvement of copper plating adhesion on silane modified PET film by ultrasonic-assisted electroless deposition
DOI:10.1016/j.apsusc.2009.12.153 JN:APPLIED SURFACE SCIENCE PY:2010 TC:34 AU: Lu, Yinxiang;
2:158:11 Electroless plating of copper on surface-modified glass substrate
DOI:10.1016/j.apsusc.2011.04.100 JN:APPLIED SURFACE SCIENCE PY:2011 TC:15 AU: Su, Wei;Yao, Libei;Yang, Fang;Li, Peiyuan;Chen, Juan;Liang, Lifang;
2:158:12 Study on the Pretreatment of Poly(ether ether ketone)/Multiwalled Carbon Nanotubes Composites through Environmentally Friendly Chemical Etching and Electrical Properties of the Chemically Metallized Composites
DOI:10.1021/am4037806 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Zhai, Tong;Di, Lizhi;Yang, De'an;
2:158:13 Adhesion improvement of electroless copper plating on phenolic resin matrix composite through a tin-free sensitization process
DOI:10.1016/j.apsusc.2013.01.188 JN:APPLIED SURFACE SCIENCE PY:2013 TC:7 AU: Wang, Yong;Bian, Cheng;Jing, Xinli;
2:158:14 Site-selective metallization of polymeric substrates by the hyperbranched polymer templates
DOI:10.1016/j.apsusc.2013.04.117 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Li, Peiyuan;Yang, Fang;Li, Xiangcheng;He, Chunling;Su, Wei;Chen, Jinhao;Huo, Lini;Chen, Rui;Lu, Chensheng;Liang, Lifang;
2:158:15 Environmentally benign electroless nickel plating using supercritical carbon-dioxide on hydrophilically modified acrylonitrile-butadiene-styrene
DOI:10.1016/j.apsusc.2014.05.040 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Tengsuwan, Siwach;Ohshima, Masahiro;
2:158:16 Highly reflective and adhesive surface of aluminized polyvinyl chloride film by vacuum evaporation
DOI:10.1016/j.apsusc.2014.05.106 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Li, Denian;Tai, Qile;Feng, Qiang;Li, Qi;Xu, Xizhe;Li, Hairong;Huang, Jing;Dong, Lijie;Xie, Haian;Xiong, Chuanxi;
2:158:17 Formation of conductive and reflective silver nanolayers on plastic films via ion doping and solid-liquid interfacial reduction at ambient temperature
DOI:10.1016/j.actamat.2013.03.032 JN:ACTA MATERIALIA PY:2013 TC:2 AU: Cui, Guanghui;Wu, Dezhen;Zhao, Yuan;Liu, Wei;Wu, Zhanpeng;
2:158:18 Study of deposition patterns of plating layers in SiC/Cu composites by electro-brush plating
DOI:10.1016/j.apsusc.2011.07.045 JN:APPLIED SURFACE SCIENCE PY:2011 TC:9 AU: Li, Xiangliang;Wang, Xibao;Gao, Rui;Sun, Li;
2:158:19 Preparation and Properties of Poly(ether-ester-amide)/Poly(acrylonitrile-co-butadiene-co-styrene) Antistatic Blends
DOI:10.1002/app.33265 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:2 AU: Fu, Yishu;Wang, Jikui;Zhao, Guang;Wang, Yaoxian;Chen, Shujun;
2:158:20 Fabrication and metallization of 3D electrospun nanofiberous architecture with gold and silver coating for applications related to electrochemical supercapacitors
DOI:10.1016/j.matchemphys.2013.08.002 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Park, Keon Young;Ramaraj, B.;Choi, Won Suk;Yoon, Kuk Ro;
2:158:21 Rapid plasma treatment of polyimide for improved adhesive and durable copper film deposition
DOI:10.1016/j.tsf.2012.03.080 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Usami, Kenji;Ishijima, Tatsuo;Toyoda, Hirotaka;
2:159:1 Organic electronics from perylene to organic photovoltaics: painting a brief history with a broad brush
DOI:10.1039/b921677d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:101 AU: Brunetti, Fulvio G.;Kumar, Rajeev;Wudl, Fred;
2:159:2 Current trends in the optimization of low band gap polymers in bulk heterojunction photovoltaic devices
DOI:10.1039/c0jm04433d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:35 AU: Szarko, Jodi M.;Guo, Jianchang;Rolczynski, Brian S.;Chen, Lin X.;
2:159:3 Improved Photovoltaic Performance of PPV-Based Copolymers Using Optimized Fullerene-Based Counterparts
DOI:10.1002/aenm.201200118 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:11 AU: Troshin, Pavel A.;Mukhacheva, Olga A.;Usluer, Ozlem;Goryachev, Andrey E.;Akkuratov, Alexander V.;Susarova, Diana K.;Dremova, Nadezhda N.;Rathgeber, Silke;Sariciftci, Niyazi Serdar;Razumov, Vladimir F.;Egbe, Daniel A. M.;
2:159:4 Robust carrier formation process in low-band gap organic photovoltaics
DOI:10.1063/1.4826187 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Yonezawa, Kouhei;Kamioka, Hayato;Yasuda, Takeshi;Han, Liyuan;Moritomo, Yutaka;
2:159:5 Photovoltaic performance of PPE-PPV copolymers: effect of the fullerene component
DOI:10.1039/c0jm02681f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Susarova, Diana K.;Khakina, Ekaterina A.;Troshin, Pavel A.;Goryachev, Andrey E.;Sariciftci, N. Serdar;Razumov, Vladimir F.;Egbe, Daniel A. M.;
2:159:6 Material solubility and molecular compatibility effects in the design of fullerene/polymer composites for organic bulk heterojunction solar cells
DOI:10.1039/c2jm32873a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Troshin, Pavel A.;Susarova, Diana K.;Khakina, Ekaterina A.;Goryachev, Andrey A.;Borshchev, Oleg V.;Ponomarenko, Sergei A.;Razumov, Vladimir F.;Sariciftci, N. Serdar;
2:159:7 Quasiparticle and optical properties of polythiophene-derived polymers
DOI:10.1103/PhysRevB.90.035123 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Samsonidze, Georgy;Ribeiro, Filipe J.;Cohen, Marvin L.;Louie, Steven G.;
2:159:8 Polymerizable fullerene-based material for organic solar cells
DOI:10.1016/j.tsf.2010.11.059 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Kostyanovsky, Vladislav A.;Susarova, Diana K.;Peregudov, Alexander S.;Troshin, Pavel A.;
2:159:9 Synthesis and properties of fluorene-oligothiophenes perylenediimide triads and their electropolymerizations
DOI:10.1039/c2jm31257c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Muenmart, Duangratchaneekorn;Tarsang, Ruangchai;Jungsuttiwong, Siriporn;Keawin, Tinnagon;Sudyoadsuk, Taweesak;Promarak, Vinich;
2:160:1 Synthesis of BN-Fused Polycyclic Aromatics via Tandem Intramolecular Electrophilic Arene Borylation
DOI:10.1021/ja208950c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:46 AU: Hatakeyama, Takuji;Hashimoto, Sigma;Seki, Shu;Nakamura, Masaharu;
2:160:2 A Straightforward Strategy toward Large BN-Embedded pi-Systems: Synthesis, Structure, and Optoelectronic Properties of Extended BN Heterosuperbenzenes
DOI:10.1021/ja500117z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:15 AU: Wang, Xiao-Ye;Zhuang, Fang-Dong;Wang, Rui-Bo;Wang, Xin-Chang;Cao, Xiao-Yu;Wang, Jie-Yu;Pei, Jian;
2:160:3 Resonance Stabilization Energy of 1,2-Azaborines: A Quantitative Experimental Study by Reaction Calorimetry
DOI:10.1021/ja109596m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:34 AU: Campbell, Patrick G.;Abbey, Eric R.;Neiner, Doinita;Grant, Daniel J.;Dixon, David A.;Liu, Shih-Yuan;
2:160:4 Boron in Disguise: The Parent "Fused" BN Indole
DOI:10.1021/ja205779b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:29 AU: Abbey, Eric R.;Zakharov, Lev N.;Liu, Shih-Yuan;
2:160:5 Two BN lsosteres of Anthracene: Synthesis and Characterization
DOI:10.1021/ja508813v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Ishibashi, Jacob S. A.;Marshall, Jonathan L.;Maziere, Audrey;Lovinger, Gabriel J.;Li, Bo;Zakharov, Lev N.;Dargelos, Alain;Graciaa, Alain;Chrostowska, Anna;Liu, Shih-Yuan;
2:160:6 Azaboradibenzo[6]helicene: Carrier Inversion Induced by Helical Homochirality
DOI:10.1021/ja310372f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:23 AU: Hatakeyama, Takuji;Hashimoto, Sigma;Oba, Tsuyoshi;Nakamura, Masaharu;
2:160:7 Protecting Group-Free Synthesis of 1,2-Azaborines: A Simple Approach to the Construction of BN-Benzenoids
DOI:10.1021/ja4073436 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:5 AU: Abbey, Eric R.;Lamm, Ashley N.;Baggett, Andrew W.;Zakharov, Lev N.;Liu, Shih-Yuan;
2:160:8 Electrophilic Aromatic Substitution of a BN Indole
DOI:10.1021/ja107312u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:24 AU: Abbey, Eric R.;Zakharov, Lev N.;Liu, Shih-Yuan;
2:160:9 A 1,3-Dihydro-1,3-azaborine Debuts
DOI:10.1021/ja2097089 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:15 AU: Xu, Senmiao;Zakharov, Lev N.;Liu, Shih-Yuan;
2:160:10 UV-Photoelectron Spectroscopy of 1,2-and 1,3-Azaborines: A Combined Experimental and Computational Electronic Structure Analysis
DOI:10.1021/ja303595z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Chrostowska, Anna;Xu, Senmiao;Lamm, Ashley N.;Maziere, Audrey;Weber, Christopher D.;Dargelos, Alain;Baylere, Patrick;Graciaa, Alain;Liu, Shih-Yuan;
2:160:11 Microwave Spectrum, Structural Parameters, and Quadrupole Coupling for 1,2-Dihydro-1,2-azaborine
DOI:10.1021/ja1005338 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:21 AU: Daly, Adam M.;Tanjaroon, Chakree;Marwitz, Adam J. V.;Liu, Shih-Yuan;Kukolich, Stephen G.;
2:160:12 BN-decorated graphene nanoflakes with tunable opto-electronic and charge transport properties
DOI:10.1039/c3tc32486a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Sanyal, Somananda;Manna, Arun K.;Pati, Swapan K.;
2:160:13 UV-Photoelectron Spectroscopy of BN lndoles: Experimental and Computational Electronic Structure Analysis
DOI:10.1021/ja5063899 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Chrostowska, Anna;Xu, Senmiao;Maziere, Audrey;Boknevitz, Katherine;Li, Bo;Abbey, Eric R.;Dargelos, Alain;Graciaa, Alain;Liu, Shih-Yuan;
2:160:14 Ionic N-B-N- and B-N-B-Substituted Benzene Analogues: A Theoretical Analysis
DOI:10.1021/ja3049354 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:3 AU: AlKaabi, Khalid;Dasari, Prasad L. V. K.;Hoffmann, Roald;
2:160:15 Synthesis and characterization of 1,3,2-diazaboroine derivatives for organic thin-film transistor applications
DOI:10.1016/j.synthmet.2010.07.004 JN:SYNTHETIC METALS PY:2010 TC:5 AU: Lu, Yinxiang;Bolag, Altan;Nishida, Jun-ichi;Yamashita, Yoshiro;
2:160:16 Tetrabenzo[8]circulene: Aromatic Saddles from Negatively Curved Graphene
DOI:10.1021/ja407842z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: Sakamoto, Youichi;Suzuki, Toshiyasu;
2:161:1 Atomistic Band Gap Engineering in Donor-Acceptor Polymers
DOI:10.1021/ja208917m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:78 AU: Gibson, Gregory L.;McCormick, Theresa M.;Seferos, Dwight S.;
2:161:2 Controlling Phase Separation and Optical Properties in Conjugated Polymers through Selenophene-Thiophene Copolymerization
DOI:10.1021/ja103191u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:94 AU: Hollinger, Jon;Jahnke, Ashlee A.;Coombs, Neil;Seferos, Dwight S.;
2:161:3 Pure and Saturated Red Electroluminescent Polyfluorenes with Dopant/Host System and PLED Efficiency/Color Purity Trade-Offs
DOI:10.1002/adfm.201000840 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:22 AU: Chen, Lei;Zhang, Baohua;Cheng, Yanxiang;Xie, Zhiyuan;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:161:4 The Marriage of Metallacycle Transfer Chemistry with Suzuki-Miyaura Cross-Coupling To Give Main Group Element-Containing Conjugated Polymers
DOI:10.1021/ja402242z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:15 AU: He, Gang;Kang, Le;Delgado, William Torres;Shynkaruk, Olena;Ferguson, Michael J.;McDonald, Robert;Rivard, Eric;
2:161:5 Highly sensitive conjugated polymer fluorescent sensors based on benzochalcogendiazole for nickel ions in real-time detection
DOI:10.1039/c4tc01112k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Lei, Yunxiang;Li, Hui;Gao, Wenxia;Liu, Miaochang;Chen, Jiuxi;Ding, Jinchang;Huang, Xiaobo;Wu, Huayue;
2:161:6 Synthesis, optical and electrochemical properties of novel D-pi-A type conjugated polymers based on benzo[c][1,2,5]selenadiazole unit via alkyne module
DOI:10.1016/j.polymer.2013.09.017 JN:POLYMER PY:2013 TC:5 AU: Li, Duanqin;Li, Hui;Liu, Miaochang;Chen, Jiuxi;Ding, Jinchang;Huang, Xiaobo;Wu, Huayue;
2:161:7 Dual-functional conjugated polymers based on trifluoren-2-yl-amine for RGB organic light-emitting diodes
DOI:10.1039/c1jm13533c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:5 AU: Ye, Hua;Zhao, Baofeng;Liu, Ming;Zhou, Xiao;Li, Yanhu;Li, Dongyun;Su, Shi-Jian;Yang, Wei;Cao, Yong;
2:161:8 Red electroluminescent polyfluorenes containing highly efficient 2,1,3-benzoselenadiazole- and 2,1,3-naphthothiadiazole-based red dopants in the side chain
DOI:10.1039/c1jm12549d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:2 AU: Chen, Lei;Tong, Hui;Xie, Zhiyuan;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:161:9 Conjugated polymers containing trifluoren-2-ylamine, trifluoren-2-ylbenzene and trifluoren-2-yltriazine for electroluminescence
DOI:10.1016/j.polymer.2012.11.050 JN:POLYMER PY:2013 TC:4 AU: Ye, Hua;Chen, Dongcheng;Liu, Ming;Zhou, Xiao;Su, Shi-Jian;Cao, Yong;
2:161:10 Microwave assisted synthesis of fluorene-based copolymers with different conjugate degreed quinoxaline segments from reactive polymer
DOI:10.1016/j.tsf.2013.07.080 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Li, Jixin;Song, Xiaohui;Feng, Ying;Wang, Zhiming;Zhang, Xiaojuan;Shen, Fangzhong;Lu, Ping;
2:161:11 Color tuning of Novel 2,1,3-Naphthothiadiazole and 2,1,3-Benzoselenadiazole based D-A-D ' Type dopants to realize highly efficient saturated red emission in non-polar solvents
DOI:10.1039/c1jm11204j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Chen, Lei;Wang, Lixiang;Jing, Xiabin;Wang, Fosong;
2:161:12 Synthesis and photovolatic properties of new poly(quarterselenophene) and poly(quarterselenophene-alt-quarterthiophene)s
DOI:10.1016/j.solmat.2013.05.059 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Lee, Woo-Hyung;Lee, Sang-Kyu;Shin, Won-Suk;Moon, Sang-Jin;Lee, Soo-Hyoung;Kang, In-Nam;
2:161:13 Active layer analysis of interpenetrating heterojunction organic thin-film solar cells by X-ray photoelectron spectroscopy
DOI:10.1016/j.tsf.2013.06.073 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Hori, Tetsuro;Semba, Akitoshi;Lee, Sunghwan;Kubo, Hitoshi;Fujii, Akihiko;Ozaki, Masanori;
2:161:14 A new narrow bandgap polyfluorene copolymer containing 2,6-bis-(3-hexyl-thiophen-2-yl)-anthraquinone unit for solar cell applications
DOI:10.1016/j.solmat.2011.09.060 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Lee, Jung Feng;Hsu, Steve Lien Chung;Lee, Po I.;Chuang, Hung Yi;Chen, Jen Sue;Chou, Wei Yang;
2:162:1 Epitaxial growth of sexithiophene on mica surfaces
DOI:10.1103/PhysRevB.83.115443 JN:PHYSICAL REVIEW B PY:2011 TC:20 AU: Simbrunner, Clemens;Hernandez-Sosa, Gerardo;Oehzelt, Martin;Djuric, Tatjana;Salzmann, Ingo;Brinkmann, Martin;Schwabegger, Guenther;Watzinger, Irene;Sitter, Helmut;Resel, Roland;
2:162:2 Color Tuning of Nanofibers by Periodic Organic-Organic Hetero-Epitaxy
DOI:10.1021/nn2047235 JN:ACS NANO PY:2012 TC:18 AU: Simbrunner, Clemens;Hernandez-Sosa, Gerardo;Quochi, Francesco;Schwabegger, Guenther;Botta, Chiara;Oehzelt, Martin;Salzmann, Ingo;Djuric, Tatjana;Neuhold, Alfred;Resel, Roland;Saba, Michele;Mura, Andrea;Bongiovanni, Giovanni;Vollmer, Antje;Koch, Norbert;Sitter, Helmut;
2:162:3 Epitaxy of Rodlike Organic Molecules on Sheet Silicates-A Growth Model Based on Experiments and Simulations
DOI:10.1021/ja109729e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:31 AU: Simbrunner, Clemens;Nabok, Dmitrii;Hernandez-Sosa, Gerardo;Oehzelt, Martin;Djuric, Tatjana;Resel, Roland;Romaner, Lorenz;Puschnig, Peter;Ambrosch-Draxl, Claudia;Salzmann, Ingo;Schwabegger, Guenther;Watzinger, Irene;Sitter, Helmut;
2:162:4 Epitaxially Guided Assembly of Collagen Layers on Mica Surfaces
DOI:10.1021/la2018055 JN:LANGMUIR PY:2011 TC:20 AU: Leow, Wee Wen;Hwang, Wonmuk;
2:162:5 Interface Properties of Organic para-Hexaphenyl/alpha-Sexithiophene Heterostructures Deposited on Highly Oriented Pyrolytic Graphite
DOI:10.1021/la402242b JN:LANGMUIR PY:2013 TC:4 AU: Schwabegger, Guenther;Oehzelt, Martin;Salzmann, Ingo;Quochi, Francesco;Saba, Michele;Mura, Andrea;Bongiovanni, Giovanni;Vollmer, Antje;Koch, Norbert;Sitter, Helmut;Simbrunner, Clemens;
2:162:6 Type I Collagen Self-Assembly: The Roles of Substrate and Concentration
DOI:10.1021/la3048104 JN:LANGMUIR PY:2013 TC:10 AU: Fang, Ming;Goldstein, Elizabeth L.;Matich, Eryn K.;Orr, Bradford G.;Holl, Mark M. Banaszak;
2:162:7 Organic-Organic Heteroepitaxy of Red-, Green-, and Blue-Emitting Nanofibers
DOI:10.1021/nn1018889 JN:ACS NANO PY:2010 TC:21 AU: Simbrunner, Clemens;Quochi, Francesco;Hernandez-Sosa, Gerardo;Oehzelt, Martin;Resel, Roland;Hesser, Guenter;Arndt, Martin;Saba, Michele;Mura, Andrea;Bongiovanni, Giovanni;Sitter, Helmut;
2:162:8 Kinetic Signature of Fractal-like Filament Networks Formed by Orientational Linear Epitaxy
DOI:10.1103/PhysRevLett.113.025502 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Hwang, Wonmuk;Eryilmaz, Esma;
2:162:9 Self-Assembly of Collagen on Flat Surfaces: The Interplay of Collagen-Collagen and Collagen-Substrate Interactions
DOI:10.1021/la4043364 JN:LANGMUIR PY:2014 TC:6 AU: Narayanan, Badri;Gilmer, George H.;Tao, Jinhui;De Yoreo, James J.;Ciobanu, Cristian V.;
2:162:10 Alternately deposited heterostructures of alpha-sexithiophene-para-hexaphenyl on muscovite mica(001) surfaces: crystallographic structure and morphology
DOI:10.1039/c2jm32023a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Djuric, Tatjana;Hernandez-Sosa, Gerardo;Schwabegger, Guenther;Koini, Markus;Hesser, Guenter;Arndt, Martin;Brinkmann, Martin;Sitter, Helmut;Simbrunner, Clemens;Resel, Roland;
2:162:11 Crystallites of alpha-Sexithiophene in Bilayer Small Molecule Organic Solar Cells Double Efficiency
DOI:10.1155/2014/482372 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:1 AU: Radziwon, Michal;Cauduro, Andre Luis Fernandes;Madsen, Morten;Rubahn, Horst-Gunter;
2:162:12 Growth of alpha-sexithiophene nanostructures on C-60 thin film layers
DOI:10.1016/j.tsf.2014.03.013 JN:THIN SOLID FILMS PY:2014 TC:4 AU: Radziwon, Michal;Madsen, Morten;Balzer, Frank;Resel, Roland;Rubahn, Horst-Gunter;
2:162:13 Evolution of epitaxial order in para-sexiphenyl on KCl(100)
DOI:10.1016/j.jcrysgro.2009.10.022 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:9 AU: Haber, Thomas;Resel, Roland;Andreev, Andrey;Oehzelt, Martin;Smilgies, Detlef-M.;Sitter, Helmut;
2:162:14 Phase-separation and mixing in thin films of co-deposited rod-like conjugated molecules
DOI:10.1039/b927594k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:16 AU: Vogel, Joern-Oliver;Salzmann, Ingo;Duhm, Steffen;Oehzelt, Martin;Rabe, Juergen P.;Koch, Norbert;
2:162:15 High-Resolution Atomic Force Microscopy Study of Hexaglycylamide Epitaxial Structures on Graphite
DOI:10.1021/la103051w JN:LANGMUIR PY:2011 TC:10 AU: Prokhorov, V. V.;Klinov, D. V.;Chinarev, A. A.;Tuzikov, A. B.;Gorokhova, I. V.;Bovin, N. V.;
2:162:16 Nucleation and growth of elastin-like peptide fibril multilayers: an in situ atomic force microscopy study
DOI:10.1088/0957-4484/22/49/494018 JN:NANOTECHNOLOGY PY:2011 TC:2 AU: Yang, Guocheng;Wong, Michael K.;Lin, Lauren E.;Yip, Christopher M.;
2:162:17 Role of Hydration Force in the Self-Assembly of Collagens and Amyloid Steric Zipper Filaments
DOI:10.1021/ja204377y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:5 AU: Ravikumar, Krishnakumar M.;Hwang, Wonmuk;
2:163:1 Flexible Organic Thin-Film Transistors with Silk Fibroin as the Gate Dielectric
DOI:10.1002/adma.201004071 JN:ADVANCED MATERIALS PY:2011 TC:59 AU: Wang, Chung-Hwa;Hsieh, Chao-Ying;Hwang, Jenn-Chang;
2:163:2 High-performance, low-operating voltage, and solution-processable organic field-effect transistor with silk fibroin as the gate dielectric
DOI:10.1063/1.4862198 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Shi, Leilei;Xu, Xinjun;Ma, Mingchao;Li, Lidong;
2:163:3 Organozinc Compounds as Effective Dielectric Modification Layers for Polymer Field-Effect Transistors
DOI:10.1002/adfm.201200316 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:8 AU: Xu, Xinjun;Liu, Bo;Zou, Yingping;Guo, Yunlong;Li, Lidong;Liu, Yunqi;
2:163:4 Chicken Albumen Dielectrics in Organic Field-Effect Transistors
DOI:10.1002/adma.201102124 JN:ADVANCED MATERIALS PY:2011 TC:34 AU: Chang, Jer-Wei;Wang, Cheng-Guang;Huang, Chong-Yu;Tsai, Tzung-Da;Guo, Tzung-Fang;Wen, Ten-Chin;
2:163:5 Engineering of the dielectric-semiconductor interface in organic field-effect transistors
DOI:10.1039/b921449f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:32 AU: Sun, Xiangnan;Di, Chong-an;Liu, Yunqi;
2:163:6 High-mobility bio-organic field effect transistors with photoreactive DNAs as gate insulators
DOI:10.1063/1.3299022 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Kim, Youn Sun;Jung, Ki Hwa;Lee, U. Ra;Kim, Kyung Hwan;Hoang, Mai Ha;Jin, Jung-Il;Choi, Dong Hoon;
2:163:7 A UV-ozone treated amorphous barium-strontium titanate dielectric thin film for low driving voltage flexible organic transistors
DOI:10.1039/c3tc30345d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Wang, Zongrong;Ren, Xiaochen;Leung, Chi Wah;Shi, Sanqiang;Chan, Paddy Kwok Leung;
2:163:8 Electrical properties of in vitro biomineralized recombinant silicatein deposited by microfluidics
DOI:10.1063/1.4766186 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Pagliara, Stefano;Polini, Alessandro;Camposeo, Andrea;Schroeder, Heinz C.;Mueller, Werner E. G.;Pisignano, Dario;
2:163:9 Highly Flexible and Lightweight Organic Solar Cells on Biocompatible Silk Fibroin
DOI:10.1021/am504163r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Liu, Yuqiang;Qi, Ning;Song, Tao;Jia, Mingliang;Xia, Zhouhui;Yuan, Zhongcheng;Yuan, Wei;Zhang, Ke-Qin;Sun, Baoquan;
2:163:10 An inkjet-printed TTF-TCNQ nanoweb as an effective modification layer for high mobility organic field-effect transistors
DOI:10.1039/c3tc31839g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Li, Yufeng;Jian, Fangfang;
2:163:11 Energetics and stability of pentacene thin films on amorphous and crystalline octadecylsilane modified surfaces
DOI:10.1039/b921767c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:6 AU: Virkar, Ajay A.;Mannsfeld, Stefan C. B.;Bao, Zhenan;
2:164:1 Highly transparent Nb-doped indium oxide electrodes for organic solar cells
DOI:10.1116/1.4832238 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:1 AU: Kim, Jun Ho;Seong, Tae-Yeon;Na, Seok-In;Chung, Kwun-Bum;Lee, Hye-Min;Kim, Han-Ki;
2:164:2 Highly near-infrared transparent GeO2-doped In2O3 electrodes for bulk heterojunction organic solar cells
DOI:10.1016/j.solmat.2012.07.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Kang, Sin-Bi;Lim, Jong-Wook;Na, Seok-In;Kim, Han-Ki;
2:164:3 Transparent Ti-In-Sn-O multicomponent anodes for highly efficient phosphorescent organic light emitting diodes
DOI:10.1063/1.4737602 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Lim, Jong-Wook;Kang, Seong Jun;Lee, Sunghun;Kim, Jang-Joo;Kim, Han-Ki;
2:164:4 Indium-free, acid-resistant anatase Nb-doped TiO2 electrodes activated by rapid-thermal annealing for cost-effective organic photovoltaics
DOI:10.1016/j.solmat.2011.03.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Park, Jun-Hyuk;Kang, Seong Jun;Na, Seok-In;Lee, Hyun Hwi;Kim, Sung-Wng;Hosono, H.;Kim, Han-Ki;
2:164:5 Transparent conductive electrodes of mixed TiO2-x-indium tin oxide for organic photovoltaics
DOI:10.1063/1.4707381 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Lee, Kyu-Sung;Lim, Jong-Wook;Kim, Han-Ki;Alford, T. L.;Jabbour, Ghassan E.;
2:164:6 Effect of MoO3 doping power on the electrical, optical, and structural properties of MoO3-doped In2O3 anodes for organic solar cells
DOI:10.1116/1.4758789 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:6 AU: Shin, Yong-Hee;Kim, Han-Ki;Na, Seok-In;
2:164:7 Transmission electron microscopy study of degradation in transparent indium tin oxide/Ag/indium tin oxide multilayer films
DOI:10.1063/1.4812815 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Jeong, Jin-A;Kim, Han-Ki;Koo, Hyun-Woo;Kim, Tae-Woong;
2:164:8 Effects of rapid thermal annealing on electrical, optical, and structural properties of Ni-doped In2O3 anodes for bulk heterojunction organic solar cells
DOI:10.1116/1.4774212 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:2 AU: Kim, Jun Ho;Seong, Tae-Yeon;Kim, Han-Ki;
2:164:9 Anatase TiO2 and ITO co-sputtered films for an indium-saving multicomponent electrode in organic solar cells
DOI:10.1016/j.solmat.2011.11.054 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Lim, Jong-Wook;Na, Seok-In;Kim, Han-Ki;
2:164:10 Antireflective ZnSnO/Ag bilayer-based transparent source and drain electrodes for transparent thin film transistors
DOI:10.1063/1.4732091 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Choi, Kwang-Hyuk;Koo, Hyun-Woo;Kim, Tae-Woong;Kim, Han-Ki;
2:164:11 Transparent Ga and Zn co-doped In2O3 electrode prepared by co-sputtering of Ga:In2O3 and Zn:In2O3 targets at room temperature
DOI:10.1016/j.tsf.2010.12.034 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Jeong, Jin-A;Kim, Han-Ki;
2:164:12 Ag-Pd-Cu alloy inserted transparent indium tin oxide electrodes for organic solar cells
DOI:10.1116/1.4891560 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:2 AU: Kim, Hyo-Joong;Seo, Ki-Won;Kim, Han-Ki;Noh, Yong-Jin;Na, Seok-In;
2:164:13 Investigation of nanostructured transparent conductive films grown by rotational-sequential-sputtering
DOI:10.1116/1.4846155 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2014 TC:2 AU: Lu, Jong-Hong;Chen, Bo-Ying;Wang, Chih-Hsuan;
2:164:14 Structural and vibrational investigations of Nb-doped TiO2 thin films
DOI:10.1016/j.materresbull.2014.08.035 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Uyanga, E.;Gibaud, A.;Daniel, P.;Sangaa, D.;Sevjidsuren, G.;Altantsog, P.;Beuvier, T.;Lee, Chih Hao;Balagurov, A. M.;
2:164:15 PEDOT:PSS-free organic solar cells fabricated on buffer and anode integrated Ta-doped In2O3 films
DOI:10.1016/j.solmat.2014.02.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Lee, Hye-Min;Noh, Yong-Jin;Na, Seok-In;Chung, Kwun-Bum;Kim, Han-Ki;
2:164:16 Characteristics of a ZnTiO and ITO cathode-integrated electrodes for inverted organic solar cells
DOI:10.1016/j.solmat.2013.10.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Kang, Sin-Bi;Noh, Yong-Jin;Na, Seok-In;Kim, Han-Ki;
2:164:17 Dual nanostructures in poly (3-hexylthiophene) based organic photovoltaics under alternative current electric field
DOI:10.1016/j.tsf.2012.04.079 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Zhao, Cindy X.;Wang, Kewei;Britten, James F.;Zhi, Matthew;Wang, Xizu;Chen, Zhi K.;Xu, Gu;
2:164:18 Organic photovoltaic power conversion efficiency improved by AC electric field alignment during fabrication
DOI:10.1063/1.3623477 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Zhao, Cindy X.;Wang, Xizu;Zeng, Wenjin;Chen, Zhi K.;Ong, Beng S.;Wang, Kewei;Deng, Lulu;Xu, Gu;
2:164:19 High mobility and visible-near infrared transparent titanium doped indium oxide thin films produced by spray pyrolysis
DOI:10.1016/j.tsf.2012.10.013 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Parthiban, S.;Gokulakrishnan, V.;Elangovan, E.;Goncalves, G.;Ramamurthi, K.;Fortunato, E.;Martins, R.;
2:164:20 The effects of rapid thermal annealing on the electrical, optical, and structural properties of Nb:TiO2 multilayer electrodes with an inserted nanoscale Ag layer for organic solar cells
DOI:10.1063/1.3499282 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Park, Jun-Hyuk;Choi, Yoon-Young;Kim, Han-Ki;Lee, Hyun Hwi;Na, Seok-In;
2:164:21 In/ITO whisker and optoelectronic properties of ITO films deposited by ion beam sputtering
DOI:10.1116/1.4716468 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:1 AU: Shen, Jung-Hsiung;Yeh, Sung-Wei;Teoh, Lay Gaik;
2:165:1 Combining Aurophilic Interactions and Halogen Bonding To Control the Luminescence from Bimetallic Gold-Silver Clusters
DOI:10.1021/ja909241m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:85 AU: Laguna, Antonio;Lasanta, Tania;Lopez-de-Luzuriaga, Jose M.;Monge, Miguel;Naumov, Pance;Elena Olmos, M.;
2:165:2 Making the Golden Connection: Reversible Mechanochemical and Vapochemical Switching of Luminescence from Bimetallic Gold-Silver Clusters Associated through Aurophilic Interactions
DOI:10.1021/ja206845s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:48 AU: Lasanta, Tania;Elena Olmos, M.;Laguna, Antonio;Lopez-de-Luzuriaga, Jose M.;Naumov, Pance;
2:165:3 Luminescence vapochromism in solid materials based on metal complexes for detection of volatile organic compounds (VOCs)
DOI:10.1039/c2jm30394a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:49 AU: Zhang, Xu;Li, Bin;Chen, Zhong-Hui;Chen, Zhong-Ning;
2:165:4 Using cuprophilicity as a multi-responsive chromophore switching color in response to temperature, mechanical force and solvent vapors
DOI:10.1039/c3tc30482e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:14 AU: Shan, Xiao-Chen;Jiang, Fei-Long;Chen, Lian;Wu, Ming-Yan;Pan, Jie;Wan, Xiu-Yan;Hong, Mao-Chun;
2:165:5 Luminescent Au(I)/Cu(I) Alkynyl Clusters with an Ethynyl Steroid and Related Aliphatic Ligands: An Octanuclear Au4Cu4 Cluster and Luminescence Polymorphism in Au3Cu2 Clusters
DOI:10.1021/ja103400e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:50 AU: Manbeck, Gerald F.;Brennessel, William W.;Stockland, Robert A., Jr.;Eisenberg, Richard;
2:165:6 "On Off" Au(I)center dot center dot center dot Cu(I) Interactions in a Au(NHC)(2) Luminescent Vapochromic Sensor
DOI:10.1021/ja104585q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:68 AU: Strasser, Christoph E.;Catalano, Vincent J.;
2:165:7 Modulation of Metallophilic Bonds: Solvent-Induced Isomerization and Luminescence Vapochromism of a Polymorphic Au-Cu Cluster
DOI:10.1021/ja3018994 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:33 AU: Koshevoy, Igor O.;Chang, Yuh-Chia;Karttunen, Antti J.;Haukka, Matti;Pakkanen, Tapani;Chou, Pi-Tai;
2:165:8 Vapor-induced chiroptical switching in chiral cyclometalated platinum(II) complexes with pinene functionalized (CNN)-N-boolean AND-N-boolean AND ligands
DOI:10.1039/c3tc31997k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Zhang, Xiao-Peng;Wu, Tao;Liu, Jian;Zhang, Jing-Xuan;Li, Cheng-Hui;You, Xiao-Zeng;
2:165:9 Crystallization and Interconversions of Vapor-Sensitive, Luminescent Polymorphs of [(C6H11NC)(2)Au-I](AsF6) and [(C6H11NC)(2)Au-I](PF6)
DOI:10.1021/ja302025m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Malwitz, Mark A.;Lim, Sang Ho;White-Morris, Rochelle L.;Pham, David M.;Olmstead, Marilyn M.;Balch, Alan L.;
2:165:10 Vapochromic and vapoluminescent response of materials based on platinum(II) complexes intercalated into layered zirconium phosphate
DOI:10.1039/c1jm12053k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Rivera, Eladio J.;Barbosa, Cindy;Torres, Rafael;Grove, Levi;Taylor, Stephen;Connick, William B.;Clearfield, Abraham;Colon, Jorge L.;
2:165:11 Metallophilicity-Driven Dynamic Aggregation of a Phosphorescent Gold(I)-Silver(I) Cluster Prepared by Solution-Based and Mechanochemical Approaches
DOI:10.1021/ja50251131 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:6 AU: Ni, Wen-Xiu;Qiu, Yu-Min;Li, Mian;Zheng, Ji;Sun, Raymond Wai-Yin;Zhan, Shun-Ze;Ng, Seik Weng;Li, Dan;
2:165:12 Synthesis of Metal-Hydrazone Complexes and Vapochromic Behavior of Their Hydrogen-Bonded Proton-Transfer Assemblies
DOI:10.1021/ja1063444 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:22 AU: Kobayashi, Atsushi;Dosen, Masa-aki;Chang, Mee;Nakajima, Kiyohiko;Noro, Shin-ichiro;Kato, Masako;
2:165:13 Exciton Chirality Method in Vibrational Circular Dichroism
DOI:10.1021/ja3001584 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:28 AU: Taniguchi, Tohru;Monde, Kenji;
2:165:14 Crystallization of an Achiral Cyclohexanone Ethylene Ketal in Enantiomorphs and Determination of the Absolute Structure
DOI:10.1021/ja1025062 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:11 AU: Graus, Sara;Tejedor, Rosa M.;Uriel, Santiago;Serrano, Jose Luis;Alkorta, Ibon;Elguero, Jose;
2:165:15 Quantum-Cascade Laser-Based Vibrational Circular Dichroism
DOI:10.1021/ja200539d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:6 AU: Luedeke, Steffen;Pfeifer, Marcel;Fischer, Peer;
2:165:16 A New Dimension in Cyclic Coinage Metal Pyrazolates: Decoration with a Second Ring of Coinage Metals Supported by Inter-ring Metallophilic Interactions
DOI:10.1021/ja211549e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:17 AU: Jahnke, Ann Christin;Proepper, Kevin;Bronner, Catherine;Teichgraeber, Joerg;Dechert, Sebastian;John, Michael;Wenger, Oliver S.;Meyer, Franc;
2:165:17 Amplified Vibrational Circular Dichroism as a Probe of Local Biomolecular Structure
DOI:10.1021/ja411405s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:3 AU: Domingos, Sergio R.;Huerta-Viga, Adriana;Baij, Lambert;Amirjalayer, Saeed;Dunnebier, Dorien A. E.;Walters, Annemarie J. C.;Finger, Markus;Nafie, Laurence A.;de Bruin, Bas;Buma, Wybren Jan;Woutersen, Sander;
2:165:18 Evolution of ConAl clusters and chemisorption of hydrogen on ConAl clusters
DOI:10.1007/s11051-012-0957 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:1 AU: Guo, Ling;
2:166:1 A new approach to the solvent system for inkjet-printed P3HT:PCBM solar cells and its use in devices with printed passive and active layers
DOI:10.1016/j.solmat.2010.05.054 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:35 AU: Lange, Alexander;Wegener, Michael;Boeffel, Christine;Fischer, Bert;Wedel, Armin;Neher, Dieter;
2:166:2 Influence of crystallizable solvent on the morphology and performance of P3HT:PCBM bulk-heterojunction solar cells
DOI:10.1016/j.solmat.2009.11.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:27 AU: Keawprajak, Anusit;Piyakulawat, Phimwipha;Klamchuen, Annop;Iamraksa, Phansak;Asawapirom, Udom;
2:166:3 Enhanced Thermal Stability and Efficiency of Polymer Bulk-Heterojunctioin Solar Cells by Low-Temperature Drying of the Active Layer
DOI:10.1002/adfm.200901807 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:25 AU: Lin, Ching;Lin, En-Yung;Tsai, Feng-Yu;
2:166:4 Highly efficient organic photovoltaic devices using F-doped SnO2 anodes
DOI:10.1063/1.3569758 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Hu, Ziyang;Zhang, Jianjun;Hao, Zhihong;Hao, Qiuyan;Geng, Xinhua;Zhao, Ying;
2:166:5 Modified processing conditions for optimized organic solar cells with inkjet printed P3HT:PC61BM active layers
DOI:10.1016/j.mseb.2012.12.006 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2013 TC:7 AU: Lange, Alexander;Hollaender, Andreas;Wegener, Michael;
2:166:6 Plastic-Syringe Induced Silicone Contamination in Organic Photovoltaic Fabrication: Implications for Small-Volume Additives
DOI:10.1021/am3001677 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:8 AU: Carr, John A.;Nalwa, Kanwar S.;Mahadevapuram, Rakesh;Chen, Yuqing;Anderegg, James;Chaudhary, Sumit;
2:166:7 Inkjet printed solar cell active layers prepared from chlorine-free solvent systems
DOI:10.1016/j.solmat.2012.10.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:17 AU: Lange, Alexander;Schindler, Wolfram;Wegener, Michael;Fostiropoulos, Konstantinos;Janietz, Silvia;
2:166:8 Morphological and spectroscopic characterizations of inkjet-printed poly(3-hexylthiophene-2,5-diyl): Phenyl-C61-butyric acid methyl ester blends for organic solar cell applications
DOI:10.1016/j.tsf.2013.11.150 JN:THIN SOLID FILMS PY:2014 TC:4 AU: Bruno, A.;Villani, F.;Grimaldi, I. A.;Loffredo, F.;Morvillo, P.;Diana, R.;Haque, S.;Minarini, C.;
2:166:9 Study of the microstructure of inkjet-printed P3HT:PCBM blend for photovoltaic applications
DOI:10.1007/s10853-012-6923-z JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:9 AU: Morvillo, Pasquale;Grimaldi, Immacolata Angelica;Diana, Rosita;Loffredo, Fausta;Villani, Fulvia;
2:166:10 Thickness dependence and solution-degradation effect in poly (3-hexylthiophene):phenyl-C61-butyric acid methyl ester based solar cells
DOI:10.1016/j.solmat.2009.11.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:13 AU: Jin, Hui;Olkkonen, Juuso;Tuomikoski, Markus;Kopola, Palvi;Maaninen, Arto;Hast, Jukka;
2:166:11 Efficiency enhancement of inverted organic photovoltaic devices with ZnO nanopillars fabricated on FTO glass substrates
DOI:10.1016/j.synthmet.2011.08.025 JN:SYNTHETIC METALS PY:2011 TC:9 AU: Hu, Ziyang;Zhang, Jianjun;Liu, Yan;Li, Yuning;Zhang, Xiaodan;Zhao, Ying;
2:166:12 High-performance and air-processed polymer solar cells by room-temperature drying of the active layer
DOI:10.1063/1.4789522 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Hu, Ziyang;Zhang, Jianjun;Zhu, Yuejin;
2:166:13 Optimization of the active-layer morphology with a non-halogenic solvent for bulk-heterojunction polymer solar cells
DOI:10.1016/j.synthmet.2010.10.018 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Lin, Ching;Pan, Wen-Chueh;Tsai, Feng-Yu;
2:167:1 Energy band bending induced charge accumulation at fullerene/bathocuproine heterojunction interface
DOI:10.1063/1.4728996 JN:APPLIED PHYSICS LETTERS PY:2012 TC:16 AU: Wang, Shenghao;Sakurai, Takeaki;Kuroda, Ryusuke;Akimoto, Katsuhiro;
2:167:2 A bi-functional structure with tunable electrical and optical properties for organic photovoltaic cells
DOI:10.1063/1.4810931 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Luo, D. Y.;Yu, L. M.;Man, J. X.;Liu, T. L.;Li, J. J.;Xu, T.;Liu, Z.;Wang, Z. B.;Lu, Z. H.;
2:167:3 Effects of cathode buffer layers on the efficiency of bulk-heterojunction solar cells
DOI:10.1063/1.3456530 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Chang, Ching-Chun;Lin, Chi-Feng;Chiou, Jian-Ming;Ho, Tzung-Han;Tai, Yen;Lee, Jiun-Haw;Chen, Yang-Fang;Wang, Juen-Kai;Chen, Li-Chyong;Chen, Kuei-Hsien;
2:167:4 Influence of gap states on electrical properties at interface between bathocuproine and various types of metals
DOI:10.1063/1.3309278 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:25 AU: Sakurai, Takeaki;Toyoshima, Susumu;Kitazume, Hikaru;Masuda, Shigeru;Kato, Hiroo;Akimoto, Katsuhiro;
2:167:5 Favorable electronic structure for organic solar cells induced by strong interaction at interface
DOI:10.1063/1.4829905 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Wang, Shenghao;Sakurai, Takeaki;Hao, Xia;Fu, Wei;Masuda, Shigeru;Akimoto, Katsuhiro;
2:167:6 Efficiency enhancement caused by using LiF to change electronic structures in polymer photovoltaics
DOI:10.1016/j.tsf.2013.08.061 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Zhao, Shi-Hao;Chang, Jan-Kai;Fang, Jian-Jhih;Tsai, Huai-Wen;Liu, I-Hsiu;Tseng, Wei-Hsuan;Pi, Tun-Wen;Chen, Mei-Hsin;
2:167:7 Deciphering the Metal-C-60 Interface in Optoelectronic Devices: Evidence for C-60 Reduction by Vapor Deposited Al
DOI:10.1021/am400640x JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Matz, Dallas L.;Ratcliff, Erin L.;Meyer, Jens;Kahn, Antoine;Pemberton, Jeanne E.;
2:167:8 Understanding metal doping for organic electron transport layers
DOI:10.1063/1.3681383 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Mityashin, Alexander;Cheyns, David;Rand, Barry P.;Heremans, Paul;
2:167:9 Interaction of bathocuproine with metals (Ca, Mg, Al, Ag, and Au) studied by density functional theory
DOI:10.1016/j.apsusc.2009.11.044 JN:APPLIED SURFACE SCIENCE PY:2010 TC:9 AU: Bhatt, Mahesh Datt;Suzuki, Shugo;Sakurai, Takeaki;Akimoto, Katsuhiro;
2:167:10 Enhancements in device efficiency of poly(3-hexylthiophene): [6,6] -phenyl C-61-butyric acid methyl ester based solar cells with incorporation of bathocuproine
DOI:10.1016/j.tsf.2012.03.038 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Tseng, Wei-Hsuan;Chen, Mei-Hsin;Chang, Ching-Chun;Lin, Wei-Hsiang;Chen, Li-Chyong;Chen, Kuei-Hsien;Wu, Chih-I;
2:167:11 Intrinsic work function of molecular films
DOI:10.1016/j.tsf.2012.01.035 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Ivanco, Jan;
2:167:12 Charge depletion in organic heterojunction
DOI:10.1063/1.3693608 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Ng, T. W.;Lo, M. F.;Lee, S. T.;Lee, C. S.;
2:167:13 Effects of cathode buffer layers on the efficiency of bulk-heterojunction solar cells (vol 96, 236506, 2010)
DOI:10.1063/1.3473732 JN:APPLIED PHYSICS LETTERS PY:2010 TC:0 AU: Chang, Ching-Chun;Lin, Chi-Feng;Chiou, Jian-Ming;Ho, Tzung-Han;Tai, Yian;Lee, Jiun-Haw;Chen, Yang-Fang;Wang, Juen-Kai;Chen, Li-Chyong;Chen, Kuei-Hsien;
2:167:14 Gap states at organic-metal interfaces: A combined spectroscopic and theoretical study
DOI:10.1016/j.apsusc.2010.01.063 JN:APPLIED SURFACE SCIENCE PY:2010 TC:8 AU: Masuda, Shigeru;
2:167:15 Reaction of Thin Films of Solid-State Benzene and Pyridine with Calcium
DOI:10.1021/ja3016186 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:2 AU: Matz, Dallas L.;Schalnat, Matthew C.;Pemberton, Jeanne E.;
2:167:16 Influence of the Performance of Organic Light Emitting Devices by Chemical Reaction at the Interface between Electron Transport Material and Ba Cathode
DOI:10.2320/matertrans.M2010381 JN:MATERIALS TRANSACTIONS PY:2011 TC:0 AU: Lee, Chan-Jae;Kwak, Min-Gi;Choi, Duck-Kyun;Moon, Dae-Gyu;
2:168:1 Surface transfer hole doping of epitaxial graphene using MoO3 thin film
DOI:10.1063/1.3441263 JN:APPLIED PHYSICS LETTERS PY:2010 TC:39 AU: Chen, Zhenyu;Santoso, Iman;Wang, Rui;Xie, Lan Fei;Mao, Hong Ying;Huang, Han;Wang, Yu Zhan;Gao, Xing Yu;Chen, Zhi Kuan;Ma, Dongge;Wee, Andrew Thye Shen;Chen, Wei;
2:168:2 Electrical measurement of non-destructively p-type doped graphene using molybdenum trioxide
DOI:10.1063/1.3609318 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Xie, Lanfei;Wang, Xiao;Mao, Hongying;Wang, Rui;Ding, Mianzhi;Wang, Yu;Oezyilmaz, Barbaros;Loh, Kian Ping;Wee, Andrew T. S.;Ariando;Chen, Wei;
2:168:3 Stability of graphene doping with MoO3 and I-2
DOI:10.1063/1.4895025 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: D'Arsie, Lorenzo;Esconjauregui, Santiago;Weatherup, Robert;Guo, Yuzheng;Bhardwaj, Sunil;Centeno, Alba;Zurutuza, Amaia;Cepek, Cinzia;Robertson, John;
2:168:4 Improving chemical vapor deposition graphene conductivity using molybdenum trioxide: An in-situ field effect transistor study
DOI:10.1063/1.4860418 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Han, Cheng;Lin, Jiadan;Xiang, Du;Wang, Chaocheng;Wang, Li;Chen, Wei;
2:168:5 Origin of the high work function and high conductivity of MoO3
DOI:10.1063/1.4903538 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Guo, Yuzheng;Robertson, John;
2:168:6 A high work function anode interfacial layer via mild temperature thermal decomposition of a C60F36 thin film on ITO
DOI:10.1039/c2tc00110a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Mao, Hong Ying;Wang, Rui;Zhong, Jian Qiang;Zhong, Shu;Lin, Jia Dan;Wang, Xi Zu;Chen, Zhi Kuan;Chen, Wei;
2:168:7 Poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)/MoO3 composite layer for efficient and stable hole injection in organic semiconductors
DOI:10.1063/1.3687933 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:11 AU: Zhao, Yongbiao;Chen, Jiangshan;Chen, Wei;Ma, Dongge;
2:168:8 Indium-tin-oxide-free tris(8-hydroxyquinoline) Al organic light-emitting diodes with 80% enhanced power efficiency
DOI:10.1063/1.3634210 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Cai, Min;Xiao, Teng;Liu, Rui;Chen, Ying;Shinar, Ruth;Shinar, Joseph;
2:168:9 Electrical and mechanical stability of aluminum-doped ZnO films grown on flexible substrates by atomic layer deposition
DOI:10.1016/j.mseb.2014.03.002 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:2 AU: Luka, G.;Witkowski, B. S.;Wachnicki, L.;Jakiela, R.;Virt, I. S.;Andrzejczuk, M.;Lewandowska, M.;Godlewski, M.;
2:168:10 Graphitization of boron predeposited 6H-SiC(0001) surface
DOI:10.1016/j.apsusc.2012.08.070 JN:APPLIED SURFACE SCIENCE PY:2012 TC:0 AU: Okonogi, Yuta;Aoki, Yuki;Hirayama, Hiroyuki;
2:169:1 Ultrasonic-Assisted Nanodimensional Self-Assembly of Poly-3-hexylthiophene for Organic Photovoltaic Cells
DOI:10.1021/nn901568w JN:ACS NANO PY:2010 TC:52 AU: Kim, Bong-Gi;Kim, Myung-Su;Kim, Jinsang;
2:169:2 Tunable Crystallinity in Regioregular Poly(3-Hexylthiophene) Thin Films and Its Impact on Field Effect Mobility
DOI:10.1002/adfm.201002729 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:48 AU: Aiyar, Avishek R.;Hong, Jung-Il;Nambiar, Rakesh;Collard, David M.;Reichmanis, Elsa;
2:169:3 Solvent Based Hydrogen Bonding: Impact on Poly(3-hexylthiophene) Nanoscale Morphology and Charge Transport Characteristics
DOI:10.1021/nn401323f JN:ACS NANO PY:2013 TC:26 AU: Chang, Mincheol;Choi, Dalsu;Fu, Boyi;Reichmanis, Elsa;
2:169:4 Photoinduced Anisotropic Supramolecular Assembly and Enhanced Charge Transport of Poly(3-hexylthiophene) Thin Films
DOI:10.1002/adfm.201400523 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:8 AU: Chang, Mincheol;Lee, Jiho;Kleinhenz, Nabil;Fu, Boyi;Reichmanis, Elsa;
2:169:5 Regioregularity and Intrachain Ordering: Impact on the Nanostructure and Charge Transport in Two-Dimensional Assemblies of Poly(3-hexylthiophene)
DOI:10.1021/cm202700k JN:CHEMISTRY OF MATERIALS PY:2012 TC:13 AU: Aiyar, Avishek R.;Hong, Jung-Il;Reichmanis, Elsa;
2:169:6 Anisotropic Assembly of Conjugated Polymer Nanocrystallites for Enhanced Charge Transport
DOI:10.1021/am506546k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Chang, Mincheol;Lee, Jiho;Chu, Ping-Hsun;Choi, Dalsu;Park, Byoungnam;Reichmanis, Elsa;
2:169:7 Ultrasound-Induced Ordering in Poly(3-hexylthiophene): Role of Molecular and Process Parameters on Morphology and Charge Transport
DOI:10.1021/am3027822 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Aiyar, Avishek R.;Hong, Jung-Il;Izumi, Jessica;Choi, Dalsu;Kleinhenz, Nabil;Reichmanis, Elsa;
2:169:8 Improvement of the power conversion efficiency of organic photovoltaic cells with a P3HT layer fabricated by using a sonication process and having a vertically modulated nanoscale morphology
DOI:10.1016/j.apsusc.2012.12.045 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Lee, Yong Hun;Kim, Dae Hun;Arul, N. Sabari;Kim, Tae Whan;
2:169:9 Surface modification and shape adjustment of polymer semiconductor nanowires
DOI:10.1039/c0jm04296j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:4 AU: Xu, Xinjun;He, Chang;Li, Lidong;Ma, Ning;Li, Yongfang;
2:169:10 Improvement of surface morphology of thin films and performance by applying electric field on P3HT:PCBM based solar cells
DOI:10.1016/j.solmat.2011.12.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:11 AU: Shen, Yu-Min;Chen, Chao-Shuo;Yang, Po-Ching;Ma, Shou-Yuan;Lin, Ching-Fuh;
2:169:11 Light absorption enhancement of similar to 100 nm thick poly(3-hexylthiophene) thin-film by embedding silver nanoparticles
DOI:10.1063/1.4898600 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Cao, Yinghui;Du, Peng;Qiao, Yanfeng;Liu, Zhenyu;Sun, Zaicheng;
2:170:1 High-Performance Graphene-Based Transparent Flexible Heaters
DOI:10.1021/nl202311v JN:NANO LETTERS PY:2011 TC:76 AU: Kang, Junmo;Kim, Hyeongkeun;Kim, Keun Soo;Lee, Seoung-Ki;Bae, Sukang;Ahn, Jong-Hyun;Kim, Young-Jin;Choi, Jae-Boong;Hong, Byung Hee;
2:170:2 Thermal Response of Transparent Silver Nanowire/PEDOT:PSS Film Heaters
DOI:10.1002/smll.201401690 JN:SMALL PY:2014 TC:7 AU: Ji, Shulin;He, Weiwei;Wang, Ke;Ran, Yunxia;Ye, Changhui;
2:170:3 Flexible and Transparent Electrothermal Film Heaters Based on Graphene Materials
DOI:10.1002/smll.201101305 JN:SMALL PY:2011 TC:49 AU: Sui, Dong;Huang, Yi;Huang, Lu;Liang, Jiajie;Ma, Yanfeng;Chen, Yongsheng;
2:170:4 Heat Dissipation of Transparent Graphene Defoggers
DOI:10.1002/adfm.201201155 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:24 AU: Bae, Jung Jun;Lim, Seong Chu;Han, Gang Hee;Jo, Young Woo;Doung, Dinh Loc;Kim, Eun Sung;Chae, Seung Jin;Ta Quang Huy;Nguyen Van Luan;Lee, Young Hee;
2:170:5 Enhancement of Heating Performance of Carbon Nanotube Sheet with Granular Metal
DOI:10.1021/am300477u JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Im, Hyeongwook;Jang, Eui Yun;Choi, Ajeong;Kim, Wal Jun;Kang, Tae June;Park, Yung Woo;Kim, Yong Hyup;
2:170:6 Fast Switching ITO Free Electrochromic Devices
DOI:10.1002/adfm.201302320 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:12 AU: Jensen, Jacob;Hosel, Markus;Kim, Inyoung;Yu, Jong-Su;Jo, Jeongdai;Krebs, Frederik C.;
2:170:7 Carbon-Nanotube-Film Microheater on a Polyethylene Terephthalate Substrate and Its Application in Thermochromic Displays
DOI:10.1002/smll.201001662 JN:SMALL PY:2011 TC:16 AU: Liu, Peng;Liu, Liang;Jiang, Kaili;Fan, Shoushan;
2:170:8 Transparent heaters based on solution-processed indium tin oxide nanoparticles
DOI:10.1016/j.tsf.2009.10.164 JN:THIN SOLID FILMS PY:2010 TC:13 AU: Im, Kiju;Cho, Kyoungah;Kim, Jonghyun;Kim, Sangsig;
2:170:9 Novel Fabrication of Flexible Graphene-Based Chemical Sensors with Heaters using Soft Lithographic Patterning Method
DOI:10.1021/am502281t JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Jung, Min Wook;Myung, Sung;Song, Wooseok;Kang, Min-A;Kim, Sung Ho;Yang, Cheol-Soo;Lee, Sun Sook;Lim, Jongsun;Park, Chong-Yun;Lee, Jeong-O;An, Ki-Seok;
2:171:1 Use of lateral structures to monitor and evaluate degradation of key photovoltaic parameters in an organic bulk heterojunction material
DOI:10.1063/1.4903222 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Danielson, Eric;Ooi, Zi-En;Dodabalapur, Ananth;
2:171:2 Direct observation of internal potential distributions in a bulk heterojunction solar cell
DOI:10.1063/1.3669533 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Lee, Jongjin;Kong, Jaemin;Kim, Heejoo;Kang, Sung-Oong;Lee, Kwanghee;
2:171:3 The Effects of Aggregation on Electronic and Optical Properties of Oligothiophene Particles
DOI:10.1021/nn301410j JN:ACS NANO PY:2012 TC:17 AU: Ostrowski, David P.;Lytwak, Lauren A.;Mejia, Michelle L.;Stevenson, Keith J.;Holliday, Bradley J.;Vanden Bout, David A.;
2:171:4 Mapping electric field distributions in biased organic bulk heterojunctions under illumination by nonlinear optical microscopy
DOI:10.1063/1.4788707 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Morris, J. D.;Atallah, Timothy L.;Lombardo, Christopher J.;Park, Heungman;Dodabalapur, Ananth;Zhu, X. -Y.;
2:171:5 Morphology-Dependent Electronic Properties in Cross-Linked (P3HT-b-P3MT) Block Copolymer Nanostructures
DOI:10.1021/nn502806d JN:ACS NANO PY:2014 TC:4 AU: Baghgar, Mina;Barnes, Austin M.;Pentzer, Emily;Wise, Adam J.;Hammer, Brenton A. G.;Emrick, Todd;Dinsmore, Anthony D.;Barnes, Michael D.;
2:171:6 Sample preparation for scanning Kelvin probe microscopy studies on cross sections of organic solar cells
DOI:10.1063/1.4824323 JN:AIP ADVANCES PY:2013 TC:4 AU: Scherer, Michael;Saive, Rebecca;Daume, Dominik;Kroeger, Michael;Kowalsky, Wolfgang;
2:171:7 Correlation of Morphology with Photocurrent Generation in a Polymer Blend Photovoltaic Device
DOI:10.1002/smll.201303262 JN:SMALL PY:2014 TC:1 AU: Ostrowski, David P.;Vanden Bout, David A.;
2:171:8 Imaging the Electric Potential within Organic Solar Cells
DOI:10.1002/adfm.201301315 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:9 AU: Saive, Rebecca;Scherer, Michael;Mueller, Christian;Daume, Dominik;Schinke, Janusz;Kroeger, Michael;Kowalsky, Wolfgang;
2:171:9 Bimolecular recombination coefficient calculation by in situ potentiometry in a bulk heterojunction organic photovoltaic material
DOI:10.1063/1.4803512 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Danielson, Eric;Ooi, Zi-En;Lombardo, Christopher J.;Dodabalapur, Ananth;
2:171:10 Quantifying Interfacial Electric Fields and Local Crystallinity in Polymer-Fullerene Bulk-Heterojunction Solar Cells
DOI:10.1002/adfm.201100139 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:17 AU: Gearba, Raluca I.;Mills, Travis;Morris, Josh;Pindak, Ron;Black, Charles T.;Zhu, Xiaoyang;
2:171:11 Nongeminate carrier recombination rates in organic solar cells
DOI:10.1063/1.3524025 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Lombardo, Christopher;Dodabalapura, Ananth;
2:171:12 Analysis of photocurrents in lateral-geometry organic bulk heterojunction devices
DOI:10.1063/1.4739469 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Ooi, Z. -E.;Chan, K. L.;Lombardo, C. J.;Dodabalapur, A.;
2:171:13 Quantitative nanoscale surface voltage measurement on organic semiconductor blends
DOI:10.1088/0957-4484/23/4/045703 JN:NANOTECHNOLOGY PY:2012 TC:5 AU: Cuenat, Alexandre;Muniz-Piniella, Andres;Munoz-Rojo, Miguel;Tsoi, Wing C.;Murphy, Craig E.;
2:171:14 Proposal for Manipulating Functional Interface Properties of Composite Organic Semiconductors with Addition of Designed Macromolecules
DOI:10.1103/PhysRevLett.108.257802 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:1 AU: Maniadis, P.;Lookman, T.;Saxena, A.;Smith, D. L.;
2:172:1 Widely Applicable Coinage Metal Window Electrodes on Flexible Polyester Substrates Applied to Organic Photovoltaics
DOI:10.1021/am3016763 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:4 AU: Stec, Helena M.;Hatton, Ross A.;
2:172:2 Nanoscale Geometric Electric Field Enhancement in Organic Photovoltaics
DOI:10.1021/nn3007042 JN:ACS NANO PY:2012 TC:14 AU: Pegg, Lara-Jane;Hatton, Ross A.;
2:172:3 Ultrathin Transparent Au Electrodes for Organic Photovoltaics Fabricated Using a Mixed Mono-Molecular Nucleation Layer
DOI:10.1002/adfm.201002021 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:35 AU: Stec, Helena M.;Williams, Rebecca J.;Jones, Tim S.;Hatton, Ross A.;
2:172:4 An Electrode Design Rule for Organic Photovoltaics Elucidated Using Molecular Nanolayers
DOI:10.1002/aenm.201100027 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:11 AU: Cook, Robert M.;Pegg, Lara-Jane;Kinnear, Sophie L.;Hutter, Oliver S.;Morris, Richard J. H.;Hatton, Ross A.;
2:172:5 Enhancing the Open-Circuit Voltage of Molecular Photovoltaics Using Oxidized Au Nanocrystals
DOI:10.1021/nn101276z JN:ACS NANO PY:2010 TC:15 AU: Pegg, Lara-Jane;Schumann, Stefan;Hatton, Ross A.;
2:172:6 Thin-film barristor: A gate-tunable vertical graphene-pentacene device
DOI:10.1103/PhysRevB.88.035435 JN:PHYSICAL REVIEW B PY:2013 TC:4 AU: Ojeda-Aristizabal, C.;Bao, W.;Fuhrer, M. S.;
2:172:7 Enhancing the durability of polymer solar cells using gold nano-dots
DOI:10.1016/j.solmat.2011.06.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:3 AU: Gholamkhass, Bobak;Holdcroft, Steven;
2:172:8 The interfacial electronic structure between pentacene and multilayer graphene
DOI:10.1016/j.synthmet.2011.09.036 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Cho, Sang Wan;Yi, Yeonjin;Kang, Seong Jun;
2:173:1 A liquid crystalline copper phthalocyanine derivative for high performance organic thin film transistors
DOI:10.1039/c2jm33301e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Chaure, Nandu B.;Pal, Chandana;Barard, Seema;Kreouzis, Theo;Ray, Asim K.;Cammidge, Andrew N.;Chambrier, Isabelle;Cook, Michael J.;Murphy, Craig E.;Cain, Markys G.;
2:173:2 Availability of Liquid Crystallinity in Solution Processing for Polycrystalline Thin Films
DOI:10.1002/adma.201004474 JN:ADVANCED MATERIALS PY:2011 TC:33 AU: Iino, Hiroaki;Hanna, Jun-ichi;
2:173:3 A Windmill-Shaped Discotic Columnar Liquid Crystal with Fast Ambipolar Charge Carrier Transport
DOI:10.1021/cm502574d JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Liu, XuYing;Usui, Takayuki;Hanna, JunIchi;
2:173:4 High-mobility copper-phthalocyanine field-effect transistors with tetratetracontane passivation layer and organic metal contacts
DOI:10.1063/1.3354086 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:27 AU: Kraus, Michael;Richler, Stefan;Opitz, Andreas;Bruetting, Wolfgang;Haas, Simon;Hasegawa, Tatsuo;Hinderhofer, Alexander;Schreiber, Frank;
2:173:5 Effects of temperature on the polymorphism of alpha,omega-dioctylterthiophene in thin films
DOI:10.1016/j.jcrysgro.2013.10.003 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:5 AU: Lercher, Christoph;Resel, Roland;Balandier, Jean-Yves;Niebel, Claude;Geerts, Yves H.;Sferrazza, Michele;Gbabode, Gabin;
2:173:6 Substrate-Induced Crystal Plastic Phase of a Discotic Liquid Crystal
DOI:10.1002/adma.201103739 JN:ADVANCED MATERIALS PY:2012 TC:10 AU: Gbabode, Gabin;Dumont, Nicolas;Quist, Florence;Schweicher, Guillaume;Moser, Armin;Viville, Pascal;Lazzaroni, Roberto;Geerts, Yves H.;
2:173:7 X-ray Structural Investigation of Nonsymmetrically and Symmetrically Alkylated [1]Benzothieno[3,2-b]benzothiophene Derivatives in Bulk and Thin Films
DOI:10.1021/am5015315 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Gbabode, Gabin;Dohr, Michael;Niebel, Claude;Balandier, Jean-Yves;Ruzie, Christian;Negrier, Philippe;Mondieig, Denise;Geerts, Yves H.;Resel, Roland;Sferrazza, Michele;
2:173:8 Phase transition, optical and photoconductive properties of bay-substituted benzoporphyrin derivatives
DOI:10.1039/c3tc31855a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Liu, Xu-Ying;Usui, Takayuki;Iino, Hiroaki;Hanna, Jun-ichi;
2:173:9 Molecular dynamics simulations of pentacene thin films: The effect of surface on polymorph selection
DOI:10.1039/c0jm01577f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Yoneya, Makoto;Kawasaki, Masahiro;Ando, Masahiko;
2:173:10 Synthesis of a novel smectic liquid crystalline glass and characterization of its charge carrier transport properties
DOI:10.1039/c1jm10890e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:5 AU: Wu, Jiang;Usui, Takayuki;Hanna, Jun-ichi;
2:173:11 Bis(5-alkylthiophen-2-yl)arene liquid crystals as molecular semiconductors
DOI:10.1039/c3tc32211d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Getmanenko, Yulia A.;Kang, Shin-Woong;Shakya, Naresh;Pokhrel, Chandra;Bunge, Scott D.;Kumar, Satyendra;Ellman, Brett D.;Twieg, Robert J.;
2:173:12 Interface Induced Crystal Structures of Dioctyl-Terthiophene Thin Films
DOI:10.1021/la301213d JN:LANGMUIR PY:2012 TC:13 AU: Werzer, Oliver;Boucher, Nicolas;de Silva, Johann P.;Gbabode, Gabin;Geerts, Yves H.;Konovalov, Oleg;Moser, Armin;Novak, Jiri;Resel, Roland;Sferrazza, Michele;
2:173:13 Interfacial properties at the organic-metal interface probed using quantum well states
DOI:10.1103/PhysRevB.86.155453 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Lin, Meng-Kai;Nakayama, Yasuo;Wang, Chin-Yung;Hsu, Jer-Chia;Pan, Chih-Hao;Machida, Shin-ichi;Pi, Tun-Wen;Ishii, Hisao;Tang, S. -J.;
2:173:14 5,5 '-Bis-(alkylpyridinyl)-2,2 '-bithiophenes: synthesis, liquid crystalline behaviour and charge transport
DOI:10.1039/c3tc31522c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Getmanenko, Yulia A.;Kang, Shin-Woong;Shakya, Naresh;Pokhrel, Chandra;Bunge, Scott D.;Kumar, Satyendra;Ellman, Brett D.;Twieg, Robert J.;
2:173:15 A Possibility of 2-Dimensional Transport of Charged Carriers in Columnar Phases of Liquid Crystalline Semiconductors
DOI:10.1080/15421406.2011.581162 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:6 AU: Shimizu, Yo;Miyake, Yasuo;Yoshida, Hiroyuki;Monobe, Hirosato;Cook, Michael J.;Fujii, Akihiko;Ozaki, Masanori;
2:173:16 Interfacial properties at the organic-metal interface probed using quantum well states (vol 86, 155453, 2012)
DOI:10.1103/PhysRevB.89.199902 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Lin, Meng-Kai;Nakayama, Yasuo;Wang, Chin-Yung;Hsu, Jer-Chia;Pan, Chih-Hao;Machida, Shin-ichi;Pi, Tun-Wen;Ishii, Hisao;Tang, S. -J.;
2:173:17 Monodomain planar alignment of 1,4,8,11,15,18,22, 25-octahexylphthalocyanine by melt growth method
DOI:10.1016/j.tsf.2013.05.062 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Yamasaki, Naoyuki;Saito, Takashi;Kim, Jaeki;Yoshida, Hiroyuki;Fujii, Akihiko;Shimizu, Yo;Ozaki, Masanori;
2:174:1 Mechanistic Insights into UV-Induced Electron Transfer from PCBM to Titanium Oxide in Inverted-Type Organic Thin Film Solar Cells Using AC Impedance Spectroscopy
DOI:10.1021/am100312v JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:44 AU: Kuwabara, Takayuki;Iwata, Chiaki;Yamaguchi, Takahiro;Takahashi, Kohshin;
2:174:2 Impedance spectrometry of optimized standard and inverted P3HT-PCBM organic solar cells
DOI:10.1016/j.solmat.2012.01.013 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:39 AU: Perrier, Gerard;de Bettignies, Remi;Berson, Solenn;Lemaitre, Noella;Guillerez, Stephane;
2:174:3 The characteristics of the small molecule organic solar cells with PEDOT:PSS/LiF double anode buffer layer system
DOI:10.1016/j.solmat.2009.12.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:17 AU: Xi, Xi;Meng, Qinglei;Li, Fangxin;Ding, Yuqiang;Ji, Jingjia;Shi, Zhengrong;Li, Guohua;
2:174:4 Fullerene acceptor for improving open-circuit voltage in inverted organic photovoltaic devices without accompanying decrease in short-circuit current density
DOI:10.1063/1.3683469 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Matsuo, Yutaka;Hatano, Junichi;Kuwabara, Takayuki;Takahashi, Kohshin;
2:174:5 Mixture of [60] and [70]PCBM giving morphological stability in organic solar cells
DOI:10.1063/1.4818726 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Santo, Yoshihide;Jeon, Il;Yeo, Kee Sheng;Nakagawa, Takafumi;Matsuo, Yutaka;
2:174:6 Small molecule solution-processed bulk heterojunction solar cells with inverted structure using porphyrin donor
DOI:10.1063/1.4773910 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Yamamoto, Takaki;Hatano, Junichi;Nakagawa, Takafumi;Yamaguchi, Shigeru;Matsuo, Yutaka;
2:174:7 Effects of anode buffer layers on the properties of organic solar cells
DOI:10.1016/j.tsf.2012.03.069 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Kim, Kun Ho;Gong, Su Cheol;Chang, Ho Jung;
2:174:8 The effect of introducing a buffer layer to polymer solar cells on cell efficiency
DOI:10.1016/j.solmat.2010.12.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:21 AU: Kim, Gi-Hwan;Song, Hyun-Kon;Kim, Jin Young;
2:174:9 Impedance spectroscopy analysis of small molecule solution processed organic solar cell
DOI:10.1016/j.solmat.2014.05.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Arredondo, B.;Romero, B.;Del Pozo, G.;Sessler, M.;Veit, C.;Wuerfel, U.;
2:174:10 Effects of buffer layers on properties of bulk hetero junction flexible organic solar cells
DOI:10.1016/j.ceramint.2012.10.145 JN:CERAMICS INTERNATIONAL PY:2013 TC:1 AU: Kim, Kim Ho;Chang, Ho Jung;
2:175:1 Patternable brush painting process for fabrication of flexible polymer solar cells
DOI:10.1016/j.solmat.2011.06.029 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Heo, Soo-Won;Lee, Jang-Yong;Song, Ho-Jun;Ku, Ja-Ram;Moon, Doo-Kyung;
2:175:2 Patternable solution process for fabrication of flexible polymer solar cells using PDMS
DOI:10.1016/j.solmat.2011.09.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:16 AU: Heo, Soo-Won;Song, Kwan-Wook;Choi, Min-Hee;Sung, Tae-Hyun;Moon, Doo-Kyung;
2:175:3 Influence of alkanediol series as processing additives in photo-active layer on the power conversion efficiency of polymer solar cells
DOI:10.1016/j.solmat.2013.02.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Heo, Soo Won;Song, Kwan Wook;Choi, Min Hee;Oh, Hwan Sool;Moon, Doo Kyung;
2:175:4 Simple brush-painting of Ti-doped In2O3 transparent conducting electrodes from nano-particle solution for organic solar cells
DOI:10.1016/j.solmat.2013.12.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:10 AU: Jeong, Jin-A;Jeon, Ye-Jin;Kim, Seok-Soon;Kim, Boo Kyoung;Chung, Kwun-Bum;Kim, Han-Ki;
2:175:5 Fabrication of OPVs by introducing a conductivity-enhanced hybrid buffer layer
DOI:10.1016/j.solmat.2012.01.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:10 AU: Heo, Soo Won;Song, In Sung;Kim, Young Sung;Moon, Doo Kyung;
2:175:6 Enhanced stability in polymer solar cells by controlling the electrode work function via modification of indium tin oxide
DOI:10.1016/j.solmat.2013.03.034 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:7 AU: Heo, Soo Won;Lee, Eui Jin;Seong, Kee Won;Moon, Doo Kyung;
2:175:7 Enhanced performance in bulk heterojunction solar cells by introducing naphthalene derivatives as processing additives
DOI:10.1016/j.solmat.2012.12.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Heo, Soo Won;Kim, Seung Hee;Lee, Eui Jin;Moon, Doo Kyung;
2:175:8 Study on the antimony tin oxide as a hole injection layer for polymer light emitting diodes
DOI:10.1016/j.tsf.2012.01.040 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Song, In Sung;Heo, Soo Won;Ku, Ja Ram;Moon, Doo Kyung;
2:175:9 Improved high temperature stability of organic solar cells using a phosphine oxide type cathode modification layer
DOI:10.1016/j.solmat.2010.12.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:8 AU: Jeon, Soon Ok;Lee, Jun Yeob;
2:175:10 Synthesis of random copolymers based on 3-hexylthiophene and quinoxaline derivative: Influence between the intramolecular charge transfer (ICT) effect and pi-conjugation length for their photovoltaic properties
DOI:10.1016/j.synthmet.2010.08.012 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Lee, Jang Yong;Choi, Min Hee;Heo, Soo Won;Moon, Doo Kyung;
2:175:11 Inkjet printing of transparent InZnSnO conducting electrodes from nano-particle ink for printable organic photovoltaics
DOI:10.1016/j.solmat.2011.11.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:18 AU: Kim, Jihoon;Na, Seok-In;Kim, Han-Ki;
2:176:1 Polyaniline as a hole injection layer on organic photovoltaic cells
DOI:10.1016/j.solmat.2009.08.018 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:45 AU: Bejbouji, Habiba;Vignau, Laurence;Miane, Jean Louis;Dang, Minh-Trung;Oualim, El Mostafa;Harmouchi, Mohammed;Mouhsen, Azeddine;
2:176:2 Electrodepostied polyaniline films decorated with nano-islands: Characterization and application as anode buffer layers in solar cells
DOI:10.1016/j.solmat.2010.08.028 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:14 AU: Tan, Furui;Qu, Shengchun;Wu, Ju;Wang, Zhijie;Jin, Lan;Bi, Yu;Cao, Jie;Liu, Kong;Zhang, Junmeng;Wang, Zhanguo;
2:176:3 Electropolymerized poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) film on ITO glass and its application in photovoltaic device
DOI:10.1016/j.solmat.2009.09.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:18 AU: Yan, Jun;Sun, Chenghua;Tan, Furui;Hu, Xiujie;Chen, Ping;Qu, Shengchun;Zhou, Shuyun;Xu, Jingkun;
2:176:4 UV-induced modulation of the conductivity of polyaniline: towards a photo-patternable charge injection layer for structured organic light emitting diodes
DOI:10.1039/c1jm14100g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Griesser, Thomas;Radl, Simone Viola;Koepplmayr, Thomas;Wolfberger, Archim;Edler, Matthias;Pavitschitz, Andreas;Kratzer, Markus;Teichert, Christian;Rath, Thomas;Trimmel, Gregor;Schwabegger, Guenther;Simbrunner, Clemens;Sitter, Helmut;Kern, Wolfgang;
2:176:5 Bilayer and bulk heterojunction solar cells with functional poly(2,2 '-bithiophene) films electrochemically deposited from aqueous emulsion
DOI:10.1016/j.synthmet.2013.02.019 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Macedo, Andreia G.;Silva, Daniel C.;Yamamoto, Natasha A. D.;Micaroni, Liliana;Mello, Regina M. Q.;Roman, Lucimara S.;
2:176:6 Polyaniline films doped with ladder-type sulfonated polyphenylsilsesquioxane and unusual dependence of their electrical conductivity on temperature
DOI:10.1039/c2jm32158k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Hong, Eun-Young;Lee, Suck-Hyun;Lee, Dong-Ki;Choi, Seung-Seok;Baek, Kyung-Youl;Hwang, Seung-Sang;Kwon, O-Pil;
2:176:7 Electrochemically deposited nano polyaniline films as hole transporting layers in organic solar cells
DOI:10.1016/j.solmat.2014.04.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Han, Yu-Kai;Chang, Mei-Ying;Ho, Ko-Shan;Hsieh, Tar-Hwa;Tsai, Jeng-Liang;Huang, Pei-Chen;
2:176:8 Conjugated molecule doped polyaniline films as buffer layers in organic solar cells
DOI:10.1016/j.synthmet.2013.06.006 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Tan, Furui;Qu, Shengchun;Zhang, Weifeng;Zhang, Xingwang;Wang, Zhanguo;
2:176:9 Polyaniline-titania solid electrolyte for new generation photovoltaic single-layer devices
DOI:10.1016/j.matchemphys.2012.01.130 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:9 AU: Ibrahim, Michael;Bassil, Maria;Demirci, Umit B.;Khoury, Tony;Moussa, Georges El Haj;El Tahchi, Mario;Miele, Philippe;
2:176:10 Optical, structural and electrical properties of polyaniline systems doped with C-60 and small gap C-60 fullerenes
DOI:10.1016/j.matchemphys.2013.07.033 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Politakos, Nikolaos;Zalakain, Inaki;Fernandez d'Arlas, Borja;Eceiza, Arantxa;Kortaberria, Galder;
2:176:11 Fabrication of oriented polyaniline nanostructures using block copolymer nanotemplates and their optical, electrochemical and electric properties
DOI:10.1039/c0jm00352b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:24 AU: Kuila, Biplab K.;Stamm, Manfred;
2:176:12 Electrochemically prepared polymer solar cell by three-layer deposition of poly(3,4-ethylenedioxythiophene)/poly(2,2 '-bithiophene)/fullerene (PEDOT/PBT/C-60)
DOI:10.1016/j.polymer.2011.06.020 JN:POLYMER PY:2011 TC:9 AU: Nasybulin, Eduard;Feinstein, Jeremy;Cox, Marshall;Kymissis, Ioannis;Levon, Kalle;
2:176:13 Influence of the nature of polyaniline-based hole-injecting layer on polymer light emitting diode performances
DOI:10.1016/j.mseb.2009.09.032 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:14 AU: Bejbouj, Habiba;Vignau, Laurence;Miane, Jean Louis;Olinga, Thomas;Wantz, Guillaume;Mouhsen, Azzedine;Oualim, El Moustafa;Harmouchi, Mouhammed;
2:176:14 Partially interpenetrating heterojunction on bilayer photovoltaic devices of electrodeposited polythiophene/methanofullerene
DOI:10.1016/j.solmat.2012.05.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:1 AU: Tezuka, Yoshihiko;Yamamoto, Tatsuya;Kamikado, Yousuke;Tanaka, Hitoshi;
2:176:15 Synthesis and characterization of SnO2/polyaniline nanocomposites by sol-gel technique and microemulsion polymerization
DOI:10.1016/j.synthmet.2012.10.004 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Sun, Libo;Shi, Yuanchang;He, Zhaopin;Li, Bo;Liu, Jiurong;
2:176:16 Effects of CuO on the morphology and conducting properties of PANI nanofibers
DOI:10.1016/j.synthmet.2012.05.009 JN:SYNTHETIC METALS PY:2012 TC:12 AU: Khan, Mohammad Mizanur Rahman;Wee, Yee Keat;Mahmood, Wan Ahmad Kamil;
2:176:17 Effect of Ni2+ as a Codopant on the Structure, Morphology, and Conductivity of Nanostructured Polyaniline
DOI:10.1002/app.33867 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:5 AU: Jiang, Man;Zhu, Shibu;Zhou, Zuowan;Zhao, An;Lu, Jun;
2:176:18 Effects of CuO on the morphology and conducting properties of PANI nanofibers (vol 162, pg 1065, 2012)
DOI:10.1016/j.synthmet.2012.07.006 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Khan, Mohammad Mizanur Rahman;Wee, Yee Keat;Mahmood, Wan Ahmad Kamil;
2:176:19 Electrochemical codeposition of poly(thieno[3,2-b]thiophene) and fullerene: An approach to a bulk heterojunction organic photovoltaic device
DOI:10.1016/j.synthmet.2011.10.024 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Nasybulin, Eduard;Cox, Marshall;Kymissis, Ioannis;Levon, Katie;
2:176:20 Enhanced performance of organic light-emitting devices by using electropolymerized poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) film as the anode modification layer
DOI:10.1016/j.tsf.2011.11.036 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Liu, Xiaona;Yan, Jun;Meng, Lingchuan;Sun, Chenghua;Hu, Xiujie;Chen, Ping;Zhou, Shuyun;Teng, Feng;
2:177:1 Stacking-induced broadband near-infrared absorption beyond 2500 nm and deep-red phosphorescence from purely organic radicals
DOI:10.1039/c3tc30438h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Yong, Guo-Ping;Zhao, Yu-Mei;Feng, Ya;Zhang, Xue-Rui;
2:177:2 Stacking-induced white-light and blue-light phosphorescence from purely organic radical materials
DOI:10.1039/c1jm14690d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Yong, Guo-Ping;Zhang, Yi-Man;She, Wen-Long;Li, Ying-Zhou;
2:177:3 Stimuli-responsive switching of magnetic properties and solid-state colors for 2,3 '-biimidazo[1,2-a]pyridin-2 '-one radical derivatives
DOI:10.1039/c3tc32130d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Yong, Guo-Ping;Zhao, Yu-Mei;Feng, Ya;
2:177:4 Studies on structural and magnetic properties of hydrochloride crystals based on 2-(imidazo[1,2-a]pyridin-2-yl)-2-oxoacetic acid radical
DOI:10.1016/j.matlet.2012.10.122 JN:MATERIALS LETTERS PY:2013 TC:7 AU: Yong, Guoping;Zhang, Yiman;She, Wenlong;
2:177:5 Excitation-light-induced phosphorescent color changes of beta-cyclodextrin inclusion complexes
DOI:10.1016/j.optmat.2013.08.022 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Zhang, Bei;Yong, Guoping;Zhao, Yumei;Zhang, Xuerui;
2:177:6 The phosphorescent and magnetic properties of a novel radical and its salt derived from 2,3 '-biimidazo[1,2-a]pyridin-2 '-one radical
DOI:10.1016/j.synthmet.2013.12.018 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Zhao, Yumei;Yong, Guoping;Feng, Ya;Shen, Chen;
2:177:7 Excitation-light-responsive phosphorescent color changes in a beta-cyclodextrin inclusion complex
DOI:10.1039/c2jm31617j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Yong, Guo-Ping;Zhang, Bei;Zhang, Yi-Man;Li, Guang-Shui;
2:177:8 3-Carbaldehyde-substituted 2,3 '-biimidazo[1,2-a]pyridin-2 '-one radicals: Interesting pi-stacking structures and magnetic properties
DOI:10.1016/j.synthmet.2011.01.019 JN:SYNTHETIC METALS PY:2011 TC:17 AU: Li, Yingzhou;Yong, Guoping;Zhang, Yiman;Li, Chongfu;She, Wenlong;
2:177:9 The zwitterionic radical and its neutral radical derivative with interesting magnetic properties
DOI:10.1016/j.synthmet.2011.10.005 JN:SYNTHETIC METALS PY:2012 TC:12 AU: Zhang, Yiman;Yong, Guoping;Li, Chongfu;She, Wenlong;Li, Yingzhou;
2:177:10 Direct white light emission from inorganic-organic hybrid semiconductor bulk materials
DOI:10.1039/c0jm02213f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Ki, Wooseok;Li, Jing;Eda, Goki;Chhowalla, Manish;
2:177:11 Donor and acceptor impurity-driven switching of magnetic ordering in MnSb2-xSnxSe4
DOI:10.1039/c4tc00672k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Djieutedjeu, Honore;Zhou, Xiaoyuan;Chi, Hang;Haldolaarachchige, Neel;Ranmohotti, Kulugammana G. S.;Uher, Ctirad;Young, David;Poudeu, Pierre F. P.;
2:177:12 FexPb4-xSb4Se10: A New Class of Ferromagnetic Semiconductors with Quasi 1D {Fe2Se10} Ladders
DOI:10.1021/ja910545e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:15 AU: Poudeu, Pierre F. P.;Takas, Nathan;Anglin, Clarence;Eastwood, James;Rivera, Arianna;
2:177:13 Co-doping effect of Zn and Sb in SnO2: Valence stabilization of Sb and expanded solubility limit
DOI:10.1016/j.ceramint.2011.04.026 JN:CERAMICS INTERNATIONAL PY:2011 TC:5 AU: Kim, Dong-Kyun;Lee, Joon-Hyung;Heo, Young-Woo;Lee, Hee Young;Kim, Jeong-Joo;
2:177:14 Synthesis and Electron Transfer Characteristics of a Neutral, Low-Band-Gap, Mixed-Valence Polyradical
DOI:10.1021/cm102650h JN:CHEMISTRY OF MATERIALS PY:2010 TC:12 AU: Reitzenstein, Doerte;Quast, Tatjana;Kanal, Florian;Kullmann, Martin;Ruetzel, Stefan;Hammer, Maria S.;Deibel, Carsten;Dyakonov, Vladimir;Brixner, Tobias;Lambert, Christoph;
2:177:15 Chemical Manipulation of Magnetic Ordering in Mn1-xSnxBi2Se4 Solid-Solutions
DOI:10.1021/ja303952w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:4 AU: Ranmohotti, Kulugammana G. S.;Djieutedjeu, Honore;Poudeu, Pierre F. P.;
2:178:1 Recent Highlights and Perspectives on Acene Based Molecules and Materials
DOI:10.1021/cm501536p JN:CHEMISTRY OF MATERIALS PY:2014 TC:30 AU: Ye, Qun;Chi, Chunyan;
2:178:2 Synthesis and Physical Properties of Four Hexazapentacene Derivatives
DOI:10.1021/ja310131k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:42 AU: Li, Gang;Wu, Yuechao;Gao, Junkuo;Wang, Chengyuan;Li, Junbo;Zhang, Huacheng;Zhao, Yang;Zhao, Yanli;Zhang, Qichun;
2:178:3 Synthesis and Physical Properties of the Conjugated Dendrons Bearing Twisted Acenes Used in Solution Processing of Organic Light-Emitting Diodes
DOI:10.1021/am403394k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Liu, Zhenying;Xiao, Jinchong;Fu, Qang;Feng, Huanran;Zhang, Xuemin;Ren, Tiejun;Wang, Sujuan;Ma, Dongge;Wang, Xuefei;Chen, Hua;
2:178:4 Synthesis, structure, and optoelectronic properties of a new twistacene 1,2,3,4,6,13-hexaphenyl-7: 8,11: 12-bisbenzo-pentacene
DOI:10.1039/c0jm01460e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:55 AU: Xiao, Jinchong;Divayana, Yoga;Zhang, Qichun;Doung, Hieu M.;Zhang, Hua;Boey, Freddy;Sun, Xiao Wei;Wudl, Fred;
2:178:5 Design, Synthesis, and Characterization of a Persistent Nonacene Derivative
DOI:10.1021/ja9095472 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:92 AU: Kaur, Irvinder;Jazdzyk, Mikael;Stein, Nathan N.;Prusevich, Polina;Miller, Glen P.;
2:178:6 Crystal Structure and Phototransistor Behavior of N-Substituted Heptacence
DOI:10.1021/am3003389 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:46 AU: Wu, Yuechao;Yin, Zongyou;Xiao, Jinchong;Liu, Yi;Wei, Fengxia;Tan, Ke Jie;Kloc, Christian;Huang, Ling;Yan, Qingyu;Hu, Fangzhong;Zhang, Hua;Zhang, Qichun;
2:178:7 Bistetracene: An Air-Stable, High-Mobility Organic Semiconductor with Extended Conjugation
DOI:10.1021/ja503643s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:8 AU: Zhang, Lei;Fonari, Alexandr;Liu, Yao;Hoyt, Andra-Lisa M.;Lee, Hyunbok;Granger, Devin;Parkin, Sean;Russell, Thomas P.;Anthony, John E.;Bredas, Jean-Luc;Coropceanu, Veaceslav;Briseno, Alejandro L.;
2:178:8 Products and Mechanism of Acene Dimerization. A Computational Study
DOI:10.1021/ja106594v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:22 AU: Zade, Sanjio S.;Zamoshchik, Natalia;Reddy, A. Ravikumar;Fridman-Marueli, Galit;Sheberla, Dennis;Bendikov, Michael;
2:178:9 Sunlight-like, color-temperature tunable white organic light-emitting diode with high color rendering index for solid-state lighting application
DOI:10.1039/c2jm34763f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:14 AU: Yu, Jianning;Lin, Hong;Wang, Feifei;Lin, Yang;Zhang, Jianhua;Zhang, Hao;Wang, Zixing;Wei, Bin;
2:178:10 A Persistent Diazaheptacene Derivative
DOI:10.1021/ja509723q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Engelhart, Jens U.;Tverskoy, Olena;Bunz, Uwe H. F.;
2:178:11 Cyclic arylamines functioning as advanced hole-transporting and emitting materials
DOI:10.1016/j.synthmet.2012.01.003 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Long, Li;Zhang, Minyan;Xu, Shihua;Zhou, Xuehua;Gao, Xicun;Shang, Yuzhu;Wei, Bin;
2:178:12 The Latest from Our Up-and-Coming Series
DOI:10.1021/cm502671q JN:CHEMISTRY OF MATERIALS PY:2014 TC:0 AU: Buriak, Jillian M.;
2:178:13 Highly efficient color-temperature tunable organic light-emitting diodes
DOI:10.1039/c2jm16078a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Jou, Jwo-Huei;Wang, Hsi-Ching;Shen, Shih-Ming;Peng, Shiang-Hau;Wu, Ming-Husan;Chen, Szu-Hao;Wu, Po-Hsien;
2:178:14 Our New "Up-and-Coming Series" of Perspectives
DOI:10.1021/cm5016096 JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Buriak, Jillian M.;
2:178:15 Structure, photophysics, and photooxidation of crowded diethynyltetracenes
DOI:10.1039/c2jm16173g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Zhang, Jingjing;Sarrafpour, Syena;Haas, Terry E.;Mueller, Peter;Thomas, Samuel W., III;
2:178:16 A novel colorimetric and fluorescent sensor for fluoride detection based on a three-arm phenanthroline derivative
DOI:10.1007/s10853-014-8409-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:5 AU: Yang, Chaolong;Xu, Jing;Chen, Wen;Lu, Mangeng;Li, Youbing;Wang, Xuanlun;
2:179:1 CdSe Nanorods Dominate Photocurrent of Hybrid CdSe-P3HT Photovoltaic Cell
DOI:10.1021/nn101742c JN:ACS NANO PY:2010 TC:37 AU: Schierhorn, Martin;Boettcher, Shannon W.;Peet, Jeffrey H.;Matioli, Elison;Bazan, Guillermo C.;Stucky, Galen D.;Moskovits, Martin;
2:179:2 Electrochemical Synthesis of Morphology-Controlled Segmented CdSe Nanowires
DOI:10.1021/nn901661z JN:ACS NANO PY:2010 TC:26 AU: Shpaisman, Nava;Givan, Uri;Patolsky, Fernando;
2:179:3 Nanoporous Anodic Alumina Rugate Filters for Sensing of Ionic Mercury: Toward Environmental Point-of-Analysis Systems
DOI:10.1021/am502882d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:11 AU: Kumeria, Tushar;Rahman, Mohammad Mahbubur;Santos, Abel;Ferre-Borrull, Josep;Marsal, Lluis F.;Losic, Dusan;
2:179:4 Investigation of Arrays of Photosynthetically Active Heterostructures Using Conductive Probe Atomic Force Microscopy
DOI:10.1021/nl500754q JN:NANO LETTERS PY:2014 TC:0 AU: Economou, Nicholas J.;Mubeen, Syed;Buratto, Steven K.;McFarland, Eric W.;
2:179:5 Core-shell ITO/ZnO/CdS/CdTe nanowire solar cells
DOI:10.1063/1.4863826 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Williams, B. L.;Taylor, A. A.;Mendis, B. G.;Phillips, L.;Bowen, L.;Major, J. D.;Durose, K.;
2:179:6 Bismuth-Assisted CdSe and CdTe Nanowire Growth on Plastics
DOI:10.1021/cm902049p JN:CHEMISTRY OF MATERIALS PY:2010 TC:22 AU: Lee, Simon K. C.;Yu, Yanghai;Perez, Oscar;Puscas, Sean;Kosel, Thomas H.;Kuno, Masaru;
2:179:7 Microstructure and point defects in CdTe nanowires for photovoltaic applications
DOI:10.1088/0957-4484/24/13/135703 JN:NANOTECHNOLOGY PY:2013 TC:7 AU: Williams, B. L.;Halliday, D. P.;Mendis, B. G.;Durose, K.;
2:179:8 Single inorganic-organic hybrid photovoltaic nanorod
DOI:10.1063/1.4821961 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Yoo, Sang-Hoon;Liu, Lichun;Ku, Tea-Woong;Hong, Soonchang;Whang, Dongmok;Park, Sungho;
2:179:9 Patterned Ni-P Alloy Films Prepared by "Reducing-Discharging" Process and the Hydrophobic Property
DOI:10.1021/am404590d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Yu, Quanyao;Zeng, Zhixiang;Zhao, Wenjie;Ma, Yongcun;Wu, Xuedong;Xue, Qunji;
2:179:10 Synthesis of Chemicals Using Solar Energy with Stable Photoelectrochemically Active Heterostructures
DOI:10.1021/nl400502u JN:NANO LETTERS PY:2013 TC:10 AU: Mubeen, Syed;Singh, Nirala;Lee, Joun;Stucky, Galen D.;Moskovits, Martin;McFarland, Eric W.;
2:179:11 A novel and high yield synthesis of CdSe nanowires
DOI:10.1007/s10853-013-7282-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Melendrez, M. F.;Hanks, K.;Casillas, G.;Deepak, Francis Leonard;Perez-Tijerina, E.;Jose-Yacaman, M.;
2:179:12 Hierarchically Structured Porous Cadmium Selenide Polycrystals Using Polystyrene Bilayer Templates
DOI:10.1021/la3020805 JN:LANGMUIR PY:2012 TC:3 AU: Park, Jin Young;Hendricks, Nicholas R.;Carter, Kenneth R.;
2:179:13 Formation of Crystalline Cadmium Selenide Nanowires
DOI:10.1021/cm201384p JN:CHEMISTRY OF MATERIALS PY:2011 TC:6 AU: Erenturk, Burcin;Gurbuz, Serkan;Corbett, Rachel E.;Claiborne, Sarah-Ann M.;Krizan, Jason;Venkataraman, Dhandapani;Carter, Kenneth R.;
2:179:14 Correlation between Surface Stress and Apparent Young's Modulus of Top-Down Silicon Nanowires
DOI:10.1021/nn304094b JN:ACS NANO PY:2012 TC:5 AU: Pennelli, Giovanni;Totaro, Massimo;Nannini, Andrea;
2:180:1 Polyselenophenes
DOI:10.1039/b908983g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:128 AU: Patra, Asit;Bendikov, Michael;
2:180:2 Tuning the Band Gap of Low-Band-Gap Polyselenophenes and Polythiophenes: The Effect of the Heteroatom
DOI:10.1021/cm102395v JN:CHEMISTRY OF MATERIALS PY:2011 TC:62 AU: Patra, Asit;Wijsboom, Yair H.;Leitus, Gregory;Bendikov, Michael;
2:180:3 Unusual Doping of Donor-Acceptor-Type Conjugated Polymers Using Lewis Acids
DOI:10.1021/ja501024n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Poverenov, Elena;Zamoshchik, Natalia;Patra, Asit;Ridelman, Yonatan;Bendikov, Michael;
2:180:4 Poly(3-alkyltellurophene)s Are Solution-Processable Polyheterocycles
DOI:10.1021/ja0309404J JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:26 AU: Jahnke, Ashlee A.;Djukic, Brandon;McCormick, Theresa M.;Domingo, Ester Buchaca;Hellmann, Christoph;Lee, Yunjeong;Seferos, Dwight S.;
2:180:5 Flat conjugated polymers combining a relatively low HOMO energy level and band gap: polyselenophenes versus polythiophenes
DOI:10.1039/c2jm31035j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Poverenov, Elena;Sheynin, Yana;Zamoshchik, Natalia;Patra, Asit;Leitus, Gregory;Perepichka, Igor F.;Bendikov, Michael;
2:180:6 Selenophene and fluorene based narrow band gap copolymers with E-g=1.41 eV for near infrared polymer light emitting diodes
DOI:10.1016/j.synthmet.2012.06.006 JN:SYNTHETIC METALS PY:2012 TC:11 AU: Sun, Mingliang;Jiang, Xi;Liu, Wei;Zhu, Tongbo;Huang, Fei;Cao, Yong;
2:180:7 Structure and sources of disorder in poly(3-hexylthiophene) crystals investigated by density functional calculations with van der Waals interactions
DOI:10.1103/PhysRevB.83.184117 JN:PHYSICAL REVIEW B PY:2011 TC:9 AU: Xie, Weiyu;Sun, Y. Y.;Zhang, S. B.;Northrup, John E.;
2:180:8 Tuning of electronic properties and rigidity in PEDOT analogs
DOI:10.1039/c0jm02679d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Wijsboom, Yair Haim;Sheynin, Yana;Patra, Asit;Zamoshchik, Natalia;Vardimon, Ran;Leitus, Gregory;Bendikov, Michael;
2:180:9 Linear optical properties and electronic structures of poly(3-hexylthiophene) and poly(3-hexylselenophene) crystals from first principles
DOI:10.1103/PhysRevB.86.075114 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Tsumuraya, Takao;Song, Jung-Hwan;Freeman, Arthur J.;
2:180:10 Tellurophenes with Delocalized pi-Systems and Their Extended Valence Adducts
DOI:10.1021/ja210763n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:19 AU: McCormick, Theresa M.;Jahnke, Ashlee A.;Lough, Alan J.;Seferos, Dwight S.;
2:180:11 Chalcogenoarene semiconductors: new ideas from old materials
DOI:10.1039/c0jm02522d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Zhang, Lei;Fakhouri, Sami M.;Liu, Feng;Timmons, Justin C.;Ran, Niva A.;Briseno, Alejandro L.;
2:180:12 Poly(thieno[3,4-b]-1,4-oxathiane): Medium Effect on Electropolymerization and Electrochromic Performance
DOI:10.1021/1a503948f JN:LANGMUIR PY:2014 TC:5 AU: Wang, Zhipeng;Xu, Jingkun;Lu, Baoyang;Zhang, Shimin;Qin, Leiqiang;Mo, Daize;Zhen, Shijie;
2:180:13 Spatial Control of Entangled Two-Photon Absorption with Organic Chromophores
DOI:10.1021/ja1016816 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:17 AU: Guzman, Alica R.;Harpham, Michael R.;Suezer, Oezguen;Haley, Michael M.;Goodson, Theodore G., III;
2:181:1 Distribution of charge carrier transport properties in organic semiconductors with Gaussian disorder
DOI:10.1063/1.4875683 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Lorrmann, Jens;Ruf, Manuel;Vocke, David;Dyakonov, Vladimir;Deibel, Carsten;
2:181:2 Contact characterization by photoemission and device performance in P3HT based organic transistors
DOI:10.1063/1.3693541 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Scheinert, S.;Grobosch, M.;Paasch, G.;Hoerselmann, I.;Knupfer, M.;Bartsch, J.;
2:181:3 Effect of electric field on diffusion in disordered materials. II. Two- and three-dimensional hopping transport
DOI:10.1103/PhysRevB.81.115204 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Nenashev, A. V.;Jansson, F.;Baranovskii, S. D.;Osterbacka, R.;Dvurechenskii, A. V.;Gebhard, F.;
2:181:4 Organic [6,6]-phenyl-C-61-butyric-acid-methyl-ester field effect transistors: Analysis of the contact properties by combined photoemission spectroscopy and electrical measurements
DOI:10.1063/1.4803134 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Scheinert, S.;Grobosch, M.;Sprogies, J.;Hoerselmann, I.;Knupfer, M.;Paasch, G.;
2:181:5 Effect of electric field on diffusion in disordered materials. I. One-dimensional hopping transport
DOI:10.1103/PhysRevB.81.115203 JN:PHYSICAL REVIEW B PY:2010 TC:12 AU: Nenashev, A. V.;Jansson, F.;Baranovskii, S. D.;Osterbacka, R.;Dvurechenskii, A. V.;Gebhard, F.;
2:181:6 Charge carrier density of organics with Gaussian density of states: Analytical approximation for the Gauss-Fermi integral
DOI:10.1063/1.3374475 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Paasch, Gernot;Scheinert, Susanne;
2:181:7 A photoemission study of interfaces between organic semiconductors and Co as well as Al2O3/CO contacts
DOI:10.1016/j.synthmet.2009.09.014 JN:SYNTHETIC METALS PY:2010 TC:12 AU: Grobosch, M.;Schmidt, C.;Naber, W. J. M.;van der Wiel, W. G.;Knupfer, M.;
2:181:8 Field-induced detrapping in disordered organic semiconducting host-guest systems
DOI:10.1103/PhysRevB.82.205203 JN:PHYSICAL REVIEW B PY:2010 TC:8 AU: Cottaar, J.;Coehoorn, R.;Bobbert, P. A.;
2:181:9 Diffusivity and mobility of non-equilibrium carriers in organic semiconductors: Existence of critical field determining temperature dependence
DOI:10.1063/1.4824747 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Tripathi, Durgesh C.;Sinha, Dhirendra K.;Mohapatra, Y. N.;
2:181:10 Simultaneous and direct measurement of carrier diffusion constant and mobility in organic semiconductors and deviation from standard Einstein relation
DOI:10.1103/PhysRevB.84.041201 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Tripathi, Awnish K.;Tripathi, Durgesh C.;Mohapatra, Y. N.;
2:181:11 Insight into the contact resistance problem by direct probing of the potential drop in organic field-effect transistors
DOI:10.1063/1.3533020 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Weis, Martin;Lin, Jack;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:181:12 Formation and nitridation of InGa composite droplets on Si(111): In-situ study by high resolution X-ray photoelectron spectroscopy
DOI:10.1016/j.apsusc.2014.02.170 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Qi, B.;Shayestehaminzadeh, S.;Olafsson, S.;Gothelid, M.;Gislason, H. P.;
2:181:13 Indium on a copper phthalocyanine thin film: Not a reactive system
DOI:10.1103/PhysRevB.81.115325 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Ivanco, J.;Toader, T.;Firsov, A.;Brzhezinskaya, M.;Sperling, M.;Braun, W.;Zahn, D. R. T.;
2:181:14 High conductance bottom-contact pentacene thin-film transistors with gold-nickel adhesion layers
DOI:10.1063/1.3465735 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Kitamura, Masatoshi;Kuzumoto, Yasutaka;Kang, Woogun;Aomori, Shigeru;Arakawa, Yasuhiko;
2:181:15 Influence of the carrier density in disordered organics with Gaussian density of states on organic field-effect transistors
DOI:10.1063/1.4863180 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Scheinert, Susanne;Paasch, Gernot;
2:181:16 Study of blocking effect for diffusion in disordered lattice
DOI:10.1016/j.jnoncrysol.2012.02.008 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Hung, P. K.;Ha, N. T. T.;Hong, N. V.;
2:181:17 Determination of long time discharge current in microelectromechanical system capacitive switches
DOI:10.1063/1.3636405 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Koutsoureli, M.;Papaioannou, G.;
2:181:18 Diffusion in heterogeneous lattices
DOI:10.1016/j.apsusc.2009.12.076 JN:APPLIED SURFACE SCIENCE PY:2010 TC:6 AU: Tarasenko, A.;Jastrabik, L.;
2:181:19 Extrinsic charge traps in disordered organic materials
DOI:10.1063/1.4757412 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Lin, Liang-Bih;Cheng, Chi-Wen;Dai, Chi-An;Lee, Yuan-Pern;
2:181:20 Photoemission and low energy electron microscopy study on the formation and nitridation of indium droplets on Si (111)7 x 7 surfaces
DOI:10.1016/j.tsf.2012.12.022 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Qi, B.;Olafsson, S.;Gothelid, M.;Gislason, H. P.;Agnarsson, B.;
2:182:1 How the Charge-Neutrality Level of Interface States Controls Energy Level Alignment in Cathode Contacts of Organic Bulk-Heterojunction Solar Cells
DOI:10.1021/nn300486a JN:ACS NANO PY:2012 TC:40 AU: Guerrero, Antonio;Marchesi, Luis F.;Boix, Pablo P.;Ruiz-Raga, Sonia;Ripolles-Sanchis, Teresa;Garcia-Belmonte, Germa;Bisquert, Juan;
2:182:2 Thermal ageing of bulk heterojunction polymer solar cells investigated by electric noise analysis
DOI:10.1016/j.solmat.2013.11.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:4 AU: Barone, C.;Landi, G.;De Sio, A.;Neitzert, H. C.;Pagano, S.;
2:182:3 Characterization of polymer: fullerene solar cells by low-frequency noise spectroscopy
DOI:10.1063/1.4809919 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Landi, G.;Barone, C.;De Sio, A.;Pagano, S.;Neitzert, H. C.;
2:182:4 Characterisation of charge conduction networks in poly(3-hexylthiophene)/polystyrene blends using noise spectroscopy
DOI:10.1039/c3tc31849d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Williams, Aled T.;Farrar, Paul;Gallant, Andrew J.;Atkinson, Del;Groves, Chris;
2:182:5 Solvent additives for tuning the photovoltaic properties of polymer-fullerene solar cells
DOI:10.1016/j.solmat.2011.08.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:22 AU: De Sio, Antonietta;Modena, Thomas;Huber, Ralph;Parisi, Juergen;Neyshtadt, Shany;Deschler, Felix;Da Como, Enrico;Esposito, Salvatore;von Hauff, Elizabeth;
2:182:6 Fluctuations in photocurrent of bulk heterojunction polymer solar cells-A valuable tool to understand microscopic and degradation processes
DOI:10.1063/1.4738985 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Bag, Monojit;Vidhyadhiraja, N. S.;Narayan, K. S.;
2:182:7 Correlations between 1/f noise and thermal treatment of Al-doped ZnO thin films deposited by direct current sputtering
DOI:10.1063/1.4879095 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Barhoumi, A.;Leroy, G.;Yang, L.;Gest, J.;Boughzala, H.;Duponchel, B.;Guermazi, S.;Carru, J. C.;
2:182:8 Thermal and voltage activated excess 1/f noise in FeTe0.5Se0.5 epitaxial thin films
DOI:10.1103/PhysRevB.83.134523 JN:PHYSICAL REVIEW B PY:2011 TC:6 AU: Barone, C.;Pagano, S.;Pallecchi, I.;Bellingeri, E.;Putti, M.;Ferdeghini, C.;
2:182:9 Universality in the intensity-modulated photocurrent in bulk-heterojunction polymer solar cells
DOI:10.1103/PhysRevB.82.075308 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: Bag, Monojit;Narayan, K. S.;
2:182:10 Effect of concentration on low-frequency noise of multiwall carbon nanotubes in high-density polyethylene matrix
DOI:10.1063/1.3502485 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Barone, C.;Pagano, S.;Neitzert, H. C.;
2:182:11 Anomalous Noise in the Pseudogap Regime of YBa2Cu3O7-delta
DOI:10.1103/PhysRevLett.104.177001 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:6 AU: Caplan, D. S.;Orlyanchik, V.;Weissman, M. B.;Van Harlingen, D. J.;Fradkin, E. H.;Hinton, M. J.;Lemberger, T. R.;
2:182:12 Possible microscopic origin of large broadening parameter in point Andreev reflection spectroscopy
DOI:10.1063/1.3479927 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Wei, Jian;Sheet, Goutam;Chandrasekhar, Venkat;
2:182:13 Transport and noise spectroscopy of MWCNT/HDPE composites with different nanotube concentrations
DOI:10.1063/1.3666052 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Barone, C.;Pagano, S.;Neitzert, H. C.;
2:183:1 Post-Deposition Activation of Latent Hydrogen-Bonding: A New Paradigm for Enhancing the Performances of Bulk Heterojunction Solar Cells
DOI:10.1002/adfm.201400896 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Bruni, Francesco;Sassi, Mauro;Campione, Marcello;Giovanella, Umberto;Ruffo, Riccardo;Luzzati, Silvia;Meinardi, Francesco;Beverina, Luca;Brovelli, Sergio;
2:183:2 Open circuit voltage tuning through molecular design in hydrazone end capped donors for bulk heterojunction solar cells
DOI:10.1039/c2ta00673a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:8 AU: Sassi, Mauro;Crippa, Maurizio;Ruffo, Riccardo;Turrisi, Riccardo;Drees, Martin;Pandey, Upendra K.;Termine, Roberto;Golemme, Attilio;Facchetti, Antonio;Beverina, Luca;
2:183:3 The structure/property relationship in a series of pyrrolic polysquaraines
DOI:10.1016/j.synthmet.2013.09.005 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Lynch, Daniel E.;Ewington, Jonathan;
2:183:4 Novel magneto-optic behaviour from a polysquaraine
DOI:10.1016/j.synthmet.2013.03.010 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Lynch, Daniel E.;Newman, David M.;Wears, M. Lesley;Matelon, Raphael J.;
2:183:5 Panchromatic squaraine compounds for broad band light harvesting electronic devices
DOI:10.1039/c2jm16240g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Beverina, Luca;Ruffo, Riccardo;Salamone, Matteo M.;Ronchi, Elisabetta;Binda, Maddalena;Natali, Dario;Sampietro, Marco;
2:183:6 The effect of controllable thin film crystal growth on the aggregation of a novel high panchromaticity squaraine viable for organic solar cells
DOI:10.1016/j.solmat.2013.01.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Spencer, Susan D.;Bougher, Cortney;Heaphy, Patrick J.;Murcia, Victor M.;Gallivan, Cameron P.;Monfette, Amber;Andersen, John D.;Cody, Jeremy A.;Conrad, Brad R.;Collison, Christopher J.;
2:183:7 Synthesis and characterization of 4-dodecyloxyphenyl and (4-dodecyloxy-4-biphenyl)methylene-substituted bispyrrolylvinylthiophene-based polysquaraines having good solubility and very low bandgap for light absorption
DOI:10.1002/app.38179 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Huo, Erfu;Yang, Daobin;Zhang, Zhanyuan;Lu, Zhiyun;Sun, Huiqin;Xin, Xing;Huang, Yan;Liu, Yu;Jiang, Qing;
2:183:8 Reversible isomerization of a zwitterionic polysquaraine induced by a metal surface
DOI:10.1039/c0jm03328f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Lu, Hsiao-Chi;Whang, Wha-Tzong;Cheng, Bing-Ming;
2:183:9 Synthesis and characterization of novel poly(aryleneethynylene)s derived from squaraines for photovoltaic applications
DOI:10.1007/s10853-011-5474-z JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:8 AU: Zhang, Wei;Tao, Feng;Meng, Kai-ge;Wang, Zheng;Xi, Long-yi;Li, Ying;Jiang, Qing;
2:183:10 ORGANIC PHOTOVOLTAICS Efficient relaxation
DOI:10.1038/nmat3842 JN:NATURE MATERIALS PY:2014 TC:3 AU: Moses, Daniel;
2:183:11 Effect of alkyl position of pyrrole on structures and properties of conjugated polysquaraines
DOI:10.1016/j.synthmet.2010.02.016 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Lu, Hsiao-Chi;Whang, Wha-Tzong;Cheng, Bing-Ming;
2:184:1 Energetics of excited states in the conjugated polymer poly(3-hexylthiophene)
DOI:10.1103/PhysRevB.81.085202 JN:PHYSICAL REVIEW B PY:2010 TC:52 AU: Deibel, Carsten;Mack, Daniel;Gorenflot, Julien;Schoell, Achim;Krause, Stefan;Reinert, Friedrich;Rauh, Daniel;Dyakonov, Vladimir;
2:184:2 POSS-Enhanced Phase Separation in Air-Processed P3HT:PCBM Bulk Heterojunction Photovoltaic Systems
DOI:10.1021/am4010489 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Wu, Qi;Bhattacharya, Mithun;Morgan, Sarah E.;
2:184:3 Geminate electron-hole recombination in organic solids in the presence of a donor-acceptor heterojunction
DOI:10.1063/1.3397992 JN:APPLIED PHYSICS LETTERS PY:2010 TC:15 AU: Wojcik, Mariusz;Michalak, Przemyslaw;Tachiya, M.;
2:184:4 Healable Supramolecular Polymers as Organic Metals
DOI:10.1021/ja5044006 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Armao, Joseph J.;Maaloum, Mounir;Ellis, Thomas;Fuks, Gad;Rawiso, Michel;Moulin, Emilie;Giuseppone, Nicolas;
2:184:5 Identification of Ultrafast Relaxation Processes As a Major Reason for Inefficient Exciton Diffusion in Perylene-Based Organic Semiconductors
DOI:10.1021/ja413115h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Settels, Volker;Schubert, Alexander;Tafipolski, Maxim;Liu, Wenlan;Stehr, Vera;Topczak, Anna K.;Pflaum, Jens;Deibel, Carsten;Fink, Reinhold F.;Engel, Volker;Engels, Bernd;
2:184:6 Influence of spin-spin exchange on charge transfer in PANI-ES/P3DDT/PCBM composite
DOI:10.1016/j.synthmet.2013.07.008 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Krinichnyi, V. I.;Yudanova, E. I.;Wessling, B.;
2:184:7 Torsionally-Induced Blue Shift of the Band Gap in Poly(3-Hexylthiophene)
DOI:10.1166/jctn.2014.3621 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2014 TC:1 AU: Bhatta, Ram S.;Tsige, Mesfin;Perry, David S.;
2:184:8 Structural effect of electron acceptor on charge transfer in poly(3-hexylthiophene)/methanofullerene bulk heterojunctions
DOI:10.1016/j.solmat.2011.03.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Krinichnyi, V. I.;Yudanova, E. I.;
2:184:9 Light-induced EPR study of charge transfer in P3HT/bis-PCBM bulk heterojunctions
DOI:10.1063/1.3599411 JN:AIP ADVANCES PY:2011 TC:4 AU: Krinichnyi, Victor I.;Yudanova, Eugenia I.;
2:184:10 Spatially resolved spectral mapping of phase mixing and charge transfer excitons in bulk heterojunction solar cell films
DOI:10.1063/1.3687185 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Riisness, I.;Carach, C.;Gordon, M. J.;
2:184:11 Energy resolved electrochemical impedance spectroscopy for electronic structure mapping in organic semiconductors
DOI:10.1063/1.4898068 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Nadazdy, V.;Schauer, F.;Gmucova, K.;
2:184:12 Electron paramagnetic resonance study of spin centers related to charge transport in metallic polyaniline
DOI:10.1016/j.synthmet.2012.04.030 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Krinichnyi, V. I.;Konkin, A. L.;Monkman, A. P.;
2:184:13 Detailed study of N,N '-(diisopropylphenyl)-terrylene-3,4:11,12-bis(dicarboximide) as electron acceptor for solar cells application
DOI:10.1016/j.synthmet.2011.09.041 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Gorenflot, J.;Sperlich, A.;Baumann, A.;Rauh, D.;Vasilev, A.;Li, C.;Baumgarten, M.;Deibel, C.;Dyakonov, V.;
2:184:14 Geminate-pair dissociation yield in systems with exponential energetic disorder - A Monte Carlo study
DOI:10.1016/j.jnoncrysol.2013.12.037 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:1 AU: Tomaszewicz, Wladyslaw;Falkowski, Karol;Stampor, Waldemar;Grygiel, Piotr;
2:184:15 Ageing and breakdown of thin insulating polymer films
DOI:10.1063/1.4883365 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zakrevskii, V. A.;Pakhotin, V. A.;Sudar, N. T.;
2:185:1 Trap-induced photoconductivity in singlet fission pentacene diodes
DOI:10.1063/1.4891331 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Qiao, Xianfeng;Zhao, Chen;Chen, Bingbing;Luan, Lin;
2:185:2 Mapping of Trap Densities and Hotspots in Pentacene Thin-Film Transistors by Frequency-Resolved Scanning Photoresponse Microscopy
DOI:10.1002/adma.201300958 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Westermeier, Christian;Fiebig, Matthias;Nickel, Bert;
2:185:3 Influence of film structure and light on charge trapping and dissipation dynamics in spun-cast organic thin-film transistors measured by scanning Kelvin probe microscopy
DOI:10.1063/1.4720063 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Teague, L. C.;Loth, M. A.;Anthony, J. E.;
2:185:4 Tuning the Threshold Voltage in Organic Thin-Film Transistors by Local Channel Doping Using Photoreactive Interfacial Layers
DOI:10.1002/adma.201002912 JN:ADVANCED MATERIALS PY:2010 TC:22 AU: Marchl, Marco;Edler, Matthias;Haase, Anja;Fian, Alexander;Trimmel, Gregor;Griesser, Thomas;Stadlober, Barbara;Zojer, Egbert;
2:185:5 Color-tunable and high-efficiency organic light-emitting diode by adjusting exciton bilateral migration zone
DOI:10.1063/1.4823476 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Liu, Shengqiang;Wu, Ruofan;Huang, Jiang;Yu, Junsheng;
2:185:6 Spectroscopic Characterization of Charged Defects in Polycrystalline Pentacene by Time- and Wavelength-Resolved Electric Force Microscopy
DOI:10.1002/adma.201003073 JN:ADVANCED MATERIALS PY:2011 TC:9 AU: Luria, Justin L.;Schwarz, Kathleen A.;Jaquith, Michael J.;Hennig, Richard G.;Marohn, John A.;
2:185:7 Photochemical control of the carrier mobility in pentacene-based organic thin-film transistors
DOI:10.1063/1.3432672 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Marchl, Marco;Golubkov, Andrej W.;Edler, Matthias;Griesser, Thomas;Pacher, Peter;Haase, Anja;Stadlober, Barbara;Belegratis, Maria R.;Trimmel, Gregor;Zojer, Egbert;
2:185:8 Triplet-charge annihilation versus triplet-triplet annihilation in organic semiconductors
DOI:10.1039/c2tc00329e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Shao, Ming;Yan, Liang;Li, Mingxing;Ilia, Ivanov;Hu, Bin;
2:185:9 Solution-processed P3HT-based photodetector with field-effect transistor configuration
DOI:10.1007/s00339-014-8280-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:5 AU: Zhang, Li;Yang, Dan;Yang, Shengyi;Zou, Bingsuo;
2:185:10 Non-doped, blue-emitting, color-stable, organic light-emitting diode based on 2,2 ':6 ',2 ''-ternaphthalene
DOI:10.1007/s00339-014-8408-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Schwabegger, Guenther;Dingemans, Theo;Resel, Roland;Sitter, Helmut;Simbrunner, Clemens;
2:185:11 Gate-field dependent photosensitivity of soluble 1,2,4,5-tetra(5 '-hexyl-[2,2 ']terthiophenyl-5-vinyl)-benzene based organic thin film transistors
DOI:10.1063/1.3456498 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Cho, Mi Yeon;Kim, Kihyun;Kim, Su Jin;Jo, Seong Gi;Kim, Kyung Hwan;Jung, Ki Hwa;Choi, Dong Hoon;Kim, Sangsig;Joo, Jinsoo;
2:185:12 Photoresponsive characteristics and hysteresis of soluble 6,13-bis(triisopropyl-silylethynyl)-pentacene-based organic thin film transistors with and without annealing
DOI:10.1063/1.3277025 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Cho, Mi Yeon;Han, Yoon Deok;Kang, Han Saem;Kim, Kihyun;Kim, Kyung Hwan;Cho, Min Ju;Choi, Dong Hoon;Joo, Jinsoo;
2:185:13 Photo-Fries-based photosensitive polymeric interlayers for patterned organic devices
DOI:10.1007/s00339-012-6853-2 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:3 AU: Montaigne Ramil, Alberto;Hernandez-Sosa, Gerardo;Griesser, Thomas;Simbrunner, Clemens;Hoefler, Thomas;Trimmel, Gregor;Kern, Wolfgang;Shen, Quan;Teichert, Christian;Schwabegger, Gunther;Sitter, Helmut;Sariciftci, Niyazi Serdar;
2:185:14 Probing stress effects in single crystal organic transistors by scanning Kelvin probe microscopy
DOI:10.1063/1.3389493 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Teague, Lucile C.;Jurchescu, Oana D.;Richter, Curt A.;Subramanian, Sankar;Anthony, John E.;Jackson, Thomas N.;Gundlach, David J.;Kushmerick, James G.;
2:185:15 Investigation of polysilsesquioxane as a gate dielectric material for organic field-effect transistors
DOI:10.1063/1.4742891 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Kawamura, M.;Nakahara, Yoshio;Ohse, Mitsuhiro;Kumei, Maki;Uno, K.;Sakamoto, Hidefumi;Kimura, Keiichi;Tanaka, Ichiro;
2:185:16 Crystallization of pentacene thin films on polymeric dielectrics
DOI:10.1016/j.synthmet.2011.09.027 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Moser, Armin;Flesch, Heinz-Georg;Neuhold, Alfred;Marchl, Marco;Ausserlechner, Simon J.;Edler, Matthias;Griesser, Thomas;Haase, Anja;Smilgies, Detlef-Matthias;Jakabovic, Jan;Resel, Roland;
2:186:1 "Green" polymer solar cell based on water-soluble poly [3-(potassium-6-hexanoate) thiophene-2, 5-diyl] and aqueous-dispersible noncovalent functionalized graphene sheets
DOI:10.1016/j.solmat.2011.09.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:20 AU: Liu, Zhaoyang;Liu, Leijing;Li, Hui;Dong, Qingfeng;Yao, Shiyu;Kidd, Arnold B.;Zhang, Xiaoyu;Li, Jiyang;Tian, Wenjing;
2:186:2 Fullerenes and carbon nanotubes as acceptor materials in organic photovoltaics
DOI:10.1016/j.matlet.2012.08.145 JN:MATERIALS LETTERS PY:2013 TC:26 AU: Ferguson, Andrew J.;Blackburn, Jeffrey L.;Kopidakis, Nikos;
2:186:3 Spin-coated P3HT: Aminated carbon microsphere composite films for polymer solar cells
DOI:10.1557/jmr.2014.14 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:3 AU: Li, Yong;Yan, Lingpeng;Yang, Yongzhen;Liu, Xuguang;Xu, Bingshe;
2:186:4 Improving photovoltaic properties by incorporating both SPFGraphene and functionalized multiwalled carbon nanotubes
DOI:10.1016/j.solmat.2010.07.001 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:18 AU: Liu, Zhiyong;He, Dawei;Wang, Yongsheng;Wu, Hongpeng;Wang, Jigang;Wang, Haiteng;
2:186:5 Thermal annealing effect on the nanomechanical properties and structure of P3HT: PCBM thin films
DOI:10.1016/j.tsf.2011.01.196 JN:THIN SOLID FILMS PY:2011 TC:26 AU: Karagiannidis, P. G.;Kassavetis, S.;Pitsalidis, C.;Logothetidis, S.;
2:186:6 Optical and electrical properties of conducting polymer-functionalized carbon nanotubes nanocomposites
DOI:10.1016/j.mssp.2014.02.010 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:4 AU: Chehata, Nadia;Ltaief, Adnen;Bkakri, Rabeb;Bouazizi, Abdelaziz;
2:186:7 Synthesis of Graphene Sheets and Characterization of Poly(3-hexylthiophene):Graphene Blends
DOI:10.1007/s11664-013-2648-2 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Abd Wahab, F.;Sulaiman, K.;Huang, N. M.;
2:186:8 Dissolution of poly(vinyl alcohol) -modified carbon nanotubes in a buffer solution
DOI:10.1016/S1872-5805(09)60030-5 JN:NEW CARBON MATERIALS PY:2010 TC:9 AU: Zhang Fa-ming;Chang Jiang;Burkel, Eberhard;
2:187:1 Modulating the Properties of Azulene-Containing Polymers through Controlled Incorporation of Regioisomers
DOI:10.1002/adfm.201402554 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:4 AU: Tsurui, Kazuhiko;Murai, Masahito;Ku, Sung-Yu;Hawker, Craig J.;Robb, Maxwell J.;
2:187:2 Azulenocyanine: A New Family of Phthalocyanines with Intense Near-IR Absorption
DOI:10.1021/ja101818g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:42 AU: Muranaka, Atsuya;Yonehara, Mitsuhiro;Uchiyama, Masanobu;
2:187:3 The preparation of thiophene-S,S-dioxides and their role in organic electronics
DOI:10.1039/c2jm31220d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Dell, Emma J.;Campos, Luis M.;
2:187:4 Terazulene: A High-Performance n-Type Organic Field-Effect Transistor Based on Molecular Orbital Distribution Control
DOI:10.1021/ja410696j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:9 AU: Yamaguchi, Yuji;Ogawa, Keisuke;Nakayama, Ken-ichi;Ohba, Yoshihiro;Katagiri, Hiroshi;
2:187:5 Stimuli-Responsive Azulene-Based Conjugated Oligomers with Polyaniline-like Properties
DOI:10.1021/ja203267g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:26 AU: Amir, Elizabeth;Amir, Roey J.;Campos, Luis M.;Hawker, Craig J.;
2:187:6 Azulene Methacrylate Polymers: Synthesis, Electronic Properties, and Solar Cell Fabrication
DOI:10.1021/ja504670k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Puodziukynaite, Egle;Wang, Hsin-Wei;Lawrence, Jimmy;Wise, Adam J.;Russell, Thomas P.;Barnes, Michael D.;Emrick, Todd;
2:187:7 Azulene-containing organic chromophores with tunable near-IR absorption in the range of 0.6 to 1.7 mu m
DOI:10.1039/c2jm31098h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Wang, Fuke;Lin, Ting Ting;He, Chaobin;Chi, Hong;Tang, Tao;Lai, Yee-Hing;
2:187:8 Impact of 2,6-connectivity in azulene: optical properties and stimuli responsive behavior
DOI:10.1039/c3tc31610f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Koch, Michael;Blacque, Olivier;Venkatesan, Koushik;
2:187:9 Rationally Designed Phthalocyanines Having Their Main Absorption Band beyond 1000 nm
DOI:10.1021/ja208481q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Kobayashi, Nagao;Furuyama, Taniyuki;Satoh, Koh;
2:187:10 Do [all]-S,S '-Dioxide Oligothiophenes Show Electronic and Optical Properties of Oligoenes and/or of Oligothiophenes?
DOI:10.1021/ja101015q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:17 AU: Moreno Oliva, Maria;Casado, Juan;Lopez Navarrete, Juan T.;Patchkovskii, Serguei;Goodson, Theodore, III;Harpham, Michael R.;Seixas de Melo, J. Sergio;Amir, Elizabeta;Rozen, Shlomo;
2:187:11 [18]/[20]pi Hemiporphyrazine: A Redox-Switchable Near-Infrared Dye
DOI:10.1021/ja210410c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:16 AU: Muranaka, Atsuya;Ohira, Shino;Hashizume, Daisuke;Koshino, Hiroyuki;Kyotani, Fumiko;Hirayama, Machiko;Uchiyama, Masanobu;
2:187:12 Design, Synthesis, and Properties of Phthalocyanine Complexes with Main-Group Elements Showing Main Absorption and Fluorescence beyond 1000 nm
DOI:10.1021/ja411016f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:8 AU: Furuyama, Taniyuki;Satoh, Koh;Kushiya, Tomofumi;Kobayashi, Nagao;
2:187:13 Observation of Exceptionally Low-Lying pi-pi* Excited States in Oxidized Forms of Quadruple-Decker Phthalocyanine Complexes
DOI:10.1021/ja3064606 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:7 AU: Fukuda, Takamitsu;Hata, Kentaro;Ishikawa, Naoto;
2:187:14 Synthesis of tetraselenophenoporphyrazine and its application in transistor devices
DOI:10.1039/c3tc31584c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Shahid, Munazza;Padamsey, Nafeezah;Labram, John;Anthopoulos, Thomas D.;Heeney, Martin;
2:187:15 Linear 6,6 '-Biazulenyl Framework Featuring Isocyanide Termini: Synthesis, Structure, Redox Behavior, Complexation, and Self-Assembly on Au(111)
DOI:10.1021/ja108202d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:4 AU: Maher, Tiffany R.;Spaeth, Andrew D.;Neal, Brad M.;Berrie, Cindy L.;Thompson, Ward H.;Day, Victor W.;Barybin, Mikhail V.;
2:187:16 A Discrete Quadruple-Decker Phthalocyanine
DOI:10.1021/ja100125e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:15 AU: Fukuda, Takamitsu;Biyajima, Tsuneaki;Kobayashi, Nagao;
2:187:17 Unusual Relaxation Pathway from the Two-Photon Excited First Singlet State of Carotenoids
DOI:10.1021/ja908472y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:8 AU: Pang, Yoonsoo;Jones, Garth A.;Prantil, Matthew A.;Fleming, Graham R.;
2:187:18 Synthesis, Reactions, and Electronic Properties of 16 pi-Electron Octaisobutyltetraphenylporphyrin
DOI:10.1021/ja102817a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:24 AU: Yamamoto, Yohsuke;Hirata, Yusuke;Kodama, Megumi;Yamaguchi, Torahiko;Matsukawa, Shiro;Akiba, Kin-ya;Hashizume, Daisuke;Iwasaki, Fujiko;Muranaka, Atsuya;Uchiyama, Masanobu;Chen, Ping;Kadish, Karl M.;Kobayashi, Nagao;
2:188:1 Inkjet printing ceramics: From drops to solid
DOI:10.1016/j.jeurceramsoc.2011.01.016 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2011 TC:48 AU: Derby, B.;
2:188:2 Rheological Characterization of Aqueous 3Y-TZP Inks Optimized for Direct Thermal Ink-Jet Printing of Ceramic Components
DOI:10.1111/jace.12285 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:2 AU: Oezkol, Emre;
2:188:3 An experimental analysis of the influence of the ink properties on the drop formation for direct thermal inkjet printing of high solid content aqueous 3Y-TZP suspensions
DOI:10.1016/j.jeurceramsoc.2010.01.004 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:17 AU: Oezkol, Emre;Ebert, Joerg;Telle, Rainer;
2:188:4 Effect of milling time and pH on the dispersibility of lead zirconate titanate in aqueous media for inkjet printing
DOI:10.1016/j.jeurceramsoc.2013.08.002 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2014 TC:2 AU: Noshchenko, Oleksandr;Kuscer, Danjela;Mocioiu, Oana Catalina;Zaharescu, Maria;Bele, Marian;Malic, Barbara;
2:188:5 Ink-Jet Printing of Zirconia: Coffee Staining and Line Stability
DOI:10.1111/j.1551-2916.2011.04697.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:7 AU: Dou, Rui;Wang, Tianming;Guo, Yunshan;Derby, Brian;
2:188:6 Formulation of an Aqueous Titania Suspension and its Patterning with Ink-Jet Printing Technology
DOI:10.1111/j.1551-2916.2011.04876.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:12 AU: Kuscer, Danjela;Stavber, Gaj;Trefalt, Gregor;Kosec, Marija;
2:188:7 Potentials of the "Direct inkjet printing" method for manufacturing 3Y-TZP based dental restorations
DOI:10.1016/j.jeurceramsoc.2012.03.006 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:5 AU: Oezkol, Emre;Zhang, Wen;Ebert, Joerg;Telle, Rainer;
2:188:8 Mechanical characterisation of miniaturised direct inkjet printed 3Y-TZP specimens for microelectronic applications
DOI:10.1016/j.jeurceramsoc.2010.07.016 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2010 TC:9 AU: Oezkol, Emre;Waetjen, Anja M.;Bermejo, Raul;Deluca, Marco;Ebert, Joerg;Danzer, Robert;Telle, Rainer;
2:188:9 Rheological Properties of Aqueous Si3N4 and MoSi2 Suspensions Tailor-Made for Direct Inkjet Printing
DOI:10.1111/j.1551-2916.2010.04052.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:6 AU: Cappi, Benjamin;Ebert, Joerg;Telle, Rainer;
2:188:10 High Strength Alumina Micro-Beams Fabricated by Inkjet Printing
DOI:10.1111/j.1551-2916.2012.05395.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:1 AU: Philips, Noah R.;Compton, Brett G.;Begley, Matthew R.;
2:188:11 Piezoelectric Properties of Ink-Jet-Printed Lead Zirconate Titanate Thick Films Confirmed by Piezoresponse Force Microscopy
DOI:10.1111/jace.12532 JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2013 TC:2 AU: Kuscer, Danjela;Noshchenko, Oleksandr;Ursic, Hana;Malic, Barbara;
2:188:12 Optimisation of CGO suspensions for inkjet-printed SOFC electrolytes
DOI:10.1016/j.jeurceramsoc.2012.03.001 JN:JOURNAL OF THE EUROPEAN CERAMIC SOCIETY PY:2012 TC:6 AU: Wang, Chingfu;Hopkins, Simon C.;Tomov, Rumen I.;Kumar, R. Vasant;Glowacki, Bartek A.;
2:188:13 Inkjet printing of fluorinated materials and their application to patterning organic semiconductors
DOI:10.1039/c3tc31118j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Newby, Carol;Lee, Jin-Kyun;Ober, Christopher Kemper;
2:188:14 Thermoresponsive gelling behavior of concentrated alumina suspensions containing poly(acrylic acid) and PEO-PPO-PEO copolymer
DOI:10.1016/j.jcis.2011.09.071 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:2 AU: Kondo, Akira;Xu, Hui;Abe, Hiroya;Naito, Makio;
2:188:15 Aqueous suspensions of glass silicate dielectric powders for ink-jet printing applications
DOI:10.1016/j.powtec.2014.06.044 JN:POWDER TECHNOLOGY PY:2014 TC:1 AU: Singlard, M.;Aimable, A.;Lejeune, M.;Dossou-Yovo, C.;Poncelet, M.;Noguera, R.;Modes, C.;
2:188:16 Systematic Design of Jettable Nanoparticle-Based Inkjet Inks: Rheology, Acoustics, and Jettability
DOI:10.1021/la502903y JN:LANGMUIR PY:2014 TC:3 AU: Nallan, Himamshu C.;Sadie, Jacob A.;Kitsomboonloha, Rungrot;Volkman, Steven K.;Subramanian, Vivek;
2:189:1:1 Composites of quaternized poly(pyridylacetylene) and silver nanoparticles: Nanocomposite preparation, conductivity and photoinduced patterning
DOI:10.1039/c1jm11459j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Mao, Yu;Xu, Hai Peng;Zhao, Hui;Yuan, Wang Zhang;Qin, Anjun;Yu, Yong;Faisal, Mahtab;Xiao, Zhang;Sun, Jing Zhi;Tang, Ben Zhong;
2:189:1:2 Preparation and Characterization of a Water-Soluble Conjugated Polymer-Iron(III) Chloride Complex
DOI:10.1080/15421406.2012.690973 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:4 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon Taek;
2:189:1:3 Synthesis and Characterization of Poly[N-(2-ethyl pyrroyl)-2-ethynylpyridinium Bromide]
DOI:10.1080/15421406.2013.802959 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Gal, Yeong-Soon;Jin, Sung-Ho;
2:189:1:4 Synthesis and Characterization of Poly[p-(N-ethylbenzenesulfonate sodium)-2-ethynylpyridinium Bromide]
DOI:10.1080/15421406.2014.932265 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Gal, Yeong-Soon;Jin, Sung-Ho;
2:189:1:5 Synthesis, Structural and Spectral Properties of an Ionic Polyacetylene: Poly[N-(5-nitro-2-furanmethylene)-2-ethynylpyridinium bromide]
DOI:10.1002/app.33643 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:9 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Lim, Kwon Taek;Park, Jong-Wook;
2:189:1:6 Electro-optical and Electrochemical Properties of Poly(N-Benzoyl-2-ethynylpyridinium tetraphenylborate)
DOI:10.1080/15421406.2012.710175 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon Taek;
2:189:1:7 Synthesis and Characterization of Water-Soluble Ionic Conjugated Polyacetylene
DOI:10.1080/15421406.2010.495893 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:4 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon-Taek;Kim, Sang Youl;
2:189:1:8 Synthesis and characterization of a conjugated polymer with the long alkyl substituents: Poly(2-ethynyl-N-octadecylpyridinium bromide)
DOI:10.1016/j.tsf.2013.02.041 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon-Taek;
2:189:2:1 Ultrafast Cyclopolymerization for Polyene Synthesis: Living Polymerization to Dendronized Polymers
DOI:10.1021/ja204309d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:33 AU: Kang, Eun-Hye;Lee, In Sun;Choi, Tae-Lim;
2:189:2:2 Fast Tandem Ring-Opening/Ring-Closing Metathesis Polymerization from a Monomer Containing Cyclohexene and Terminal Alkyne
DOI:10.1021/ja3017335 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Park, Hyeon;Choi, Tae-Lim;
2:189:2:3 Tandem Ring-Opening/Ring-Closing Metathesis Polymerization: Relationship between Monomer Structure and Reactivity
DOI:10.1021/ja4039278 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:3 AU: Park, Hyeon;Lee, Ho-Keun;Choi, Tae-Lim;
2:189:2:4 Quantitative Catalyst-Substrate Association Relationships between Metathesis Molybdenum or Ruthenium Carbene Complexes and Their Substrates
DOI:10.1021/ja104193s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:15 AU: Kim, Kyung Hwan;Ok, Taedong;Lee, Kwangyeol;Lee, Hee-Seung;Chang, Kyu Tae;Ihee, Hyotcherl;Sohn, Jeong-Hun;
2:189:2:5 Strategies to Enhance Cyclopolymerization using Third-Generation Grubbs Catalyst
DOI:10.1021/ja505471u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Kang, Eun-Hye;Yu, So Young;Lee, In Sun;Park, Seong Eon;Choi, Tae-Lim;
2:189:3:1 Synthesis and Characterization of Poly(2-ethynyl-N-perfluorobenzoylpyridinium chloride)
DOI:10.1080/15421406.2013.849454 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Choi, Hyun-Kuk;Jin, Sung-Ho;Park, Jong Wook;Lim, Kwon Taek;Jang, Sang Hee;Kim, Sang Youl;Gal, Yeong-Soon;
2:189:3:2 Synthesis and properties of an ionic polyacetylene by the activated polymerization of 2-ethynylpyridine with the ring-opening of propiolactone
DOI:10.1016/j.synthmet.2010.12.026 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Young-Il;Park, Jong-Wook;Lyoo, Won Seok;Lim, Kwon-Taek;
2:189:3:3 A Polyacetylene via the Uncatalyzed Polymerization of 2-Ethynylpyridine Using 3-(Trimethylsilyl)propargyl Bromide: Synthesis and Characterization
DOI:10.1080/15421406.2014.935988 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon Taek;
2:189:3:4 Photovoltaic Properties of Poly(Carbazolyl-2,7-vinylene) Derivatives by Optimization of Cathode Structures
DOI:10.1080/15421406.2011.600100 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Yoon, Mikyoung;Yoon, Hoe Won;Kim, Ae Jin;Ree, Ryang So;Gal, Yeong-Soon;Lee, Jae Wook;Lee, Jun Hee;Jin, Sung-Ho;
2:189:3:5 Development of efficient solution-processed red phosphorescent organic light-emitting diodes using carrier transport materials
DOI:10.1016/j.synthmet.2010.05.030 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Song, Myungkwan;Park, Jin Su;Kim, Chul-Hyun;Kim, Jang Soo;Gal, Yeong-Soon;Lee, Jae Wool;Jin, Sung-Ho;
2:189:4:1 Synthesis and Characterization of a Polyacetylene Derivative: Poly(2-ethynyl-N-methylpyridinium Tetraphenylborate)
DOI:10.1080/15421406.2014.940796 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Gal, Yeong-Soon;Jin, Sung-Ho;
2:189:4:2 Conjugated organic polymer from the uncatalyzed polymerization of 2-ethynylpyridine via the ring-opening of 1,3-propandiol cyclic sulfate
DOI:10.1016/j.synthmet.2013.04.013 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong Wook;Lim, Kwon Taek;
2:189:4:3 Synthesis and Characterization of a Polyacetylene Derivative Containing Amine Functional Groups
DOI:10.1080/15421406.2012.708844 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Gal, Yeong-Soon;Jin, Sung-Ho;
2:189:4:4 Synthesis and Optical Properties of a Polyacetylene with Hydroxy Funtional Groups: Poly(4-ethynylbenzyl Alcohol)
DOI:10.1080/15421406.2014.940794 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:2 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong Wook;Lim, Kwon Taek;
2:189:5:1 Electro-optical and Electrochemical Properties of a Disubstituted Polyacetylene: Poly(1-phenyl-2-trimethylsilylacetylene)
DOI:10.1080/15421406.2012.689152 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Choi, Hyun-Kuk;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon Taek;Gal, Yeong-Soon;
2:189:5:2 Synthesis and Properties of an Ionic Polyacetylene with 3rd Generation Dendritic Moieties
DOI:10.1080/15421401003609616 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Gal, Yeong-Soon;Kim, Myeong-Ran;Lim, Kwon-Taek;Lee, Won-Chul;Lyoo, Won Seok;Il Park, Young;Park, Jong-Wook;Han, Seung Choul;Lee, Jae Wook;Jin, Sung-Ho;
2:189:5:3 Uncatalyzed Synthesis and Properties of Polyacetylene with N-Pentylpyridinium Iodide
DOI:10.1080/15421406.2011.599709 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:1 AU: Gal, Yeong-Soon;Gui, Tai-Long;Shim, Sang-Yeon;Lyoo, Won Seok;Park, Young-Il;Park, Jong-Wook;Lim, Kwon Taek;Jin, Sung-Ho;
2:189:5:4 Synthesis of a Polyacetylene by Double Cyclopolymerization of Triyne Monomer and its Electro-optical and Electrochemical Properties
DOI:10.1080/15421406.2013.802961 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:2 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Kim, Beomjin;Kim, Seungho;Park, Jongwook;
2:189:5:5 Synthesis and Optical Properties of New Fluorene-Containing Copolymer via the Catalytic Dehydrocoupling Reaction of 9,9-Dipropargyl Fluorene and Diiodoanthracene
DOI:10.1080/15421406.2014.932239 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Lee, Gab Yong;Gal, Yeong-Soon;Lee, Sang-Gu;
2:189:5:6 Synthesis and Properties of Poly(4-vinylpyridine-co-styrene) with Sulfobetaine Moieties
DOI:10.1080/15421406.2011.599706 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Gal, Yeong-Soon;Jin, Sung-Ho;Park, Jong-Wook;Lim, Kwon Taek;
2:190:1 High Fill Factor and Open Circuit Voltage in Organic Photovoltaic Cells with Diindenoperylene as Donor Material
DOI:10.1002/adfm.201001028 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:100 AU: Wagner, Julia;Gruber, Mark;Hinderhofer, Alexander;Wilke, Andreas;Broeker, Benjamin;Frisch, Johannes;Amsalem, Patrick;Vollmer, Antje;Opitz, Andreas;Koch, Norbert;Schreiber, Frank;Bruetting, Wolfgang;
2:190:2 Diindenoperylene as ambipolar semiconductor: Influence of electrode materials and mobility asymmetry in organic field-effect transistors
DOI:10.1063/1.3598423 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Horlet, Matthias;Kraus, Michael;Bruetting, Wolfgang;Opitz, Andreas;
2:190:3 Correlating Structure and Morphology to Device Performance of Molecular Organic Donor-Acceptor Photovoltaic Cells Based on Diindenoperylene (DIP) and C-60
DOI:10.1002/aenm.201201012 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:9 AU: Gruber, M.;Rawolle, M.;Wagner, J.;Magerl, D.;Hoermann, U.;Perlich, J.;Roth, S. V.;Opitz, A.;Schreiber, F.;Mueller-Buschbaum, P.;Bruetting, W.;
2:190:4 Amorphous vs crystalline exciton blocking layers at the anode interface in planar and planar-mixed heterojunction organic solar cells
DOI:10.1063/1.4879839 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Grob, Stefan;Gruber, Mark;Bartynski, Andrew N.;Hoermann, Ulrich;Linderl, Theresa;Thompson, Mark E.;Bruetting, Wolfgang;
2:190:5 Post-growth surface smoothing of thin films of diindenoperylene
DOI:10.1063/1.4737168 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Hinderhofer, A.;Hosokai, T.;Yonezawa, K.;Gerlach, A.;Kato, K.;Broch, K.;Frank, C.;Novak, J.;Kera, S.;Ueno, N.;Schreiber, F.;
2:190:6 Thickness dependent effects of an intermediate molecular blocking layer on the optoelectronic characteristics of organic bilayer photovoltaic cells
DOI:10.1063/1.4757297 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Steindamm, A.;Brendel, M.;Topczak, A. K.;Pflaum, J.;
2:190:7 High open-circuit voltage, high fill factor single-junction organic solar cells
DOI:10.1063/1.4894089 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Peng, Yuelin;Zhang, Lushuai;Andrew, Trisha L.;
2:190:8 Exciton interaction with a spatially defined charge accumulation layer in the organic semiconductor diindenoperylene
DOI:10.1103/PhysRevB.87.241202 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Hansen, N. H.;Wunderlich, C.;Topczak, A. K.;Rohwer, E.;Schwoerer, H.;Pflaum, J.;
2:190:9 Nonthermally activated exciton transport in crystalline organic semiconductor thin films
DOI:10.1103/PhysRevB.89.201203 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Topczak, Anna K.;Roller, Tobias;Engels, Bernd;Bruetting, Wolfgang;Pflaum, Jens;
2:190:10 Optical constants of diindenoperylene in the dependence of preparation temperature and pressure
DOI:10.1016/j.tsf.2013.03.014 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Greiner, D.;Hinrichs, V.;Wiesner, S.;Ludwig, W.;Fostiropoulos, K.;Keiper, D.;Baumann, P. K.;Meyer, N.;Heuken, M.;Rusu, M.;Lux-Steiner, M. Ch.;
2:191:1 Effect of the induced electron traps by oxygen plasma treatment on transfer characteristics of organic thin film transistors
DOI:10.1063/1.3636411 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Huang, Bo-Chieh;Lin, Yow-Jon;
2:191:2 Electronic properties of annealed pentacene films in air at various temperatures up to 400 K
DOI:10.1063/1.4752739 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Tsao, Hou-Yen;Lin, Yow-Jon;
2:191:3 Effects of a metallic front gate on the temperature-dependent electronic property of pentacene films
DOI:10.1016/j.matchemphys.2014.08.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:2 AU: Lin, Yow-Jon;Tsao, Hou-Yen;Liu, Day-Shan;
2:191:4 Temperature-dependent gate-swing hysteresis of pentacene thin film transistors
DOI:10.1063/1.4897339 JN:AIP ADVANCES PY:2014 TC:3 AU: Lin, Yow-Jon;Lin, Yu-Cheng;
2:191:5 Discrepancy in mobility extracted from transfer and output characteristics of organic thin film transistors
DOI:10.1063/1.3519981 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Lin, Yow-Jon;Tsai, Chia-Lung;Huang, Bo-Chieh;
2:191:6 Electrical conduction mechanisms in the transfer characteristics of pentacene thin film transistors
DOI:10.1063/1.4890505 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Lin, Yow-Jon;Lin, Yu-Cheng;
2:191:7 Influence of illumination on the output characteristics in pentacene thin film transistors
DOI:10.1016/j.matchemphys.2013.07.041 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:4 AU: Lin, Yow-Jon;Huang, Bo-Chieh;
2:191:8 Electronic and surface properties of pentacene films deposited on SiO2 prepared by the sol-gel and thermally grown methods
DOI:10.1016/j.tsf.2013.12.056 JN:THIN SOLID FILMS PY:2014 TC:4 AU: Dai, Chi-Jie;Tsao, Hou-Yen;Lin, Yow-Jon;Liu, Day-Shan;
2:191:9 Hall-effect mobility of pentacene films prepared by the thermal evaporating method with different substrate temperature
DOI:10.1063/1.4733293 JN:APPLIED PHYSICS LETTERS PY:2012 TC:10 AU: Lin, Yow-Jon;Tsao, Hou-Yen;Liu, Day-Shan;
2:191:10 Leakage conduction mechanism of top-contact organic thin film transistors
DOI:10.1016/j.synthmet.2010.10.015 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Lin, Yow-Jon;
2:191:11 Relaxation currents in poly-4-vinylphenol dielectrics: Trapping and macroscopic polarization
DOI:10.1016/j.tsf.2013.10.042 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Hamza, A. M.;Myung-Whun, K.;Bu, S. D.;Seo, J. M.;Lee, J. -K.;
2:191:12 Influence of different dielectrics on the first layer grain sizes and its effect on the mobility of pentacene-based thin-film transistors
DOI:10.1063/1.3374887 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Hu, Yuanyuan;Qi, Qiong;Jiang, Chao;
2:191:13 Relaxation currents from macroscopic depolarization in poly-4-vinylphenol dielectrics
DOI:10.1016/j.synthmet.2011.01.017 JN:SYNTHETIC METALS PY:2011 TC:1 AU: Hamza, A. M.;Han, J. K.;Bu, S. D.;Seo, J. M.;Lee, J. -K.;
2:191:14 Oligomer semiconductor/dielectric interface modification for organic thin film transistor hysteresis reduction
DOI:10.1016/j.tsf.2010.05.012 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Huang, Ting-Hsiang;Pei, Zingway;Lin, Wen-Kai;Chang, Shu-Tong;Liu, Kou-Chen;
2:192:1 A Facile Route to Polymer Solar Cells with Optimum Morphology Readily Applicable to a Roll-to-Roll Process without Sacrificing High Device Performance
DOI:10.1002/adma.201000250 JN:ADVANCED MATERIALS PY:2010 TC:79 AU: Park, Hui Joon;Kang, Myung-Gyu;Ahn, Se Hyun;Guo, L. Jay;
2:192:2 Enhanced efficiency in organic solar cells via in situ fabricated p-type copper sulfide as the hole transporting layer
DOI:10.1016/j.solmat.2014.05.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Lei, Hongwei;Fang, Guojia;Cheng, Fei;Ke, Weijun;Qin, Pingli;Song, Zengcai;Zheng, Qiao;Fan, Xi;Huang, Huihui;Zhao, Xingzhong;
2:192:3 Origin of gap states in the electron transport layer of organic solar cells
DOI:10.1039/c2ta01061e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:4 AU: Jung, Gwan Ho;Lee, Jong-Lam;
2:192:4 Organic solar cells with p-type amorphous chromium oxide thin film as hole-transporting layer
DOI:10.1016/j.tsf.2011.02.013 JN:THIN SOLID FILMS PY:2011 TC:17 AU: Qin, Pingli;Fang, Guojia;Sun, Nanhai;Fan, Xi;Zheng, Qiao;Chen, Fei;Wan, Jiawei;Zhao, Xingzhong;
2:192:5 Efficiency improvement in organic solar cells by inserting a discotic liquid crystal
DOI:10.1016/j.solmat.2011.03.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:19 AU: Zheng, Qiao;Fang, Guojia;Bai, Weibin;Sun, Nanhai;Qin, Pingli;Fan, Xi;Cheng, Fei;Yuan, Longyan;Zhao, Xingzhong;
2:192:6 Effect of electric field on the spray deposited poly (3,4-ethylenedioxythiophene): poly(styrenesulfonate) layer and its use in organic solar cell
DOI:10.1063/1.4831662 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Chaturvedi, Neha;Alam, Firoz;Swami, Sanjay Kumar;Dutta, Viresh;
2:192:7 Columnar discotic Pt(II) metallomesogens as luminescence multifunctional materials with chemo and thermosensor abilities
DOI:10.1039/c4tc01666a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Cuerva, Cristian;Campo, Jose A.;Ovejero, Paloma;Rosario Torres, M.;Oliveira, Elisabete;Santos, Sergio M.;Lodeiro, Carlos;Cano, Mercedes;
2:192:8 A New Journal Sees the Light (and Other Forms of Energy)
DOI:10.1002/aenm.201000064 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:0 AU: Ottmar, Martin;
2:192:9 Patterning quality control of inkjet printed PEDOT:PSS films by wetting properties
DOI:10.1016/j.synthmet.2011.08.014 JN:SYNTHETIC METALS PY:2011 TC:13 AU: Ely, F.;Avellaneda, C. O.;Paredez, P.;Nogueira, V. C.;Santos, T. E. A.;Mammana, V. P.;Molina, C.;Brug, J.;Gibson, G.;Zhao, L.;
2:192:10 Advanced Energy Materials to Expand in 2011
DOI:10.1002/adma.201002821 JN:ADVANCED MATERIALS PY:2010 TC:1 AU: Ottmar, Martin;
2:192:11 Different Directions of Switching of Chromium Oxide Thin Films
DOI:10.1007/s11664-014-3193-3 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2014 TC:1 AU: Ngoc Kim Pham;Do Trung Nguyen;Bang Tam Thi Dao;Kieu Hanh Thi Ta;Vinh Cao Tran;Van Hieu Nguyen;Kim, Sang Sub;Maenosono, Shinya;Thang Bach Phan;
2:193:1 Charge-Transfer Magnetoelectrics of Polymeric Multiferroics
DOI:10.1021/nn500323j JN:ACS NANO PY:2014 TC:6 AU: Qin, Wei;Jasion, Daniel;Chen, Xiaomin;Wuttig, Manfred;Ren, Shenqiang;
2:193:2 Polar distortions in hydrogen-bonded organic ferroelectrics
DOI:10.1103/PhysRevB.84.014101 JN:PHYSICAL REVIEW B PY:2011 TC:15 AU: Stroppa, Alessandro;Di Sante, Domenico;Horiuchi, Sachio;Tokura, Yoshinori;Vanderbilt, David;Picozzi, Silvia;
2:193:3 Hydrogen-Bonding Molecular Chains for High-Temperature Ferroelectricity
DOI:10.1002/adma.201100359 JN:ADVANCED MATERIALS PY:2011 TC:32 AU: Horiuchi, Sachio;Kumai, Reiji;Tokura, Yoshinori;
2:193:4 Multiferroic Materials Based on Organic Transition-Metal Molecular Nanowires
DOI:10.1021/ja304199x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:7 AU: Wu, Menghao;Burton, J. D.;Tsymbal, Evgeny Y.;Zeng, Xiao Cheng;Jena, Puru;
2:193:5 Organic Exciton Multiferroics
DOI:10.1002/adma.201104250 JN:ADVANCED MATERIALS PY:2012 TC:12 AU: Ren, Shenqiang;Wuttig, Manfred;
2:193:6 Hydroxyl-decorated graphene systems as candidates for organic metal-free ferroelectrics, multiferroics, and high-performance proton battery cathode materials
DOI:10.1103/PhysRevB.87.081406 JN:PHYSICAL REVIEW B PY:2013 TC:3 AU: Wu, Menghao;Burton, J. D.;Tsymbal, Evgeny Y.;Zeng, Xiao Cheng;Jena, Puru;
2:193:7 High-temperature ferro-electricity in two-dimensional atomic crystal
DOI:10.1063/1.4829268 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Kan, Erjun;Wu, Fang;Deng, Kaiming;Tang, Weihua;
2:193:8 Ferroelectricity and Pressure-Induced Phenomena Driven by Neutral Ionic Valence Instability of Acid-Base Supramolecules
DOI:10.1021/ja208113p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:11 AU: Kumai, Reiji;Horiuchi, Sachio;Fujioka, Jun;Tokura, Yoshinori;
2:193:9 High-Temperature and Pressure-Induced Ferroelectricity in Hydrogen-Bonded Supramolecular Crystals of Anilic Acids and 2,3-Di(2-pyridinyl)pyrazine
DOI:10.1021/ja400318v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:12 AU: Horiuchi, Sachio;Kumai, Reiji;Tokura, Yoshinori;
2:193:10 Structure and energetics of a ferroelectric organic crystal of phenazine and chloranilic acid
DOI:10.1103/PhysRevB.86.104102 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Lee, Kyuho;Kolb, Brian;Thonhauser, T.;Vanderbilt, David;Langreth, David C.;
2:193:11 Fused azulenes as possible organic multiferroics
DOI:10.1103/PhysRevB.86.180403 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Thomas, Simil;Ramasesha, S.;Hallberg, Karen;Garcia, Daniel;
2:193:12 Proton transfer in surface-stabilized chiral motifs of croconic acid
DOI:10.1103/PhysRevB.87.041402 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Kunkel, Donna A.;Hooper, James;Simpson, Scott;Rojas, Geoffrey A.;Ducharme, Stephen;Usher, Timothy;Zurek, Eva;Enders, Axel;
2:193:13 All Conjugated Copolymer Excitonic Multiferroics
DOI:10.1002/adma.201204113 JN:ADVANCED MATERIALS PY:2013 TC:3 AU: Lohrman, Jessica;Liu, Yueying;Duan, Shaofeng;Zhao, Xiaoyong;Wuttig, Manfred;Ren, Shenqiang;
2:193:14 Molecular Photoconductor with Simultaneously Photocontrollable Localized Spins
DOI:10.1021/ja306260b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Naito, Toshio;Karasudani, Tomoaki;Mori, Shigeki;Ohara, Keishi;Konishi, Kensuke;Takano, Takahiro;Takahashi, Yukihiro;Inabe, Tamotsu;Nishihara, Sadafumi;Inoue, Katsuya;
2:193:15 Room-temperature organic ferromagnetism in the crystalline poly (3-hexylthiophene): Phenyl-C61-butyric acid methyl ester blend film
DOI:10.1016/j.polymer.2012.12.024 JN:POLYMER PY:2013 TC:3 AU: Yang, Bin;Xiao, Zhengguo;Yuan, Yongbo;Jayaraman, Tanjore V.;Shield, Jeffrey E.;Skomski, Ralph;Huang, Jinsong;
2:193:16 Domain-wall dynamics coupled to proton motion in a hydrogen-bonded organic ferroelectric
DOI:10.1103/PhysRevB.85.220101 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: Kagawa, Fumitaka;Hatahara, Kensuke;Horiuchi, Sachio;Tokura, Yoshinori;
2:193:17 Elastic properties of poly(vinyldene fluoride) (PVDF) crystals: A density functional theory study
DOI:10.1063/1.3574653 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Pei, Yong;Zeng, Xiao Cheng;
2:193:18 Giant magnetoresistance response by the pi-d interaction in an axially ligated phthalocyanine conductor with two-dimensional pi-pi stacking structure
DOI:10.1039/c0jm00161a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:4 AU: Ishikawa, Manabu;Asari, Takehiro;Matsuda, Masaki;Tajima, Hiroyuki;Hanasaki, Noriaki;Naito, Toshio;Inabe, Tamotsu;
2:193:19 Phonons, Instabilities and Origin of Polarization in KDP Crystals
DOI:10.1080/00150191003676918 JN:FERROELECTRICS PY:2010 TC:2 AU: Colizzi, G.;Kohanoff, J.;Lasave, J.;Migoni, R. L.;
2:194:1 Recent advances in flexible and stretchable electronic devices via electrospinning
DOI:10.1039/c3tc31680g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:13 AU: Sun, Bin;Long, Yun-Ze;Chen, Zhao-Jun;Liu, Shu-Liang;Zhang, Hong-Di;Zhang, Jun-Cheng;Han, Wen-Peng;
2:194:2 One-Dimensional Polyelectrolyte/Polymeric Semiconductor Core/Shell Structure: Sulfonated Poly(arylene ether ketone)/Polyaniline Nanofibers for Organic Field-Effect Transistors
DOI:10.1002/adma.201102125 JN:ADVANCED MATERIALS PY:2011 TC:14 AU: Wang, Wei;Lu, Xiaofeng;Li, Zhenyu;Lei, Junyu;Liu, Xincai;Wang, Zhaojie;Zhang, Hongnan;Wang, Ce;
2:194:3 Au-Doped Polyacrylonitrile-Polyaniline Core-Shell Electrospun Nanofibers Having High Field-Effect Mobilities
DOI:10.1002/smll.201001716 JN:SMALL PY:2011 TC:27 AU: Wang, Wei;Li, Zhenyu;Xu, Xiuru;Dong, Bo;Zhang, Hongnan;Wang, Zhaojie;Wang, Ce;Baughman, Ray H.;Fang, Shaoli;
2:194:4 Twisted microropes for stretchable devices based on electrospun conducting polymer fibers doped with ionic liquid
DOI:10.1039/c4tc01578a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Lin, Da-Peng;He, Hong-Wei;Huang, Yuan-Yuan;Han, Wen-Peng;Yu, Gui-Feng;Yan, Xu;Long, Yun-Ze;Xia, Lin-Hua;
2:194:5 Fabrication of a three-dimensional nanofibrous scaffold with lattice pores using direct-write electrospinning
DOI:10.1016/j.matlet.2012.11.124 JN:MATERIALS LETTERS PY:2013 TC:13 AU: Lee, Jongwan;Jang, Jinah;Oh, Hana;Jeong, Young Hun;Cho, Dong-Woo;
2:194:6 Thin and flexible bio-batteries made of electrospun cellulose-based membranes
DOI:10.1016/j.bios.2010.09.055 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:9 AU: Baptista, A. C.;Martins, J. I.;Fortunato, E.;Martins, R.;Borges, J. P.;Ferreira, I.;
2:194:7 Graded biomimetic osteochondral scaffold prepared via CO2 foaming and micronized NaCl leaching
DOI:10.1016/j.matlet.2012.05.072 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Salerno, A.;Iannace, S.;Netti, P. A.;
2:194:8 Sulfonated Poly(ether ether ketone)/Polypyrrole Core-Shell Nanofibers: A Novel Polymeric Adsorbent/Conducting Polymer Nanostructures for Ultrasensitive Gas Sensors
DOI:10.1021/am301712t JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Wang, Wei;Li, Zhenyu;Jiang, Tingting;Zhao, Zhiwei;Li, Ye;Wang, Zhaojie;Wang, Ce;
2:194:9 One-dimensional isomeric and hierarchical TiO2 nanostructures: novel air stable semiconducting building blocks
DOI:10.1039/c2tc00101b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Wang, Zhaojie;Li, Zhenyu;Xu, Xiuru;Jiang, Tingting;Zhang, Hongnan;Wang, Wei;Wang, Ce;
2:194:10 Fabrication and characterization of a biphasic scaffold for osteochondral tissue engineering
DOI:10.1016/j.matlet.2011.04.013 JN:MATERIALS LETTERS PY:2011 TC:2 AU: Bi, Long;Li, Dan;Liu, Jian;Hu, Yunyu;Yang, Peng;Yang, Bo;Yuan, Zhi;
2:194:11 Modification of cellulose acetate nanofibers with PVP/Ag addition
DOI:10.1016/j.mssp.2014.03.010 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:1 AU: Kendouli, S.;Khalfallah, O.;Sobti, N.;Bensouissi, A.;Avci, A.;Eskizeybek, V.;Achour, S.;
2:195:1 Optimization of thickness and morphology of active layer for high performance of bulk-heterojunction organic solar cells
DOI:10.1016/j.solmat.2010.02.041 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:60 AU: Nam, Young Min;Huh, June;Jo, Won Ho;
2:195:2 Driving vertical phase separation in a bulk-heterojunction by inserting a poly(3-hexylthiophene) layer for highly efficient organic solar cells
DOI:10.1063/1.3541648 JN:APPLIED PHYSICS LETTERS PY:2011 TC:29 AU: Oh, Jin Young;Jang, Woo Soon;Lee, Tae Il;Myoung, Jae-Min;Baik, Hong Koo;
2:195:3 Construction of Planar and Bulk Integrated Heterojunction Polymer Solar Cells Using Cross-Linkable D-A Copolymer
DOI:10.1021/am401263m JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Xu, Qi;Wang, Fuzhi;Qian, Deping;Tan, Zhan'ao;Li, Liangjie;Li, Shusheng;Tu, Xiaohe;Sun, Gang;Hou, Xuliang;Hou, Jianhui;Li, Yongfang;
2:195:4 Inverted indium-tin-oxide-free cone-shaped polymer solar cells for light trapping
DOI:10.1063/1.4720176 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Zhen, Hongyu;Li, Kan;Huang, Zhuoyin;Tang, Zheng;Wu, Rengmao;Li, Guolong;Liu, Xu;Zhang, Fengling;
2:195:5 Self-assembled mesogens modified fullerene for efficiently stable bulk heterojunction solar cells
DOI:10.1016/j.solmat.2011.08.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Wang, Peishan;Yao, Kai;Chen, Lie;Chen, Yiwang;Li, Fan;Wang, Hongming;Yu, Shuxian;
2:195:6 Thin-film encapsulation of inverted indium-tin-oxide-free polymer solar cells by atomic layer deposition with improvement on stability and efficiency
DOI:10.1063/1.4769355 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Li, Kan;Fan, Huanhuan;Huang, Chaofan;Hong, Xia;Fang, Xu;Li, Haifeng;Liu, Xu;Li, Chengshuai;Huang, Zhuoyin;Zhen, Hongyu;
2:195:7 Efficient organic optoelectronics with multilayer structures
DOI:10.1039/c1jm13373j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Kuo, Tsung-Hsien;Chen, Fang-Chung;Li, Juo-Hao;Huang, Annie Tzuyu;Huang, Jen-Hsien;Ho, Kuo-Chuan;Chu, Chih-Wei;
2:195:8 Effect of the vertical composition gradient of active layer on the performance of bulk-heterojunction organic photovoltaic cell
DOI:10.1063/1.3666061 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Nam, Young Min;Huh, June;Jo, Won Ho;
2:195:9 Understanding the role of thickness and morphology of the constituent layers on the performance of inverted organic solar cells
DOI:10.1016/j.solmat.2013.03.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:10 AU: Gupta, Shailendra Kumar;Sharma, Abhishek;Banerjee, Suman;Gahlot, Radha;Aggarwal, Nikhil;Deepak;Garg, Ashish;
2:195:10 The influence of the nematic phase on the phase separation of blended organic semiconductors for photovoltaics
DOI:10.1016/j.solmat.2013.05.006 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Myers, Steven A.;Al Kalifah, Manea S.;Lei, Chunghong;O'Neill, Mary;Kitney, Stuart P.;Kelly, Stephen M.;
2:195:11 Numerical model for planar heterojunction organic solar cells on the condition of short circuit
DOI:10.1016/j.mseb.2010.12.011 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:0 AU: Ma, Chaozhu;Peng, Yingquan;Xie, Hongwei;Wang, Runsheng;Li, Ronghua;Wang, Ying;Xie, Jipeng;Yang, Ting;
2:196:1 Influence of SnO2:F/ZnO:Al bi-layer as a front electrode on the properties of p-i-n amorphous silicon based thin film solar cells
DOI:10.1063/1.4807127 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Park, Hyeongsik;Lee, Jaehyeong;Kim, Heewon;Kim, Doyoung;Raja, Jayapal;Yi, Junsin;
2:196:2 Tungsten oxide as a buffer layer inserted at the SnO2/p-a-SiC interface of pin-type amorphous silicon based solar cells
DOI:10.1063/1.3427396 JN:APPLIED PHYSICS LETTERS PY:2010 TC:18 AU: Fang, Liang;Baik, Seung Jae;Lim, Koeng Su;Yoo, Seung Hyup;Seo, Myung Soo;Kang, Sang Jung;Seo, Jung Won;
2:196:3 Tunable work function of a WO(x) buffer layer for enhanced photocarrier collection of pin-type amorphous silicon solar cells
DOI:10.1063/1.3583576 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Fang, Liang;Baik, Seung Jae;Kim, Jeong Won;Kang, Sang Jung;Seo, Jung Won;Jeon, Jin-Wan;Kim, Yoon Hak;Lim, Koeng Su;
2:196:4 A buffer-layer/a-SiOx:H(p) window-layer optimization for thin film amorphous silicon based solar cells
DOI:10.1016/j.tsf.2013.06.064 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Park, Jinjoo;Dao, Vinh Ai;Shin, Chonghoon;Park, Hyeongsik;Kim, Minbum;Jung, Junhee;Kim, Doyoung;Yi, Junsin;
2:196:5 Transition metal oxide window layer in thin film amorphous silicon solar cells
DOI:10.1016/j.tsf.2014.01.037 JN:THIN SOLID FILMS PY:2014 TC:4 AU: Fang, Liang;Baik, Seung Jae;Lim, Koeng Su;
2:196:6 Drastic performance enhancement by using a WOx buffer before ZnO back reflector in amorphous silicon solar cells fabricated at 121 degrees C
DOI:10.1063/1.4824876 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Kang, Sang Jung;Jeon, Jin-Wan;Baik, Seung Jae;Lim, Koeng Su;
2:196:7 Extraction of carriers photogenerated at p type amorphous SiC window layer in amorphous Si solar cells
DOI:10.1063/1.3491164 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Baik, Seung Jae;Kang, Sang Jung;Lim, Koeng Su;
2:196:8 Towards a high efficiency amorphous silicon solar cell using molybdenum oxide as a window layer instead of conventional p-type amorphous silicon carbide
DOI:10.1063/1.3624591 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Park, Sang Il;Baik, Seung Jae;Im, Jong-San;Fang, Liang;Jeon, Jin-Wan;Lim, Koeng Su;
2:196:9 Nitrogen plasma treatment of fluorine-doped tin oxide for enhancement of photo-carrier collection in amorphous Si solar cells
DOI:10.1063/1.3572262 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Baik, Seung Jae;Lim, Koeng Su;
2:196:10 Effects of RF power and pressure on performance of HF-PECVD silicon thin-film solar cells
DOI:10.1016/j.tsf.2010.04.083 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Lien, Shui-Yang;Wang, Chao-Chun;Shen, Chau-Te;Ou, Yu-Chih;Cho, Yun-Shao;Weng, Ko-Wei;Chao, Ching-Hsun;Chen, Chia-Fu;Wuu, Dong-Sing;
2:196:11 Analysis on the interfacial properties of transparent conducting oxide and hydrogenated p-type amorphous silicon carbide layers in p-i-n amorphous silicon thin film solar cell structure
DOI:10.1016/j.tsf.2012.04.081 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Lee, Ji Eun;Park, Joo Hyung;Cho, Jun-Sik;Chung, Jin-Won;Song, Jinsoo;Kim, Donghwan;Lee, Jeong Chul;
2:196:12 A novel structured plastic substrate for light confinement in thin film silicon solar cells by a geometric optical effect
DOI:10.1016/j.jnoncrysol.2011.12.066 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:2 AU: de Jong, M. M.;Rath, J. K.;Schropp, R. E. I.;Sonneveld, P. J.;Swinkels, G. L. A. M.;Holterman, H. J.;Baggerman, J.;van Rijn, C. J. M.;Hamers, E. A. G.;
2:196:13 Effect of oxygen to argon flow ratio on the properties of Al-doped ZnO films for amorphous silicon thin film solar cell applications
DOI:10.1016/j.tsf.2012.07.070 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Lin, Yang-Shih;Lien, Shui-Yang;Huang, Yung-Chuan;Wang, Chao-Chun;Liu, Chueh-Yang;Nautiyal, Asheesh;Wuu, Dong-Sing;Lee, Shuo-Jun;
2:196:14 Influence of SnO2:F/ZnO:Al bi-layer as a front electrode on the properties of p-i-n amorphous silicon based thin film solar cells (vol 102, 191602, 2013)
DOI:10.1063/1.4819730 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Park, Hyeongsik;Lee, Jaehyeong;Kim, Heewon;Kim, Doyoung;Raja, Jayapal;Yi, Junsin;
2:196:15 Observation of band structure on amorphous silicon surface and performance of solar cells with controlled band offsets on hetero-junctions
DOI:10.1016/j.jnoncrysol.2012.01.017 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Miyanishi, Shintaro;Koh, Hideki;Takaba, Yoshiro;Miyamoto, Ryoji;Gorai, Atsushi;Matsubara, Hiroshi;Hara, Junichi;Saito, Masaru;Ishii, Tatsuya;Machida, Tomohiro;
2:196:16 Properties of double-layered Ga-doped Al-zinc-oxide/titanium-doped indium-tin-oxide thin films prepared by dc magnetron sputtering applied for Si-based thin film solar cells
DOI:10.1116/1.3651099 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2011 TC:0 AU: Wang, Chao-Chun;Wuu, Dong-Sing;Lin, Yang-Shih;Lien, Shui-Yang;Huang, Yung-Chuan;Liu, Chueh-Yang;Chen, Chia-Fu;Nautiyal, Asheesh;Lee, Shuo-Jen;
2:196:17 The role of buffer layer between TCO and p-layer in improving series resistance and carrier recombination of a-Si:H solar cells
DOI:10.1016/j.materresbull.2012.04.102 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:1 AU: Yoon, Kichan;Shin, Chonghoon;Lee, Youn-Jung;Kim, Youngkuk;Park, Hyeongsik;Baek, Seungsin;Yi, Junsin;
2:196:18 Chemical activity of oxygen atoms in the magnetron sputter-deposited ZnO films
DOI:10.1016/j.tsf.2010.11.055 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Morita, Aya;Watanabe, Ikuo;Shirai, Hajime;
2:197:1 Imaging the Carrier Photogeneration in Nanoscale Phase Segregated Organic Heterojunctions by Kelvin Probe Force Microscopy
DOI:10.1021/nl101001d JN:NANO LETTERS PY:2010 TC:69 AU: Spadafora, Evan J.;Demadrille, Renaud;Ratier, Bernard;Grevin, Benjamin;
2:197:2 Nanoscale control of the network morphology of high efficiency polymer fullerene solar cells by the use of high material concentration in the liquid phase
DOI:10.1088/0957-4484/21/3/035201 JN:NANOTECHNOLOGY PY:2010 TC:16 AU: Radbeh, R.;Parbaile, E.;Boucle, J.;Di Bin, C.;Moliton, A.;Coudert, V.;Rossignol, F.;Ratier, B.;
2:197:3 Nanoscale surface photovoltage of organic semiconductors with two pass Kelvin probe microscopy
DOI:10.1088/0957-4484/22/37/375704 JN:NANOTECHNOLOGY PY:2011 TC:4 AU: Escasain, E.;Lopez-Elvira, E.;Baro, A. M.;Colchero, J.;Palacios-Lidon, E.;
2:197:4 Surface photovoltage characterization of organic photovoltaic devices
DOI:10.1063/1.4827104 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Lee, Yun-Ju;Wang, Jian;Hsu, Julia W. P.;
2:197:5 On the Photo-Induced Charge-Carrier Generation within Monolayers of Self-Assembled Organic Donor-Acceptor Dyads
DOI:10.1002/adma.201401221 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Fuchs, Franz;Linares, Mathieu;de Vet, Christiaan;Leclere, Philippe;Demadrille, Renaud;Grevin, Benjamin;
2:197:6 Thickness dependent absorption spectra in conjugated polymers: Morphology or interference?
DOI:10.1063/1.3294636 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Gaudin, Olivier P. M.;Samuel, Ifor D. W.;Amriou, Samia;Burn, Paul L.;
2:197:7 The effect of band gap alignment on the hole transport from semiconducting block copolymers to quantum dots
DOI:10.1039/c3tc00837a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: zur Borg, Lisa;Lee, Donggu;Lim, Jaehoon;Bae, Wan Ki;Park, Myeongjin;Lee, Seonghoon;Lee, Changhee;Char, Kookheon;Zentel, Rudolf;
2:197:8 Light-induced charge separation in a donor-chromophore-acceptor nanocomposite poly[TPA-Ru(tpy)(2)]@ZnO
DOI:10.1039/c2tc00535b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: zur Borg, Lisa;Domanski, Anna L.;Breivogel, Aaron;Buerger, Mareike;Berger, Ruediger;Heinze, Katja;Zentel, Rudolf;
2:197:9 Photobleaching of MEH-PPV thin films: Correlation between optical properties and the nanoscale surface photovoltage
DOI:10.1016/j.solmat.2013.05.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:2 AU: Palacios-Lidon, Elisa;Escasain, Elisa;Lopez-Elvira, Elena;Baro, Arturo M.;Colchero, Jaime;
2:197:10 Local contact potential difference of molecular self-assemblies investigated by Kelvin probe force microscopy
DOI:10.1063/1.3662850 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Spadafora, Evan J.;Linares, Mathieu;Yahya, Wan Zaireen Nisa;Lincker, Frederic;Demadrille, Renaud;Grevin, Benjamin;
2:197:11 Light Induced Charging of Polymer Functionalized Nanorods
DOI:10.1021/nl100741n JN:NANO LETTERS PY:2010 TC:16 AU: Zorn, Matthias;Weber, Stefan A. L.;Tahir, Muhammad Nawaz;Tremel, Wolfgang;Butt, Hans-Juergen;Berger, Ruediger;Zentel, Rudolf;
2:197:12 Highly confined, enhanced surface fluorescence imaging with two-dimensional silver nanoparticle sheets
DOI:10.1063/1.4869560 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Usukura, Eiji;Shinohara, Shuhei;Okamoto, Koichi;Lim, Jaehoon;Char, Kookheon;Tamada, Kaoru;
2:197:13 Kelvin probe force microscopy for characterizing doped semiconductors for future sensor applications in nano- and biotechnology
DOI:10.1016/j.apsusc.2013.04.080 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Schmidt, Heidemarie;Habicht, Stefan;Feste, Sebastian;Mueller, Anne-Dorothea;Schmidt, Oliver G.;
2:197:14 Submolecular-scale Investigations on metal-phthalocyanine monolayers by frequency modulation atomic force microscopy
DOI:10.1063/1.3284094 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Ichii, Takashi;Fukuma, Takeshi;Yoda, Tadashi;Kobayashi, Kei;Matsushige, Kazumi;Yamada, Hirofumi;
2:198:1 Poly (3,4-ethylenedioxythiophene) (PEDOT) and poly (3,4-ethylenedioxythiophene)-few walled carbon nanotube (PEDOT-FWCNT) nanocomposite based thin films for Schottky diode application
DOI:10.1016/j.matchemphys.2014.06.032 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:3 AU: Gupta, Bhavana;Mehta, Minisha;Melvin, Ambrose;Kamalakannan, R.;Dash, S.;Kamruddin, M.;Tyagi, A. K.;
2:198:2 Enhancement in performance of polycarbazole-graphene nanocomposite Schottky diode
DOI:10.1063/1.4860952 JN:AIP ADVANCES PY:2013 TC:5 AU: Pandey, Rajiv K.;Singh, Arun Kumar;Prakash, Rajiv;
2:198:3 Macroscopic self ordering of solution processible poly(3,3 '''-dialkylquaterthiophene) by floating film transfer method
DOI:10.1063/1.4817288 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Pandey, Rajiv K.;Takashima, Wataru;Nagamatsu, Shuichi;Dauendorffer, Arnaud;Kaneto, K.;Prakash, Rajiv;
2:198:4 Molecular self ordering and charge transport in layer by layer deposited poly (3,3 '''-dialkylquarterthiophene) films formed by Langmuir-Schaefer technique
DOI:10.1063/1.4894515 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Pandey, Rajiv K.;Singh, Arun Kumar;Upadhyay, C.;Prakash, Rajiv;
2:198:5 Tunable Charge Transport Using Supramolecular Self-Assembly of Nanostructured Crystalline Block Copolymers
DOI:10.1021/nn200647d JN:ACS NANO PY:2011 TC:18 AU: Huettner, Sven;Sommer, Michael;Hodgkiss, Justin;Kohn, Peter;Thurn-Albrecht, Thomas;Friend, Richard H.;Steiner, Ullrich;Thelakkat, Mukundan;
2:198:6 Conductivity enhancement of poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) films post-spincasting
DOI:10.1063/1.4768265 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:17 AU: Farah, Abdiaziz A.;Rutledge, Steven A.;Schaarschmidt, Antje;Lai, Roger;Freedman, Justin P.;Helmy, Amr S.;
2:198:7 One-pot synthesis of Polyindole-Au nanocomposite and its nanoscale electrical properties
DOI:10.1016/j.matlet.2011.06.036 JN:MATERIALS LETTERS PY:2011 TC:9 AU: Joshi, Leela;Prakash, Rajiv;
2:198:8 Controlled morphology of conducting polymers: Formation of nanorods and microspheres of polyindole
DOI:10.1016/j.matchemphys.2009.12.026 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:23 AU: Gupta, Bhavana;Chauhan, Dheeraj Singh;Prakash, Rajiv;
2:198:9 Chemical synthesis of poly(5-carboxyindole) and poly(5-carboxyindole)/carboxylated multiwall carbon nanotube nanocomposite
DOI:10.1016/j.tsf.2010.07.123 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Joshi, Leela;Gupta, Bhavana;Prakash, Rajiv;
2:198:10 Polyindole/carboxylated-multiwall carbon nanotube composites produced by in-situ and interfacial polymerization
DOI:10.1016/j.matchemphys.2012.04.026 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Joshi, Leela;Singh, Arun Kumar;Prakash, Rajiv;
2:198:11 Preparation and characterization of polyindole nanofibers by electrospinning method
DOI:10.1016/j.synthmet.2012.09.019 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Cai Zhijiang;Zhang Ruihan;Shi Xingjuan;
2:198:12 Synthesis of conducting poly(5-carboxyindole)/Au nanocomposite: Investigation of structural and nanoscale electrical properties
DOI:10.1016/j.tsf.2013.02.025 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Joshi, Leela;Prakash, Rajiv;
2:198:13 Carrier mobility enhancement in poly(3,4-ethylenedioxythiophene)-poly (styrenesulfonate) having undergone rapid thermal annealing
DOI:10.1063/1.4824104 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Rutledge, S. A.;Helmy, A. S.;
2:198:14 Polyacrylamide-metal nanocomposites: one-pot synthesis, antibacterial properties, and thermal stability
DOI:10.1007/s11051-013-1922-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:2 AU: Li, Cuiyan;Cai, Yanling;Zhu, Yihua;Ma, Mingguo;Zheng, Wei;Zhu, Jiefang;
2:198:15 Characterization of Fibrous Polymer Silver/Cobalt Nanocomposite with Enhanced Bactericide Activity
DOI:10.1021/la203239d JN:LANGMUIR PY:2012 TC:8 AU: Alonso, Amanda;Munoz-Berbel, Xavier;Vigues, Nuria;Macanas, Jorge;Munoz, Maria;Mas, Jordi;Muraviev, Dmitri N.;
2:198:16 Electronic properties of soluble functionalized polyaniline (polyanthranilic acid)-multiwalled carbon nanotube nanocomposites: Influence of synthesis methods
DOI:10.1016/j.synthmet.2010.12.031 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Singh, Arun Kumar;Joshi, Leela;Gupta, Bhavana;Kumar, Ashish;Prakash, Rajiv;
2:198:17 Tunable Schottky diodes fabricated from crossed electrospun SnO2/PEDOT-PSSA nanoribbons
DOI:10.1016/j.mseb.2012.03.032 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:3 AU: Carrasquillo, Katherine V.;Pinto, Nicholas J.;
2:198:18 Preparation of poly(Glycidyl methacrylate)-copper nanocomposite by in-situ suspension polymerization - A novel synthetic method
DOI:10.1016/j.matlet.2014.06.127 JN:MATERIALS LETTERS PY:2014 TC:0 AU: Safiullah, Mohammed S.;Wasi, Abdul K.;Basha, Anver K.;
2:198:19 Synthesis of of polyaniline/clay conducting nanocomposites
DOI:10.1016/j.synthmet.2013.09.022 JN:SYNTHETIC METALS PY:2013 TC:6 AU: Baldissera, A. F.;Souza, J. F.;Ferreira, C. A.;
2:199:1 Efficiency enhancement of inverted polymer solar cells by doping NaYF4:Yb3+, Er3+ nanocomposites in PCDTBT:PCBM active layer
DOI:10.1016/j.solmat.2014.01.038 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:9 AU: Guo, Wenbin;Zheng, Kezhi;Xie, Wenfa;Sun, Lu;Shen, Liang;Liu, Chunyu;He, Yeyuan;Zhang, Zhihui;
2:199:2 Up-conversion semiconducting MoO3:Yb/Er nanocomposites as buffer layer in organic solar cells
DOI:10.1016/j.solmat.2012.06.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:20 AU: Wang, Hai-Qiao;Stubhan, Tobias;Osvet, Andres;Litzov, Ivan;Brabec, Christoph J.;
2:199:3 Open-circuit voltage enhancement of inverted polymer bulk heterojunction solar cells by doping NaYF4 nanoparticles/PVP composites
DOI:10.1039/c2jm35513b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Meng, Fanxu;Liu, Shuang;Wang, Yongfan;Tao, Chen;Xu, Peng;Guo, Wenbin;Shen, Liang;Zhang, Xindong;Ruan, Shengping;
2:199:4 The light trapping enhancement of inverted polymer solar cells by introducing NaYE4 nanoparticles
DOI:10.1016/j.synthmet.2014.05.020 JN:SYNTHETIC METALS PY:2014 TC:4 AU: He, Yeyuan;Liu, Chunyu;Jiang, Huimin;Guo, Wenbin;Shen, Liang;Chen, Weiyou;
2:199:5 The role of Au nanorods in highly efficient inverted low bandgap polymer solar cells
DOI:10.1063/1.4903514 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: He, Yeyuan;Li, Zhiqi;Li, Jinfeng;Zhang, Xinyuan;Liu, Chunyu;Li, Hao;Shen, Liang;Guo, Wenbin;Ruan, Shengping;
2:199:6 The action mechanism of TiO2:NaYF4:Yb3+,Tm3+ cathode buffer layer in highly efficient inverted organic solar cells
DOI:10.1063/1.4892472 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Liu, Chunyu;Chen, Huan;Zhao, Dan;Shen, Liang;He, Yeyuan;Guo, Wenbin;Chen, Weiyou;
2:199:7 Increased photocurrent in bulk-heterojunction solar cells mediated by FeS2 nanocrystals
DOI:10.1016/j.solmat.2010.12.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:18 AU: Lin, C. W.;Wang, D. Y.;Wang, Y. T.;Chen, C. C.;Yang, Y. J.;Chen, Y. F.;
2:199:8 Improving charge transport property and energy transfer with carbon quantum dots in inverted polymer solar cells
DOI:10.1063/1.4893994 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Liu, Chunyu;Chang, Kaiwen;Guo, Wenbin;Li, Hao;Shen, Liang;Chen, Weiyou;Yan, Dawei;
2:200:1 High-Performance Metal-Free Solar Cells Using Stamp Transfer Printed Vapor Phase Polymerized Poly(3,4-Ethylenedioxythiophene) Top Anodes
DOI:10.1002/adfm.201101787 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:40 AU: Wang, Xiangjun;Ishwara, Thilini;Gong, Wei;Campoy-Quiles, Mariano;Nelson, Jenny;Bradley, Donal D. C.;
2:200:2 Balancing Light Absorptivity and Carrier Conductivity of Graphene Quantum Dots for High-Efficiency Bulk Heterojunction Solar Cells
DOI:10.1021/nn402606v JN:ACS NANO PY:2013 TC:33 AU: Kim, Jung Kyu;Park, Myung Jin;Kim, Sang Jin;Wang, Dong Hwan;Cho, Sung Pyo;Bae, Sukang;Park, Jong Hyeok;Hong, Byung Hee;
2:200:3 All-plastic solar cells with a high photovoltaic dynamic range
DOI:10.1039/c3ta15073a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:13 AU: Zhou, Yinhua;Khan, Talha M.;Shim, Jae Won;Dindar, Amir;Fuentes-Hernandez, Canek;Kippelen, Bernard;
2:200:4 Photovoltaic Devices with an Active Layer from a Stamping Transfer Technique: Single Layer Versus Double Layer
DOI:10.1021/la100164k JN:LANGMUIR PY:2010 TC:23 AU: Wang, Dong Hwan;Choi, Dae-Geun;Lee, Ki-Joong;Park, O. Ok;Park, Jong Hyeok;
2:200:5 Layer-by-Layer All-Transfer-Based Organic Solar Cells
DOI:10.1021/la400137g JN:LANGMUIR PY:2013 TC:7 AU: Kim, Jung Kyu;Kim, Wanjung;Wang, Dong Hwan;Lee, Haksoo;Cho, Sung M.;Choi, Dae-Geun;Park, Jong Hyeok;
2:200:6 Electrochemical deposition as a unique solution processing method for insoluble organic optoelectronic materials
DOI:10.1039/c4tc01134a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Allwright, Emily;Berg, Dominik M.;Djemour, Rabie;Steichen, Marc;Dale, Phillip J.;Robertson, Neil;
2:200:7 Facile synthesis of high-aspect-ratio PEDOT tube arrays with ultra hydrophilic properties
DOI:10.1016/j.synthmet.2012.12.011 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Zhao, Qiang;Sun, Yan;Wang, Guixin;Wu, Wei;Luo, Chunhui;Yan, Kangping;Lu, Houfang;
2:200:8 Flexible polymer solar cells prepared using hard stamps for the direct transfer printing of polymer blends with self-organized interfaces
DOI:10.1039/c1jm11336d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Chen, Fang-Chung;Chuang, Ming-Kai;Chien, Shang-Chieh;Fang, Jheng-Hao;Chu, Chih-Wei;
2:200:9 Selective Metal Transfer and its Application to Patterned Multicolor Organic Light-Emitting Diodes
DOI:10.1002/adma.201004556 JN:ADVANCED MATERIALS PY:2011 TC:2 AU: Lee, Dong-Hyun;Shin, Hyun-Chul;Chae, Heeyeop;Cho, Sung M.;
2:201:1 Electronic Properties of Pentacene versus Triisopropylsilylethynyl-Substituted Pentacene: Environment-Dependent Effects of the Silyl Substituent
DOI:10.1021/ja906917r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:32 AU: Griffith, Olga Lobanova;Anthony, John E.;Jones, Adolphus G.;Lichtenberger, Dennis L.;
2:201:2 Effects of channel widths, thicknesses of active layer on the electrical and photosensing properties of the 6,13-bis(triisopropylsilylethynyl) pentacene transistors by thermal evaporation method: Comparison study
DOI:10.1016/j.synthmet.2012.04.034 JN:SYNTHETIC METALS PY:2012 TC:15 AU: Yakuphanoglu, Fahrettin;Gunduz, Bayram;
2:201:3 Characterization and modeling of TIPS-pentacene-poly(3-hexyl) thiophene blend organic thin film transistor
DOI:10.1016/j.synthmet.2013.10.013 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Mansouri, S.;El Mir, L.;Al-Ghamdi, Ahmed A.;Al-Hartomy, Omar A.;Al Said, Said A. Farha;Yakuphanoglu, F.;
2:201:4 Controlling of photoresponse properties of pentacene thin film phototransistors by dielectric layer thickness and channel widths
DOI:10.1016/j.synthmet.2013.07.015 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Gunduz, B.;Al-Hartomy, Omar A.;Al Said, Said A. Farha;Al-Ghamdi, Ahmed A.;Yakuphanoglu, F.;
2:201:5 Modeling of mobility in organic thin-film transistor based octithiophene (8T)
DOI:10.1016/j.synthmet.2010.06.024 JN:SYNTHETIC METALS PY:2010 TC:16 AU: Mansouri, S.;Horowitz, G.;Bourguiga, R.;
2:201:6 Extracting parameters from current-voltage characteristics of pentacene field-effect transistor in saturation region
DOI:10.1016/j.synthmet.2012.04.003 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Yakuphanoglu, F.;Mansouri, S.;Bourguiga, R.;
2:201:7 Flexible pentacene organic field-effect phototransistor
DOI:10.1016/j.synthmet.2010.12.014 JN:SYNTHETIC METALS PY:2011 TC:13 AU: Yakuphanoglu, Fahrettin;Farooq, W. Aslam;
2:201:8 Polymer binder effects on the electrical characteristics of 6, 13-bis(triisopropylsilylethynyl)-pentacene thin-film transistors in different solvents
DOI:10.1016/j.tsf.2010.02.052 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Chung, Myung-Ho;Kwon, Jae-Hong;Oh, Tae-Yeon;Lee, Seung-Jun;Choi, Dong-Hoon;Ju, Byeong-Kwon;
2:201:9 The effect of SiO2 dielectric layer on ultraviolet detecting properties of pentacene thin film transistor
DOI:10.1016/j.synthmet.2010.11.008 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Yakuphanoglu, Fahrettin;Farooq, W. Aslam;
2:201:10 Substituent Effects on the Electronic Characteristics of Pentacene Derivatives for Organic Electronic Devices: Dioxolane-Substituted Pentacene Derivatives with Triisopropylsilylethynyl Functional Groups
DOI:10.1021/ja3056672 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:8 AU: Griffith, Olga Lobanova;Anthony, John E.;Jones, Adolphus G.;Shu, Ying;Lichtenberger, Dennis L.;
2:201:11 Giant phototransistor response in dithienyltetrathiafulvalene derivatives
DOI:10.1039/c3tc30089g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Kakinuma, Tomoyuki;Kojima, Hirotaka;Kawamoto, Tadashi;Mori, Takehiko;
2:201:12 Improved mobility of the copper phthalocyanine thin-film transistor
DOI:10.1016/j.synthmet.2010.05.013 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Yakuphanoglu, Fahrettin;Caglar, Mujdat;Caglar, Yasemin;Ilican, Saliha;
2:201:13 Threshold voltage control of 2,3 benzanthracene organic thin-film transistor by visible light for integration of transistors into electronic circuits
DOI:10.1016/j.synthmet.2010.10.033 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Yakuphanoglu, Fahrettin;Farooq, W. Aslam;
2:201:14 The overall device resistance in organic thin film transistor: Application to octithiophene (8T)
DOI:10.1016/j.synthmet.2011.12.003 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Mansouri, S.;Zorai, S.;Bourguiga, R.;
2:201:15 Enhancement of the hole mobility and concentration in pentacene by oxygen plasma treatment
DOI:10.1016/j.jnoncrysol.2010.09.035 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:3 AU: Lin, Chi-Shin;Lin, Yow-Jon;
2:201:16 Dynamic charge transport in pentacene and zinc oxide thin-film transistors: Dark and UV illumination conditions
DOI:10.1016/j.synthmet.2012.06.024 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Mansouri, S.;Bourguiga, R.;Al-Ghamdi, A. A.;Al-Hazmi, Faten;Al-Hartomy, Omar A.;El-Tantawy, Farid;Yakuphanoglu, F.;
2:201:17 Processing behaviors of thin-film pentacene and benzene-1,4-diboronic acid in supercritical carbon dioxide
DOI:10.1016/j.tsf.2011.08.015 JN:THIN SOLID FILMS PY:2011 TC:0 AU: Ngo, Truc T.;Keegan, James E.;George, Robert D.;
2:202:1 Collective Fluorescence Blinking in Linear J-Aggregates Assisted by Long-Distance Exciton Migration
DOI:10.1021/nl9036559 JN:NANO LETTERS PY:2010 TC:51 AU: Lin, Hongzhen;Camacho, Rafael;Tian, Yuxi;Kaiser, Theo E.;Wuerthner, Frank;Scheblykin, Ivan G.;
2:202:2 Self-Assembly of Light-Harvesting Crystalline Nanosheets in Aqueous Media
DOI:10.1021/nn400484y JN:ACS NANO PY:2013 TC:18 AU: Shahar, Chen;Baram, Jonathan;Tidhar, Yaron;Weissman, Haim;Cohen, Sidney R.;Pinkas, Iddo;Rybtchinski, Boris;
2:202:3 Excited State Kinetics in Crystalline Solids: Self-Quenching in Nanocrystals of 4,4 '-Disubstituted Benzophenone Triplets Occurs by a Reductive Quenching Mechanism
DOI:10.1021/ja204927s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:9 AU: Kuzmanich, Gregory;Simoncelli, Sabrina;Gard, Matthew N.;Spaenig, Fabian;Henderson, Bryana L.;Gudi, Dirk M.;Garcia-Garibay, Miguel A.;
2:202:4 Existence of continuous-wave threshold for organic semiconductor lasers
DOI:10.1103/PhysRevB.84.241301 JN:PHYSICAL REVIEW B PY:2011 TC:16 AU: Zhang, Yifan;Forrest, Stephen R.;
2:202:5 Efficient Persistent Room Temperature Phosphorescence in Organic Amorphous Materials under Ambient Conditions
DOI:10.1002/adfm.201203706 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:38 AU: Hirata, Shuzo;Totani, Kenro;Zhang, Junxiang;Yamashita, Takashi;Kaji, Hironori;Marder, Seth R.;Watanabe, Toshiyuki;Adachi, Chihaya;
2:202:6 Highly efficient, dual state emission from an organic semiconductor
DOI:10.1063/1.4819444 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Reineke, Sebastian;Seidler, Nico;Yost, Shane R.;Prins, Ferry;Tisdale, William A.;Baldo, Marc A.;
2:202:7 Forster-mediated spectral diffusion in disordered organic materials
DOI:10.1103/PhysRevB.85.094203 JN:PHYSICAL REVIEW B PY:2012 TC:9 AU: Fennel, Franziska;Lochbrunner, Stefan;
2:202:8 Tuning the Photophysical Properties of Metal-Free Room Temperature Organic Phosphors via Compositional Variations in Bromobenzaldehyde/Dibromobenzene Mixed Crystals
DOI:10.1021/cm503678r JN:CHEMISTRY OF MATERIALS PY:2014 TC:5 AU: Bolton, Onas;Lee, Dongwook;Jung, Jaehun;Kim, Jinsang;
2:202:9 Single Levy States-Disorder Induced Energy Funnels in Molecular Aggregates
DOI:10.1021/nl5021188 JN:NANO LETTERS PY:2014 TC:2 AU: Merdasa, Aboma;Jimenez, Angel J.;Camacho, Rafael;Meyer, Matthias;Wuerthner, Frank;Scheblykin, Ivan G.;
2:202:10 Green Emitting Photoproducts from Terrylene Diimide after Red Illumination
DOI:10.1021/ja407431w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:4 AU: Liao, Zhiyu;Hooley, Emma N.;Chen, Long;Stappert, Sebastian;Muellen, Klaus;Vosch, Tom;
2:202:11 Large reverse saturable absorption under weak continuous incoherent light
DOI:10.1038/NMAT4081 JN:NATURE MATERIALS PY:2014 TC:2 AU: Hirata, Shuzo;Totani, Kenro;Yamashita, Takashi;Adachi, Chihaya;Vacha, Martin;
2:202:12 Reduced lasing threshold from organic dye microcavities
DOI:10.1103/PhysRevB.90.035209 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Akselrod, G. M.;Young, E. R.;Stone, K. W.;Palatnik, A.;Bulovic, V.;Tischler, Y. R.;
2:202:13 Saturation of laser emission in a small mode volume organic microcavity
DOI:10.1063/1.3593188 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Brueckner, R.;Sudzius, M.;Froeb, H.;Lyssenko, V. G.;Leo, K.;
2:202:14 On photo-oxidation of single molecules
DOI:10.1016/j.optmat.2011.02.023 JN:OPTICAL MATERIALS PY:2011 TC:3 AU: Kozankiewicz, B.;Deperasinska, I.;Karpiuk, E.;Banasiewicz, M.;Makarewicz, A.;
2:203:1 Assembly and Fiber Formation of a Gemini-Type Hexathienocoronene Amphiphile for Electrical Conduction
DOI:10.1021/ja4062135 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:18 AU: Chen, Long;Mali, Kunal S.;Puniredd, Sreenivasa R.;Baumgarten, Martin;Parvez, Khaled;Pisula, Wojciech;De Feyter, Steven;Muellen, Klaus;
2:203:2 Nanorods versus Nanovesicles from Amphiphilic Dendrofullerenes
DOI:10.1021/ja206769a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:22 AU: Munoz, Antonio;Illescas, Beatriz M.;Sanchez-Navarro, Macarena;Rojo, Javier;Martin, Nazario;
2:203:3 Electron- or Hole-Transporting Nature Selected by Side-Chain-Directed pi-Stacking Geometry: Liquid Crystalline Fused Metalloporphyrin Dimers
DOI:10.1021/ja201272t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:37 AU: Sakurai, Tsuneaki;Tashiro, Kentaro;Honsho, Yoshihito;Saeki, Akinori;Seki, Shu;Osuka, Atsuhiro;Muranaka, Atsuya;Uchiyama, Masanobu;Kim, Jungeun;Ha, Sunyeo;Kato, Kenichi;Takata, Masaki;Aida, Takuzo;
2:203:4 Cholesteric and Nematic Liquid Crystalline Phase Behavior of Double-Stranded DNA Stabilized Single-Walled Carbon Nanotube Dispersions
DOI:10.1021/nn103225r JN:ACS NANO PY:2011 TC:28 AU: Ao, Geyou;Nepal, Dhriti;Aono, Michelle;Davis, Virginia A.;
2:203:5 Fused porphyrinoids as promising near-infrared absorbing dyes
DOI:10.1039/c3tc00932g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:33 AU: Mori, Hirotaka;Tanaka, Takayuki;Osuka, Atsuhiro;
2:203:6 Dispersion and magnetic field-induced alignment of functionalized carbon nanotubes in liquid crystals
DOI:10.1016/j.synthmet.2013.07.023 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Yoo, Hye Jin;Lee, Sun Young;You, Nam-Ho;Lee, Dong Su;Yeo, Hyeonuk;Choi, Yong Mun;Goh, Munju;Park, Jinwoo;Akagi, Kazuo;Cho, Jae Whan;
2:203:7 Octupole-like Supramolecular Aggregates of Conical Iron Fullerene Complexes into a Three-Dimensional Liquid Crystalline Lattice
DOI:10.1021/ja1073933 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:18 AU: Li, Chang-Zhi;Matsuo, Yutaka;Nakamura, Eiichi;
2:203:8 Preparation and Properties of Vesicles Made of Nonpolar/Polar/Nonpolar Fullerene Amphiphiles
DOI:10.1021/ja200498g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:21 AU: Homma, Tatsuya;Harano, Koji;Isobe, Hiroyuki;Nakamura, Eiichi;
2:203:9 Understanding the Role of H-Bonding in Aqueous Self-Assembly of Two Naphthalene Diimide (NDI)-Conjugated Amphiphiles
DOI:10.1021/la500089b JN:LANGMUIR PY:2014 TC:3 AU: Rajdev, Priya;Molla, Mijanur Rahaman;Ghosh, Suhrit;
2:203:10 Assembled Structures of Anion-Responsive pi-Systems Tunable by Alkyl/Perfluoroalkyl Segments in Peripheral Side Chains
DOI:10.1021/cm4011663 JN:CHEMISTRY OF MATERIALS PY:2013 TC:5 AU: Terashima, Yoshitaka;Sakurai, Tsuneaki;Bando, Yuya;Seki, Shu;Maeda, Hiromitsu;
2:203:11 Mobility of Long-Lived Fullerene Radical in Solid State and Nonlinear Temperature Dependence
DOI:10.1021/ja500340f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Abe, Yoko;Tanaka, Hideyuki;Guo, Yunlong;Matsuo, Yutaka;Nakamura, Eiichi;
2:203:12 Reaction of water-soluble fullerenes with O-2(center dot-) and other reactive radical species
DOI:10.1039/b917346n JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:4 AU: Kahnt, Axel;Guldi, Dirk M.;Brettreich, Michael;Hartnagel, Uwe;Hirsch, Andreas;
2:203:13 Synthesis of Thieno-Bridged Porphyrins: Changing the Antiaromatic Contribution by the Direction of the Thiophene Ring
DOI:10.1021/ja3082999 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Mitsushige, Yusuke;Yamaguchi, Shigeru;Lee, Byung Sun;Sung, Young Mo;Kuhri, Susanne;Schierl, Christoph A.;Guldi, Dirk M.;Kim, Dongho;Matsuo, Yutaka;
2:204:1 Photophysical properties of azaboradibenzo[6]helicene derivatives
DOI:10.1039/c3tc00040k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Si, Yanling;Yang, Guochun;
2:204:2 Helicene Quinones: Redox-Triggered Chiroptical Switching and Chiral Recognition of the Semiquinone Radical Anion Lithium Salt by Electron Nuclear Double Resonance Spectroscopy
DOI:10.1021/ja5069323 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Schweinfurth, David;Zalibera, Michal;Kathan, Michael;Shen, Chengshuo;Mazzolini, Marcella;Trapp, Nils;Crassous, Jeanne;Gescheidt, Georg;Diederich, Francois;
2:204:3 Helical Chiral 2-Aminopyridinium Ions: A New Class of Hydrogen Bond Donor Catalysts
DOI:10.1021/ja100539c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:67 AU: Takenaka, Norito;Chen, Jinshui;Captain, Burjor;Sarangthem, Robindro Singh;Chandrakumar, Appayee;
2:204:4 From Hetero- to Homochiral Bis(metallahelicene)s Based on a Pt-III-Pt-III Bonded Scaffold: Isomerization, Structure, and Chiroptical Properties
DOI:10.1021/ja200129y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:36 AU: Anger, Emmanuel;Rudolph, Mark;Shen, Chengshuo;Vanthuyne, Nicolas;Toupet, Loic;Roussel, Christian;Autschbach, Jochen;Crassous, Jeanne;Reau, Regis;
2:204:5 Intense Chiroptical Switching in a Dicationic Helicene-Like Derivative: Exploration of a Viologen-Type Redox Manifold of a Non-Racemic Helquat
DOI:10.1021/ja500220j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:8 AU: Pospisil, Lubomir;Bednarova, Lucie;Stepanek, Petr;Slavicek, Petr;Vavra, Jan;Hromadova, Magdalena;Dlouha, Helena;Tarabek, Jan;Teply, Filip;
2:204:6 Ruthenium-Vinylhelicenes: Remote Metal-Based Enhancement and Redox Switching of the Chiroptical Properties of a Helicene Core
DOI:10.1021/ja304424t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:30 AU: Anger, Emmanuel;Srebro, Monika;Vanthuyne, Nicolas;Toupet, Loic;Rigaut, Stephane;Roussel, Christian;Autschbach, Jochen;Crassous, Jeanne;Reau, Regis;
2:204:7 Redox-Switchable Resorcin[4]arene Cavitands: Molecular Grippers
DOI:10.1021/ja306473x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:27 AU: Pochorovski, Igor;Ebert, Marc-Olivier;Gisselbrecht, Jean-Paul;Boudon, Corinne;Schweizer, W. Bernd;Diederich, Francois;
2:204:8 Diquat Derivatives: Highly Active, Two-Dimensional Nonlinear Optical Chromophores with Potential Redox Switchability
DOI:10.1021/ja103289a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:41 AU: Coe, Benjamin J.;Fielden, John;Foxon, Simon P.;Harris, James A.;Helliwell, Madeleine;Brunschwig, Bruce S.;Asselberghs, Inge;Clays, Koen;Garin, Javier;Orduna, Jesus;
2:204:9 Radical Cation of Helical, Cross-Conjugated beta-Oligothiophene
DOI:10.1021/ja910076n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:28 AU: Zak, Jerzy K.;Miyasaka, Makoto;Rajca, Suchada;Lapkowski, Mieczyslaw;Rajca, Andrzej;
2:204:10 Chiroptical, linear, and second-order nonlinear optical properties of tetrathiafulvalenylallene: a multifunctional molecular material
DOI:10.1039/c2tc00413e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Si, Yanling;Yang, Guochun;Su, Zhongmin;
2:204:11 Nonlinear optical properties of dihydrobenzothiazolylidene and dihydroquinoinylidene compounds
DOI:10.1016/j.optmat.2013.10.006 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Li, Yuanzuo;Li, Jing;Su, Runzhou;Cui, Jingang;
2:204:12 Synthesis and characterization of efficient luminescent materials based on 2,1,3-benzothiadiazole with carbazole moieties
DOI:10.1016/j.synthmet.2011.01.020 JN:SYNTHETIC METALS PY:2011 TC:13 AU: Tao, Yun-Mei;Li, Hong-Yan;Xu, Qiu-Lei;Zhu, Yu-Cheng;Kang, Ling-Chen;Zheng, You-Xuan;Zuo, Jing-Lin;You, Xiao-Zeng;
2:204:13 Evaluation of Hydrogen-Bond Acceptors for Redox-Switchable Resorcin[4]arene Cavitands
DOI:10.1021/ja411429b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Pochorovski, Igor;Milic, Jovana;Kolarski, Dugan;Gropp, Cornelius;Schweizer, W. Bernd;Diederich, Francois;
2:204:14 3,12-Dimethoxy-7,8-dicyano-[5]helicene as a novel emissive material for organic light-emitting diode
DOI:10.1016/j.synthmet.2010.02.039 JN:SYNTHETIC METALS PY:2010 TC:24 AU: Sahasithiwat, Somboon;Mophuang, Tipwan;Menbangpung, Laongdao;Kamtonwong, Siriporn;Sooksimuang, Thanasat;
2:204:15 Spirooxazine-based multifunctional molecular switches with tunable photochromism and nonlinear optical response
DOI:10.1039/c3tc31131g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Sun, Haitao;Tian, Xiaohui;Autschbach, Jochen;Yuan, Yizhong;Sun, Jinyu;Liu, Xin;Chen, Chuan;Cao, Huijun;
2:204:16 Resonant Circular Dichroism of Chiral Metal-Organic Complex
DOI:10.1103/PhysRevLett.108.083001 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:12 AU: Catone, D.;Stener, M.;Decleva, P.;Contini, G.;Zema, N.;Prosperi, T.;Feyer, V.;Prince, K. C.;Turchini, S.;
2:204:17 Unprecedented Near-Infrared (NIR) Emission in Diplatinum(III) (d(7)-d(7)) Complexes at Room Temperature
DOI:10.1021/ja1002313 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:21 AU: Bennett, Martin A.;Bhargava, Suresh K.;Cheng, Eddie Chung-Chin;Lam, Wai Han;Lee, Terence Kwok-Ming;Priver, Steven H.;Wagler, Joerg;Willis, Anthony C.;Yam, Vivian Wing-Wah;
2:204:18 Synthesis, characterization and photoconductive properties of optically active methacrylic polymers bearing side-chain 9-phenylcarbazole moieties
DOI:10.1016/j.polymer.2009.11.054 JN:POLYMER PY:2010 TC:10 AU: Angiolini, Luigi;Giorgini, Loris;Li, Huawei;Golemme, Attilio;Mauriello, Francesco;Termine, Roberto;
2:205:1 Understanding resonant tunnel transport in non-identical and non-aligned clusters as applied to disordered carbon systems
DOI:10.1063/1.4898801 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Bhattacharyya, Somnath;Churochkin, Dmitry;
2:205:2 Theoretical model: Disorder and transport in amorphous nitrogenated carbon ribbons
DOI:10.1063/1.4804241 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Katkov, Mikhail V.;Bhattacharyya, Somnath;
2:205:3 Photocurrent Generation in Carbon Nitride and Carbon Nitride/Conjugated Polymer Composites
DOI:10.1021/am3009482 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: Byers, Joshua C.;Billon, Florence;Debiemme-Chouvy, Catherine;Deslouis, Claude;Pailleret, Alain;Semenikhin, Oleg A.;
2:205:4 Influence of disorder on localization and density of states in amorphous carbon nitride thin films systems rich in pi-bonded carbon atoms
DOI:10.1063/1.3462442 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Alibart, F.;Lejeune, M.;Drouhin, O. Durand;Zellama, K.;Benlahsen, M.;
2:205:5 First-principles simulation of cyanogen under high pressure: Formation of paracyanogen and an insulating carbon nitride solid
DOI:10.1103/PhysRevB.83.134111 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Khazaei, Mohammad;Tripathi, Madhvendra Nath;Kawazoe, Yoshiyuki;
2:205:6 Tunnel transport model in nitrogen doped disordered carbon superstructures
DOI:10.1063/1.4794020 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Katkov, Mikhail V.;McIntosh, Ross;Bhattacharyya, Somnath;
2:205:7 Tuning resonant transmission through geometrical configurations of impurity clusters
DOI:10.1063/1.4788702 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Churochkin, Dmitry;McIntosh, Ross;Bhattacharyya, Somnath;
2:205:8 Polymerization of cyanoacetylene under pressure: Formation of carbon nitride polymers and bulk structures
DOI:10.1103/PhysRevB.85.054101 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Khazaei, Mohammad;Liang, Yunye;Venkataramanan, Natarajan S.;Kawazoe, Yoshiyuki;
2:205:9 Enhanced tunnel transport in disordered carbon superlattice structures incorporated with nitrogen
DOI:10.1063/1.4729564 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Katkov, Mikhail V.;Bhattacharyya, Somnath;
2:205:10 Anisotropic weakly localized transport in nitrogen-doped ultrananocrystalline diamond films
DOI:10.1103/PhysRevB.82.184206 JN:PHYSICAL REVIEW B PY:2010 TC:6 AU: Shah, Kunjal V.;Churochkin, Dmitry;Chiguvare, Zivayi;Bhattacharyya, Somnath;
2:205:11 Plasmon-enhanced photoluminescence from bioconjugated gold nanoparticle and nanodiamond assembly
DOI:10.1063/1.3576852 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Liu, Y. L.;Sun, K. W.;
2:205:12 Formation of an Unusual Four-Membered Nitrogen Ring (Tetrazetidine) Radical Cation
DOI:10.1021/ja303019y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Camp, David;Campitelli, Marc;Hanson, Graeme R.;Jenkins, Ian D.;
2:205:13 The effect of the terminating bonds on the electronic properties of sputtered carbon nitride thin films
DOI:10.1016/j.tsf.2011.01.256 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Alibart, F.;Peponas, S.;Charvet, S.;Benlahsen, M.;
2:205:14 Microwave plasma-assisted photoluminescence enhancement in nitrogen-doped ultrananocrystalline diamond film
DOI:10.1063/1.4727743 JN:AIP ADVANCES PY:2012 TC:2 AU: Liu, Yu Lin;Sun, Kien Wen;Lin, Yi Jie;Fong, Shih-Chieh;Lin, I. Nan;Tai, Nyan Hwa;
2:205:15 Polarization dependent asymmetric magneto-resistance features in nanocrystalline diamond films
DOI:10.1063/1.4893662 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bhattacharyya, Somnath;Churochkin, Dmitry;
2:205:16 Theoretical insight into the structural, elastic and electronic properties of N4H4 compounds
DOI:10.1016/j.commatsci.2013.09.009 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:1 AU: Liu, Qi-Jun;Zhang, Ning-Chao;Wu, Jie;Sun, Yan-Yun;Zhang, Ming-Jian;Liu, Fu-Sheng;Wang, Hong-Yan;Liu, Zheng-Tang;
2:205:17 Hollow C3N4 nanoclusters from first principles
DOI:10.1103/PhysRevB.82.195405 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Roman-Perez, Guillermo;Zamora, Felix;Soler, Jose M.;
2:205:18 Humidity resistant hydrogenated carbon nitride films
DOI:10.1016/j.apsusc.2013.03.033 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Mikmekova, E.;Polcak, J.;Sobota, J.;Muellerova, I.;Perina, V.;Caha, O.;
2:205:19 Carbon nitride film deposition by active screen plasma nitriding
DOI:10.1016/j.matlet.2011.06.048 JN:MATERIALS LETTERS PY:2011 TC:1 AU: Crespi, Angela E.;Maia da Costa, Marcelo E. H.;Figueroa, Carlos A.;Dotto, Marta E. R.;Kauling, Alan P.;Soares, Gabriel V.;Baumvol, Israel J. R.;Giacomelli, Cristiano;
2:206:1 Interfaces in organic devices studied with resonant soft x-ray reflectivity
DOI:10.1063/1.3661991 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Yan, Hongping;Wang, Cheng;Garcia, Andres;Swaraj, Sufal;Gu, Ziran;McNeill, Christopher R.;Schuettfort, Torben;Sohn, Karen E.;Kramer, Edward J.;Bazan, Guillermo C.;Thuc-Quyen Nguyen;Ade, Harald;
2:206:2 Molecular orientation in soft matter thin films studied by resonant soft x-ray reflectivity
DOI:10.1103/PhysRevB.83.155406 JN:PHYSICAL REVIEW B PY:2011 TC:17 AU: Mezger, Markus;Jerome, Blandine;Kortright, Jeffrey B.;Valvidares, Manuel;Gullikson, Eric M.;Giglia, Angelo;Mahne, Nicola;Nannarone, Stefano;
2:206:3 Chemical selective microstructural analysis of thin film using resonant x-ray reflectivity
DOI:10.1063/1.4812245 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Nayak, Maheswar;Lodha, G. S.;
2:206:4 Kramers-Kronig constrained modeling of soft x-ray reflectivity spectra: Obtaining depth resolution of electronic and chemical structure
DOI:10.1103/PhysRevB.86.024102 JN:PHYSICAL REVIEW B PY:2012 TC:9 AU: Stone, Kevin H.;Manuel Valvidares, S.;Kortright, Jeffrey B.;
2:206:5 Structural and electronic properties of anisotropic ultrathin organic films from dichroic resonant soft x-ray reflectivity
DOI:10.1103/PhysRevB.89.045401 JN:PHYSICAL REVIEW B PY:2014 TC:1 AU: Pasquali, Luca;Mukherjee, Subhrangsu;Terzi, Fabio;Giglia, Angelo;Mahne, Nicola;Koshmak, Konstantin;Esaulov, Vladimir;Toccafondi, Chiara;Canepa, Maurizio;Nannarone, Stefano;
2:206:6 Molecular anisotropy effects in carbon K-edge scattering: Depolarized diffuse scattering and optical anisotropy
DOI:10.1103/PhysRevB.90.104201 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Stone, Kevin H.;Kortright, Jeffrey B.;
2:206:7 Accurate and Facile Determination of the Index of Refraction of Organic Thin Films Near the Carbon 1s Absorption Edge
DOI:10.1103/PhysRevLett.110.177401 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:5 AU: Yan, Hongping;Wang, Cheng;McCarn, Allison R.;Ade, Harald;
2:206:8 Native SrTiO3 (001) surface layer from resonant Ti L-2,L-3 reflectance spectroscopy
DOI:10.1103/PhysRevB.82.235410 JN:PHYSICAL REVIEW B PY:2010 TC:10 AU: Valvidares, S. M.;Huijben, M.;Yu, P.;Ramesh, R.;Kortright, J. B.;
2:206:9 Growth kinetics and compositional analysis of silicon rich a-SiNx : H film: A soft x-ray reflectivity study
DOI:10.1063/1.3497284 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Singh, Sarab Preet;Modi, Mohammed H.;Srivastava, P.;
2:206:10 Understanding molecular interactions in light-emitting polymer bilayers: The role of solvents and molecular structure on the interface quality
DOI:10.1063/1.4873118 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: de Pauli, M.;Santos, P. L.;Costa, B. B. A.;Magalhaes-Paniago, R.;Cury, L. A.;Malachias, A.;
2:206:11 Study of growth kinetics and depth resolved composition of a-SiNx: H thin films by resonant soft X-ray reflectivity at the Si L-2,L-3-edge
DOI:10.1016/j.apsusc.2014.03.033 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Bommali, R. K.;Modi, M. H.;Zhou, S.;Ghosh, S.;Srivastava, P.;
2:206:12 Probing porosity at buried interfaces using soft x-ray resonant reflectivity
DOI:10.1063/1.3295915 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Nayak, Maheswar;Lodha, G. S.;Prasad, T. T.;Nageswararao, P.;Sinha, A. K.;
2:207:1 Improvement in carrier mobility and photovoltaic performance through random distribution of segments of linear and branched side chains
DOI:10.1039/c0jm01482f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:27 AU: Egbe, Daniel A. M.;Adam, Getachew;Pivrikas, Almantas;Ramil, Alberto M.;Birckner, Eckhard;Cimrova, Vera;Hoppe, Harald;Sariciftci, Niyazi Serdar;
2:207:2 What controls triplet exciton transfer in organic semiconductors?
DOI:10.1039/c0jm02886j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Koehler, Anna;Baessler, Heinz;
2:207:3 Unified description for hopping transport in organic semiconductors including both energetic disorder and polaronic contributions
DOI:10.1103/PhysRevB.88.125202 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Fishchuk, I. I.;Kadashchuk, A.;Hoffmann, S. T.;Athanasopoulos, S.;Genoe, J.;Baessler, H.;Koehler, A.;
2:207:4 Triplet energy transfer in conjugated polymers. III. An experimental assessment regarding the influence of disorder on polaronic transport
DOI:10.1103/PhysRevB.81.165208 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Hoffmann, Sebastian T.;Scheler, Esther;Koenen, Jan-Moritz;Forster, Michael;Scherf, Ullrich;Strohriegl, Peter;Baessler, Heinz;Koehler, Anna;
2:207:5 How Do Disorder, Reorganization, and Localization Influence the Hole Mobility in Conjugated Copolymers?
DOI:10.1021/ja308820j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:12 AU: Hoffmann, Sebastian T.;Jaiser, Frank;Hayer, Anna;Baessler, Heinz;Unger, Thomas;Athanasopoulos, Stavros;Neher, Dieter;Koehler, Anna;
2:207:6 Spectral diffusion in poly(para-phenylene)-type polymers with different energetic disorder
DOI:10.1103/PhysRevB.81.115103 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Hoffmann, Sebastian T.;Baessler, Heinz;Koenen, Jan-Moritz;Forster, Michael;Scherf, Ullrich;Scheler, Esther;Strohriegl, Peter;Koehler, Anna;
2:207:7 Franck-Condon processes in pentacene monolayers revealed in resonance Raman scattering
DOI:10.1103/PhysRevB.83.115452 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: He, Rui;Tassi, Nancy G.;Blanchet, Graciela B.;Pinczuk, Aron;
2:207:8 Franck-Condon analysis of the photoluminescence spectra of a triple-bond containing polymer as a solution and as a thin film
DOI:10.1016/j.synthmet.2013.09.030 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Saidani, M. A.;Benfredj, A.;Ben Hamed, Z.;Romdhane, S.;Ulbricht, C.;Egbe, D. A. M.;Bouchriha, H.;
2:207:9 Role of intermolecular coupling and electron-nuclear coupling in the photophysics of oligothiophenes
DOI:10.1103/PhysRevB.86.165315 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Saidani, M. A.;Benfredj, A.;Romdhane, S.;Kouki, F.;Bouchriha, H.;
2:207:10 Electron and hole transport in an anthracene-based conjugated polymer
DOI:10.1063/1.4742738 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Camaioni, Nadia;Tinti, Francesca;Degli Esposti, Alessandra;Righi, Sara;Usluer, Oezlem;Boudiba, Sameh;Egbe, Daniel A. M.;
2:207:11 Negative Polaron and Triplet Exciton Diffusion in Organometallic "Molecular Wires"
DOI:10.1021/ja202898p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:29 AU: Keller, Julia M.;Glusac, Ksenija D.;Danilov, Evgeny O.;McIlroy, Sean;Sreearuothai, Paiboon;Cook, Andrew R.;Jiang, Hui;Miller, John R.;Schanze, Kirk S.;
2:207:12 ORGANIC SEMICONDUCTORS No more breaks for electrons
DOI:10.1038/nmat3427 JN:NATURE MATERIALS PY:2012 TC:6 AU: Koehler, Anna;
2:208:1 Thermionic Emission and Tunneling at Carbon Nanotube-Organic Semiconductor Interface
DOI:10.1021/nn300544v JN:ACS NANO PY:2012 TC:22 AU: Sarker, Biddut K.;Khondaker, Saiful I.;
2:208:2 Fabrication of Organic Field Effect Transistor by Directly Grown Poly(3 Hexylthiophene) Crystalline Nanowires on Carbon Nanotube Aligned Array Electrode
DOI:10.1021/am200013y JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:21 AU: Sarker, Biddut K.;Liu, Jianhua;Zhai, Lei;Khondaker, Saiful I.;
2:208:3 Driving High-Performance n- and p-type Organic Transistors with Carbon Nanotube/Conjugated Polymer Composite Electrodes Patterned Directly from Solution
DOI:10.1002/adma.201001435 JN:ADVANCED MATERIALS PY:2010 TC:20 AU: Hellstrom, Sondra L.;Jin, Run Zhi;Stoltenberg, Randall M.;Bao, Zhenan;
2:208:4 The effect of carbon nanotube/organic semiconductor interfacial area on the performance of organic transistors
DOI:10.1063/1.4769439 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Kang, Narae;Sarker, Biddut K.;Khondaker, Saiful I.;
2:208:5 Single-Walled Carbon Nanotubes/Polymer Composite Electrodes Patterned Directly from Solution
DOI:10.1021/la2009573 JN:LANGMUIR PY:2011 TC:6 AU: Chang, Jingbo;Najeeb, Choolakadavil Khalid;Lee, Jae-Hyeok;Kim, Jae-Ho;
2:208:6 Microcontact Printing for Patterning Carbon Nanotube/Polymer Composite Films with Electrical Conductivity
DOI:10.1021/am3012214 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:6 AU: Ogihara, Hitoshi;Kibayashi, Hiro;Saji, Tetsuo;
2:208:7 Composite inks of poly(3,4-ethylenedioxythiophene)/poly(styrenesulfonate)/silver nanoparticles and electric/optical properties of inkjet-printed thin films
DOI:10.1016/j.matchemphys.2013.05.035 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:3 AU: Xiong, Zhaoting;Dong, Chunfa;Cai, Hao;Liu, Changqing;Zhang, Xianglin;
2:208:8 High-performance short channel organic transistors using densely aligned carbon nanotube array electrodes
DOI:10.1063/1.3675639 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Sarker, Biddut K.;Khondaker, Saiful I.;
2:208:9 Development of highly flexible and ultra-low permeation rate thin-film barrier structure for organic electronics
DOI:10.1016/j.tsf.2013.05.007 JN:THIN SOLID FILMS PY:2013 TC:8 AU: Kim, Namsu;Graham, Samuel;
2:208:10 Fabrication of Organic Field-Effect Transistor by Directly Grown Poly(3-Hexylthiophene) Crystalline Nanowires on Carbon Nanotube Aligned Array Electrode (vol 3, pg 1180, 2011)
DOI:10.1021/am200438j JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:0 AU: Sarker, Biddut K.;Liu, Jianhua;Zhai, Lei;Khondaker, Saiful I.;
2:208:11 The layers of carbon nanomaterials as the base of ohmic contacts to p-GaN
DOI:10.1016/j.apsusc.2014.05.156 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Liday, Jozef;Vogrincic, Peter;Vretenar, Viliam;Kotlar, Mario;Marton, Marian;Vavra, Ivo;Hotovy, Ivan;Breza, Juraj;Rehacek, Vlastimil;
2:209:1 An All-Printed Ferroelectric Active Matrix Sensor Network Based on Only Five Functional Materials Forming a Touchless Control Interface
DOI:10.1002/adma.201100054 JN:ADVANCED MATERIALS PY:2011 TC:52 AU: Zirkl, Martin;Sawatdee, Anurak;Helbig, Uta;Krause, Markus;Scheipl, Gregor;Kraker, Elke;Ersman, Peter Andersson;Nilsson, David;Platt, Duncan;Bodo, Peter;Bauer, Siegfried;Domann, Gerhard;Stadlober, Barbara;
2:209:2 Mechanically Durable and Highly Conductive Elastomeric Composites from Long Single-Walled Carbon Nanotubes Mimicking the Chain Structure of Polymers
DOI:10.1021/nl204221y JN:NANO LETTERS PY:2012 TC:30 AU: Ata, Seisuke;Kobashi, Kazufumi;Yumura, Motoo;Hata, Kenji;
2:209:3 Solution-deposited PEDOT for transparent conductive applications
DOI:10.1557/mrs.2011.232 JN:MRS BULLETIN PY:2011 TC:24 AU: Elschner, Andreas;Loevenich, Wilfried;
2:209:4 Solution-processible electrode materials for a heat-sensitive piezoelectric thin-film sensor
DOI:10.1016/j.synthmet.2012.08.021 JN:SYNTHETIC METALS PY:2012 TC:12 AU: Tuukkanen, Sampo;Julin, Tuomas;Rantanen, Ville;Zakrzewski, Mari;Moilanen, Pasi;Lilja, Kaisa E.;Rajala, Satu;
2:209:5 Stretching of solution processed carbon nanotube and graphene nanocomposite films on rubber substrates
DOI:10.1016/j.synthmet.2014.02.014 JN:SYNTHETIC METALS PY:2014 TC:5 AU: Tuukkanen, Sampo;Hoikkanen, Maija;Poikelispaa, Minna;Honkanen, Mari;Vuorinen, Tiina;Kakkonen, Markus;Vuorinen, Jyrki;Lupo, Donald;
2:209:6 Printable, Transparent, and Flexible Touch Panels Working in Sunlight and Moist Environments
DOI:10.1002/adfm.201401140 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Vuorinen, Tiina;Zakrzewski, Mari;Rajala, Satu;Lupo, Donald;Vanhala, Jukka;Palovuori, Karri;Tuukkanen, Sampo;
2:209:7 Direct electrostatic toner marking with poly(3,4-ethylenedioxythiophene) polystyrenesulfonate bilayer devices
DOI:10.1063/1.4756041 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Kanungo, Mandakini;Law, Kock-Yee;Zhang, Yuanjia;
2:209:8 Scalable, solvent-less de-bundling of single-wall carbon nanotube into elastomers for high conductive functionality
DOI:10.1016/j.polymer.2014.08.014 JN:POLYMER PY:2014 TC:0 AU: Ata, Seisuke;Yoon, Howon;Subramaniam, Chandramouli;Mizuno, Takaaki;Nishizawa, Ayumi;Hata, Kenji;
2:209:9 High electrical performance of carbon nanotubes/rubber composites with low percolation threshold prepared with a rotation-revolution mixing technique
DOI:10.1016/j.compscitech.2011.03.015 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:14 AU: Tsuchiya, Koji;Sakai, Ayumu;Nagaoka, Tomoya;Uchida, Katsumi;Furukawa, Takeo;Yajima, Hirofumi;
2:209:10 Ultrasonic properties of all-printed piezoelectric polymer transducers
DOI:10.1063/1.4857795 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Wagle, Sanat;Decharat, Adit;Bodo, Peter;Melandso, Frank;
2:209:11 Effects of Compression and Filler Particle Coating on the Electrical Conductivity of Thermoplastic Elastomer Composites
DOI:10.1007/s11664-013-2689-6 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:0 AU: Albers, Willem M.;Karttunen, Mikko;Wikstrom, Lisa;Vilkman, Taisto;
2:210:1 Molecular and Supramolecular Control of the Work Function of an Inorganic Electrode with Self-Assembled Monolayer of Umbrella-Shaped Fullerene Derivatives
DOI:10.1021/ja2067675 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:20 AU: Lacher, Sebastian;Matsuo, Yutaka;Nakamura, Eiichi;
2:210:2 Molecular Photoelectric Switch Using a Mixed SAM of Organic [60]Fullerene and [70]Fullerene Doped with a Single Iron Atom
DOI:10.1021/ja203224d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:28 AU: Matsuo, Yutaka;Ichiki, Takahiko;Nakamura, Eiichi;
2:210:3 Simple Formation of C-60 and C-60-Ferrocene Conjugated Monolayers Anchored onto Silicon Oxide with Five Carboxylic Acids and Their Transistor Applications
DOI:10.1021/cm1025975 JN:CHEMISTRY OF MATERIALS PY:2011 TC:13 AU: Itoh, Yoshimitsu;Kim, Bumjung;Gearba, Raluca I.;Tremblay, Noah J.;Pindak, Ron;Matsuo, Yutaka;Nakamura, Eiichi;Nuckolls, Colin;
2:210:4 Cobalt-Catalyzed Hydroalkylation of [60]Fullerene with Active Alkyl Bromides: Selective Synthesis of Monoalkylated Fullerenes
DOI:10.1021/ja204982w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:27 AU: Lu, Shirong;Jin, Tienan;Bao, Ming;Yamamoto, Yoshinori;
2:210:5 Direct Probing of the Structure and Electron Transfer of Fullerene/Ferrocene Hybrid on Au(111) Electrodes by in Situ Electrochemical STM
DOI:10.1021/ja411813r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Chen, Ting;Wang, Dong;Gan, Li-Hua;Matsuo, Yutaka;Gu, Jing-Ying;Yan, Hui-Juan;Nakamura, Eiichi;Wan, Li-Jun;
2:210:6 Synthesis of Tetradeca- and Pentadeca(organo)[60]fullerenes Containing Unique Photo- and Electroluminescent pi-Conjugated Systems
DOI:10.1021/cm3024296 JN:CHEMISTRY OF MATERIALS PY:2012 TC:5 AU: Fujita, Takeshi;Matsuo, Yutaka;Nakamura, Eiichi;
2:210:7 Nonlinear Optical Molecular Switches as Selective Cation Sensors
DOI:10.1021/ja302395f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:58 AU: Champagne, Benoit;Plaquet, Aurelie;Pozzo, Jean-Luc;Rodriguez, Vincent;Castet, Frederic;
2:210:8 Intra- and Intermolecular Charge Transfer in Aggregates of Tetrathiafulvalene-Triphenylmethyl Radical Derivatives in Solution
DOI:10.1021/ja400281b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:10 AU: Guasch, Judith;Grisanti, Luca;Souto, Manuel;Lloveras, Vega;Vidal-Gancedo, Jose;Ratera, Imma;Painelli, Anna;Rovira, Concepcio;Veciana, Jaume;
2:210:9 Probing Lateral Charge Transport in Single Molecule Layers: How Charge is Transported Over Long Distances in Fullerene Self-Assembled Monolayers
DOI:10.1002/smll.201300502 JN:SMALL PY:2014 TC:3 AU: Dubacheva, Galina V.;Devynck, Melanie;Raffy, Guillaume;Hirsch, Lionel;Del Guerzo, Andre;Bassani, Dario M.;
2:210:10 Loading Pentapod Deca(organo)[60]fullerenes with Electron Donors: From Photophysics to Photoelectrochemical Bilayers
DOI:10.1021/ja909970h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:16 AU: Matsuo, Yutaka;Ichiki, Takahiko;Radhakrishnan, Shankara Gayathri;Guldi, Dirk M.;Nakamura, Eiichi;
2:210:11 A new class of "electro-acid/base"-induced reversible methyl ketone colour switches
DOI:10.1039/c3tc30769g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Zhang, Yu-Mo;Li, Minjie;Li, Wen;Huang, Zhiyuan;Zhu, Shaoyin;Yang, Bing;Wang, Xiao-Chun;Zhang, Sean Xiao-An;
2:210:12 Isolation of Planar Four-Membered Aromatic Systems by Using Confined Spaces of Cobalt Pentaaryl[60]fullerene Complexes
DOI:10.1021/ja111474v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:14 AU: Maruyama, Masashi;Guo, Jing-Dong;Nagase, Shigeru;Nakamura, Eiichi;Matsuo, Yutaka;
2:210:13 Design and Synthesis of New Stable Fluorenyl-Based Radicals
DOI:10.1021/ja507005c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Tian, Yi;Uchida, Kazuyuki;Kurata, Hiroyuki;Hirao, Yasukazu;Nishiuchi, Tomohiko;Kubo, Takashi;
2:210:14 Synthesis and electrical properties of fullerene-based molecular junctions on silicon substrate
DOI:10.1039/b924255d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:8 AU: Guerin, D.;Lenfant, S.;Godey, S.;Vuillaume, D.;
2:210:15 C-60 dimers connected through pleiadene bridges: fullerenes talking to each other
DOI:10.1039/c0jm02635b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Sastre-Santos, Angela;Parejo, Concepcion;Martin-Gomis, Luis;Ohkubo, Kei;Fernandez-Lazaro, Fernando;Fukuzumi, Shunichi;
2:210:16 Functionalized Fullerenes in Self-Assembled Monolayers
DOI:10.1021/la200654n JN:LANGMUIR PY:2011 TC:11 AU: Gimenez-Lopez, Maria del Carmen;Raeisaenen, Minna T.;Chamberlain, Thomas W.;Weber, Uli;Lebedeva, Maria;Rance, Graham A.;Briggs, G. Andrew D.;Pettifor, David;Burlakov, Victor;Buck, Manfred;Khlobystov, Andrei N.;
2:211:1 Flexible integrated photonics: where materials, mechanics and optics meet [Invited]
DOI:10.1364/OME.3.001313 JN:OPTICAL MATERIALS EXPRESS PY:2013 TC:21 AU: Hu, Juejun;Li, Lan;Lin, Hongtao;Zhang, Ping;Zhou, Weidong;Ma, Zhenqiang;
2:211:2 Direct Writing of Metal Nanoparticles by Localized Plasma Electrochemical Reduction of Metal Cations in Polymer Films
DOI:10.1002/adfm.201100093 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:26 AU: Lee, Seung Whan;Liang, Dong;Gao, Xuan P. A.;Sankaran, R. Mohan;
2:211:3 Nonplanar Conductive Surfaces via "Bottom-Up" Nanostructured Gold Coating
DOI:10.1021/am4053656 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Vinod, T. P.;Jelinek, Raz;
2:211:4 Stretchable Photonic Crystal Cavity with Wide Frequency Tunability
DOI:10.1021/nl303987y JN:NANO LETTERS PY:2013 TC:6 AU: Yu, Chun L.;Kim, Hyunwoo;de Leon, Nathalie;Frank, Ian W.;Robinson, Jacob T.;McCutcheon, Murray;Liu, Mingzhao;Lukin, Mikhail D.;Loncar, Marko;Park, Hongkun;
2:211:5 Self-Assembled Transparent Conductive Electrodes from Au Nanoparticles in Surfactant Monolayer Templates
DOI:10.1002/adma.201101290 JN:ADVANCED MATERIALS PY:2011 TC:19 AU: Morag, Ahiud;Philosof-Mazor, Liron;Volinsky, Roman;Mentovich, Elad;Richter, Shachar;Jelinek, Raz;
2:211:6 Transparent, conductive polystyrene in three dimensional configurations
DOI:10.1016/j.polymer.2014.08.026 JN:POLYMER PY:2014 TC:1 AU: Trachtenberg, Alexander;Vinod, T. P.;Jelinek, Raz;
2:211:7 Fabrication of Organic Thin-Film Transistors on ThreeDimensional Substrates Using Free-Standing Polymeric Masks Based on Soft Lithography
DOI:10.1002/adfm.201303478 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:7 AU: Kim, Ju-Hyung;Hong, Sang Ho;Seong, Kwang-dong;Seo, Soonmin;
2:211:8 Patterned Transparent Conductive Au Films through Direct Reduction of Gold Thiocyanate
DOI:10.1002/adfm.201300881 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:11 AU: Morag, Ahiud;Froumin, Natalya;Mogiliansky, Dimitry;Ezersky, Vladimir;Beilis, Edith;Richter, Shachar;Jelinek, Raz;
2:211:9 Wavelength-tunable colloidal quantum dot laser on ultra-thin flexible glass
DOI:10.1063/1.4871372 JN:APPLIED PHYSICS LETTERS PY:2014 TC:2 AU: Foucher, C.;Guilhabert, B.;Laurand, N.;Dawson, M. D.;
2:211:10 Large strain deformation and cracking of nano-scale gold films on PDMS substrate
DOI:10.1016/j.mseb.2010.02.023 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:7 AU: Akogwu, Onobu;Kwabi, David;Midturi, Swaminadham;Eleruja, Marcus;Babatope, Babaniyi;Soboyejo, W. O.;
2:211:11 Extraction of a low-current discharge from a microplasma for nanoscale patterning applications at atmospheric pressure
DOI:10.1116/1.3669523 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2012 TC:2 AU: Lee, Seung Whan;Zamani, Hamidreza;Feng, Philip X. -L.;Sankaran, R. Mohan;
2:212:1 Capacitance-voltage characteristics of organic Schottky diode with and without deep traps
DOI:10.1063/1.3607955 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Sharma, Akanksha;Kumar, Pramod;Singh, Budhi;Chaudhuri, Sumita Ray;Ghosh, Subhasis;
2:212:2 Defect states and their energetic position and distribution in organic molecular semiconductors
DOI:10.1063/1.4801636 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Sharma, Akanksha;Yadav, Sarita;Kumar, Pramod;Chaudhuri, Sumita Ray;Ghosh, Subhasis;
2:212:3 Optimization of surface morphology to reduce the effect of grain boundaries and contact resistance in small molecule based thin film transistors
DOI:10.1063/1.4766913 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Yadav, Sarita;Kumar, Pramod;Ghosh, Subhasis;
2:212:4 Charge transport across organic heterostructure: Role of interfacial density of states
DOI:10.1063/1.4892672 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Tripathi, Durgesh C.;Mohapatra, Y. N.;
2:212:5 Effect of deep traps on small molecule based thin film transistors
DOI:10.1063/1.3656245 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Kumar, Pramod;Sharma, Akanksha;Chaudhuri, Sumita Ray;Ghosh, Subhasis;
2:212:6 Concentration dependence of the transport energy level for charge carriers in organic semiconductors
DOI:10.1063/1.3496045 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Oelerich, J. O.;Huemmer, D.;Weseloh, M.;Baranovskii, S. D.;
2:212:7 Organic transistor and inverter based on assembly of organic nanowires achieved by optimizing surface morphology
DOI:10.1063/1.4795150 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Yadav, Sarita;Sharma, Akanksha;Ghosh, Subhasis;
2:212:8 Traps signature in steady state current-voltage characteristics of organic diode
DOI:10.1063/1.4884838 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Rizvi, S. M. H.;Mantri, P.;Mazhari, B.;
2:212:9 Identification of the nature of trapping centers in polyspirobifluorene based diodes by using electrical characterization
DOI:10.1063/1.3428962 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Renaud, Cedric;Nguyen, Thien-Phap;
2:212:10 Charge accumulation dynamics in organic thin film transistors
DOI:10.1063/1.3526374 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Chen, X. Y.;Zhu, H.;Wang, S. D.;
2:212:11 Acridine orange as a biosensitive photovoltaic material
DOI:10.1063/1.4824181 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Sharifi, Faranak;Bauld, Reg;Fanchini, Giovanni;
2:213:1:1 Organic Photorefractive Materials and Applications
DOI:10.1002/adma.201100436 JN:ADVANCED MATERIALS PY:2011 TC:43 AU: Koeber, Sebastian;Salvador, Michael;Meerholz, Klaus;
2:213:1:2 Supramolecular dendrimers based on the self-assembly of carbazole-derived dendrons and triazine rings: liquid crystal, photophysical and electrochemical properties
DOI:10.1039/c3tc31390e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Castelar, Susana;Barbera, Joaquin;Marcos, Mercedes;Romero, Pilar;Serrano, Jose-Luis;Golemme, Attilio;Termine, Roberto;
2:213:1:3 Dark current and light illumination effects on grating formation during periodic long-term operation in photorefractive polymers
DOI:10.1063/1.4861718 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Fujihara, T.;Mamiya, J.;Kawamoto, M.;Sassa, T.;
2:213:1:4 Efficient local fixing of photorefractive polymer hologram using a laser beam
DOI:10.1063/1.3361655 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Li, Guoqiang;Wang, Peng;
2:213:1:5 Simplified procedure for interferometric determination of electro-optic properties of low-T-g photorefractive polymer
DOI:10.1063/1.3284951 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Fujihara, Takashi;Sassa, Takafumi;Kawada, Takashi;Mamiya, Jun-ichi;Muto, Tsuyoshi;Umegaki, Shinsuke;
2:213:2:1 Photorefractive performances of a graphene-doped PATPD/7-DCST/ECZ composite
DOI:10.1039/c4tc00782d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Chantharasupawong, Panit;Christenson, Cory W.;Philip, Reji;Zhai, Lei;Winiarz, Jeffrey;Yamamoto, Michiharu;Tetard, Laurene;Nair, Rahul R.;Thomas, Jayan;
2:213:2:2 Innovative Sensitizer DiPBI Outperforms PCBM
DOI:10.1002/adma.201104381 JN:ADVANCED MATERIALS PY:2012 TC:7 AU: Ditte, Katharina;Jiang, Wei;Schemme, Thomas;Denz, Cornelia;Wang, Zhaohui;
2:213:2:3 Influence of the sensitizer reduction potential on the sensitivity of photorefractive polymer composites
DOI:10.1039/c0jm01208d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:8 AU: Koeber, Sebastian;Gallego-Gomez, Francisco;Salvador, Michael;Kooistra, Floris B.;Hummelen, Jan C.;Aleman, Karina;Mansurova, Svetlana;Meerholz, Klaus;
2:213:2:4 Enhanced photorefractivity in a polymeric composite photosensitized with carbon nanotubes grafted to a photoconductive polymer
DOI:10.1063/1.3530583 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Lingam, Naveen K.;Kalghatgi, Sonali;Winiarz, Jeffrey G.;
2:213:3:1 Millisecond photorefractivity with novel dicyanomethylenedihydrofuran-containing polymers
DOI:10.1039/c2jm31320k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Gallego-Gomez, Francisco;Alvarez-Santos, Julio C.;Rodriguez-Redondo, Jose L.;Font-Sanchis, Enrique;Villalvilla, Jose M.;Sastre-Santos, Angela;Diaz-Garcia, Maria A.;Fernandez-Lazaro, Fernando;
2:213:3:2 1064-nm Sensitive Organic Photorefractive Composites
DOI:10.1002/adma.200903005 JN:ADVANCED MATERIALS PY:2010 TC:10 AU: Koeber, Sebastian;Prauzner, Jacek;Salvador, Michael;Kooistra, Floris B.;Hummelen, Jan C.;Meerholz, Klaus;
2:213:3:3 Photoconducting Polymers for Photorefractive 3D Display Applications
DOI:10.1021/cm102144h JN:CHEMISTRY OF MATERIALS PY:2011 TC:13 AU: Thomas, Jayan;Christenson, Cory W.;Banche, Pierre-Alexandre;Yarnarnoto, Michiharu;Norwood, Robert A.;Peyghambarian, Nasser;
2:213:3:4 Photorefractive effect in triphenylamine-based monolithic molecular glasses with low T-g
DOI:10.1016/j.matchemphys.2010.12.038 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:2 AU: Zhang, Li;Xu, Shengang;Yang, Zheng;Cao, Shaokui;
2:213:4:1 Synthesis and luminescent properties of block copolymers based on polyfluorene and polytriphenylamine
DOI:10.1016/j.polymer.2012.02.021 JN:POLYMER PY:2012 TC:7 AU: Tan, Ying;Gu, Zhijie;Tsuchiya, Kousuke;Ogino, Kenji;
2:213:4:2 Synthesis of charge transporting block copolymers containing 2,7-dimethoxycarbazole units for light emitting device
DOI:10.1016/j.polymer.2009.12.024 JN:POLYMER PY:2010 TC:11 AU: Tsuchiya, Kousuke;Sakaguchi, Kota;Kasuga, Hidemasa;Kawakami, Akira;Taka, Hideo;Kita, Hiroshi;Ogino, Kenji;
2:213:4:3 Synthesis and characterization of polytriphenylamine based graft polymers for photorefractive application
DOI:10.1016/j.polymer.2012.11.028 JN:POLYMER PY:2013 TC:7 AU: Cao, Zhenbo;Abe, Yosuke;Nagahama, Takuo;Tsuchiya, Kousuke;Ogino, Kenji;
2:213:4:4 Charge transporting block copolymer for morphological control in light emitting device based on polymer blends
DOI:10.1016/j.synthmet.2010.05.040 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Tsuchiya, Kousuke;Sakaguchi, Kota;Kawakami, Akira;Taka, Hideo;Kita, Hiroshi;Shimomura, Takeshi;Ogino, Kenji;
2:213:5:1 Enhanced photorefractive performance in CdSe quantum-dot-dispersed poly(styrene-co-acrylonitrile) polymers
DOI:10.1063/1.3454780 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Li, Xiangping;van Embden, Joel;Chon, James W. M.;Evans, Richard A.;Gu, Min;
2:213:5:2 Exciton-plasmon coupling mediated photorefractivity in gold-nanoparticle- and quantum-dot-dispersed polymers
DOI:10.1063/1.4812720 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Li, Chengmingyue;Li, Xiangping;Cao, Liangcai;Jin, Guofan;Gu, Min;
2:213:5:3 Type-II core/shell nanoparticle induced photorefractivity
DOI:10.1063/1.3596437 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Li, Xiangping;Van Embden, Joel;Evans, Richard A.;Gu, Min;
2:213:6:1 The role of diffusion of excitons in organic photorefractive materials
DOI:10.1063/1.3436557 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Samiullah, Mohammad;
2:213:6:2 Time dynamics of self-pumped reflection gratings in a photorefractive polymer
DOI:10.1063/1.3672832 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Banerjee, P. P.;Buller, S. H.;Liebig, C. M.;Basun, S. A.;Cook, G.;Evans, D. R.;Blanche, P. -A.;Thomas, J.;Christenson, C. W.;Peyghambarian, N.;
2:214:1 Direct hole injection in to 4,4 '-N,N '-dicarbazole-biphenyl: A simple pathway to achieve efficient organic light emitting diodes
DOI:10.1063/1.3456513 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:30 AU: Wang, Z. B.;Helander, M. G.;Qiu, J.;Liu, Z. W.;Greiner, M. T.;Lu, Z. H.;
2:214:2 MoO3 doped 4,4 '-N,N '-dicarbazole-biphenyl for low voltage organic light emitting diodes
DOI:10.1063/1.3644159 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Qiu, J.;Wang, Z. B.;Helander, M. G.;Lu, Z. H.;
2:214:3 Optical design of organic light emitting diodes
DOI:10.1063/1.3553837 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:14 AU: Wang, Z. B.;Helander, M. G.;Xu, X. F.;Puzzo, D. P.;Qiu, J.;Greiner, M. T.;Lu, Z. H.;
2:214:4 Controlling carrier accumulation and exciton formation in organic light emitting diodes
DOI:10.1063/1.3297884 JN:APPLIED PHYSICS LETTERS PY:2010 TC:18 AU: Wang, Z. B.;Helander, M. G.;Liu, Z. W.;Greiner, M. T.;Qiu, J.;Lu, Z. H.;
2:214:5 Highly efficient blue fluorescent organic light-emitting diodes with a high emitter/host ratio
DOI:10.1063/1.4819155 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: He, S. J.;Wang, Z. B.;Wang, D. K.;Jiang, N.;Lu, Z. H.;
2:214:6 Effect of electrostatic screening on apparent shifts in photoemission spectra near metal/organic interfaces
DOI:10.1103/PhysRevB.81.153308 JN:PHYSICAL REVIEW B PY:2010 TC:12 AU: Helander, M. G.;Greiner, M. T.;Wang, Z. B.;Lu, Z. H.;
2:214:7 Systematic Investigation of Surface Modification by Organosiloxane Self-Assembled on Indium-Tin Oxide for Improved Hole Injection in Organic Light-Emitting Diodes
DOI:10.1021/am500399e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Zhao, Yan;Duan, Lian;Zhang, Deqiang;Dong, Guifang;Qiao, Juan;Wang, Liduo;Qiu, Yong;
2:214:8 C-60:LiF nanocomposite for high power efficiency fluorescent organic light-emitting diodes
DOI:10.1088/0957-4484/23/34/344010 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Wang, Z. B.;Helander, M. G.;Qiu, J.;Gao, D.;Chang, Y. L.;Lu, Z. H.;
2:214:9 Effect of residual gases in high vacuum on the energy-level alignment at noble metal/organic interfaces
DOI:10.1063/1.3656969 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Helander, M. G.;Wang, Z. B.;Lu, Z. H.;
2:214:10 Optical design for improving optical properties of top-emitting organic light emitting diodes
DOI:10.1063/1.4795584 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Zhang, Mingxiao;Chen, Zhijian;Xiao, Lixin;Qu, Bo;Gong, Qihuang;
2:214:11 Energy transfer between host and dopant molecules in blue organic light-emitting devices
DOI:10.1063/1.3614493 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:13 AU: Kim, You-Hyun;Kim, Woo Young;Moon, C. -B.;
2:214:12 Spectroscopic study of white organic light-emitting devices with various thicknesses of emissive layer
DOI:10.1063/1.3674321 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Kim, Woo Young;Kim, You-Hyun;Jhun, Chul-Gyu;Wood, R.;Mascher, P.;Moon, C-B;
2:214:13 White Organic Light-Emitting Diodes With Different Order of RGB-Emitting Layers
DOI:10.1080/15421406.2012.694752 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:4 AU: Meng, Mei;Song, Wook;Kim, You-Hyun;Lee, Sang-Youn;Jhun, Chul Gyu;Moon, Chang-Bum;Wood, Richard;Kim, Woo-Young;
2:215:1 Influence of Wetting on Morphology and Core Content in Electrospun Core-Sheath Fibers
DOI:10.1021/am504961k JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Kim, Dae Kyom;Lagerwall, Jan P. F.;
2:215:2 Confinement-Sensitive Optical Response of Cholesteric Liquid Crystals in Electrospun Fibers
DOI:10.1021/nn400066n JN:ACS NANO PY:2013 TC:7 AU: Enz, Eva;La Ferrara, Vera;Scalia, Giusy;
2:215:3 Light-Emitting Coaxial Nanofibers
DOI:10.1021/nn204055t JN:ACS NANO PY:2012 TC:30 AU: Yang, Haifeng;Lightner, Carin R.;Dong, Liang;
2:215:4 Fabrication of a submicron-channel organic field-effect transistor using a controllable electrospun single fibre as a shadow mask
DOI:10.1088/0957-4484/22/20/205202 JN:NANOTECHNOLOGY PY:2011 TC:13 AU: Ishii, Y.;Sakai, H.;Murata, H.;
2:215:5 Self-assembled, optically responsive nematic liquid crystal/polymer core-shell fibers: Formation and characterization
DOI:10.1016/j.polymer.2010.08.011 JN:POLYMER PY:2010 TC:18 AU: Buyuktanir, Ebru A.;Frey, Margaret W.;West, John L.;
2:215:6 Electrospun microfibres with temperature sensitive iridescence from encapsulated cholesteric liquid crystal
DOI:10.1039/c0jm01223h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Enz, Eva;Lagerwall, Jan;
2:215:7 Soft capacitor fibers for electronic textiles
DOI:10.1063/1.3488351 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Gu, Jian Feng;Gorgutsa, Stephan;Skorobogatiy, Maksim;
2:215:8 Fabrication and characterization of thermally drawn fiber capacitors
DOI:10.1063/1.4802783 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Lestoquoy, Guillaume;Chocat, Noemie;Wang, Zheng;Joannopoulos, John D.;Fink, Yoel;
2:215:9 Liquid Crystals in Novel Geometries Prepared by Microfluidics and Electrospinning
DOI:10.1080/15421406.2011.581140 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:9 AU: Liang, Hsin-Ling;Enz, Eva;Scalia, Giusy;Lagerwall, Jan;
2:215:10 BN-coated Ca1-xSrxS:Eu solid-solution nanowires with tunable red light emission
DOI:10.1088/0957-4484/24/40/405701 JN:NANOTECHNOLOGY PY:2013 TC:3 AU: Lin, Jing;Huang, Yang;Mi, Jiao;Zhang, Xinghua;Lu, Zunming;Xu, Xuewen;Fan, Ying;Zou, Jin;Tang, Chengchun;
2:215:11 Fabrication and characterization of fibers with built-in liquid crystal channels and electrodes for transverse incident-light modulation
DOI:10.1063/1.4733319 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Stolyarov, Alexander M.;Wei, Lei;Sorin, Fabien;Lestoquoy, Guillaume;Joannopoulos, John D.;Fink, Yoel;
2:215:12 Submicron organic thin-film transistors fabricated by film profile engineering method
DOI:10.1063/1.4892404 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wu, Ming-Hung;Lin, Horng-Chih;Lin, Hung-Cheng;Zan, Hsiao-Wen;Meng, Hsin-Fei;Huang, Tiao-Yuan;
2:215:13 Micelle-Mediated Synthesis of Single-Crystalline beta(3C)-SiC Fibers via Emulsion Electrospinning
DOI:10.1021/am200171v JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:12 AU: Choi, Seung-Hoon;Youn, Doo-Young;Jo, Seong Mu;Oh, Seong-Geun;Kim, Il-Doo;
2:215:14 Piezoelectric Fibers for Conformal Acoustics
DOI:10.1002/adma.201201355 JN:ADVANCED MATERIALS PY:2012 TC:2 AU: Chocat, Noemie;Lestoquoy, Guillaume;Wang, Zheng;Rodgers, Daniel M.;Joannopoulos, John D.;Fink, Yoel;
2:216:1 Morphological Stability and Performance of Polymer-Fullerene Solar Cells under Thermal Stress: The Impact of Photoinduced PC60BM Oligomerization
DOI:10.1021/nn404687s JN:ACS NANO PY:2014 TC:17 AU: Wong, Him Cheng;Li, Zhe;Tan, Ching Hong;Zhong, Hongliang;Huang, Zhenggang;Bronstein, Hugo;McCulloch, Iain;Cabral, Joao T.;Durrant, James R.;
2:216:2 Direct UV Patterning of Electronically Active Fullerene Films
DOI:10.1002/adfm.201100568 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:11 AU: Wang, Jia;Larsen, Christian;Wagberg, Thomas;Edman, Ludvig;
2:216:3 Photochemical Transformation of Fullerenes
DOI:10.1002/adfm.201203386 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:8 AU: Wang, Jia;Enevold, Jenny;Edman, Ludvig;
2:216:4 Complementary ring oscillator fabricated via direct laser-exposure and solution-processing of a single-layer organic film
DOI:10.1016/j.tsf.2011.12.048 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Larsen, Christian;Wang, Jia;Edman, Ludvig;
2:216:5 Soluble Fullerene-Based n-Channel Organic Thin-Film Transistors Printed by Using a Polydimethylsiloxane Stamp
DOI:10.1021/am101193y JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:6 AU: Horii, Yoshinori;Ikawa, Mitsuhiro;Chikamatsu, Masayuki;Azumi, Reiko;Kitagawa, Masahiko;Konish, Hisatoshi;Yase, Kiyoshi;
2:216:6 In Situ KPFM Imaging of Local Photovoltaic Characteristics of Structured Organic Photovoltaic Devices
DOI:10.1021/am4038992 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:0 AU: Watanabe, Satoshi;Fukuchi, Yasumasa;Fukasawa, Masako;Sassa, Takafumi;Kimoto, Atsushi;Tajima, Yusuke;Uchiyama, Masanobu;Yamashita, Takashi;Matsumoto, Mutsuyoshi;Aoyama, Tetsuya;
2:216:7 Scanning tunnelling microscopy on organic field-effect transistors based on intrinsic pentacene
DOI:10.1063/1.4886155 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Roelofs, W. S. Christian;Charrier, Dimitri S. H.;Dzwilewski, Andrzej;Janssen, Rene A. J.;de Leeuw, Dago M.;Kemerink, Martijn;
2:216:8 Elucidating the factors that determine the open circuit voltage in discrete heterojunction organic photovoltaic cells
DOI:10.1039/b919723k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Chauhan, Virendra;Hatton, Ross;Sullivan, Paul;Jones, Tim;Cho, Sang Wan;Piper, Louis;deMasi, Alex;Smith, Kevin;
2:216:9 Three-dimensionally interconnected organic nanocomposite thin films: implications for donor-acceptor photovoltaic applications
DOI:10.1039/c0jm01030h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:7 AU: Berhanu, Sarah;Tariq, Farid;Jones, Tim;McComb, David W.;
2:216:10 Connecting Scanning Tunneling Spectroscopy to Device Performance for Polymer: Fullerene Organic Solar Cells
DOI:10.1021/nn100039r JN:ACS NANO PY:2010 TC:14 AU: Maturova, Klara;Janssen, Rene A. J.;Kemerink, Martijn;
2:216:11 Electron Donor and Acceptor Spatial Distribution in Structured Bulk Heterojunction Photovoltaic Devices Induced by Periodic Photopolymerization
DOI:10.1021/la3005618 JN:LANGMUIR PY:2012 TC:7 AU: Watanabe, Satoshi;Fukuchi, Yasumasa;Fukasawa, Masako;Sassa, Takafumi;Uchiyama, Masanobu;Yamashita, Takashi;Matsumoto, Mutsuyoshi;Aoyama, Tetsuya;
2:217:1 Photochromic and photomechanical responses of an amorphous diarylethene-based polymer: a spectroscopic ellipsometry investigation of ultrathin films
DOI:10.1039/c4tc00371c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Toccafondi, Chiara;Occhi, Luca;Cavalleri, Ornella;Penco, Amanda;Castagna, Rossella;Bianco, Andrea;Bertarelli, Chiara;Comoretto, Davide;Canepa, Maurizio;
2:217:2 Quantitative Femtosecond Charge Transfer Dynamics at Organic/Electrode Interfaces Studied by Core-Hole Clock Spectroscopy
DOI:10.1002/adma.201305414 JN:ADVANCED MATERIALS PY:2014 TC:2 AU: Cao, Liang;Gao, Xing-Yu;Wee, Andrew T. S.;Qi, Dong-Chen;
2:217:3 Self-Assembly of 1,4-Benzenedimethanethiol Self-Assembled Monolayers on Gold
DOI:10.1021/la904317b JN:LANGMUIR PY:2010 TC:36 AU: Hamoudi, Hicham;Prato, Mirko;Dablemont, Celine;Cavalleri, Ornella;Canepa, Maurizio;Esaulov, Vladimir A.;
2:217:4 UPS, XPS, and NEXAFS Study of Self-Assembly of Standing 1,4-Benzenedimethanethiol SAMs on Gold
DOI:10.1021/la105063u JN:LANGMUIR PY:2011 TC:26 AU: Pasquali, Luca;Terzi, Fabio;Seeber, Renato;Nannarone, Stefano;Datta, Debasish;Dablemont, Celine;Hamoudi, Hicham;Canepa, Maurizio;Esaulov, Vladimir A.;
2:217:5 Optical properties of Yeast Cytochrome c monolayer on gold: An in situ spectroscopic ellipsometry investigation
DOI:10.1016/j.jcis.2011.07.097 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:7 AU: Toccafondi, Chiara;Prato, Mirko;Maidecchi, Giulia;Penco, Amanda;Bisio, Francesco;Cavalleri, Ornella;Canepa, Maurizio;
2:217:6 The production and verification of pristine semi-fluorinated thiol monolayers on gold
DOI:10.1016/j.jcis.2011.10.081 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:2 AU: Ford, Kym;Battersby, Bronwyn J.;Wood, Barry J.;Gentle, Ian R.;
2:217:7 Orbital-Dependent Charge Transfer Dynamics in Conjugated Self-Assembled Monolayers
DOI:10.1103/PhysRevLett.107.027801 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:21 AU: Hamoudi, H.;Neppl, S.;Kao, P.;Schuepbach, B.;Feulner, P.;Terfort, A.;Allara, D.;Zharnikov, M.;
2:217:8 Adlayers of Alkanedithiols on Au(111): Effect of Disulfide Reducing Agent
DOI:10.1021/la3036067 JN:LANGMUIR PY:2013 TC:3 AU: Cometto, F. P.;Ruano, G.;Ascolani, H.;Zampieri, G.;
2:217:9 Interaction of Alkanethiols with Nanoporous Cluster-Assembled Au Films
DOI:10.1021/la200425z JN:LANGMUIR PY:2011 TC:6 AU: Bisio, F.;Prato, M.;Barborini, E.;Canepa, M.;
2:217:10 Self-assembly of flagellin on Au(111) surfaces
DOI:10.1016/j.jcis.2014.07.016 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:0 AU: Gonzalez Orive, Alejandro;Pissinis, Diego E.;Diaz, Carolina;Minan, Alejandro;Benitez, Guillermo A.;Rubert, Aldo;Daza Millone, Antonieta;Rumbo, Martin;Hernandez Creus, Alberto;Salvarezza, Roberto C.;Schilardi, Patricia L.;
2:217:11 Photochromic polymers bearing various diarylethene chromophores as the pendant: synthesis, optical properties, and multicolor photochromism
DOI:10.1039/c1jm12707a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Nishi, Hiroyasu;Namari, Tomoko;Kobatake, Seiya;
2:217:12 Dual photorecording on cholesteric azobenzene-containing LC polymer films using helix pitch phototuning and holographic grating recording
DOI:10.1039/c2jm16591k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Ryabchun, Alexander;Bobrovsky, Alexey;Sobolewska, Anna;Shibaev, Valery;Stumpe, Joachim;
2:217:13 Formation of a 1,8-Octanedithiol Self-Assembled Monolayer on Au(111) Prepared in a Lyotropic Liquid-Crystalline Medium
DOI:10.1021/la101976x JN:LANGMUIR PY:2010 TC:7 AU: Garcia Raya, Daniel;Madueno, Rafael;Blazquez, Manuel;Pineda, Teresa;
2:217:14 In-situ protein adsorption study on biofunctionalized surfaces using spectroscopic ellipsometry
DOI:10.1016/j.tsf.2009.10.110 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Goyal, Dileep K.;Subramanian, Anuradha;
2:217:15 Yeast Cytochrome c adsorption on SiO2/Si substrates studied by in situ spectroscopic ellipsometry
DOI:10.1016/j.tsf.2013.02.117 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Toccafondi, Chiara;Cavalleri, Ornella;Bisio, Francesco;Canepa, Maurizio;
2:217:16 Diarylethene-based photochromic polyurethanes for multistate optical memories
DOI:10.1039/c1jm11870f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Pariani, Giorgio;Castagna, Rossella;Dassa, Giovanni;Hermes, Stephan;Vailati, Claudio;Bianco, Andrea;Bertarelli, Chiara;
2:217:17 Spin-Dependent Electron Transfer Dynamics Probed by Resonant Photoemission Spectroscopy
DOI:10.1103/PhysRevLett.112.086801 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Blobner, Florian;Han, Runyuan;Kim, Andreas;Wurth, Wilfried;Feulner, Peter;
2:217:18 Optical properties and switching of a Rose Bengal derivative: A spectroscopic ellipsometry study
DOI:10.1016/j.tsf.2011.01.269 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Akerlind, C.;Arwin, H.;Jakobsson, F. L. E.;Kariis, H.;Jarrendahl, K.;
2:218:1 Insertion of an organic interlayer for hole current enhancement in inverted organic light emitting devices
DOI:10.1063/1.3478007 JN:APPLIED PHYSICS LETTERS PY:2010 TC:31 AU: Park, Soon Mi;Kim, Yoon Hak;Yi, Yeonjin;Oh, Hyoung-Yun;Kim, Jeong Won;
2:218:2 Molecular alignment and nanostructure of 1,4,5,8,9,11-hexaazatriphenylene-hexanitrile (HATCN) thin films on organic surfaces
DOI:10.1039/c2tc00331g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Kim, Hyo Jung;Lee, Jeong-Hwan;Kim, Ji Whan;Lee, Sunghun;Jang, Junhyuk;Lee, Hyun Hwi;Kim, Jang-Joo;
2:218:3 A high performance transparent inverted organic light emitting diode with 1,4,5,8,9,11-hexaazatriphenylenehexacarbonitrile as an organic buffer layer
DOI:10.1039/c2jm32438e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Lee, Jeong-Hwan;Lee, Sunghun;Kim, Jung-Bum;Jang, JunHyuk;Kim, Jang-Joo;
2:218:4 The role of energy level matching in organic solar cells-Hexaazatriphenylene hexacarbonitrile as transparent electron transport material
DOI:10.1016/j.solmat.2010.11.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Falkenberg, Christiane;Olthof, Selina;Rieger, Ralph;Baumgarten, Martin;Muellen, Klaus;Leo, Karl;Riede, Moritz;
2:218:5 Low voltage top-emitting organic light emitting devices by using 1,4,5,8,9,11-hexaazatriphenylene-hexacarbonitrile
DOI:10.1016/j.synthmet.2011.12.028 JN:SYNTHETIC METALS PY:2012 TC:14 AU: Cho, Sang Hee;Pyo, Sang Woo;Suh, Min Chul;
2:218:6 Tuning hole-injection barriers at organic/metal interfaces exploiting the orientation of a molecular acceptor interlayer
DOI:10.1103/PhysRevB.84.165302 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Niederhausen, J.;Amsalem, P.;Frisch, J.;Wilke, A.;Vollmer, A.;Rieger, R.;Muellen, K.;Rabe, J. P.;Koch, N.;
2:218:7 Density-Dependent Reorientation and Rehybridization of Chemisorbed Conjugated Molecules for Controlling Interface Electronic Structure
DOI:10.1103/PhysRevLett.104.246805 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:21 AU: Broeker, B.;Hofmann, O. T.;Rangger, G. M.;Frank, P.;Blum, R. -P.;Rieger, R.;Venema, L.;Vollmer, A.;Muellen, K.;Rabe, J. P.;Winkler, A.;Rudolf, P.;Zojer, E.;Koch, N.;
2:218:8 High hole mobility through charge recombination interface in organic light-emitting diodes
DOI:10.1016/j.synthmet.2011.07.025 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Diouf, Baye Boucar;Jeon, Woo Sik;Park, Jung Soo;Choi, Jin Woo;Son, Young Hoon;Lim, Dae Chul;Doh, Yoo Jin;Kwon, Jang Hyuk;
2:218:9 Interlayer molecular diffusion and thermodynamic equilibrium in organic heterostructures on a metal electrode
DOI:10.1063/1.3662878 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Amsalem, P.;Wilke, A.;Frisch, J.;Niederhausen, J.;Vollmer, A.;Rieger, R.;Muellen, K.;Rabe, J. P.;Koch, N.;
2:218:10 Origin of external quantum efficiency degradation in organic light-emitting diodes with a DC magnetron sputtered cathode
DOI:10.1116/1.4897920 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:0 AU: Fujimoto, Hiroshi;Miyayama, Takuya;Sanada, Noriaki;Adachi, Chihaya;
2:218:11 Organic interlayer for high power efficiency in organic light-emitting diodes
DOI:10.1016/j.synthmet.2010.10.031 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Jang, Sang Eok;Lee, Jun Yeob;
2:218:12 Electron mobility in hexaazatriphenylene hexacarbonitrile field-effect transistors
DOI:10.1016/j.synthmet.2012.07.021 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Saragi, Tobat P. I.;Reichert, Thomas;Scheffler, Ayna;Kussler, Manfred;Salbeck, Josef;
2:218:13 Work function increase of transparent conductive electrodes by solution processed electron acceptor molecular monolayers
DOI:10.1007/s00339-013-8048-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:3 AU: Castellani, Mauro;Winkler, Stefanie;Broeker, Benjamin;Baumgarten, Martin;Muellen, Klaus;Koch, Norbert;
2:218:14 Accurate measurement of dopant concentration in organic light-emitting diodes by combining high-performance liquid chromatography and TOF-SIMS
DOI:10.1116/1.4871756 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:2 AU: Fujimoto, Hiroshi;Edura, Tomohiko;Miyayama, Takuya;Sanada, Noriaki;Adachi, Chihaya;
2:218:15 Azimuthal Reorientation of Pentacene upon 2D Condensation
DOI:10.1103/PhysRevLett.110.106101 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Sun, L. D.;Gall, J.;Weidlinger, G.;Liu, C. Y.;Denk, M.;Zeppenfeld, P.;
2:218:16 A particularly strong organic acceptor for tuning the hole-injection barriers in modern organic devices
DOI:10.1016/j.synthmet.2010.05.004 JN:SYNTHETIC METALS PY:2010 TC:1 AU: Rangger, Gerold M.;Hofmann, Oliver T.;Broeker, Benjamin;Zojer, Egbert;
2:219:1 In Situ Imaging and Height Reconstruction of Phase Separation Processes in Polymer Blends during Spin Coating
DOI:10.1021/nn201210e JN:ACS NANO PY:2011 TC:30 AU: Ebbens, Stephen;Hodgkinson, Richard;Parnell, Andrew J.;Dunbar, Alan;Martin, Simon J.;Topham, Paul D.;Clarke, Nigel;Howse, Jonathan R.;
2:219:2 Directed phase separation of PFO:PS blends during spin-coating using feedback controlled in situ stroboscopic fluorescence microscopy
DOI:10.1039/c3ta01530k JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:13 AU: Toolan, Daniel T. W.;Parnell, Andrew J.;Topham, Paul D.;Howse, Jonathan R.;
2:219:3 Microscopic Evidence of "Necklace and Bead"-Like Morphology of Polymer-Surfactant Complexes: A Comparative Study on Poly(vinylpyrrolidone)-Sodium Dodecyl Sulfate and Poly(diallyldimethylammonium chloride)-Sodium Dodecyl Sulfate Systems
DOI:10.1021/la5022615 JN:LANGMUIR PY:2014 TC:4 AU: Chatterjee, Surajit;Prajapati, Roopali;Bhattacharya, Arpan;Mukherjee, Tushar K.;
2:219:4 Phase Separation Polymerization of Dicyclopentadiene Characterized by In Operando Fluorescence Microscopy
DOI:10.1021/ja405283k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:7 AU: Hensle, Eva M.;Blum, Suzanne A.;
2:219:5 In Situ Studies of Phase Separation and Crystallization Directed by Marangoni Instabilities During Spin-Coating
DOI:10.1002/adma.201302657 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: Toolan, Daniel T. W.;Pullan, Nikki;Harvey, Michael J.;Topham, Paul D.;Howse, Jonathan R.;
2:219:6 Homogeneous vs Heterogeneous Polymerization Catalysis Revealed by Single-Particle Fluorescence Microscopy
DOI:10.1021/ja2085405 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Esfandiari, N. Melody;Blum, Suzanne A.;
2:219:7 Why specific mixed solvent composition leads to appropriate film formation of composite during spin coating?
DOI:10.1063/1.4791696 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Ghosh, S. S.;Zerwal, A. P.;Bisen, G. G.;Lonkar, G. S.;Sali, J. V.;Waman, V. S.;Jadkar, S. R.;
2:219:8 Pattern Formation in Polymer Blend Thin Films: Surface Roughening Couples to Phase Separation
DOI:10.1103/PhysRevLett.113.218301 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Coveney, Sam;Clarke, Nigel;
2:219:9 Precise Pattern Replication of Polymer Blends into Nonuniform Geometries via Reducing Interfacial Tension between Two Polymers
DOI:10.1021/la3008409 JN:LANGMUIR PY:2012 TC:2 AU: Fang, Liang;Wei, Ming;Shang, Yingrui;Kazmer, David;Barry, Carol;Mead, Joey;
2:219:10 On the mechanisms of colloidal self-assembly during spin-coating
DOI:10.1039/c4sm01711k JN:SOFT MATTER PY:2014 TC:4 AU: Toolan, Daniel T. W.;Fujii, Syuji;Ebbens, Stephen J.;Nakamura, Yoshinobu;Howse, Jonathan R.;
2:219:11 How do evaporating thin films evolve? Unravelling phase-separation mechanisms during solvent-based fabrication of polymer blends
DOI:10.1063/1.4898136 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wodo, Olga;Ganapathysubramanian, Baskar;
2:219:12 Single-Molecule Imaging of Platinum Ligand Exchange Reaction Reveals Reactivity Distribution
DOI:10.1021/ja105517d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:13 AU: Esfandiari, N. Melody;Wang, Yong;Bass, Jonathan Y.;Cornell, Trevor P.;Otte, Douglas A. L.;Cheng, Ming H.;Hemminger, John C.;McIntire, Theresa M.;Mandelshtam, Vladimir A.;Blum, Suzanne A.;
2:219:13 Development of in situ studies of spin coated polymer films
DOI:10.1039/c2tc00026a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Toolan, Daniel T. W.;Howse, Jonathan R.;
2:219:14 Breakup of a Transient Wetting Layer in Polymer Blend Thin Films: Unification with 1D Phase Equilibria
DOI:10.1103/PhysRevLett.111.125702 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:2 AU: Coveney, Sam;Clarke, Nigel;
2:219:15 Proximity field nanopatterning of azopolymer thin films
DOI:10.1088/0957-4484/21/16/165301 JN:NANOTECHNOLOGY PY:2010 TC:6 AU: Lambeth, Robert H.;Park, Junyong;Liao, Hongwei;Shir, Daniel J.;Jeon, Seokwoo;Rogers, John A.;Moore, Jeffrey S.;
2:219:16 Intermolecular association and supramolecular structures of PNVF-LiPFN and PVP-LiPFN complexes in the aqueous phase
DOI:10.1039/b913160d JN:SOFT MATTER PY:2010 TC:10 AU: Hou, Sheng-Shu;Tzeng, Jung-Kai;Chuang, Meng-Han;
2:220:1 Color Control in Coaxial Two-Luminophore Nanowires
DOI:10.1021/nn400763r JN:ACS NANO PY:2013 TC:17 AU: Garreau, Alexandre;Massuyeau, Florian;Cordier, Stephane;Molard, Yann;Gautron, Eric;Bertoncini, Patricia;Faulques, Eric;Wery, Jany;Humbert, Bernard;Bulou, Alain;Duvail, Jean-Luc;
2:220:2 Deep red luminescent hybrid copolymer materials with high transition metal cluster content
DOI:10.1039/c3tc31309c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:10 AU: Amela-Cortes, Maria;Garreau, Alexandre;Cordier, Stephane;Faulques, Eric;Duvail, Jean-Luc;Molard, Yann;
2:220:3 Sensitization of Er3+ Infrared Photoluminescence Embedded in a Hybrid Organic-Inorganic Copolymer containing Octahedral Molybdenum Clusters
DOI:10.1002/adfm.201300417 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:23 AU: Molard, Yann;Labbe, Christophe;Cardin, Julien;Cordier, Stephane;
2:220:4 Ionically Self-Assembled Clustomesogen with Switchable Magnetic/Luminescence Properties Containing [Re6Se8(CN)(6)](n-) (n=3, 4) Anionic Clusters
DOI:10.1021/cm201589d JN:CHEMISTRY OF MATERIALS PY:2011 TC:34 AU: Molard, Yann;Ledneva, Alexandra;Amela-Cortes, Maria;Circu, Viorel;Naumov, Nikolai G.;Meriadec, Cristelle;Artzner, Franck;Cordier, Stephane;
2:220:5 Functional silica nanoparticles synthesized by water-in-oil microemulsion processes
DOI:10.1016/j.jcis.2009.09.064 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:38 AU: Aubert, Tangi;Grasset, Fabien;Mornet, Stephane;Duguet, Etienne;Cador, Olivier;Cordier, Stephane;Molard, Yann;Demange, Valerie;Mortier, Michel;Haneda, Hajime;
2:220:6 Influence of [Mo6Br8F6](2-) Cluster Unit Inclusion within the Mesoporous Solid MIL-101 on Hydrogen Storage Performance
DOI:10.1021/la100601a JN:LANGMUIR PY:2010 TC:29 AU: Dybtsev, Danil;Serre, Christian;Schmitz, Barbara;Panella, Barbara;Hirscher, Michael;Latroche, Michel;Llewellyn, Philip L.;Cordier, Stephane;Molard, Yann;Haouas, Mohamed;Taulelle, Francis;Ferey, Gerard;
2:220:7 Hexacyano octahedral metallic clusters as versatile building blocks in the design of extended polymeric framework and clustomesogens
DOI:10.1039/c4tc02098g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Amela-Cortes, Maria;Cordier, Stephane;Naumov, Nikolay G.;Meriadec, Cristelle;Artzner, Franck;Molard, Yann;
2:220:8 Synthesis and Characterization of A(4)[Re(6)Q(8)L(6)]@SiO2 Red-Emitting Silica Nanoparticles Based on Re-6 Metal Atom Clusters (A = Cs or K, Q = S or Se, and L = OH or CN)
DOI:10.1021/la103784v JN:LANGMUIR PY:2010 TC:25 AU: Aubert, Tangi;Ledneva, Alexandra Y.;Grasset, Fabien;Kimoto, Koji;Naumov, Nikolay G.;Molard, Yann;Saito, Noriko;Haneda, Hajime;Cordier, Stephane;
2:220:9 Luminescent latex particles loaded with anionic lanthanide complexes: a versatile platform for multicolour optical coding
DOI:10.1039/c3tc00756a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Wartenberg, N.;Raccurt, O.;Imbert, D.;Mazzanti, M.;Bourgeat-Lami, E.;
2:220:10 Polymerisable octahedral rhenium cluster complexes as precursors for photo/electroluminescent polymers
DOI:10.1039/c4tc01643b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Efremova, Olga A.;Brylev, Konstantin A.;Kozlova, Olena;White, Matthew S.;Shestopalov, Michael A.;Kitamura, Noboru;Mironov, Yuri V.;Bauer, Siegfried;Sutherland, Andrew J.;
2:221:1 Solution processed LiF anode modification for polymer solar cells
DOI:10.1063/1.4729932 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Turak, Ayse;Aytun, Taner;Ow-Yang, Cleva W.;
2:221:2 Solution-Processed LiF for Work Function Tuning in Electrode Bilayers
DOI:10.1021/nl202838a JN:NANO LETTERS PY:2012 TC:8 AU: Aytun, Taner;Turak, Ayse;Baikie, Iain;Halek, Grzegorz;Ow-Yang, Cleva W.;
2:221:3 Work function tuning of tin-doped indium oxide electrodes with solution-processed lithium fluoride
DOI:10.1016/j.tsf.2013.11.035 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Ow-Yang, C. W.;Jia, J.;Aytun, T.;Zamboni, M.;Turak, A.;Saritas, K.;Shigesato, Y.;
2:221:4 Insertion of parylene-N films in electron transport layer: An effective approach for efficiency improvement of organic light emitting diodes
DOI:10.1063/1.4767069 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Hu, Y. M.;He, Y.;Chen, X. Q.;Zhan, Y. Q.;You, Y. T.;Xuxie, H. N.;Peng, H.;
2:221:5 Lithium fluoride injection layers can form quasi-Ohmic contacts for both holes and electrons
DOI:10.1063/1.4896636 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bory, Benjamin F.;Rocha, Paulo R. F.;Janssen, Rene A. J.;Gomes, Henrique L.;De Leeuw, Dago M.;Meskers, Stefan C. J.;
2:221:6 Revised hole injection mechanism of a thin LiF layer introduced between pentacene and an indium tin oxide anode
DOI:10.1063/1.3481092 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:11 AU: Kim, Hyun Sung;Lee, Hyunbok;Jeon, Pyung Eun;Jeong, Kwangho;Lee, Jung Han;Yi, Yeonjin;
2:221:7 Ultra-thin oxide films for band engineering: design principles and numerical experiments
DOI:10.1016/j.tsf.2013.10.108 JN:THIN SOLID FILMS PY:2014 TC:5 AU: Butler, Keith T.;Walsh, Aron;
2:221:8 Molecular beam deposition and polymerization of parylene-N ultrathin films: Effective buffers in organic light emitting diodes
DOI:10.1016/j.apsusc.2014.06.036 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Hu, Y. M.;Li, R. H.;He, Y.;Zhang, X. Q.;Li, M. Q.;Zhu, Y.;Yi, J. H.;Fu, R. Ch.;
2:221:9 Internal potential distribution in organic light emitting diodes measured by dc bridge
DOI:10.1063/1.3500837 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Yin, X. R.;Le, Y. K.;Gao, X. D.;Sun, Z. Y.;Hou, X. Y.;
2:221:10 Obvious efficiency enhancement of organic light-emitting diodes by parylene-N buffer layer
DOI:10.1063/1.4704365 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Hu, Y. M.;He, Y.;Chen, X. Q.;Zhan, Y. Q.;Sun, Z. Y.;You, Y. T.;Hou, X. Y.;
2:221:11 Ambient pressure photoemission spectroscopy of metal surfaces
DOI:10.1016/j.apsusc.2014.08.159 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Baikie, Iain D.;Grain, Angela C.;Sutherland, James;Lawkp, Jamie;
2:221:12 Determining the Morphology of Polystyrene-block-poly(2-y=vinylpyridine) Micellar Reactors for ZnO Nanoparticle Synthesis
DOI:10.1021/la904143f JN:LANGMUIR PY:2010 TC:7 AU: El-Atwani, Osman C.;Aytun, Taner;Mutaf, Omer Faruk;Srot, Vesna;van Aken, Peter A.;Ow-Yang, Cleva W.;
2:221:13 Nanoscale Elastic Modulus Variation in Loaded Polymeric Micelle Reactors
DOI:10.1021/la3017722 JN:LANGMUIR PY:2012 TC:1 AU: Solmaz, Alim;Aytun, Taner;Deuschle, Julia K.;Ow-Yang, Cleva W.;
2:221:14 Atomistic simulation of doping effects on growth and charge transport in Si/Ag interfaces in high-performance solar cells
DOI:10.1103/PhysRevB.86.245319 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;
2:221:15 Organic light emitting diodes using NaCl:N,N '-bis(naphthalene-1-yl)-N,N '-bis(phenyl)benzidine composite as a hole injection buffer layer
DOI:10.1063/1.3509150 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Kim, Jeongho;Kim, Myungseop;Kim, Jeong Won;Yi, Yeonjin;Kang, Heon;
2:221:16 Effect of crystal habit and superstructure on modulus of elasticity of isotactic polypropylene by AFM nanoindentation
DOI:10.1007/s10853-011-6135-y JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Zia, Qamer;Tranchida, Davide;Androsch, Rene;Schoenherr, Holger;
2:221:17 Correction to Determining the Morphology of Polystyrene-block-poly(2-vinylpyridine) Micellar Reactors for ZnO Nanoparticle Synthesis (vol 26, pg 7431, 2010)
DOI:10.1021/la102784z JN:LANGMUIR PY:2010 TC:0 AU: El-Atwani, Osman;Aytun, Taner;Mutaf, Omer Faruk;Srot, Vesna;van Aken, Peter A.;Ow-Yang, Cleva W.;
2:222:1 Dual-Gate Thin-Film Transistors, Integrated Circuits and Sensors
DOI:10.1002/adma.201101493 JN:ADVANCED MATERIALS PY:2011 TC:40 AU: Spijkman, Mark-Jan;Myny, Kris;Smits, Edsger C. P.;Heremans, Paul;Blom, Paul W. M.;de Leeuw, Dago M.;
2:222:2 Dual-Gate Organic Field-Effect Transistors as Potentiometric Sensors in Aqueous Solution
DOI:10.1002/adfm.200901830 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:49 AU: Spijkman, Mark-Jan;Brondijk, Jakob J.;Geuns, Torn C. T.;Smits, Edsger C. P.;Cramer, Tobias;Zerbetto, Francesco;Stoliar, Pablo;Biscarini, Fabio;Blom, Paul W. M.;de Leeuw, Dago M.;
2:222:3 Beyond the Nernst-limit with dual-gate ZnO ion-sensitive field-effect transistors
DOI:10.1063/1.3546169 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Spijkman, M.;Smits, E. C. P.;Cillessen, J. F. M.;Biscarini, F.;Blom, P. W. M.;de Leeuw, D. M.;
2:222:4 Flexible protonic/electronic coupled neuron transistors self-assembled on paper substrates for logic applications
DOI:10.1063/1.4794905 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Dou, Wei;Zhu, Li Qiang;Jiang, Jie;Wan, Qing;
2:222:5 Laser directly written junctionless in-plane-gate neuron thin film transistors with AND logic function
DOI:10.1063/1.4789515 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zhu, Li Qiang;Wu, Guo Dong;Zhou, Ju Mei;Dou, Wei;Zhang, Hong Liang;Wan, Qing;
2:222:6 Dual in-plane-gate oxide-based thin-film transistors with tunable threshold voltage
DOI:10.1063/1.3636404 JN:APPLIED PHYSICS LETTERS PY:2011 TC:8 AU: Jiang, Jie;Sun, Jia;Zhu, Liqiang;Wu, Guodong;Wan, Qing;
2:222:7 Fabrication and characterization of junctionless carbon nanotube field effect transistor for cholesterol detection
DOI:10.1063/1.4892469 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Barik, Md Abdul;Dutta, Jiten Ch;
2:222:8 Operating principle and integration of in-plane gate logic devices
DOI:10.1063/1.3670352 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Komatsuzaki, Y.;Saba, K.;Onomitsu, K.;Yamaguchi, H.;Horikoshi, Y.;
2:222:9 Nanoimprinted lithography high performance in-plane organic diodes
DOI:10.1063/1.3655369 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Thornton, Martin J.;Ketelaars, Bas;van den Heuve, Eric;Roosen, Harold;Smout, Steve;Iosad, Nikolay;
2:222:10 Fabrication of Silicon Nitride Ion Sensitive Field-Effect Transistor for pH Measurement and DNA Immobilization/Hybridization
DOI:10.1155/2013/542737 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:2 AU: Hashim, U.;Chong, Soon Weng;Liu, Wei-Wen;
2:223:1 Conducting Polymer Composite Materials for Hydrogen Generation
DOI:10.1002/adma.200902934 JN:ADVANCED MATERIALS PY:2010 TC:42 AU: Winther-Jensen, Bjorn;Fraser, Kevin;Ong, Chun;Forsyth, Maria;MacFarlane, Douglas R.;
2:223:2 A functional immobilization matrix based on a conducting polymer and functionalized gold nanoparticles: Synthesis and its application as an amperometric glucose biosensor
DOI:10.1016/j.polymer.2013.06.050 JN:POLYMER PY:2013 TC:18 AU: Kesik, Melis;Kanik, Fulya Ekiz;Hizalan, Gonul;Kozanoglu, Duygu;Esenturk, Emren Nalbant;Timur, Suna;Toppare, Levent;
2:223:3 Unexpected Interaction between PEDOT and Phosphonium Ionic Liquids
DOI:10.1021/ja405032c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:6 AU: Armel, Vanessa;Rivnay, Jonathan;Malliaras, George;Winther-Jensen, Bjorn;
2:223:4 Colloidal Stability of Gold Nanoparticles Modified with Thiol Compounds: Bioconjugation and Application in Cancer Cell Imaging
DOI:10.1021/la204289k JN:LANGMUIR PY:2012 TC:52 AU: Gao, Jie;Huang, Xiangyi;Liu, Heng;Zan, Feng;Ren, Jicun;
2:223:5 Electrodeposited PEDOT films on ITO with a flower-like hierarchical structure
DOI:10.1016/j.synthmet.2010.05.033 JN:SYNTHETIC METALS PY:2010 TC:17 AU: Zhou, Cuifeng;Liu, Zongwen;Du, Xusheng;Ringer, Simon P.;
2:223:6 Photo-electrocatalytic H-2 evolution on poly(2,2 '-bithiophene) at neutral pH
DOI:10.1016/j.ijhydene.2014.09.003 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:2 AU: Ng, Chun Hin;Winther-Jensen, Orawan;Kolodziejczyk, Bartlomiej;Ohlin, C. Andre;Winther-Jensen, Bjorn;
2:223:7 Au@SiO2 nanoparticles coupling co-sensitizers for synergic efficiency enhancement of dye sensitized solar cells
DOI:10.1039/c2jm35577a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Li, Haoran;Hong, Wei;Cai, Feiyang;Tang, Qi;Yan, Yang;Hu, Xiaobin;Zhao, Binyuan;Zhang, Di;Xu, Zhou;
2:223:8 Designed electrodeposition of nanoparticles inside conducting polymers
DOI:10.1039/c2jm34214f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Armel, Vanessa;Winther-Jensen, Orawan;Kerr, Robert;MacFarlane, Douglas R.;Winther-Jensen, Bjorn;
2:223:9 Dual-type electrochromic device based on polypyrrole and polythiophene derivatives
DOI:10.1016/j.solmat.2011.03.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:18 AU: da Silva, Ana Julia C.;Ribeiro Nogueira, Fred A.;Tonholo, Josealdo;Ribeiro, Adriana S.;
2:223:10 Variable-Emittance Infrared Electrochromic Skins Combining Unique Conducting Polymers, Ionic Liquid Electrolytes, Microporous Polymer Membranes, and Semiconductor/Polymer Coatings, for Spacecraft Thermal Control
DOI:10.1002/APP.40850 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:2 AU: Chandrasekhar, Prasanna;Zay, Brian J.;Lawrence, David;Caldwell, Edmonia;Sheth, Rubik;Stephan, Ryan;Cornwell, John;
2:223:11 A novel template-free route to synthesis of poly(3,4-ethylenedioxythiophene) with fiber and sphere-like morphologies
DOI:10.1016/j.matlet.2012.06.042 JN:MATERIALS LETTERS PY:2012 TC:4 AU: Nabid, Mohammad Reza;Rezaei, Seyed Jamal Tabatabaei;Hosseini, Seyedeh Zahra;
2:223:12 Structural, chemical and electrochemical characterization of poly(3,4-Ethylenedioxythiophene) (PEDOT) prepared with various counter-ions and heat treatments
DOI:10.1016/j.polymer.2011.01.042 JN:POLYMER PY:2011 TC:20 AU: King, Zachary A.;Shaw, Charles M.;Spanninga, Sarah A.;Martin, David C.;
2:223:13 Highly clear conductive polymer electrode films hybridized with gold nanoparticles
DOI:10.1063/1.3665612 JN:APPLIED PHYSICS LETTERS PY:2011 TC:1 AU: Kim, Jin-Yeol;Hwang, Che-Ryong;Jo, Sang-Hyun;Jung, Woo-Gwang;
2:223:14 Electrochemical co-deposition of bimetallic Pt-Ru nanoclusters dispersed on poly(3,4-ethylenedioxythiophene) and electrocatalytic behavior for methanol oxidation
DOI:10.1016/j.mseb.2011.03.012 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:9 AU: Patra, S.;Dash, Sthitaprajna;Anand, V.;Nimisha, C. S.;Rao, G. M.;Munichandraiah, N.;
2:224:1 Neat C-70-Based Bulk-Heterojunction Polymer Solar Cells with Excellent Acceptor Dispersion
DOI:10.1021/am506394m JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Gasparini, Nicola;Righi, Sara;Tinti, Francesca;Savoini, Alberto;Cominetti, Alessandra;Po, Riccardo;Camaioni, Nadia;
2:224:2 Yet another poor man's green bulk heterojunction photocells: Annealing effect and film composition dependence of photovoltaic devices using poly(3-hexylthiophene):C-70 composites prepared with chlorine-free solvent
DOI:10.1016/j.solmat.2012.09.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:18 AU: Tada, Kazuya;
2:224:3 Polymeric nanocomposites containing non-covalently bonded fullerene C-60: properties and applications
DOI:10.1039/c2jm15472b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Badamshina, Elmira;Gafurova, Margarita;
2:224:4 Poor man's green bulk heterojunction photocells: A chlorine-free solvent for poly(3-hexylthiophene)/C-60 composites
DOI:10.1016/j.solmat.2012.01.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Tada, Kazuya;Onoda, Mitsuyoshi;
2:224:5 Bulk heterojunction photocells utilizing neat C-70 and low energy-gap polymer prepared with halogen-free solvent
DOI:10.1016/j.solmat.2013.06.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:5 AU: Tada, Kazuya;
2:224:6 Interplay between annealing temperature and optimum composition and fullerene aggregation effects in bulk heterojunction photocells based on poly(3-hexylthiophene) and unmodified C-60
DOI:10.1016/j.solmat.2013.08.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Tada, Kazuya;
2:224:7 Electrophoretic deposition onto an insulator for thin film preparation toward electronic device fabrication
DOI:10.1063/1.4766126 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Miyajima, Shougo;Nagamatsu, Shuichi;Pandey, Shyam S.;Hayase, Shuzi;Kaneto, Keiichi;Takashima, Wataru;
2:224:8 Preparation of smooth and dense composite films consisting of MEHPPV and neat C-60 by means of electrophoretic deposition
DOI:10.1016/j.solmat.2010.10.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:5 AU: Tada, Kazuya;Onoda, Mitsuyoshi;
2:224:9 Spontaneous stratification in composite films consisting of conjugated polymers and neat C-60 prepared by electrophoretic deposition
DOI:10.1016/j.matlet.2011.01.084 JN:MATERIALS LETTERS PY:2011 TC:3 AU: Tada, Kazuya;Onoda, Mitsuyoshi;
2:224:10 Rapid and multi-step, patterned electrophoretic deposition of nanocrystals using electrodes covered with dielectric barriers
DOI:10.1063/1.4863849 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lee, Seung Whan;Zhang, Datong;Herman, Irving P.;
2:225:1 Full-Color Tunable Photoluminescent Ionic Liquid Crystals Based on Tripodal Pyridinium, Pyrimidinium, and Quinolinium Salts
DOI:10.1021/ja3001979 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:30 AU: Tanabe, Kana;Suzui, Yuko;Hasegawa, Miki;Kato, Takashi;
2:225:2 An atomistic simulation of the liquid-crystalline phases of sexithiophene
DOI:10.1039/c0jm01284j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Pizzirusso, A.;Savini, M.;Muccioli, L.;Zannoni, C.;
2:225:3 Diffusion mechanisms in smectic ionic liquid crystals: insights from coarse-grained MD simulations
DOI:10.1039/c3sm50375e JN:SOFT MATTER PY:2013 TC:5 AU: Saielli, Giacomo;Voth, Gregory A.;Wang, Yanting;
2:225:4 MD simulation of the mesomorphic behaviour of 1-hexadecyl-3-methylimidazolium nitrate: assessment of the performance of a coarse-grained force field
DOI:10.1039/c2sm26376a JN:SOFT MATTER PY:2012 TC:8 AU: Saielli, Giacomo;
2:225:5 1,10-Phenanthrolinium Ionic Liquid Crystals
DOI:10.1021/la1047276 JN:LANGMUIR PY:2011 TC:20 AU: Cardinaels, Thomas;Lava, Kathleen;Goossens, Karel;Eliseeva, Svetlana V.;Binnemans, Koen;
2:225:6 Design, synthesis, and study of benzobis- and bibenz(imidazolium)-based ionic liquid crystals
DOI:10.1039/c0jm00417k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:29 AU: Wiggins, Kelly M.;Kerr, Robert L.;Chen, Zheng;Bielawski, Christopher W.;
2:225:7 Thermotropic ionic liquid crystals by molecular assembly and ion pairing of 4,4 '-bipyridinium derivatives and tris(dodecyloxy)benzenesulfonates in a non-polar solvent
DOI:10.1039/c2jm31830j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Asaftei, Simona;Ciobanu, Marius;Lepadatu, Ana Maria;Song, Enfeng;Beginn, Uwe;
2:225:8 Switching from columnar to calamitic mesophases in a new class of rod-like thienoviologens
DOI:10.1039/c3tc00853c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Beneduci, Amerigo;Cospito, Sante;Crispini, Alessandra;Gabriele, Bartolo;Nicoletta, Fiore P.;Veltri, Lucia;Chidichimo, Giuseppe;
2:225:9 Predicting the Anchoring of Liquid Crystals at a Solid Surface: 5-Cyanobiphenyl on Cristobalite and Glassy Silica Surfaces of Increasing Roughness
DOI:10.1021/la400857s JN:LANGMUIR PY:2013 TC:12 AU: Roscioni, Otello Maria;Muccioli, Luca;Della Valle, Raffaele Guido;Pizzirusso, Antonio;Ricci, Matteo;Zannoni, Claudio;
2:225:10 Classical density functional theory & simulations on a coarse-grained model of aromatic ionic liquids
DOI:10.1039/c3sm53169d JN:SOFT MATTER PY:2014 TC:4 AU: Turesson, Martin;Szparaga, Ryan;Ma, Ke;Woodward, Clifford E.;Forsman, Jan;
2:225:11 Thermal and photoinduced liquid crystalline phase transitions with a rod-disc alternative change in the molecular shape
DOI:10.1039/c2jm35518c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Tanaka, Daisuke;Ishiguro, Hisato;Shimizu, Yo;Uchida, Kingo;
2:225:12 Temperature stability of the pentacene thin-film phase
DOI:10.1063/1.3665188 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Moser, Armin;Novak, Jiri;Flesch, Heinz-Georg;Djuric, Tatjana;Werzer, Oliver;Haase, Anja;Resel, Roland;
2:225:13 Manipulation of Liquid Crystals By an Orienting Force in MD Simulations
DOI:10.1080/00150193.2012.684641 JN:FERROELECTRICS PY:2012 TC:1 AU: Daub, Christopher D.;Cann, Natalie M.;
2:226:1 A highly selective and sensitive polymer-based OFF-ON fluorescent sensor for Hg2+ detection incorporating salen and perylenyl moieties
DOI:10.1039/c1jm14037j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:40 AU: Li, Junfeng;Wu, Yuanzhao;Song, Fengyan;Wei, Guo;Cheng, Yixiang;Zhu, Chengjian;
2:226:2 Confined organization of fullerene units along high polymer chains
DOI:10.1039/c3tc31158a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Fang, Lei;Liu, Peng;Sveinbjornsson, Benjamin R.;Atahan-Evrenk, Sule;Vandewal, Koen;Osuna, Silvia;Jimenez-Oses, Gonzalo;Shrestha, Supriya;Giri, Gaurav;Wei, Peng;Salleo, Alberto;Aspuru-Guzik, Alan;Grubbs, Robert H.;Houk, K. N.;Bao, Zhenan;
2:226:3 A highly selective fluorescent sensor for Hg2+ based on the water-soluble poly(p-phenyleneethynylene)
DOI:10.1016/j.polymer.2010.05.038 JN:POLYMER PY:2010 TC:20 AU: Li, Jie;Meng, Jie;Huang, Xiaobo;Cheng, Yixiang;Zhu, Chengjian;
2:226:4 (R,R)-salen/salan-based polymer fluorescence sensors for Zn2+ detection
DOI:10.1016/j.polymer.2011.11.017 JN:POLYMER PY:2011 TC:16 AU: Song, Fengyan;Ma, Xiao;Hou, Jiali;Huang, Xiaobo;Cheng, Yixiang;Zhu, Chengjian;
2:226:5 In situ Cu(II)-containing chiral polymer complex sensor for enantioselective recognition of phenylglycinol
DOI:10.1016/j.polymer.2012.10.047 JN:POLYMER PY:2012 TC:5 AU: Wang, Lu;Song, Fengyan;Hou, Jiali;Li, Junfeng;Cheng, Yixiang;Zhu, Chengjian;
2:226:6 Near-infrared electrochromic and chiroptical switching polymers: synthesis and characterization of helical poly(N-propargylamides) carrying anthraquinone imide moieties in side chains
DOI:10.1039/b927360c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:25 AU: Zheng, Yijun;Cui, Jiaxi;Zheng, Jia;Wan, Xinhua;
2:226:7 Large stokes shift chiral polymers containing (R,R)-salen-based binuclear boron complex: Synthesis, characterization, and fluorescence properties
DOI:10.1016/j.polymer.2012.07.003 JN:POLYMER PY:2012 TC:9 AU: Ma, Xiao;Jiao, Jiemin;Yang, Jing;Huang, Xiaobo;Cheng, Yixiang;Zhu, Chengjian;
2:226:8 Polymer-based fluorescence sensor incorporating triazole moieties for Hg2+ detection via click reaction
DOI:10.1016/j.polymer.2010.05.001 JN:POLYMER PY:2010 TC:44 AU: Huang, Xiaobo;Meng, Jie;Dong, Yu;Cheng, Yixiang;Zhu, Chengjian;
2:226:9 Fluorescence sensors based on chiral polymer for highly enantioselective recognition of phenylglycinol
DOI:10.1016/j.polymer.2010.01.038 JN:POLYMER PY:2010 TC:23 AU: Xu, Ying;Zheng, Lifei;Huang, Xiaobo;Chen, Yixiang;Zhu, Chengjian;
2:226:10 Microwave-assisted preparation of intense luminescent BODIPY-containing hybrids with high photostability and low leachability
DOI:10.1039/b923449g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Kajiwara, Yuichi;Nagai, Atsushi;Chujo, Yoshiki;
2:226:11 Thiazole-Containing Conjugated Polymer as a Visual and Fluorometric Sensor for Iodide and Mercury
DOI:10.1021/am400123j JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:19 AU: Hussain, Sameer;De, Siddhartha;Iyer, Parameswar Krishnan;
2:226:12 Microfluidic chip-based nanoelectrode array as miniaturized biochemical sensing platform for prostate-specific antigen detection
DOI:10.1016/j.bios.2010.11.039 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:18 AU: Triroj, Napat;Jaroenapibal, Papot;Shi, Haibin;Yeh, Joanne I.;Beresford, Roderic;
2:226:13 Crystal Structure of Chiral gamma PNA with Complementary DNA Strand: Insights into the Stability and Specificity of Recognition and Conformational Preorganization
DOI:10.1021/ja907225d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:29 AU: Yeh, Joanne I.;Shivachev, Boris;Rapireddy, Srinivas;Crawford, Matthew J.;Gil, Roberto R.;Du, Shoucheng;Madrid, Marcela;Ly, Danith H.;
2:226:14 Efficient simultaneous emission from RGB-emitting organoboron dyes incorporated into organic-inorganic hybrids and preparation of white light-emitting materials
DOI:10.1039/c3tc30276h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Kajiwara, Yuichi;Nagai, Atsushi;Tanaka, Kazuo;Chujo, Yoshiki;
2:227:1:1 Transparent amorphous zinc oxide thin films for NLO applications
DOI:10.1016/j.optmat.2014.06.021 JN:OPTICAL MATERIALS PY:2014 TC:2 AU: Zawadzka, A.;Plociennik, P.;Strzelecki, J.;Sahraoui, B.;
2:227:1:2 Photophysical properties of Alq(3) thin films
DOI:10.1016/j.optmat.2013.05.001 JN:OPTICAL MATERIALS PY:2013 TC:5 AU: Zawadzka, A.;Plociennik, P.;Strzelecki, J.;Lukasiak, Z.;Sahraoui, B.;
2:227:1:3 Physical origin of third order non-linear optical response of porphyrin nanorods
DOI:10.1016/j.matchemphys.2012.03.044 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:9 AU: Mongwaketsi, N.;Khamlich, S.;Pranaitis, M.;Sahraoui, B.;Khammar, F.;Garab, G.;Sparrow, R.;Maaza, M.;
2:227:1:4 The effects of annealing process influence on optical properties and the molecular orientation of selected organometallic compounds thin films
DOI:10.1016/j.optmat.2012.02.035 JN:OPTICAL MATERIALS PY:2012 TC:11 AU: Zawadzka, A.;Plociennik, P.;Czarnecka, J.;Sztupecka, J.;Lukasiak, Z.;
2:227:1:5 Structural and nonlinear optical properties of as-grown and annealed metallophthalocyanine thin films
DOI:10.1016/j.tsf.2013.07.042 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Zawadzka, A.;Plociennik, P.;Strzelecki, J.;Pranaitis, M.;Dabos-Seignon, S.;Sahraoui, B.;
2:227:1:6 Investigation of superfast deposition of metal oxide and Diamond-Like Carbon thin films by nanosecond Ytterbium (Yb+) fiber laser
DOI:10.1016/j.optmat.2013.05.015 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Serbezov, V.;Sotirov, S.;Benkhouja, K.;Zawadzka, A.;Sahraoui, B.;
2:227:2:1 The effects of temperature on the molecular orientation of zinc phthalocyanine films
DOI:10.1007/s10853-009-4094-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:25 AU: Gaffo, Luciana;Cordeiro, Marcia R.;Freitas, Adonilson R.;Moreira, Wania C.;Girotto, Emerson M.;Zucolotto, Valtencir;
2:227:2:2 The molecular structure ordering and orientation of the metallophthalocyanine CoPc, ZnPc, CuPc, and MgPc thin layers deposited on silicon substrate, as studied by micro-Raman spectroscopy
DOI:10.1007/s10853-011-5607-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:11 AU: Szybowicz, M.;Bala, W.;Fabisiak, K.;Paprocki, K.;Drozdowski, M.;
2:227:2:3 Studies on phase transformation and molecular orientation in nanostructured zinc phthalocyanine thin films annealed at different temperatures
DOI:10.1016/j.tsf.2012.07.013 JN:THIN SOLID FILMS PY:2012 TC:13 AU: Chowdhury, Avijit;Biswas, Bipul;Majumder, Manisree;Sanyal, Manik Kumar;Mallik, Biswanath;
2:227:2:4 Effect of thermal annealing on structural and optical properties of titanyl phthalocyanine thin films
DOI:10.1016/j.mssp.2014.06.028 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:1 AU: El-Nahass, M. M.;Afify, H. A.;Gadallah, A. -S.;Hassanien, A. M.;Khedr, M. Atta;
2:227:2:5 Temperature and orientation study of cobalt phthalocyanine CoPc thin films deposited on silicon substrate as studied by micro-Raman scattering spectroscopy
DOI:10.1016/j.tsf.2011.07.051 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Szybowicz, M.;Bala, W.;Duemecke, S.;Fabisiak, K.;Paprocki, K.;Drozdowski, M.;
2:227:3:1 Optical, morphological and structural characterization of Langmuir-Schaefer films of a functionalized copper phthalocyanine
DOI:10.1016/j.jcis.2011.06.054 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:2 AU: Giancane, Gabriele;Filippo, Emanuela;Manno, Daniela;Serra, Antonio;Valli, Ludovico;
2:227:3:2 Effect of Thin C-60 Films Modification with Aminosubstituted Polycyclic Aromatic Hydrocarbons and Meso-tetraphenylporphine on Optical and Photoelectric Properties of Au/C-60/Si Photodiode Structures
DOI:10.1080/15421406.2011.537877 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Dmitruk, N. L.;Borkovskaya, O. Yu;Naumenko, D. O.;Mamontova, I. B.;Berezovska, N. I.;Dmitruk, I. M.;Meza-Laguna, V.;Basiuk, E. V.;
2:227:3:3 Optical and photoelectrical studies of gold nano particle-decorated C-60 films
DOI:10.1016/j.tsf.2009.11.083 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Dmitruk, N. L.;Borkovskaya, O. Yu.;Mamykin, S. V.;Naumenko, D. O.;Meza-Laguna, V.;Basiuk (Golovataya-Dzhymbeeva), E. V.;Puente Lee, I.;
2:227:3:4 New Method of the Threshold Voltages Determination of a Cholesteric-Nematic Transition
DOI:10.1080/15421406.2011.538357 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Hotra, Z.;Mykytyuk, Z.;Hotra, O.;Fechan, A.;Syshynskyy, O.;Yasynovska, O.;Kotsun, V.;
2:227:4:1 Characterization of Langmuir and Langmuir-Blodgett films of an octasubstituted zinc phthalocyanine
DOI:10.1016/j.tsf.2014.01.045 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Torrent-Burgues, J.;Cea, P.;Giner, I.;Guaus, E.;
2:227:4:2 Solvent induced aggregation of protoporphyrin and octacarboxylphthalocyanine of zinc deposited on gold surface
DOI:10.1016/j.jcis.2011.03.073 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:4 AU: Gadenne, Virginie;Bayo-Bangoura, Mabinty;Porte, Louis;Patrone, Lionel;
2:227:5:1 Evaluation of photoanodic output on carbon cluster/phthalocyanine films with respect to the types of n-type conductors employed
DOI:10.1007/s10853-011-5896-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:3 AU: Abe, Toshiyuki;Nakamura, Kazuki;Ichinohe, Hiromasa;Nagai, Keiji;
2:227:5:2 Photochemical oxygen reduction by zinc phthalocyanine and silver/gold nanoparticle incorporated silica thin films
DOI:10.1016/j.tsf.2012.10.049 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Pal, Manas;Ganesan, Vellaichamy;Azad, Uday Pratap;
2:227:6:1 Effects of gamma-ray irradiation and thermal annealing on structural, optical and electrical properties of vacuum deposited vanadyl 2,3-naphthalocyanine thin films
DOI:10.1007/s10853-011-5341-y JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:3 AU: Panicker, Nisha S.;Menon, C. S.;
2:227:6:2 Non-linear optical properties of composite naphthalocyanine thin films with nanocrystalline morphology
DOI:10.1016/j.matlet.2012.08.085 JN:MATERIALS LETTERS PY:2012 TC:0 AU: Panicker, Nisha S.;Smijesh, N.;Philip, Reji;Menon, C. S.;
2:228:1 Addressable Organic Structure by Anisotropic Wetting
DOI:10.1002/adma.201204475 JN:ADVANCED MATERIALS PY:2013 TC:5 AU: Wang, Wenchong;Du, Chuan;Li, Liqiang;Wang, Hong;Wang, Chenguang;Wang, Yue;Fuchs, Harald;Chi, Lifeng;
2:228:2 Organic vapor jet printing at micrometer resolution using microfluidic nozzle arrays
DOI:10.1063/1.3536675 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: McGraw, Gregory J.;Peters, Diane L.;Forrest, Stephen R.;
2:228:3 Surface Microfluidic Patterning and Transporting Organic Small Molecules
DOI:10.1002/smll.201400360 JN:SMALL PY:2014 TC:1 AU: Wang, Hong;Wang, Wenchong;Li, Liqiang;Zhu, Juan;Wang, Wenxin;Zhang, Deqing;Xie, Zhaoxiong;Fuchs, Harald;Lei, Yong;Chi, Lifeng;
2:228:4 Vapor Phase Growth of Functional Pentacene Films at Atmospheric Pressure
DOI:10.1002/adfm.201200896 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:6 AU: Rolin, Cedric;Vasseur, Karolien;Niesen, Bjorn;Willegems, Myriam;Muller, Robert;Steudel, Soren;Genoe, Jan;Heremans, Paul;
2:228:5 Tunable Multicolor Ordered Patterns with Two Dye Molecules
DOI:10.1002/adma.201000129 JN:ADVANCED MATERIALS PY:2010 TC:15 AU: Wang, Wenchong;Du, Chuan;Bi, Hai;Sun, Yinghui;Wang, Yue;Mauser, Christian;Da Como, Enrico;Fuchs, Harald;Chi, Lifeng;
2:228:6 Digital-Mode Organic Vapor-Jet Printing (D-OVJP): Advanced Jet-on-Demand Control of Organic Thin-Film Deposition
DOI:10.1002/adma.201200640 JN:ADVANCED MATERIALS PY:2012 TC:6 AU: Yun, Changhun;Choi, Jungmin;Kang, Hyun Wook;Kim, Mincheol;Moon, Hanul;Sung, Hyung Jin;Yoo, Seunghyup;
2:228:7 Solvent-free, direct printing of organic semiconductors in atmosphere
DOI:10.1063/1.3455840 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Biswas, Shaurjo;Pipe, Kevin P.;Shtein, Max;
2:228:8 Vapor-Phase Microprinting of Multicolor Phosphorescent Organic Light Emitting Device Arrays
DOI:10.1002/adma.201204410 JN:ADVANCED MATERIALS PY:2013 TC:6 AU: McGraw, Gregory J.;Forrest, Stephen R.;
2:228:9 Laser induced fluorescence monitoring of the transport of small organic molecules in an organic vapor phase deposition system
DOI:10.1063/1.4768212 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Rolin, Cedric;Vartanian, Garen;Forrest, Stephen R.;
2:228:10 High-Resolution Triple-Color Patterns Based on the Liquid Behavior of Organic Molecules
DOI:10.1002/smll.201002210 JN:SMALL PY:2011 TC:11 AU: Wang, Wenchong;Du, Chuan;Wang, Chenguang;Hirtz, Michael;Li, Liqiang;Hao, Juanyuan;Wu, Qiong;Lu, Ran;Lu, Nan;Wang, Yue;Fuchs, Harald;Chi, Lifeng;
2:228:11 Spatial Mapping of Morphology and Electronic Properties of Air-Printed Pentacene Thin Films
DOI:10.1002/adfm.201303983 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:2 AU: Biswas, Shaurjo;Yang, Yongsoo;Schlepuetz, Christian M.;Geva, Nadav;Headrick, Randall L.;Pindak, Ron;Clarke, Roy;Shtein, Max;
2:228:12 Diffusion coefficients of fluorescent organic molecules in inert gases
DOI:10.1063/1.4816960 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Rolin, Cedric;Forrest, Stephen R.;
2:228:13 Organic-vapor-liquid-solid deposition with an impinging gas jet
DOI:10.1063/1.3699367 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Shaw, Daniel W.;Bufkin, Kevin;Baronov, Alexandr A.;Johnson, Brad L.;Patrick, David L.;
2:228:14 Fluid dynamics and mass transport in organic vapor jet printing
DOI:10.1063/1.3680881 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: McGraw, Gregory J.;Forrest, Stephen R.;
2:228:15 Tunable Organic Hetero-Patterns via Molecule Diffusion Control
DOI:10.1002/smll.201303400 JN:SMALL PY:2014 TC:0 AU: Wang, Hong;Wang, Wenchong;Li, Liqiang;Hirtz, Michael;Wang, C. G.;Wang, Yue;Xie, Zhaoxiong;Fuchs, Harald;Chi, Lifeng;
2:229:1 Control of mesoscale and nanoscale ordering of organic semiconductors at the gate dielectric/semiconductor interface for organic transistors
DOI:10.1039/b924415h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:48 AU: Lee, Wi Hyoung;Cho, Jeong Ho;Cho, Kilwon;
2:229:2 Charge carrier mobility in disordered organic blends for photovoltaics
DOI:10.1103/PhysRevB.81.205318 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Koster, L. J. A.;
2:229:3 Morphology and Efficiency: The Case of Polymer/ZnO Solar Cells
DOI:10.1002/aenm.201200787 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:9 AU: Koster, L. J. A.;Stenzel, Ole;Oosterhout, Stefan D.;Wienk, Martijn M.;Schmidt, Volker;Janssen, Rene A. J.;
2:229:4 A New Approach to Model-Based Simulation of Disordered Polymer Blend Solar Cells
DOI:10.1002/adfm.201102095 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:12 AU: Stenzel, Ole;Koster, L. Jan Anton;Thiedmann, Ralf;Oosterhout, Stefan D.;Janssen, Rene A. J.;Schmidt, Volker;
2:229:5 Charge carrier mobility in a two-phase disordered organic system in the low-carrier concentration regime
DOI:10.1103/PhysRevB.88.125311 JN:PHYSICAL REVIEW B PY:2013 TC:0 AU: Woellner, Cristiano F.;Li, Zi;Freire, Jose A.;Lu, Gang;Nguyen, Thuc-Quyen;
2:229:6 Interface Engineering To Control Magnetic Field Effects of Organic-Based Devices by Using a Molecular Self-Assembled Monolayer
DOI:10.1021/nn502199z JN:ACS NANO PY:2014 TC:4 AU: Jang, Hyuk-Jae;Pookpanratana, Sujitra J.;Brigeman, Alyssa N.;Kline, R. Joseph;Basham, James I.;Gundlach, David J.;Hacker, Christina A.;Kirillov, Oleg A.;Jurchescu, Oana D.;Richter, Curt A.;
2:229:7 Anisotropic field-effect hole mobility of liquid crystalline conjugated polymer layers formed on photoaligned polyimide films
DOI:10.1063/1.3527066 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:13 AU: Sakamoto, Kenji;Yasuda, Takeshi;Miki, Kazushi;Chikamatsu, Masayuki;Azumi, Reiko;
2:229:8 Diels-Alder Crosslinked Block-Copolymer Gate Dielectrics for Low Voltage Operated Top-Gate Organic Field-Effect Transistors
DOI:10.1080/15421406.2014.933300 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kang, Seok-Ju;Baeg, Kang-Jun;Choi, Won-San;Noh, Yong-Young;
2:229:9 Highly polarized polymer-based light-emitting diodes fabricated by using very thin photoaligned polyimide layers
DOI:10.1063/1.3445774 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Sakamoto, Kenji;Miki, Kazushi;Misaki, Masahiro;Sakaguchi, Koichi;Hijikata, Yuzuru;Chikamatsu, Masayuki;Azumi, Reiko;
2:229:10 Light exposure dependence of field-effect mobility of pentacene thin films deposited on very thin polyimide photo-alignment layers
DOI:10.1063/1.4729046 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Sakamoto, Kenji;Ueno, Junichi;Yonezawa, Takamitsu;Yasuda, Takeshi;Miki, Kazushi;
2:229:11 Ellipsometric determination of optical properties of carbazole-containing poly(L-glutamate) thin films prepared from different solvents
DOI:10.1016/j.tsf.2010.12.048 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Hiejima, Toshihiro;Takamizawa, Yosuke;Uchida, Takayuki;Kawabata, Shuichi;
2:230:1 Spontaneous interlayer formation in OPVs by additive migration due to additive-metal interactions
DOI:10.1039/c4ta03912b JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:3 AU: Deckman, Igal;Moshonov, Moshe;Obuchovsky, Stas;Brener, Reuven;Frey, Gitti L.;
2:230:2 The Roles of Poly(Ethylene Oxide) Electrode Buffers in Efficient Polymer Photovoltaics
DOI:10.1002/aenm.201100314 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:18 AU: Jeng, Jun-Yuan;Lin, Ming-Wei;Hsu, Yao-Jane;Wen, Ten-Chin;Guo, Tzung-Fang;
2:230:3 Origin of the efficiency enhancement in ferroelectric functionalized organic solar cells
DOI:10.1063/1.3587630 JN:APPLIED PHYSICS LETTERS PY:2011 TC:19 AU: Asadi, Kamal;de Bruyn, Paul;Blom, Paul W. M.;de Leeuw, Dago M.;
2:230:4 Effect of metal/bulk-heterojunction interfacial properties on organic photovoltaic device performance
DOI:10.1039/c4ta02519a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Wang, Jian;Friedman, Claire R.;Cabrera, Wilfredo;Tan, Kui;Lee, Yun-Ju;Chabal, Yves J.;Hsu, Julia W. P.;
2:230:5 Polarization fluctuation dominated electrical transport processes of polymer-based ferroelectric field effect transistors
DOI:10.1103/PhysRevB.85.115311 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Senanayak, Satyaprasad P.;Guha, S.;Narayan, K. S.;
2:230:6 Thermal metal deposition induces segregation in polymer thin films: a demonstration on OPVs
DOI:10.1039/c3tc31430h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Dekman, Igal;Brener, Reuven;Frey, Gitti L.;
2:230:7 Poly(ethylene oxide)-functionalized Al cathodes of tunable electron-injection capabilities for efficient polymer light-emitting diodes
DOI:10.1039/c1jm12403j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Lin, Ming-Wei;Wen, Ten-Chin;Hsu, Yao-Jane;Guo, Tzung-Fang;
2:230:8 The influence of electrode buffer layers on the performance of polymer photovoltaic devices
DOI:10.1016/j.renene.2009.11.044 JN:RENEWABLE ENERGY PY:2010 TC:8 AU: Feng, Zhihui;Hou, Yanbing;Lei, Desheng;
2:230:9 Effects of the Al cathode evaporation rate on the performance of organic solar cells
DOI:10.1063/1.4767445 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Kim, Junwoo;Kim, Jung-Su;Kwak, Sun-Woo;Yu, Jong-Su;Jang, Yunseok;Jo, Jeongdai;Lee, Taik-Min;Kim, Inyoung;
2:230:10 Interfacial polymer ferroelectric dipole induced electric field effect on the photovoltaic performance of organic solar cells
DOI:10.1116/1.4813752 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:2 AU: Rastogi, Alok C.;
2:231:1 Nanostructured Organic Semiconductors via Directed Supramolecular Assembly
DOI:10.1021/nn100521f JN:ACS NANO PY:2010 TC:46 AU: Rancatore, Benjamin J.;Mauldin, Clayton E.;Tung, Shih-Huang;Wang, Cheng;Hexemer, Alexander;Strzalka, Joseph;Frechet, Jean M. J.;Xu, Ting;
2:231:2 Nanostructured Donor-Acceptor Self Assembly with Improved Photoconductivity
DOI:10.1021/am5055542 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Saibal, B.;Ashar, A. Z.;Devi, R. Nandini;Narayan, K. S.;Asha, S. K.;
2:231:3 Nanostructured Crystalline Comb Polymer of Perylenebisimide by Directed Self-Assembly: Poly(4-vinylpyridine)-pentadecylphenol Perylenebisimide
DOI:10.1002/adfm.201202366 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:6 AU: Narayan, Rekha;Kumar, Prashant;Narayan, K. S.;Asha, S. K.;
2:231:4 Fluidic-Directed Assembly of Aligned Oligopeptides with pi-Conjugated Cores
DOI:10.1002/adma.201302496 JN:ADVANCED MATERIALS PY:2013 TC:8 AU: Marciel, Amanda B.;Tanyeri, Melikhan;Wall, Brian D.;Tovar, John D.;Schroeder, Charles M.;Wilson, William L.;
2:231:5 pi-Conjugated Polymer Anisotropic Organogel Nanofibrous Assemblies for Thermoresponsive Photonic Switches
DOI:10.1021/am505479z JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Narasimha, Karnati;Jayakannan, Manickam;
2:231:6 Patterning perylenes on surfaces using thiol-ene chemistry
DOI:10.1039/c2jm32610h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Wasserberg, D.;Steentjes, T.;Stopel, M. H. W.;Huskens, J.;Blum, C.;Subramaniam, V.;Jonkheijm, P.;
2:231:7 Directed Growth of 1D Assemblies of Perylene Diimide from a Conjugated Polymer
DOI:10.1021/cm903166f JN:CHEMISTRY OF MATERIALS PY:2010 TC:11 AU: Zhou, Zhongyuan;Brusso, Jaclyn L.;Holdcroft, Steven;
2:231:8 Self-Assembly Properties of Semiconducting Donor-Acceptor-Donor Bithienyl Derivatives of Tetrazine and Thiadiazole-Effect of the Electron Accepting Central Ring
DOI:10.1021/la4034707 JN:LANGMUIR PY:2013 TC:6 AU: Zapala, Joanna;Knor, Marek;Jaroch, Tomasz;Maranda-Niedbala, Agnieszka;Kurach, Ewa;Kotwica, Kamil;Nowakowski, Robert;Djurado, David;Pecaut, Jacques;Zagorska, Malgorzata;Pron, Adam;
2:231:9 Solid State Assemblies and Photophysical Characteristics of Linear and Bent-Core pi-Conjugated Oligophenylenevinylenes
DOI:10.1021/am400868e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Singh, Harpreet;Balamurugan, A.;Jayakannan, M.;
2:231:10 Substrate-Induced Varied Conformation and Molecular Assemblies: In Situ STM Observation of beta-Substituted Oligothiophene Adlayers on Au(111)
DOI:10.1021/la9042183 JN:LANGMUIR PY:2010 TC:11 AU: Wang, Li;Tongol, Bernard John V.;Yau, Shueh-Lin;Otsubo, Tetsuo;Itaya, King;
2:231:11 Direct Observation of Conformational Changes of beta-Substituted Duodecithiophene on a Au(111)-(root 3 x 22) Substrate Using in Situ Electrochemical STM in 0.1 M HClO4
DOI:10.1021/la902433j JN:LANGMUIR PY:2010 TC:5 AU: Tongol, Bernard John V.;Wang, Li;Yau, Shueh-Lin;Otsubo, Tetsuo;Itaya, Kingo;
2:231:12 Synthesis of Side-Chain Liquid-Crystalline Cinnamide Polymers Based on Post Polymer Reaction
DOI:10.1080/15421406.2012.689142 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Kondo, Mizuho;Dozono, Yoshiyuki;Goto, Kohei;Kawatsuki, Nobuhiro;
2:232:1 High-Throughput Near-Field Optical Nanoprocessing of Solution-Deposited Nanoparticles
DOI:10.1002/smll.201000345 JN:SMALL PY:2010 TC:20 AU: Pan, Heng;Hwang, David J.;Ko, Seung H.;Clem, Tabitha A.;Frechet, Jean M. J.;Baeuerle, Dieter;Grigoropoulos, Costas P.;
2:232:2 Photothermal Laser Microsintering of Nanoporous Gold
DOI:10.1021/la5011192 JN:LANGMUIR PY:2014 TC:5 AU: Schade, Lina;Franzka, Steffen;Mathieu, Mareike;Biener, Monika M.;Biener, Juergen;Hartmann, Nils;
2:232:3 Inkjet-printing of indium tin oxide (ITO) films for transparent conducting electrodes
DOI:10.1016/j.mseb.2011.05.053 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:24 AU: Hwang, Myun-sung;Jeong, Bong-yong;Moon, Jooho;Chun, Sang-Ki;Kim, Jihoon;
2:232:4 Efficient laser induced consolidation of nanoparticulate ZnO thin films with reduced thermal budget
DOI:10.1007/s00339-012-6871-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:9 AU: Baum, M.;Polster, S.;Jank, M. P. M.;Alexeev, I.;Frey, L.;Schmidt, M.;
2:232:5 Photothermal laser processing of thin silicon nanoparticle films: on the impact of oxide formation on film morphology
DOI:10.1007/s00339-012-6779-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:10 AU: Behrenberg, Dennis;Franzka, Steffen;Petermann, Nils;Wiggers, Hartmut;Hartmann, Nils;
2:232:6 Generation of transparent conductive electrodes by laser consolidation of LIFT printed ITO nanoparticle layers
DOI:10.1007/s00339-013-7646-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:8 AU: Baum, M.;Kim, H.;Alexeev, I.;Pique, A.;Schmidt, M.;
2:232:7 Sintering of thin titanium dioxide nanoparticle films via photothermal processing with ultraviolet continuous-wave lasers
DOI:10.1016/j.apsusc.2012.11.077 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Schade, Lina;Franzka, Steffen;Hardt, Sebastian;Wiggers, Hartmut;Hartmann, Nils;
2:232:8 Conceptional design of nano-particulate ITO inks for inkjet printing of electron devices
DOI:10.1007/s10853-012-6919-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Koelpin, Nadja;Wegener, Moritz;Teuber, Erik;Polster, Sebastian;Frey, Lothar;Roosen, Andreas;
2:232:9 Selective Sintering of Metal Nanoparticle Ink for Maskless Fabrication of an Electrode Micropattern Using a Spatially Modulated Laser Beam by a Digital Micromirror Device
DOI:10.1021/am405323c JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: An, Kunsik;Hong, Sukjoon;Han, Seungyong;Lee, Hyungman;Yeo, Junyeob;Ko, Seung Hwan;
2:232:10 Laser-doping of crystalline silicon substrates using doped silicon nanoparticles
DOI:10.1016/j.tsf.2013.09.056 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Meseth, Martin;Lamine, Kais;Dehnen, Martin;Kayser, Sven;Brock, Wolfgang;Behrenberg, Dennis;Orthner, Hans;Elsukova, Anna;Hartmann, Nils;Wiggers, Hartmut;Huelser, Tim;Nienhaus, Hermann;Benson, Niels;Schmechel, Roland;
2:232:11 Fabrication of periodic surface topographies via sequential photothermal laser microsintering of silicon nanoparticle films
DOI:10.1016/j.apsusc.2013.01.205 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Behrenberg, Dennis;Franzka, Steffen;Petermann, Nils;Wiggers, Hartmut;Hartmann, Nils;
2:232:12 Thermoreflectance imaging of percolation effects and dynamic resistance in indium tin oxide nanoparticle layers
DOI:10.1063/1.4757960 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Chavez, R.;Angst, S.;Maize, K.;Gondorf, A.;Schierning, G.;Wolf, D. E.;Lorke, A.;Shakouri, A.;
2:232:13 Funnel-structured TiO2 electrode for improved charge extraction in dye-sensitized solar cell
DOI:10.1016/j.apsusc.2013.06.011 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Jin, Minhea;Lee, Myeongkyu;
2:232:14 Formation of In nanoparticles on InP wafers by laser-assisted etching
DOI:10.1007/s10853-010-5198-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:0 AU: Musaev, O. R.;Dusevich, V.;Wrobel, J. M.;Kruger, M. B.;
2:233:1 Effect of alcohol vapor treatment on electrical and optical properties of poly(3,4-ethylene dioxythiophene):poly(styrene sulfonate) films for indium tin oxide-free organic light-emitting diodes
DOI:10.1016/j.apsusc.2014.09.143 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Fallahzadeh, Ali;Saghaei, Jaber;Yousefi, Mohammad Hassan;
2:233:2 Organic Light-Emitting Diode Microcavities from Transparent Conducting Metal Oxide Photonic Crystals
DOI:10.1021/nl104036c JN:NANO LETTERS PY:2011 TC:25 AU: Puzzo, Daniel P.;Helander, Michael G.;O'Brien, Paul G.;Wang, Zhibin;Soheilnia, Navid;Kherani, Nazir;Lu, Zhenghong;Ozin, Geoffrey A.;
2:233:3 Synthesis of well dispersed graphene in conjugated poly(3,4-ethylenedioxythiophene):polystyrene sulfonate via click chemistry
DOI:10.1016/j.compscitech.2013.12.024 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2014 TC:12 AU: Deetuam, Chutimar;Samthong, Chavakorn;Thongyai, Supakanok;Praserthdam, Piyasan;Somwangthanaroj, Anongnat;
2:233:4 Optical investigations of the effect of solvent and thermal annealing on the optoelectronic properties of Poly(3,4-ethylenedioxythiophene): poly(styrenesulfonate) films
DOI:10.1016/j.tsf.2013.03.138 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Laskarakis, A.;Karagiannidis, P. G.;Georgiou, D.;Nikolaidou, D. M.;Logothetidis, S.;
2:233:5 Photorefractive photonic crystals fabricated with PMMA and 5CB based materials using three-dimensional colloidal crystals
DOI:10.1039/c3tc30793j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Li, Shulei;Fu, Ming;Zhang, Yongna;Duan, Jiahua;He, Dawei;Wang, Yongsheng;
2:233:6 Deposition of PEDOT: PSS Nanoparticles as a Conductive Microlayer Anode in OLEDs Device by Desktop Inkjet Printer
DOI:10.1155/2011/606714 JN:JOURNAL OF NANOMATERIALS PY:2011 TC:5 AU: Ummartyotin, S.;Juntaro, J.;Wu, C.;Sain, M.;Manuspiya, H.;
2:233:7 Enhanced conductivity in sorbitol-treated PEDOT-PSS. Observation of an in situ cyclodehydration reaction
DOI:10.1016/j.synthmet.2010.08.021 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Onorato, Amber;Invernale, Michael A.;Berghorn, Ian D.;Pavlik, Christopher;Sotzing, Gregory A.;Smith, Michael B.;
2:233:8 The performance of OLEDs based on sorbitol doped PEDOT:PSS
DOI:10.1016/j.synthmet.2011.10.011 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Havare, Ali Kemal;Can, Mustafa;Demic, Serafettin;Kus, Mahmut;Icli, Siddik;
2:233:9 Synthesis of graphene soluble in organic solvents by simultaneous ether-functionalization with octadecane groups and reduction
DOI:10.1016/j.matlet.2010.06.058 JN:MATERIALS LETTERS PY:2010 TC:13 AU: Liu, Jincheng;Wang, Yinjie;Xu, Shiping;Sun, Darren Delai;
2:233:10 Study of solvent-doped PEDOT: PSS layer on small molecule organic solar cells
DOI:10.1016/j.synthmet.2012.12.008 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Huang, Chien-Jung;Chen, Kan-Lin;Tsao, Yao-Jen;Chou, Dei-Wei;Chen, Wen-Ray;Meen, Teen-Hang;
2:233:11 Embedding of IrQ(ppy)(2) organometallic compounds in polypyrrole conducting polymer for OLED's applications
DOI:10.1016/j.synthmet.2014.10.041 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Ciobotaru, I. C.;Matei, E.;Ciobotaru, C. C.;Polosan, S.;
2:233:12 Synthesis of well dispersed graphene in conjugated poly(3,4-ethylenedioxythiophene):polystyrene sulfonate via click chemistry (vol 93, pg 1, 2014)
DOI:10.1016/j.compscitech.2014.11.007 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2014 TC:0 AU: Deetuam, Chutimar;Samthong, Chavakorn;Thongyai, Supakanok;Praserthdam, Piyasan;Somwangthanaroj, Anongnat;
2:234:1 Hierarchically structured, blue-emitting polymer hybrids through surface-initiated nitroxide-mediated polymerization and water templated assembly
DOI:10.1039/c3tc31122h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Leone, Giuseppe;Giovanella, Umberto;Bertini, Fabio;Hoseinkhani, Sajjad;Porzio, William;Ricci, Giovanni;Botta, Chiara;Galeotti, Francesco;
2:234:2 FRET-Assisted Deep-Blue Electroluminescence in Intercalated Polymer Hybrids
DOI:10.1021/cm501870e JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Giovanella, Umberto;Leone, Giuseppe;Galeotti, Francesco;Mroz, Wojciech;Meinardi, Francesco;Botta, Chiara;
2:234:3 Poly(styrene)-graft-/rhodamine 6G-fluoromica hybrids: synthesis, characterization and photophysical properties
DOI:10.1039/c2tc00533f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Leone, Giuseppe;Giovanella, Umberto;Bertini, Fabio;Porzio, William;Meinardi, Francesco;Botta, Chiara;Ricci, Giovanni;
2:234:4 In situ synthesis of fluorescent poly(norbornene)/oxazine-1 dye loaded fluoromica hybrids: supramolecular control over dye arrangement
DOI:10.1039/c1jm11281c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Leone, Giuseppe;Giovanella, Umberto;Porzio, William;Botta, Chiara;Ricci, Giovanni;
2:234:5 Immobilization of poly(fluorene) within clay nanocomposite: An easy way to control keto defect
DOI:10.1016/j.jcis.2011.10.037 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:10 AU: Chakraborty, Chanchal;Dana, Kausik;Malik, Sudip;
2:234:6 Exceptionally Strong Multiphoton-Excited Blue Photoluminescence and Lasing from Ladder-Type Oligo(p-phenylene)s
DOI:10.1021/ja302085q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Fan, Hai Hua;Guo, Lei;Li, King Fai;Wong, Man Shing;Cheah, Kok Wai;
2:234:7 On the Arrangements of R6G Molecules in Organophilic C12TMA/Lap Clay Films for Low Dye Loadings
DOI:10.1021/la902414n JN:LANGMUIR PY:2010 TC:10 AU: Salleres, Sandra;Lopez Arbeloa, Fernando;Martinez Martinez, Virginia;Arbeloa, Teresa;Lopez Arbeloa, Inigo;
2:234:8 Synthesis and characterization of novel type poly (4-chloromethyl styrene-grft-4-vinylpyridine)/TiO2 nanocomposite via nitroxide-mediated radical polymerization
DOI:10.1016/j.polymer.2011.08.016 JN:POLYMER PY:2011 TC:19 AU: Jaymand, Mehdi;
2:234:9 Rhodamine 6G Intercalated Montmorillonite Nanopigments-Polyethylene Composites: Facile Synthesis and UltravioletStability Study
DOI:10.1111/j.1551-2916.2010.04326.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2011 TC:6 AU: Smitha, Venu Sreekala;Manjumol, Kochupurayil Appukuttannair;Ghosh, Swapankumar;Brahmakumar, Mathalayil;Pavithran, Chorappan;Perumal, Petchimuthu;Warrier, Krishna Gopakumar;
2:234:10 Aggregation of Rhodamine 6G in titanium dioxide nanolayers and bulk xerogels
DOI:10.1016/j.optmat.2014.01.026 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: Lewkowicz, Aneta;Synak, Anna;Bojarski, Piotr;Grobelna, Beata;Karczewski, Jakub;Jankowski, Dawid;Mahlik, Sebastian;
2:234:11 Complexation of Amyloid Fibrils with Charged Conjugated Polymers
DOI:10.1021/la404739f JN:LANGMUIR PY:2014 TC:5 AU: Ghosh, Dhiman;Dutta, Paulami;Chakraborty, Chanchal;Singh, Pradeep K.;Anoop, A.;Jha, Narendra Nath;Jacob, Reeba S.;Mondal, Mrityunjoy;Mankar, Shruti;Das, Subhadeep;Malik, Sudip;Maji, Samir K.;
2:234:12 Synthesis and nucleation mechanism of inverse emulsion polymerization of acrylamide by RAFT polymerization: A comparative study
DOI:10.1016/j.polymer.2010.10.063 JN:POLYMER PY:2011 TC:12 AU: Ouyang, Liu;Wang, Lianshi;Schork, F. Joseph;
2:235:1 Solution-Processable Septithiophene Monolayer Transistor
DOI:10.1002/adma.201103522 JN:ADVANCED MATERIALS PY:2012 TC:21 AU: Defaux, Matthieu;Gholamrezaie, Fatemeh;Wang, Jingbo;Kreyes, Andreas;Ziener, Ulrich;Anokhin, Denis V.;Ivanov, Dimitri A.;Moser, Armin;Neuhold, Alfred;Salzmann, Ingo;Resel, Roland;de Leeuw, Dago M.;Meskers, Stefan C. J.;Moeller, Martin;Mourran, Ahmed;
2:235:2 The Longest beta-Unsubstituted Oligothiophenes and Their Self-Assembly in Solution
DOI:10.1021/cm1027095 JN:CHEMISTRY OF MATERIALS PY:2010 TC:18 AU: Kreyes, Andreas;Amirkhani, Masoud;Lieberwirth, Ingo;Mauer, Ralf;Laquai, Frederic;Landfester, Katharina;Ziener, Ulrich;
2:235:3 Fine Tuning of Solid-State Properties of Septithiophenes by Tailoring the Substituents
DOI:10.1021/cm903444n JN:CHEMISTRY OF MATERIALS PY:2010 TC:16 AU: Kreyes, Andreas;Ellinger, Stefan;Landfester, Katharina;Defaux, Matthieu;Ivanov, Dimitri A.;Elschner, Andreas;Meyer-Friedrichsen, Timo;Ziener, Ulrich;
2:235:4 Predictability of Thermal and Electrical Properties of End-Capped Oligothiophenes by a Simple Bulkiness Parameter
DOI:10.1021/cm400702t JN:CHEMISTRY OF MATERIALS PY:2013 TC:3 AU: Kreyes, Andreas;Mourran, Ahmed;Hong, Zhihua;Wang, Jingbo;Moeller, Martin;Gholamrezaie, Fatemeh;Roelofs, W. S. Christian;de Leeuw, Dago M.;Ziener, Ulrich;
2:235:5 Monolayer Properties of Asymmetrically Substituted Sexithiophene
DOI:10.1021/la404918b JN:LANGMUIR PY:2014 TC:1 AU: Wang, Jingbo;de Jeu, Wim H.;Ziener, Ulrich;Polinskaya, Marina S.;Ponomarenko, Sergei A.;Ruecker, Ulrich;Ruderer, Matthias A.;Herzig, Eva M.;Mueller-Buschbaum, Peter;Moeller, Martin;Mourran, Ahmed;
2:235:6 High Hole Mobility and Thickness-Dependent Crystal Structure in alpha,omega-Dihexylsexithiophene Single-Monolayer Field-Effect Transistors
DOI:10.1002/adfm.201201548 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:6 AU: Mannebach, Ehren M.;Spalenka, Josef W.;Johnson, Phillip S.;Cai, Zhonghou;Himpsel, F. J.;Evans, Paul G.;
2:235:7 Charge transport and light emission in bilayer organic field-effect transistors
DOI:10.1016/j.tsf.2011.12.031 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Li, Weicong;Kwok, H. L.;
2:235:8 Influence of gate dielectrics on the performance of single-layered organic transistors and bi-layered organic light-emitting transistors prepared by the neutral cluster beam deposition method
DOI:10.1063/1.3573537 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Zhang, Ying;Seo, Hoon-Seok;An, Min-Jun;Oh, Jeong-Do;Choi, Jong-Ho;
2:235:9 Study on copper phthalocyanine and perylene-based ambipolar organic light-emitting field-effect transistors produced using neutral beam deposition method
DOI:10.1063/1.4873299 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Kim, Dae-Kyu;Oh, Jeong-Do;Shin, Eun-Sol;Seo, Hoon-Seok;Choi, Jong-Ho;
2:235:10 Formation of giant crystalline grain via delayed growth process driven by organic molecular anisotropy
DOI:10.1103/PhysRevB.82.235421 JN:PHYSICAL REVIEW B PY:2010 TC:5 AU: Al-Mahboob, A.;Fujikawa, Y.;Sadowski, J. T.;Hashizume, T.;Sakurai, T.;
2:235:11 Dynamics of DNA Replication in Yeast
DOI:10.1103/PhysRevLett.107.068103 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:16 AU: Retkute, Renata;Nieduszynski, Conrad A.;de Moura, Alessandro;
2:235:12 Inferring Where and When Replication Initiates from Genome-Wide Replication Timing Data
DOI:10.1103/PhysRevLett.108.268101 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:11 AU: Baker, A.;Audit, B.;Yang, S. C. -H.;Bechhoefer, J.;Arneodo, A.;
2:235:13 Inferring Where and When Replication Initiates from Genome-Wide Replication Timing Data (vol 108, 268101, 2012)
DOI:10.1103/PhysRevLett.109.039901 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:0 AU: Baker, A.;Audit, B.;Yang, S. C. -H.;Bechhoefer, J.;Arneodo, A.;
2:236:1 Low-threshold blue lasing from silk fibroin thin films
DOI:10.1063/1.4748120 JN:APPLIED PHYSICS LETTERS PY:2012 TC:16 AU: Toffanin, Stefano;Kim, Sunghwan;Cavallini, Susanna;Natali, Marco;Benfenati, Valentina;Amsden, Jason J.;Kaplan, David L.;Zamboni, Roberto;Muccini, Michele;Omenetto, Fiorenzo G.;
2:236:2 Biofunctional Silk/Neuron Interfaces
DOI:10.1002/adfm.201102310 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:18 AU: Benfenati, Valentina;Stahl, Katja;Gomis-Perez, Carolina;Toffanin, Stefano;Sagnella, Anna;Torp, Reidun;Kaplan, David L.;Ruani, Giampiero;Omenetto, Fiorenzo G.;Zamboni, Roberto;Muccini, Michele;
2:236:3 A nanostructured conductive bio-composite of silk fibroin-single walled carbon nanotubes
DOI:10.1039/c3tb21172j JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:2 AU: Dionigi, Chiara;Posati, Tamara;Benfenati, Valentina;Sagnella, Anna;Pistone, Assunta;Bonetti, Simone;Ruani, Giampiero;Dinelli, Franco;Padeletti, Giuseppina;Zamboni, Roberto;Muccini, Michele;
2:236:4 Photostimulation of Whole-Cell Conductance in Primary Rat Neocortical Astrocytes Mediated by Organic Semiconducting Thin Films
DOI:10.1002/adhm.201300179 JN:ADVANCED HEALTHCARE MATERIALS PY:2014 TC:7 AU: Benfenati, Valentina;Martino, Nicola;Antognazza, Maria Rosa;Pistone, Assunta;Toffanin, Stefano;Ferroni, Stefano;Lanzani, Guglielmo;Muccini, Michele;
2:236:5 A silk platform that enables electrophysiology and targeted drug delivery in brain astroglial cells
DOI:10.1016/j.biomaterials.2010.07.013 JN:BIOMATERIALS PY:2010 TC:26 AU: Benfenati, Valentina;Toffanin, Stefano;Capelli, Raffaella;Camassa, Laura M. A.;Ferroni, Stefano;Kaplan, David L.;Omenetto, Fiorenzo G.;Muccini, Michele;Zamboni, Roberto;
2:236:6 A Polymer Optoelectronic Interface Provides Visual Cues to a Blind Retina
DOI:10.1002/adma.201304368 JN:ADVANCED MATERIALS PY:2014 TC:8 AU: Gautam, Vini;Rand, David;Hanein, Yael;Narayan, K. S.;
2:236:7 N-type perylene-based organic semiconductors for functional neural interfacing
DOI:10.1039/c3tb20555j JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:6 AU: Toffanin, Stefano;Benfenati, Valentina;Pistone, Assunta;Bonetti, Simone;Koopman, Wouter;Posati, Tamara;Sagnella, Anna;Natali, Marco;Zamboni, Roberto;Ruani, Giampiero;Muccini, Michele;
2:236:8 All-Biomaterial Laser Using Vitamin and Biopolymers
DOI:10.1002/adma201300818 JN:ADVANCED MATERIALS PY:2013 TC:9 AU: Nizamoglu, Sedat;Gather, Malte C.;Yun, Seok Hyun;
2:236:9 Multi-state lasing in self-assembled ring-shaped green fluorescent protein microcavities
DOI:10.1063/1.4904004 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Dietrich, Christof P.;Hoefling, Sven;Gather, Malte C.;
2:236:10 Bio-inspired optofluidic lasers with luciferin
DOI:10.1063/1.4807837 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Wu, Xiang;Chen, Qiushu;Sun, Yuze;Fan, Xudong;
2:237:1 Enhanced carrier injection in pentacene thin-film transistors by inserting a MoO3-doped pentacene layer
DOI:10.1063/1.3680249 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Wang, Zhaokui;Alam, Mir Waqas;Lou, Yanhui;Naka, Shigeki;Okada, Hiroyuki;
2:237:2 Enhanced short-circuit current density in poly(3-hexylthiophene) and 1-(3-methoxycarbonyl)-propyl-1-phenyl-(6,6)C61 based organic solar cells by doping small molecular perylene
DOI:10.1063/1.3615711 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Lou, Yanhui;Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:237:3 Dual roles of MoO3-doped pentacene thin films as hole-extraction and multicharge-separation functions in pentacene/C-60 heterojunction organic solar cells
DOI:10.1063/1.4798281 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Lou, Yan-Hui;Xu, Mei-Feng;Wang, Zhao-Kui;Naka, Shigeki;Okada, Hiroyuki;Liao, Liang-Sheng;
2:237:4 Molecular-scale properties of MoO3-doped pentacene
DOI:10.1103/PhysRevB.82.155434 JN:PHYSICAL REVIEW B PY:2010 TC:13 AU: Ha, Sieu D.;Meyer, Jens;Kahn, Antoine;
2:237:5 An organic p-i-n homojunction as ultra violet light emitting diode and visible-blind photodiode in one
DOI:10.1063/1.3617427 JN:APPLIED PHYSICS LETTERS PY:2011 TC:12 AU: Hamwi, S.;Riedl, T.;Kowalsky, W.;
2:237:6 Electronic structure evolution in doping of fullerene (C-60) by molybdenum trioxide
DOI:10.1063/1.48957841 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Wang, Chenggong;Gao, Yongli;
2:237:7 Observation of Filamentous Nanostructures in Organic-Inorganic Composite Thin Films Deposited by Co-Evaporation
DOI:10.1002/adfm.201202089 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:2 AU: Donhauser, Daniela;Pfannmoeller, Martin;Dieterle, Levin;Schultheiss, Katrin;Schroeder, Rasmus R.;Kowalsky, Wolfgang;Kroeger, Michael;
2:237:8 Charge carrier densities in chemically doped organic semiconductors verified by two independent techniques
DOI:10.1063/1.3427416 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Lehnhardt, M.;Hamwi, S.;Hoping, M.;Reinker, J.;Riedl, T.;Kowalsky, W.;
2:237:9 Mobility enhancement of top contact pentacene based organic thin film transistor with bi-layer GeO/Au electrodes
DOI:10.1063/1.4792235 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Alam, Mir Waqas;Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:237:10 Electronic structure of Cs-doped tris, 8-hydroxyquinoline. aluminum (vol 86, 213508, 2005)
DOI:10.1063/1.3449137 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Ding, Huanjun;Gao, Yongli;
2:238:1 Conduction-type control of fullerene films from n- to p-type by molybdenum oxide doping
DOI:10.1063/1.3556312 JN:APPLIED PHYSICS LETTERS PY:2011 TC:29 AU: Kubo, Masayuki;Iketaki, Kai;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:2 Tandem photovoltaic cells formed in single fullerene films by impurity doping
DOI:10.1063/1.4769455 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Ishiyama, Norihiro;Kubo, Masayuki;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:3 pn-homojunction organic solar cells formed in phase-separated co-deposited films
DOI:10.1063/1.4847296 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Kubo, Masayuki;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:4 pn-homojunction formation in single fullerene films
DOI:10.1063/1.3647994 JN:AIP ADVANCES PY:2011 TC:16 AU: Kubo, Masayuki;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:5 pn-control and pn-homojunction formation of metal-free phthalocyanine by doping
DOI:10.1063/1.4747814 JN:AIP ADVANCES PY:2012 TC:8 AU: Shinmura, Yusuke;Kubo, Masayuki;Ishiyama, Norihiro;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:6 Ionization sensitization of doping in co-deposited organic semiconductor films
DOI:10.1063/1.4901408 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Shinmura, Yusuke;Yamashina, Yohei;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:7 Junction Formation by Doping in H2Pc:C-60 Co-Evaporated Films for Solar Cell Application
DOI:10.1080/15421406.2013.808137 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:4 AU: Kubo, Masayuki;Shinmura, Yusuke;Ishiyama, Norihiro;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:8 Doping-based control of the energetic structure of photovoltaic co-deposited films
DOI:10.1063/1.3643045 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Ishiyama, Norihiro;Kubo, Masayuki;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:9 Effect of Ca and buffer layers on the performance of organic light-emitting diodes based on tris-(8-hydroxyquinoline) aluminum
DOI:10.1016/j.tsf.2010.01.045 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Shi, Shengwei;Ma, Dongge;
2:238:10 Evaluation of Barrier Width by Low-Frequency Capacitance Measurements for MoO3-doped p-Type C-60 Films
DOI:10.1080/15421406.2013.804791 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Yoshioka, Tadashi;Kubo, Masayuki;Ishiyama, Norihiro;Kaji, Toshihiko;Hiramoto, Masahiro;
2:238:11 Enhanced performance in organic light-emitting diode by utilizing MoO3-doped C-60 as effective hole injection layer
DOI:10.1016/j.synthmet.2011.08.026 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Zou, Ye;Deng, Zhenbo;Xu, Denghui;Xiao, Jing;Zhou, Maoyang;Du, Hailiang;Wang, Yongsheng;
2:239:1 Enhanced optical power and low forward voltage of GaN-based light-emitting diodes with Ga-doped ZnO transparent conducting layer
DOI:10.1063/1.3298644 JN:APPLIED PHYSICS LETTERS PY:2010 TC:31 AU: Park, Tae-Young;Choi, Yong-Seok;Kang, Jang-Won;Jeong, Jae-Ho;Park, Seong-Ju;Jeon, Dong Min;Kim, Je Won;Kim, Yong Chun;
2:239:2 High quality transparent TiO2/Ag/TiO2 composite electrode films deposited on flexible substrate at room temperature by sputtering
DOI:10.1063/1.4808438 JN:APL MATERIALS PY:2013 TC:18 AU: Dhar, Aritra;Alford, T. L.;
2:239:3 Conduction and transmission analysis in gold nanolayers embedded in zinc oxide for flexible electronics
DOI:10.1063/1.3435467 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Sivaramakrishnan, K.;Alford, T. L.;
2:239:4 Influence of temperature dependent morphology on localized surface plasmon resonance in ultra-thin silver island films
DOI:10.1016/j.apsusc.2013.08.062 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Venugopal, N.;Mitra, Anirban;
2:239:5 Optical transparency of ZnO thin film using localized surface plasmons of Ag nanoislands
DOI:10.1016/j.optmat.2013.03.003 JN:OPTICAL MATERIALS PY:2013 TC:5 AU: Venugopal, N.;Mitra, Anirban;
2:239:6 Influence of process parameters on surface plasmon resonance characteristics of densely packed gold nanoparticle films grown by pulsed laser deposition
DOI:10.1016/j.apsusc.2012.01.111 JN:APPLIED SURFACE SCIENCE PY:2012 TC:9 AU: Verma, Shweta;Rao, B. Tirumala;Rai, Sanjay;Ganesan, V.;Kukreja, L. M.;
2:239:7 Composite medium with silver nanoparticles as an anti-reflection optical coating
DOI:10.1007/s00339-010-6193-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:8 AU: Moiseev, Sergey G.;
2:239:8 Characteristics of GaN-based LEDs using Ga-doped or In-doped ZnO transparent conductive layers grown by atomic layer deposition
DOI:10.1016/j.jcrysgro.2013.10.042 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:6 AU: Yen, Kuo-Yi;Chiu, Chien-Hua;Hsiao, Chi-Ying;Li, Chun-Wei;Chou, Chien-Hua;Lo, Ko-Ying;Chen, Tzu-Pei;Lin, Chu-Hsien;Lin, Tai-Yuan;Gong, Jyh-Rong;
2:239:9 Optical properties of ZnO/Al/ZnO multilayer films for large area transparent electrodes
DOI:10.1557/jmr.2014.298 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:1 AU: Rwenyagila, Egidius Rutatizibwa;Agyei-Tuffour, Benjamin;Kana, Martiale Gaetan Zebaze;Akin-Ojo, Omololu;Soboyejo, Winston Oluwole;
2:240:1 Making Contacts to n-Type Organic Transistors Using Carbon Nanotube Arrays
DOI:10.1021/nn1027032 JN:ACS NANO PY:2011 TC:29 AU: Cicoira, Fabio;Aguirre, Carla M.;Martel, Richard;
2:240:2 Enhanced Ambipolar Charge Injection with Semiconducting Polymer/Carbon Nanotube Thin Films for Light-Emitting Transistors
DOI:10.1021/nn203874a JN:ACS NANO PY:2012 TC:28 AU: Gwinner, Michael C.;Jakubka, Florian;Gannott, Florentina;Sirringhaus, Henning;Zaumseil, Jana;
2:240:3 Current Trends in Shrinking the Channel Length of Organic Transistors Down to the Nanoscale
DOI:10.1002/adma.200900504 JN:ADVANCED MATERIALS PY:2010 TC:45 AU: Cao, Yang;Steigerwald, Michael L.;Nuckolls, Colin;Guo, Xuefeng;
2:240:4 Ambipolar copper phthalocyanine transistors with carbon nanotube array electrodes
DOI:10.1063/1.3585658 JN:APPLIED PHYSICS LETTERS PY:2011 TC:18 AU: Cicoira, Fabio;Coppede, Nicola;Iannotta, Salvatore;Martel, Richard;
2:240:5 The correlation between gate dielectric, film growth, and charge transport in organic thin film transistors: the case of vacuum-sublimed tetracene thin films
DOI:10.1039/c2tc00337f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Wuensche, Julia;Tarabella, Giuseppe;Bertolazzi, Simone;Bocoum, Maimouna;Coppede, Nicola;Barba, Luisa;Arrighetti, Gianmichele;Lutterotti, Luca;Iannotta, Salvatore;Cicoira, Fabio;Santato, Clara;
2:240:6 Titanyl phthalocyanine ambipolar thin film transistors making use of carbon nanotube electrodes
DOI:10.1088/0957-4484/25/48/485703 JN:NANOTECHNOLOGY PY:2014 TC:0 AU: Coppede, Nicola;Valitova, Irina;Mahvash, Farzaneh;Tarabella, Giuseppe;Ranzieri, Paolo;Iannotta, Salvatore;Santato, Clara;Martel, Richard;Cicoira, Fabio;
2:240:7 Tetracene thin film transistors with polymer gate dielectrics
DOI:10.1063/1.3606535 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Bertolazzi, Simone;Wuensche, Julia;Cicoira, Fabio;Santato, Clara;
2:240:8 Photoelectrical imaging and characterization of point contacts in pentacene thin-film transistors
DOI:10.1063/1.3462914 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Tsen, Adam W.;Cicoira, Fabio;Malliaras, George G.;Park, Jiwoong;
2:240:9 Electronic transport in sub-micron square area organic field-effect transistors
DOI:10.1063/1.4795014 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Golmar, F.;Stoliar, P.;Gobbi, M.;Casanova, F.;Hueso, L. E.;
2:241:1 Morphological study of P3HT:PCBM blend films prepared through solvent annealing for solar cell applications
DOI:10.1016/j.solmat.2010.09.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:68 AU: Chen, Fang-Chung;Ko, Chu-Jung;Wu, Jyh-Lih;Chen, Wei-Chi;
2:241:2 Transport and spectroscopic studies of the effects of fullerene structure on the efficiency and lifetime of polythiophene-based solar cells
DOI:10.1016/j.solmat.2012.01.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:0 AU: Sena, Emilee L.;Peel, Justin H.;Wesenberg, Devin;Nathan, Shreya;Wallis, Marianne;Giammona, Maxwell J.;Adalsteinsson, Thorsteinn;McNelis, Brian J.;Barber, Richard P., Jr.;
2:241:3 Solvent induced morphology evolution from microrods to monodispersed microspheres based on 1,2-diphenyl-4-(4-methoxyphenyl)-1,3-cyclopentadiene
DOI:10.1016/j.synthmet.2013.04.014 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Ye, Junwei;Xu, Lifeng;Gao, Yuan;Wang, Huan;Ding, Yunzhe;Deng, Dai;Gong, Weitao;Ning, Guiling;
2:241:4 Reconciling macro- with nano- carrier mobility measurements in organic photovoltaic blends
DOI:10.1063/1.4875026 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Omar, Yamila M.;Maragliano, Carlo;Chiesa, Matteo;Al Ghaferi, Amal;Stefancich, Marco;
2:241:5 Composition-dependent phase separation effects of organic solar cells using P3HT:PCBM as active layer and chromium oxide as hole transporting layer
DOI:10.1016/j.apsusc.2010.11.142 JN:APPLIED SURFACE SCIENCE PY:2011 TC:12 AU: Qin, Pingli;Fang, Guojia;Sun, Nanhai;Fan, Xi;Zheng, Qiao;Chen, Fei;Wan, Jiawei;Zhao, Xingzhong;
2:241:6 Organic solar cells comprising multiple-device stacked structures exhibiting complementary absorption behavior
DOI:10.1016/j.solmat.2013.07.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:2 AU: Lin, Wei-Ting;Lin, Yen-Tseng;Chou, Chu-Hsien;Chen, Fang-Chung;Hsu, Chain-Shu;
2:241:7 Nanostructured layers of a new cross-linkable poly(3-hexylthiophene) in organic photovoltaic cells
DOI:10.1016/j.synthmet.2012.10.007 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Brotas, Graca;Farinhas, Joana;Ferreira, Quirina;Morgado, Jorge;Charas, Ana;
2:241:8 Thermal Annealing Effects on the Fine Structure and Performance of P3HT: PCBM Based Organic Solar Cells Fabricated in Air
DOI:10.1080/15421406.2014.935914 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Ibrahim, M. M.;Ghazy, O. A.;Abouelfadl, F. I.;Hosni, H. M.;Shehata, E. M.;Balboul, M. R.;
2:241:9 The Optical and Electrical Characterization of Solar Cell Devices Based on the Physical Parameters of P3HT:PCBM Photoactive Layers
DOI:10.1080/15421406.2012.691001 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Song, Yoonseog;Ryu, Sang Ouk;
2:241:10 Influence of functionalized fullerene structure on polymer photovoltaic degradation
DOI:10.1016/j.solmat.2009.11.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:4 AU: Johnson, Brian H.;Allagoa, Enaanake;Thomas, Robert L.;Stettler, Gregory;Wallis, Marianne;Peel, Justin H.;Adalsteinsson, Thorsteinn;McNelis, Brian J.;Barber, Richard P., Jr.;
2:242:1 Spinodal Decomposition of Blends of Semiconducting and Ferroelectric Polymers
DOI:10.1002/adfm.201001505 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:22 AU: Asadi, Kamal;Wondergem, Harry J.;Moghaddam, Reza Saberi;McNeill, Christopher R.;Stingelin, Natalie;Noheda, Beatriz;Blom, Paul W. M.;de Leeuw, Dago M.;
2:242:2 Crossbar memory array of organic bistable rectifying diodes for nonvolatile data storage
DOI:10.1063/1.3508948 JN:APPLIED PHYSICS LETTERS PY:2010 TC:20 AU: Asadi, Kamal;Li, Mengyuan;Stingelin, Natalie;Blom, Paul W. M.;de Leeuw, Dago M.;
2:242:3 Ferroelectric Tunnel Junction Memory Devices made from Monolayers of Vinylidene Fluoride Oligomers
DOI:10.1002/adma.201104476 JN:ADVANCED MATERIALS PY:2012 TC:10 AU: Kusuma, Damar Yoga;Lee, Pooi See;
2:242:4 Structure of Phase-Separated Ferroelectric/Semiconducting Polymer Blends for Organic Non-volatile Memories
DOI:10.1002/smll.200901719 JN:SMALL PY:2010 TC:21 AU: McNeill, Christopher R.;Asadi, Kamal;Watts, Benjamin;Blom, Paul W. M.;de Leeuw, Dago M.;
2:242:5 High- Performance Ferroelectric Memory Based on Phase- Separated Films of Polymer Blends
DOI:10.1002/adfm.201302056 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Khan, Mohammad A.;Bhansali, Unnat S.;Almadhoun, Mahmoud N.;Odeh, Ihab N.;Cha, Dongkyu;Alshareef, Husam N.;
2:242:6 Cluster synthesis of monodisperse rutile-TiO2 nanoparticles and dielectric TiO2-vinylidene fluoride oligomer nanocomposites
DOI:10.1088/0957-4484/22/40/405605 JN:NANOTECHNOLOGY PY:2011 TC:4 AU: Balasubramanian, Balamurugan;Kraemer, Kristin L.;Valloppilly, Shah R.;Ducharme, Stephen;Sellmyer, David J.;
2:242:7 Processing and Low Voltage Switching of Organic Ferroelectric Phase-Separated Bistable Diodes
DOI:10.1002/adfm.201102898 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:14 AU: Li, Mengyuan;Stingelin, Natalie;Michels, Jasper J.;Spijkman, Mark-Jan;Asadi, Kamal;Beerends, Rene;Biscarini, Fabio;Blom, Paul W. M.;de Leeuw, Dago M.;
2:242:8 Low-voltage-operated top-gate polymer thin-film transistors with high capacitance poly(vinylidene fluoride-trifluoroethylene)/poly(methyl methacrylate) dielectrics
DOI:10.1063/1.3511697 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Jung, Soon-Won;Baeg, Kang-Jun;Yoon, Sung-Min;You, In-Kyu;Lee, Jong-Keun;Kim, Young-Soon;Noh, Yong-Young;
2:242:9 The MEMOLED: Active Addressing with Passive Driving
DOI:10.1002/adma.201003213 JN:ADVANCED MATERIALS PY:2011 TC:10 AU: Asadi, Kamal;Blom, Paul W. M.;de Leeuw, Dago M.;
2:242:10 Vibrational properties of ferroelectric beta-vinylidene fluoride polymers and oligomers
DOI:10.1103/PhysRevB.81.174120 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: Nakhmanson, Serge M.;Korlacki, R.;Johnston, J. Travis;Ducharme, Stephen;Ge, Zhongxin;Takacs, James M.;
2:242:11 Uniaxially aligned nucleation of vinylidene fluoride oligomer single-crystals on highly ordered ultrathin films of poly(vinylidene fluoride-trifluoroethylene) copolymer
DOI:10.1016/j.matlet.2013.04.023 JN:MATERIALS LETTERS PY:2013 TC:0 AU: Kuroda, Yusuke;Koshiba, Yasuko;Misaki, Masahiro;Ueda, Yasukiyo;Ishida, Kenji;
2:243:1 Phenyl-substituted fluorene-dimer cored anthracene derivatives: highly fluorescent and stable materials for high performance organic blue- and white-light-emitting diodes
DOI:10.1039/b925418h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:34 AU: Ye, Shanghui;Chen, Jianming;Di, Chong-an;Liu, Yunqi;Lu, Kun;Wu, Weiping;Du, Chunyan;Liu, Ying;Shuai, Zhigang;Yu, Gui;
2:243:2 Pentaphenylphenyl substituted quinacridone exhibiting intensive emission in both solution and solid state
DOI:10.1039/c2tc00419d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Wang, Chenguang;Wang, Kai;Fu, Qiang;Zhang, Jingying;Ma, Dongge;Wang, Yue;
2:243:3 Construction of full-color-tunable and strongly emissive materials by functionalizing a boron-chelate four-ring-fused pi-conjugated core
DOI:10.1039/c1jm14606h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:39 AU: Li, Di;Zhang, Hongyu;Wang, Chenguang;Huang, Shuo;Guo, Jianhua;Wang, Yue;
2:243:4 Ladder-type heteroacene polymers bearing carbazole and thiophene ring units and their use in field-effect transistors and photovoltaic cells
DOI:10.1039/c0jm01897j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Cheedarala, Ravi Kumar;Kim, Gi-Hwan;Cho, Shinuk;Lee, Junghoon;Kim, Jonggi;Song, Hyun-Kon;Kim, Jin Young;Yang, Changduk;
2:243:5 A feasibly synthesized ladder-type conjugated molecule as the novel high mobility n-type organic semiconductor
DOI:10.1039/c0jm01173h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:16 AU: Tian, Hongkun;Deng, Yunfeng;Pan, Feng;Huang, Lizhen;Yan, Donghang;Geng, Yanhou;Wang, Fosong;
2:243:6 Brightly fluorescent red organic solids bearing boron-bridged pi-conjugated skeletons
DOI:10.1039/c1jm12498f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:27 AU: Li, Di;Wang, Kai;Huang, Shuo;Qu, Songnan;Liu, Xingyuan;Zhu, Qingxin;Zhang, Hongyu;Wang, Yue;
2:243:7 A pi-extended tetrathiafulvene derivative: Synthesis and photoluminescence properties
DOI:10.1016/j.matchemphys.2014.03.028 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Guo, Kunpeng;Yang, Junli;Shi, Xiaofan;Lu, Xiaoqing;Cheng, Jun;Wu, Yuling;Guo, Yun;Wang, Hua;
2:243:8 Synthesis of ring-structured polysiloxane as host materials for blue phosphorescent device
DOI:10.1039/c1jm10290g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Ren, Zhongjie;Zhang, Rongben;Ma, Yuguang;Wang, Feng;Yan, Shouke;
2:243:9 Theoretical study of anisotropic mobility in ladder-type molecule organic semiconductors
DOI:10.1007/s00339-014-8306-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:2 AU: Wei, Hui-Ling;Liu, Yu-Fang;
2:244:1 An Artificial Light-Harvesting Array Constructed from Multiple Bodipy Dyes
DOI:10.1021/ja4049306 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:27 AU: Ziessel, Raymond;Ulrich, Gilles;Haefele, Alexandre;Harriman, Anthony;
2:244:2 Efficient energy transfer in a new hybrid diphenylfluorene derivative-CdS quantum dot nanocomposite
DOI:10.1088/0957-4484/24/43/435704 JN:NANOTECHNOLOGY PY:2013 TC:2 AU: Yi, Chang;Sun, Yueming;Song, Bo;Tian, Wenwen;Qi, Qi;Zheng, Yingping;Dai, Yunqian;Jiang, Wei;
2:244:3 Enhanced luminescence of photosensitizer-based mesoporous silica nanocomposites via energy transfer from conjugated polymer
DOI:10.1088/0957-4484/24/1/015604 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Zhang, Rui-rui;Li, Lu;Tong, Li-li;Tang, Bo;
2:244:4 Polycyanurate Nanorod Arrays for Optical-Waveguide-Based Biosensing
DOI:10.1021/nl1009102 JN:NANO LETTERS PY:2010 TC:24 AU: Gitsas, Antonis;Yameen, Basit;Lazzara, Thomas Dominic;Steinhart, Martin;Duran, Hatice;Knoll, Wolfgang;
2:244:5 Understanding Zinc Quantification with Existing and Advanced Ditopic Fluorescent Zinpyr Sensors
DOI:10.1021/ja110907m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:79 AU: Buccella, Daniela;Horowitz, Joshua A.;Lippard, Stephen J.;
2:244:6 Nanostructuring Polymeric Materials by Templating Strategies
DOI:10.1002/smll.201100026 JN:SMALL PY:2011 TC:6 AU: Knoll, Wolfgang;Caminade, Anne-Marie;Char, Kookheon;Duran, Hatice;Feng, Chuan Liang;Gitsas, Antonis;Kim, Dong Ha;Lau, Aaron;Lazzara, Thomas D.;Majoral, Jean-Pierre;Steinhart, Martin;Yameen, Basit;Zhong, X. H.;
2:244:7 Artificial Light-Harvesting Arrays: Electronic Energy Migration and Trapping on a Sphere and between Spheres
DOI:10.1021/ja206894z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:46 AU: Iehl, Julien;Nierengarten, Jean-Francois;Harriman, Anthony;Bura, Thomas;Ziessel, Raymond;
2:244:8 Bio Serves Nano: Biological Light-Harvesting Complex as Energy Donor for Semiconductor Quantum Dots
DOI:10.1021/la204970a JN:LANGMUIR PY:2012 TC:15 AU: Werwie, Mara;Xu, Xiangxing;Haase, Mathias;Basche, Thomas;Paulsen, Harald;
2:244:9 Efficient energy transfer in layered hybrid organic/inorganic nanocomposites: A dual function of semiconductor nanocrystals
DOI:10.1063/1.3319838 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Lutich, Andrey A.;Poeschl, Andreas;Jiang, Guoxin;Stefani, Fernando D.;Susha, Andrei S.;Rogach, Andrey L.;Feldmann, Jochen;
2:244:10 Boron-dibenzopyrromethene-based organic dyes for application in dye-sensitized solar cells
DOI:10.1039/c3ta15340a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:10 AU: Kubo, Yuji;Eguchi, Daichi;Matsumoto, Asaki;Nishiyabu, Ryuhei;Yakushiji, Hidenori;Shigaki, Koichiro;Kaneko, Masayoshi;
2:244:11 Highly water-soluble BODIPY-based fluorescent probes for sensitive fluorescent sensing of zinc(II)
DOI:10.1039/c3tb00249g JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:27 AU: Zhu, Shilei;Zhang, Jingtuo;Janjanam, Jagadeesh;Vegesna, Giri;Luo, Fen-Tair;Tiwari, Ashutosh;Liu, Haiying;
2:244:12 Boron-dipyrromethene based multi-anionic sensor and a specific cationic sensor for Fe3+
DOI:10.1039/c4tc00317a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Lakshmi, Vellanki;Ravikanth, Mangalampalli;
2:244:13 Visualization of Peroxynitrite-Induced Changes of Labile Zn2+ in the Endoplasmic Reticulum with Benzoresorufin-Based Fluorescent Probes
DOI:10.1021/ja4059487 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:20 AU: Lin, Wei;Buccella, Daniela;Lippard, Stephen J.;
2:244:14 Potentiometric Response from Ion-Selective Nanospheres with Voltage-Sensitive Dyes
DOI:10.1021/ja5107578 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Xie, Xiaojiang;Zhai, Jingying;Bakker, Eric;
2:245:1 Charge Trapping States at the SiO2-Oligothiophene Monolayer Interface in Field Effect Transistors Studied by Kelvin Probe Force Microscopy
DOI:10.1021/nn403750h JN:ACS NANO PY:2013 TC:8 AU: Zhang, Yingjie;Ziegler, Dominik;Salmeron, Miquel;
2:245:2 Electrical Transport Properties of Oligothiophene-Based Molecular Films Studied by Current Sensing Atomic Force Microscopy
DOI:10.1021/nl202720y JN:NANO LETTERS PY:2011 TC:20 AU: Hendriksen, Bas L. M.;Martin, Florent;Qi, Yabing;Mauldin, Clayton;Vukmirovic, Nenad;Ren, JunFeng;Wormeester, Herbert;Katan, Allard J.;Altoe, Virginia;Aloni, Shaul;Frechet, Jean M. J.;Wang, Lin-Wang;Salmeron, Miguel;
2:245:3 Direct Observation and Measurement of Mobile Charge Carriers in a Monolayer Organic Semiconductor on a Dielectric Substrate
DOI:10.1021/nn200760r JN:ACS NANO PY:2011 TC:12 AU: Jiang, Yeping;Qi, Qiong;Wang, Rui;Zhang, Jun;Xue, Qikun;Wang, Chen;Jiang, Chao;Qiu, Xiaohui;
2:245:4 Influence of Molecular Ordering on Electrical and Friction Properties of omega-(trans-4-Stilbene)Alkylthiol Self-Assembled Monolayers on Au (111)
DOI:10.1021/la100837g JN:LANGMUIR PY:2010 TC:13 AU: Qi, Yabing;Liu, Xiaosong;Hendriksen, B. L. M.;Navarro, V.;Park, Jeong Y.;Ratera, Imma;Klopp, J. M.;Edder, C.;Himpsel, Franz J.;Frechet, J. M. J.;Haller, Eugene E.;Salmeron, Miquel;
2:245:5 Sensitivity to Molecular Order of the Electrical Conductivity in Oligothiophene Monolayer Films
DOI:10.1021/la303609g JN:LANGMUIR PY:2013 TC:3 AU: Martin, Florent;Hendriksen, Bas L. M.;Katan, Allard J.;Qi, Yabing;Mauldin, Clayton;Frechet, Jean M. J.;Salmeron, Miguel;
2:245:6 Electron Microscopy Reveals Structure and Morphology of One Molecule Thin Organic Films
DOI:10.1021/nl203776n JN:NANO LETTERS PY:2012 TC:9 AU: Altoe, Virginia;Martin, Florent;Katan, Allard;Salmeron, Miguel;Aloni, Shaul;
2:245:7 Sensing the Charge State of Single Gold Nanoparticles via Work Function Measurements
DOI:10.1021/nl503782s JN:NANO LETTERS PY:2015 TC:2 AU: Zhang, Yingjie;Pluchery, Olivier;Caillard, Louis;Lamic-Humblot, Anne-Felicie;Casale, Sandra;Chaba, Yves J.;Salmeron, Miquel;
2:245:8 Charge transport and morphology of pentacene films confined in nano-patterned region
DOI:10.1038/am.2014.3 JN:NPG ASIA MATERIALS PY:2014 TC:2 AU: Kim, Tae-Sik;Kim, Se Hyun;Jang, Mi;Yang, Hoichang;Lee, Tae-Woo;
2:245:9 Application of nanoimprinting technology to organic field-effect transistors
DOI:10.1063/1.3328100 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Chou, Wei-Yang;Chang, Ming-Hua;Cheng, Horng-Long;Yu, Shih-Po;Lee, Yung-Chun;Chiu, Cheng-Yu;Lee, Chung-Yi;Shu, Dun-Ying;
2:245:10 Tuning Nanoscale Friction on Pt Nanoparticles with Engineering of Organic Capping Layer
DOI:10.1021/la104353f JN:LANGMUIR PY:2011 TC:10 AU: Park, Jeong Young;
2:245:11 Polymorphic transformation induced by nanoimprinted technology in pentacene-film early-stage growth
DOI:10.1063/1.3512863 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Chang, Ming-Hua;Chou, Wei-Yang;Lee, Yung-Chun;Cheng, Horng-Long;Chung, Hao-Yuan;Chang, Chung-Chih;Chiu, Cheng-Yu;Ho, Tsung-Yeh;
2:246:1 Effects of active layer thickness and thermal annealing on polythiophene: Fullerene bulk heterojunction photovoltaic devices
DOI:10.1063/1.3474654 JN:APPLIED PHYSICS LETTERS PY:2010 TC:29 AU: Zeng, Lichang;Tang, Ching W.;Chen, Shaw H.;
2:246:2 Influence of surface morphology evolution of SubPc layers on the performance of SubPc/C-60 organic photovoltaic cells
DOI:10.1063/1.3660710 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Kim, Jinhyun;Yim, Sanggyu;
2:246:3 Highly flexible inverted organic solar cells with improved performance by using an ultrasmooth Ag cathode
DOI:10.1063/1.4755774 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Liu, Yue-Feng;Feng, Jing;Cui, Hai-Feng;Yin, Da;Song, Jun-Feng;Chen, Qi-Dai;Sun, Hong-Bo;
2:246:4 General method for simultaneous optimization of light trapping and carrier collection in an ultra-thin film organic photovoltaic cell
DOI:10.1063/1.4890275 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Tsai, Cheng-Chia;Grote, Richard R.;Beck, Jonathan H.;Kymissis, Ioannis;Osgood, Richard M., Jr.;Englund, Dirk;
2:246:5 Engineering the electronic structure of the ZnPc/C-60 heterojunction by temperature treatment
DOI:10.1016/j.solmat.2009.10.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:14 AU: Hein, Corinna;Mankel, Eric;Mayer, Thomas;Jaegermann, Wolfram;
2:246:6 Effect of cuprous halide interlayers on the device performance of ZnPc/C-60 organic solar cells
DOI:10.1016/j.materresbull.2014.03.030 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:2 AU: Lee, Jinho;Park, Dasom;Heo, Ilsu;Yim, Sanggyu;
2:246:7 Enhancement Mechanisms of the Power Conversion Efficiency for the P3HT:PCBM Bulk Heterojunction Solar Cells with a LiF Cathode Buffer Layer Due to Thermal Annealing
DOI:10.1080/15421406.2014.944756 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Han, Qifeng;Arul, Narayanasamy Sabari;Kim, Tae Whan;
2:246:8 Method to analyze the ability of bulk heterojunctions of organic and hybrid solar cells to dissociate photogenerated excitons and collect free carriers
DOI:10.1063/1.4875376 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Basta, M.;Dusza, M.;Palewicz, M.;Nawrot, U.;Granek, F.;
2:246:9 Influence of P3HT concentration on morphological, optical and electrical properties of P3HT/PS and P3HT/PMMA binary blends
DOI:10.1016/j.mseb.2011.05.008 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:10 AU: Nicho, M. E.;Garcia-Escobar, C. H.;Arenas, M. C.;Altuzar-Coello, P.;Cruz-Silva, R.;Gueizado-Rodriguez, M.;
2:246:10 Organic position sensitive photodetectors based on lateral donor-acceptor concentration gradients
DOI:10.1063/1.3631731 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Cabanillas-Gonzalez, Juan;Pena-Rodriguez, Ovidio;Suarez Lopez, Inma;Schmidt, Malte;Isabel Alonso, M.;Goni, Alejandro R.;Campoy-Quiles, Mariano;
2:246:11 Europium complex-based thermochromic sensor for integration in plastic optical fibres
DOI:10.1016/j.optmat.2012.02.047 JN:OPTICAL MATERIALS PY:2012 TC:2 AU: Lopez, Inma Suarez;Mendonca, A. Luisa;Fernandes, Mariana;Bermudez, Veronica de Zea;Morgado, Jorge;Del Pozo, G.;Romero, B.;Cabanillas-Gonzalez, Juan;
2:247:1 DNA Interlayers Enhance Charge Injection in Organic Field-Effect Transistors
DOI:10.1002/adma.201201248 JN:ADVANCED MATERIALS PY:2012 TC:19 AU: Zhang, Yuan;Zalar, Peter;Kim, Chunki;Collins, Samuel;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:247:2 DNA Electron Injection Interlayers for Polymer Light-Emitting Diodes
DOI:10.1021/ja201868d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:22 AU: Zalar, Peter;Kamkar, Daniel;Naik, Rajesh;Ouchen, Fahima;Grote, James G.;Bazan, Guillermo C.;Thuc-Quyen Nguyen;
2:247:3 A Molybdenum Dithiolene Complex as p-Dopant for Hole-Transport Materials: A Multitechnique Experimental and Theoretical Investigation
DOI:10.1021/cm9031623 JN:CHEMISTRY OF MATERIALS PY:2010 TC:18 AU: Qi, Yabing;Sajoto, Tissa;Kroeger, Michael;Kandabarow, Alexander M.;Park, Wonjun;Barlow, Stephen;Kim, Eung-Gun;Wielunski, Leszek;Feldman, L. C.;Bartynski, Robert A.;Bredas, Jean-Luc;Marder, Seth R.;Kahn, Antoine;
2:247:4 Synthesis and Application of 1,3,4,5,7,8-Hexafluorotetracyanonaphthoquinodimethane (F6-TNAP): A Conductivity Dopant for Organic Light-Emitting Devices
DOI:10.1021/cm1002737 JN:CHEMISTRY OF MATERIALS PY:2010 TC:23 AU: Koech, Phillip K.;Padmaperuma, Asanga B.;Wang, Liang;Swensen, James S.;Polikarpov, Evgueni;Darsell, Jens T.;Rainbolt, James E.;Gaspar, Daniel J.;
2:247:5 Remote doping of a pentacene transistor: Control of charge transfer by molecular-level engineering
DOI:10.1063/1.3491429 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Zhao, Wei;Qi, Yabing;Sajoto, Tissa;Barlow, Stephen;Marder, Seth R.;Kahn, Antoine;
2:247:6 Interfacial dipole dynamics of light-emitting diodes incorporating a poly(amidoamine) dendrimer monolayer
DOI:10.1063/1.3459964 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Winroth, Gustaf;Fenwick, Oliver;Scott, Mark A.;Yip, Daniel;Howorka, Stefan;Cacialli, Franco;
2:247:7 Efficient electron injection from solution-processed cesium stearate interlayers in organic light-emitting diodes
DOI:10.1063/1.4790592 JN:APPLIED PHYSICS LETTERS PY:2013 TC:7 AU: Wetzelaer, G. A. H.;Najafi, A.;Kist, R. J. P.;Kuik, M.;Blom, P. W. M.;
2:247:8 Orientation of organic molecules in a monolayer vis-a-vis their molecular orbitals and transport gap
DOI:10.1063/1.3623441 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Chakrabarti, Sudipto;Dey, Sukumar;Pal, Amlan J.;
2:247:9 Energy level alignment at the interfaces between typical electrodes and nucleobases: Al/adenine/indium-tin-oxide and Al/thymine/indium-tin-oxide
DOI:10.1063/1.4769438 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Lee, Younjoo;Lee, Hyunbok;Park, Soohyung;Yi, Yeonjin;
2:247:10 Improved charge injection of pentacene transistors by immobilizing DNA on gold source-drain electrodes
DOI:10.1007/s00339-014-8353-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Gui, Haiyang;Wei, Bin;Zhang, Jianhua;Wang, Jun;
2:247:11 Synthesis and characterization of p-type conductivity dopant 2-(3-(adamantan-1-yl)propyl)-3,5,6-trifluoro-7,7,8,8-tetracyanoquinodime thane
DOI:10.1039/c3tc00068k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Rainbolt, James E.;Koech, Phillip K.;Polikarpov, Evgueni;Swensen, James S.;Cosimbescu, Lelia;Von Ruden, Amber;Wang, Liang;Sapochak, Linda S.;Padmaperuma, Asanga B.;Gaspar, Daniel J.;
2:247:12 Near independence of OLED operating voltage on transport layer thickness
DOI:10.1016/j.synthmet.2012.12.015 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Swensen, James S.;Wang, Liang;Polikarpov, Evgueni;Rainbolt, James E.;Koech, Phillip K.;Cosimbescu, Lelia;Padmaperuma, Asanga B.;
2:248:1 Low-voltage flexible pentacene thin film transistors with a solution-processed dielectric and modified copper source-drain electrodes
DOI:10.1039/c3tc00577a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Su, Yaorong;Jiang, Jiaolong;Ke, Ning;Zhao, Ni;Xie, Weiguang;Xu, Jianbin;
2:248:2 Remarkable Mobility Increase and Threshold Voltage Reduction in Organic Field-Effect Transistors by Overlaying Discontinuous Nano-Patches of Charge-Transfer Doping Layer on Top of Semiconducting Film
DOI:10.1002/adma.201202789 JN:ADVANCED MATERIALS PY:2013 TC:18 AU: Kim, Jong H.;Yun, Sun Woo;An, Byeong-Kwan;Han, Yoon Deok;Yoon, Seong-Jun;Joo, Jinsoo;Park, Soo Young;
2:248:3 Remarkable reduction in the threshold voltage of pentacene-based thin film transistors with pentacene/CuPc sandwich configuration
DOI:10.1063/1.4884175 JN:AIP ADVANCES PY:2014 TC:0 AU: Li, Yi;Liu, Qi;Cai, Jing;Li, Yun;Shi, Yi;Wang, Xizhang;Hu, Zheng;
2:248:4 Fabrication of n- and p-Type Organic Thin Film Transistors with Minimized Gate Overlaps by Self-Aligned Nanoimprinting
DOI:10.1002/adma.201001947 JN:ADVANCED MATERIALS PY:2010 TC:25 AU: Palfinger, Ursula;Auner, Christoph;Gold, Herbert;Haase, Anja;Kraxner, Johanna;Haber, Thomas;Sezen, Meltem;Grogger, Werner;Domann, Gerhard;Jakopic, Georg;Krenn, Joachim R.;Stadlober, Barbara;
2:248:5 Nanoimprinted complementary organic electronics: Single transistors and inverters
DOI:10.1557/jmr.2011.282 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:11 AU: Rothlaender, Thomas;Palfinger, Ursula;Stadlober, Barbara;Haase, Anja;Gold, Herbert;Palfinger, Christian;Domann, Gerhard;Kraxner, Johanna;Jakopic, Georg;Hartmann, Paul;
2:248:6 Effect of air exposure on metal/organic interface in organic field-effect transistors
DOI:10.1063/1.3599056 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Lu, Xubing;Minari, Takeo;Kumatani, Akichika;Liu, Chuan;Tsukagoshi, Kazuhito;
2:248:7 Temperature dependence of frequency response characteristics in organic field-effect transistors
DOI:10.1063/1.4711211 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Lu, Xubing;Minari, Takeo;Liu, Chuan;Kumatani, Akichika;Liu, J. -M.;Tsukagoshi, Kazuhito;
2:248:8 Growth of large-size-two-dimensional crystalline pentacene grains for high performance organic thin film transistors
DOI:10.1063/1.4723851 JN:AIP ADVANCES PY:2012 TC:3 AU: Du, Chuan;Li, Liqiang;Wang, Wenchong;Zhang, Jidong;Yan, Donghang;Hu, Wenping;Fuchs, Harald;Chi, Lifeng;
2:248:9 High-performance organic field-effect transistors based on copper/copper sulphide bilayer source-drain electrodes
DOI:10.1063/1.3526737 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Gu, Wen;Jin, Weipeng;Wei, Bin;Zhang, Jianhua;Wang, Jun;
2:248:10 Micro-imprinted prism substrate for self-aligned short channel organic transistors on a flexible substrate
DOI:10.1063/1.3679119 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Jeon, Jin;Tee, Benjamin C. -K.;Murmann, Boris;Bao, Zhenan;
2:248:11 Depletion- and ambipolar-mode field-effect transistors based on the organic heterojunction composed of pentacene and hexadecafluorophtholocyaninatocopper
DOI:10.1016/j.synthmet.2009.11.034 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Hong, Fei;Xing, Feifei;Gu, Wen;Jin, Weipeng;Zhang, Jianhua;Wang, Jun;
2:248:12 Influence of inserting a thin fullerene layer on pentacene organic thin-film transistor
DOI:10.1063/1.3693176 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Li, Yu-Chang;Lin, Yu-Ju;Wei, Chia-Yu;Chou, Dei-Wei;Tsao, Chun-Ho;Wang, Yeong-Her;
2:248:13 Effect of deposition temperature on the morphology and contact resistance of Au on pentacene
DOI:10.1063/1.3445268 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Kim, Yunbog;Jeon, D.;
2:249:1:1 Compatibility of plasma-deposited linalyl acetate thin films with organic electronic device fabrication techniques
DOI:10.1007/s10853-013-7244-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:0 AU: Anderson, Liam J.;Easton, Christopher D.;Jacob, Mohan V.;
2:249:1:2 Electrical characterisations of plasma polyermised linalyl acetate
DOI:10.1016/j.mseb.2011.12.026 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:7 AU: Anderson, L. J.;Jacob, M. V.;
2:249:1:3 Effect of RF power on the optical and morphological properties of RF plasma polymerised linalyl acetate thin films
DOI:10.1016/j.apsusc.2009.12.021 JN:APPLIED SURFACE SCIENCE PY:2010 TC:13 AU: Anderson, L. J.;Jacob, M. V.;
2:249:1:4 Effect of a plasma polymerised linalyl acetate dielectric on the optical and morphological properties of an n-type organic semiconductor
DOI:10.1007/s00339-011-6487-9 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:2 AU: Anderson, L. J.;Jacob, M. V.;Barra, M.;Di Girolamo, F. V.;Cassinese, A.;
2:249:1:5 Temperature dependent electrical impedance spectroscopy measurements of plasma enhanced chemical vapour deposited linalyl acetate thin films
DOI:10.1016/j.tsf.2013.02.015 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Anderson, L. J.;Jacob, M. V.;
2:249:1:6 Dielectric relaxation processes in stoichiometric Ge:Sb:Te amorphous films
DOI:10.1016/j.jnoncrysol.2010.05.008 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:3 AU: Santos, R. Ruiz;Prokhorov, E.;Gonzalez-Hernandez, J.;Luna-Barcenas, G.;Kovalenko, Yu.;
2:249:1:7 Solubility and Adhesion Characteristics of Plasma Polymerized Thin Films Derived from Lavandula angustifolia Essential Oil
DOI:10.1002/app.30916 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:1 AU: Easton, Christopher D.;Jacob, Mohan V.;
2:249:2:1 Plasma polymerised thin films for flexible electronic applications
DOI:10.1016/j.tsf.2013.05.023 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Jacob, Mohan V.;Olsen, Natalie S.;Anderson, Liam J.;Bazaka, Kateryna;Shanks, Robert A.;
2:249:2:2 Optical and chemical properties of polyterpenol thin films deposited via plasma-enhanced chemical vapor deposition
DOI:10.1557/jmr.2011.23 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:5 AU: Bazaka, Kateryna;Jacob, Mohan V.;Bowden, Bruce F.;
2:249:2:3 Fabrication and characterization of polyterpenol as an insulating layer and incorporated organic field effect transistor
DOI:10.1016/j.tsf.2010.06.014 JN:THIN SOLID FILMS PY:2010 TC:13 AU: Jacob, M. V.;Bazaka, K.;Weis, M.;Taguchi, D.;Manaka, T.;Iwamoto, M.;
2:249:2:4 Nanotribological and nanomechanical properties of plasma-polymerized polyterpenol thin films
DOI:10.1557/jmr.2011.349 JN:JOURNAL OF MATERIALS RESEARCH PY:2011 TC:1 AU: Bazaka, Kateryna;Jacob, Mohan V.;
2:249:3:1 Electrical transport mechanism in plasma polymerized 2, 6, diethylaniline thin films
DOI:10.1016/j.tsf.2010.12.240 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Matin, Rummana;Bhuiyan, A. H.;
2:249:3:2 Infrared and ultraviolet-visible spectroscopic analyses of plasma polymerized 2,6 diethylaniline thin films
DOI:10.1016/j.tsf.2013.02.001 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Matin, Rummana;Bhuiyan, A. H.;
2:249:3:3 Heat treatment and aging effect on the structural and optical properties of plasma polymerized 2,6-diethylaniline thin films
DOI:10.1016/j.tsf.2012.07.008 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Matin, Rummana;Bhuiyan, A. H.;
2:249:3:4 Optical Characterization of Plasma-Polymerized Pyrrole-N,N,3,5-Tetramethylaniline Bilayer Thin Films
DOI:10.1002/app.33176 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:2 AU: Kamal, M. M.;Bhuiyan, A. H.;
2:249:4:1 Electrical characterisation of stearic acid/calix[4]amine Langmuir-Blodgett thin film
DOI:10.1016/j.matchemphys.2013.10.043 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Capan, Rifat;Richardson, Tim;Hassan, Aseel K.;Davis, Frank;
2:249:4:2 Effect of heat-treatment on the electrical and dielectric properties of a TiO2-containing lithia-calcia-silica glass and glass ceramics
DOI:10.1016/j.matchemphys.2011.06.017 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:6 AU: Morsi, Reham M. M.;Basha, Mohammad A. F.;
2:249:4:3 Electrical properties of a calix[4]acid/amine Langmuir-Blodgett thin film
DOI:10.1016/j.matchemphys.2010.09.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:4 AU: Capan, R.;Davis, F.;
2:249:4:4 Spectroscopic and dielectric properties of a lithia-containing glass
DOI:10.1016/j.jnoncrysol.2010.11.038 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2011 TC:1 AU: Basha, Mohammad A. F.;Morsi, Reham M. M.;
2:250:1:1 Role of molecular rigidity on phase organization of a smectic liquid crystal - A theoretical model
DOI:10.1016/j.matchemphys.2010.11.031 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:23 AU: Praveen, P. Lakshmi;Ojha, D. P.;
2:250:1:2 Computer simulation of ordering in bipolar nematogen H6CBP at phase transition temperature
DOI:10.1016/j.matchemphys.2010.03.074 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:13 AU: Praveen, P. Lakshmi;Ojha, D. P.;
2:250:1:3 Molecular Order-Disorder Phenomenon of a Nematogen: A Computational Analysis
DOI:10.1080/15421406.2010.526562 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:1:4 Role of Oxygen and Effect of Solvents on Nematogens-A Computational Analysis
DOI:10.1080/15421406.2012.693011 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Ojha, Durga P.;
2:250:1:5 Solvent Effects on Phase Stability of a Nematogen-A Molecular Level Approach
DOI:10.1080/15421406.2012.674465 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Aneela, R.;Ojha, Durga P.;
2:250:1:6 Computational Analysis of Liquid Crystalline Biphenylcyclohexane Derivatives: Estimation of Configurational Entropy, and Phase Stability
DOI:10.1080/15421406.2011.636238 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Aneela, R.;Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:1:7 The Role of Organic Solvents and Conformational Behavior of Nematogens Having trans Extended Conformation A Computational Approach
DOI:10.1080/15421406.2012.762495 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Ojha, Durga P.;
2:250:1:8 Effect of Substituents on Electronic Spectral Shifts and Phase Stability of Liquid Crystalline Biphenylcyclohexane Molecules-A Theoretical Approach
DOI:10.1080/15421406.2011.652849 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:1:9 The Influence of Organic Solvents and Conformational Behavior of Mesogenic Compounds: A Computational Approach
DOI:10.1080/15421406.2013.803928 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Ojha, Durga P.;
2:250:1:10 Molecular Structure and Ordering in a Fluorinated Smectogenic Compound-A Statistical Thermodynamic Approach
DOI:10.1080/15421406.2012.735579 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:1:11 The Remarkable Effect of Solvents on Smectogen Having a V-Shaped Conformation A Computational Model
DOI:10.1080/15421406.2012.707831 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Ojha, Durga P.;
2:250:1:12 Order-Disorder Phenomenon of Nematogens at Molecular Level-A Computational Approach
DOI:10.1080/15421406.2013.857575 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Ojha, Durga P.;
2:250:1:13 Conformational Behavior and Influence of Organic Solvents on a Strong Polar Group Nematogen at Room Temperature-A Computational Model
DOI:10.1080/15421406.2013.867227 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Ojha, Durga P.;
2:250:2:1 Electronic Transition Oscillator Strength and UV Stability of Nematogenic Cyanobiphenyls-Role of Alkyl Chains
DOI:10.1080/15421406.2011.591669 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:3 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:2:2 Calculation of spectral shifts in UV-visible region and photoresponsive behaviour of fluorinated liquid crystals: Effect of solvent and substituent
DOI:10.1016/j.matchemphys.2012.05.036 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:4 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:2:3 Determining the Configuration of Trans-4-Propyl-Cyclohexylcarboxylic Acid by NMR Method
DOI:10.1080/15421406.2010.504639 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Yuan, Xianrui;Duan, Erhong;Zhang, Yue;Hu, Shuo;Liu, Yinghua;
2:250:3:1 Excluded-Volume Short-Range Repulsive Potential for Tetrahedral Molecules
DOI:10.1080/15421401003795670 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:8 AU: Bisi, Fulvio;Longa, Lech;Pajak, Grzegorz;Rosso, Riccardo;
2:250:3:2 The Interesting Property of Strong Polar Group Nematogens in Organic Solvents - A Computational Study
DOI:10.1080/15421406.2013.824636 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Ojha, Durga P.;
2:250:3:3 Straley Model of Biaxial Nematics Extended
DOI:10.1080/15421406.2011.568327 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Kapanowski, A.;
2:250:3:4 Generalized Dispersion Model of Orientationally Ordered Phases of Bent-Core Liquid Crystals
DOI:10.1080/15421406.2011.570200 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:4 AU: Longa, L.;Pajak, G.;
2:250:4:1 Efficient electro-optic switching in a photonic liquid crystal fiber
DOI:10.1063/1.3599848 JN:APPLIED PHYSICS LETTERS PY:2011 TC:9 AU: Lorenz, Alexander;Kitzerow, Heinz-S.;
2:250:4:2 A nano-patterned photonic crystal laser with a dye-doped liquid crystal
DOI:10.1063/1.4816243 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Ko, Doo-Hyun;Morris, Stephen M.;Lorenz, Alexander;Castles, Flynn;Butt, Haider;Gardiner, Damian J.;Qasim, Malik M.;Wallikewitz, Bodo;Hands, Philip J. W.;Wilkinson, Timothy D.;Amaratunga, Gehan A. J.;Coles, Harry J.;Friend, Richard H.;
2:250:4:3 Theoretical investigation of a polymer Mach-Zehnder electro-optic switch using 2N+1 serial-coupled microrings with ultralow-driving voltage
DOI:10.1007/s00339-013-8215-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Zheng, Chuan-Tao;Luo, Qian-Qian;Huang, Xiao-Liang;Sun, Chang-Lun;Liang, Lei;Wang, Yi-Ding;Zhang, Da-Ming;
2:250:5:1 Nematic Liquid Crystals: From Maier-Saupe to a Continuum Theory
DOI:10.1080/15421401003795555 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:27 AU: Ball, John M.;Majumdar, Apala;
2:250:5:2 Molecular Structure and Conformational Behavior of a NematogenA Statistical Approach
DOI:10.1080/15421406.2011.556455 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:4 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:250:5:3 Effect of Non-Mesogenic Solvent on Molecular Conformations and Interactions of a Nematogen: A Probabilistic Approach
DOI:10.1080/15421406.2011.609047 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Ojha, Durga P.;
2:250:6:1 Thermodynamic Stability of the Nematic Phase and Configurational Entropy of Mesogens: A Molecular Simulation Approach
DOI:10.1080/15421406.2011.590360 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Praveen, P. L.;Ojha, D. P.;
2:250:6:2 Ordering of a Strong Polar Nematogen (6CBB) in a Dielectric Medium: A Computational Analysis
DOI:10.1080/15421406.2010.504659 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:3 AU: Praveen, P. Lakshmi;Ojha, Durga P.;
2:251:1 Molecular control of photoexcited charge transfer and recombination at a quaterthiophene/zinc oxide interface
DOI:10.1063/1.4719206 JN:APPLIED PHYSICS LETTERS PY:2012 TC:14 AU: Mou, Weiwei;Ohmura, Satoshi;Shimojo, Fuyuki;Nakano, Aiichiro;
2:251:2 First-principles simulations of exciton diffusion in organic semiconductors
DOI:10.1103/PhysRevB.84.235208 JN:PHYSICAL REVIEW B PY:2011 TC:11 AU: Zhang, Xu;Li, Zi;Lu, Gang;
2:251:3 Theory of optical excitations in dipole-coupled hybrid molecule-semiconductor layers: Coupling of a molecular resonance to semiconductor continuum states
DOI:10.1103/PhysRevB.89.235314 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Verdenhalven, Eike;Knorr, Andreas;Richter, Marten;Bieniek, Bjoern;Rinke, Patrick;
2:251:4 Ortho-Branched Ladder-Type Oligophenylenes with Two-Dimensionally pi-Conjugated Electronic Properties
DOI:10.1021/ja202144v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:14 AU: Huang, Hsin-Hau;Prabhakar, Ch.;Tang, Kuo-Chun;Chou, Pi-Tai;Huang, Guan-Jhih;Yang, Jye-Shane;
2:251:5 Hybrid density functional study of oligothiophene/ZnO interface for photovoltaics
DOI:10.1103/PhysRevB.83.121309 JN:PHYSICAL REVIEW B PY:2011 TC:18 AU: Sai, Na;Leung, Kevin;Chelikowsky, James R.;
2:251:6 Interfacial design for reducing charge recombination in photovoltaics
DOI:10.1063/1.4794983 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Hattori, Shinnosuke;Mou, Weiwei;Rajak, Pankaj;Shimojo, Fuyuki;Nakano, Aiichiro;
2:251:7 Understanding molecular structure dependence of exciton diffusion in conjugated small molecules
DOI:10.1063/1.4871303 JN:APPLIED PHYSICS LETTERS PY:2014 TC:3 AU: Li, Zi;Zhang, Xu;Woellner, Cristiano F.;Lu, Gang;
2:251:8 Reconstruction of the wave functions of coupled nanoscopic emitters using a coherent optical technique
DOI:10.1103/PhysRevB.86.085308 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Richter, Marten;Schlosser, Felix;Schoth, Mario;Burger, Sven;Schmidt, Frank;Knorr, Andreas;Mukamel, Shaul;
2:251:9 Line Narrowing of Excited-State Transitions in Nonlinear Polarization Spectroscopy: Application to Water-Soluble Chlorophyll-Binding Protein
DOI:10.1103/PhysRevLett.108.178104 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:4 AU: Schoth, Mario;Richter, Marten;Knorr, Andreas;Renger, Thomas;
2:251:10 Atomistic mechanisms of rapid energy transport in light-harvesting molecules
DOI:10.1063/1.3565962 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Ohmura, Satoshi;Koga, Shiro;Akai, Ichiro;Shimojo, Fuyuki;Kalia, Rajiv K.;Nakano, Aiichiro;Vashishta, Priya;
2:251:11 Large nonlinear optical activity from hybrid inorganic-organic films with fluorinated benzene as isolation group
DOI:10.1016/j.tsf.2013.02.090 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Liang, Ting;Cui, Yuanjing;Yu, Jiancan;Lin, Wenxin;Yang, Yu;Qian, Guodong;
2:252:1 Comparative studies of magnetic properties of Co films on annealed and unannealed rubrene/Si(100)
DOI:10.1016/j.jallcom.2013.06.002 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:2 AU: Hsu, Chih-Yu;Chang, Cheng-Hsun-Tony;Chen, Wei-Hsiang;Tsai, Jai-Lin;Tsay, Jyh-Shen;
2:252:2 Structures and magnetic properties of Co and Co Fe films prepared by magnetron sputtering
DOI:10.1016/j.tsf.2011.03.091 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Lin, C. H.;Chen, W. H.;Tsay, J. S.;Hong, I. T.;Chiu, C. H.;Huang, H. S.;
2:252:3 Kinetic growth mechanisms of sputter-deposited Au films on mica: from nanoclusters to nanostructured microclusters
DOI:10.1007/s00339-010-5797-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:12 AU: Ruffino, F.;Torrisi, V.;Marletta, G.;Grimaldi, M. G.;
2:252:4 Impedance spectroscopy as a probe for the degradation of organic light-emitting diodes
DOI:10.1063/1.3294642 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:21 AU: Nowy, Stefan;Ren, Wei;Elschner, Andreas;Loevenich, Wilfried;Bruetting, Wolfgang;
2:252:5 Dielectric response of doped organic semiconductor devices: P3HT:PCBM solar cells
DOI:10.1103/PhysRevB.84.085208 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Armbruster, Oskar;Lungenschmied, Christoph;Bauer, Siegfried;
2:252:6 Optical and electrical characterization of thin films based on anthracene polyether polymers
DOI:10.1016/j.mssp.2013.01.010 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2013 TC:2 AU: Hrichi, Haikel;Hriz, Khaled;Benzarti-Ghedira, Maha;Jaballah, Nejmeddine;Ben Chaabane, Rafik;Majdoub, Mustapha;Ben Ouada, Hafedh;
2:252:7 Morphological and electrical study of gold ultrathin films on mica
DOI:10.1016/j.tsf.2013.08.104 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Bahamondes, S.;Donoso, S.;Henriquez, R.;Flores, M.;
2:252:8 H-shaped anthracene-based semiconducting molecules bearing a 9,10-bis((4-hexylphenyl)ethynyl)anthracene dimer
DOI:10.1016/j.synthmet.2012.05.001 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Kim, Kyung Hwan;Shin, Jicheol;Choi, Dong Hoon;
2:252:9 Efficient orange-red organic light-emitting diodes using 9,10-bis[4-(di-4-tert-butylphenylamino)styryl] anthracene as a fluorescent orange-red emitter
DOI:10.1016/j.tsf.2010.03.172 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Seo, Bo Min;Seo, Ji Hoon;Kim, Jun Ho;Park, Jung Sun;Lee, Kum Hee;Park, Min Hye;Yoon, Seung Soo;Kim, Young Kwan;
2:252:10 Thickness dependent reactivity and coercivity for ultrathin Co/Si(111) films
DOI:10.1016/j.tsf.2011.03.089 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Chuang, C.;Chang, W. Y.;Chen, W. H.;Tsay, J. S.;Su, W. B.;Chang, H. W.;Yao, Y. D.;
2:252:11 Microstructural, electrical and magnetic properties of Fe35Co65 thin films grown by thermal evaporation from mechanically alloyed powders
DOI:10.1016/j.tsf.2013.12.045 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Redjdal, N.;Salah, H.;Hauet, T.;Menari, H.;Cherif, S. M.;Gabouze, N.;Azzaz, M.;
2:252:12 Structural and magnetic properties of cobalt nanostructures on SiO2/Si(111) substrates
DOI:10.1016/j.apsusc.2014.09.148 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Bounour-Bouzamouche, W.;Cherif, S. M.;Farhat, S.;Roussigne, Y.;Tallaire, A.;Gicquel, A.;Lungu, C. P.;Guerioune, M.;
2:252:13 Synthesis and Characterization of New Anthracene-Based Semiconducting Polyethers
DOI:10.1002/app.32659 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:4 AU: Hriz, K.;Jaballah, N.;Chemli, M.;Fave, J. L.;Majdoub, M.;
2:252:14 Structures and magnetic properties for electrodeposited Co ultrathin films on copper
DOI:10.1016/j.jmmm.2009.12.042 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:7 AU: Mangen, T.;Bai, H. S.;Tsay, J. S.;
2:252:15 Effects of interfacial structure on the magnetic properties of ultrathin Fe/Pt(111) films with Ag buffer layer
DOI:10.1016/j.tsf.2011.03.065 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Chen, Yao-Jung;Chang, Chi-Ching;Ho, Huei-Ying;Tsay, Jyh-Shen;
2:252:16 Characterization of rubrene polycrystalline thin film transistors fabricated using various heat-treatment conditions
DOI:10.1016/j.tsf.2011.03.004 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Yoon, Youngwoon;Kim, Songhui;Lee, Hanju;Kim, Taedong;Babajanyan, Arsen;Lee, Kiejin;Friedman, Barry;
2:253:1 Direct Threat of a UV-Ozone Treated Indium-Tin-Oxide Substrate to the Stabilities of Common Organic Semiconductors
DOI:10.1002/adfm.201202120 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:20 AU: Lo, Ming-Fai;Ng, Tsz-Wai;Mo, Hin-Wai;Lee, Chun-Sing;
2:253:2 Synthesis and characterization of cyano-substituted pyridine derivatives for applications as exciton blockers in photovoltaic devices
DOI:10.1039/c2jm15287h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: You, Juanjuan;Lo, Ming-Fai;Liu, Weimin;Ng, Tsz-Wai;Lai, Shiu-Lun;Wang, Pengfei;Lee, Chun-Sing;
2:253:3 Operation stability enhancement in organic photovoltaic device by a metal doped organic exciton blocking layer
DOI:10.1063/1.3497007 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Lo, M. F.;Ng, T. W.;Lai, S. L.;Wong, F. L.;Fung, M. K.;Lee, S. T.;Lee, C. S.;
2:253:4 Stability enhancement in organic photovoltaic device by using polymerized fluorocarbon anode buffer layer
DOI:10.1063/1.3610553 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Lo, M. F.;Ng, T. W.;Lai, S. L.;Fung, M. K.;Lee, S. T.;Lee, C. S.;
2:253:5 Hybrid metal grid-polymer-carbon nanotube electrodes for high luminance organic light emitting diodes
DOI:10.1088/0957-4484/25/34/345202 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Sam, F. Laurent M.;Dabera, G. Dinesha M. R.;Lai, Khue T.;Mills, Christopher A.;Rozanski, Lynn J.;Silva, S. Ravi P.;
2:253:6 Improvement in power conversion efficiency and long-term lifetime of organic photovoltaic cells by using bathophenanthroline/molybdenum oxide as compound cathode buffer layer
DOI:10.1016/j.solmat.2013.05.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Jin, Fangming;Chu, Bei;Li, Wenlian;Su, Zisheng;Zhao, Bo;Yan, Xingwu;Zhang, Feng;Fan, Di;Zhang, Tianyou;Gao, Yuan;Lee, C. S.;Wang, Junbo;
2:253:7 Contrary interfacial exciton dissociation at metal/organic interface in regular and reverse configuration organic solar cells
DOI:10.1063/1.4895675 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Wu, Bo;Wu, Zhenghui;Tam, Hoi Lam;Zhu, Furong;
2:254:1 Cyclopentadithiophene-benzothiadiazole oligomers and polymers; synthesis, characterisation, field-effect transistor and photovoltaic characteristics
DOI:10.1039/c1jm12449h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:28 AU: Horie, Masaki;Kettle, Jeff;Yu, Chin-Yang;Majewski, Leszek A.;Chang, Shu-Wei;Kirkpatrick, James;Tuladhar, Sachetan M.;Nelson, Jenny;Saunders, Brian R.;Turner, Michael L.;
2:254:2 Optimisation of PCPDTBT solar cells using polymer synthesis with Suzuki coupling
DOI:10.1016/j.solmat.2011.03.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:39 AU: Kettle, J.;Horie, M.;Majewski, L. A.;Saunders, B. R.;Tuladhar, S.;Nelson, J.;Turner, M. L.;
2:254:3 Incorporation of benzocarborane into conjugated polymer systems: synthesis, characterisation and optoelectronic properties
DOI:10.1039/c3tc31663g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Marshall, Jonathan;Fei, Zhuping;Yau, Chin Pang;Yaacobi-Gross, Nir;Rossbauer, Stephan;Anthopoulos, Thomas D.;Watkins, Scott E.;Beavis, Peter;Heeney, Martin;
2:254:4 Microwave-assisted FeCl3-mediated rapid synthesis of poly(9,9-dihexylfluorene) with high molecular weight
DOI:10.1016/j.polymer.2014.09.001 JN:POLYMER PY:2014 TC:1 AU: Zhang, Wensi;Wang, Zhiming;Zhang, Yunan;Lu, Ping;Liu, Linlin;Ma, Yuguang;
2:254:5 Cyclopentadithiophene based polymers-a comparison of optical, electrochemical and organic field-effect transistor characteristics
DOI:10.1039/b924126d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:30 AU: Horie, Masaki;Majewski, Leszek A.;Fearn, Michael J.;Yu, Chin-Yang;Luo, Yi;Song, Aimin;Saunders, Brian R.;Turner, Michael L.;
2:254:6 Tailored Electronic Structure and Optical Properties of Conjugated Systems through Aggregates and Dipole-Dipole Interactions
DOI:10.1021/am400766w JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Park, Young Il;Kuo, Cheng-Yu;Martinez, Jennifer S.;Park, Young-Shin;Postupna, Olena;Zhugayevych, Andriy;Kim, Seungho;Park, Jongwook;Tretiak, Sergei;Wang, Hsing-Lin;
2:254:7 Carborane-Containing Poly(fluorene): Response to Solvent Vapors and Amines
DOI:10.1021/am2000856 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:40 AU: Peterson, Joseph J.;Davis, Andrew R.;Werre, Mathias;Coughlin, E. Bryan;Carter, Kenneth R.;
2:254:8 Optimisation of the material properties of indium tin oxide layers for use in organic photovoltaics
DOI:10.1063/1.4895552 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Doggart, P.;Bristow, N.;Kettle, J.;
2:254:9 Microwave-assisted synthesis of poly(3-hexylthiophene) via direct oxidation with FeCl3
DOI:10.1016/j.mseb.2012.02.017 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:4 AU: Nicho, M. E.;Garcia-Escobar, C. H.;Hernandez-Martinez, D.;Linzaga-Elizalde, I.;Cadenas-Pliego, G.;
2:255:1 Enhanced efficiency of organic photovoltaic cells using solution-processed metal oxide as an anode buffer layer
DOI:10.1016/j.solmat.2011.06.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:18 AU: Ryu, Mi Sun;Jang, Jin;
2:255:2 Study on the Al-P3HT:PCBM interfaces in electrical stressed polymer solar cell by X-ray photoelectron spectroscopy
DOI:10.1016/j.solmat.2013.12.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Pei, Zingway;Devi, B. Parvathy;Thiyagu, Subramani;
2:255:3 Electronic Structure and Dynamics at Organic Donor/Acceptor Interfaces
DOI:10.1557/mrs2010.582 JN:MRS BULLETIN PY:2010 TC:27 AU: Zhu, Xiaoyang;Kahn, Antoine;
2:255:4 Gold nanomesh induced surface plasmon for photocurrent enhancement in a polymer solar cell
DOI:10.1016/j.solmat.2011.02.031 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Devi, B. Parvathy;Wu, Kuo-Cheng;Pei, Zingway;
2:255:5 Improving the lifetime of a polymer light-emitting diode by introducing solution processed tungsten-oxide
DOI:10.1039/c3tc00855j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:11 AU: Youn, Jun Ho;Baek, Su Jin;Kim, Hyeong Pil;Nam, Dong Hee;Lee, Younggu;Lee, Jueng Gil;Jang, Jin;
2:255:6 "Electrical annealing" effect in bulk heterojunction polymer solar cells
DOI:10.1016/j.tsf.2012.03.091 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Devi, B. Parvathy;Thiyagu, Subramani;Pei, Zingway;
2:255:7 Improvement of conversion efficiency of bulk heterojunction organic solar cells using photo-curable crosslinker
DOI:10.1016/j.solmat.2010.04.007 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:7 AU: Ryu, Mi Sun;Jang, Jin;
2:255:8 Photoelectrical characterization of a new generation diode having GaFeO3 interlayer
DOI:10.1016/j.solmat.2014.01.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:8 AU: Soylu, Murat;Cavas, M.;Al-Ghamdi, Ahmed A.;Gafer, Z. H.;El-Tantawy, F.;Yakuphanoglu, Fahrettin;
2:256:1 Checkerboard Self-Patterning of an Ionic Liquid Film on Mercury
DOI:10.1103/PhysRevLett.106.197801 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:12 AU: Tamam, L.;Ocko, B. M.;Reichert, H.;Deutsch, M.;
2:256:2 Unifying Interfacial Self-Assembly and Surface Freezing
DOI:10.1103/PhysRevLett.106.137801 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:12 AU: Ocko, B. M.;Hlaing, H.;Jepsen, P. N.;Kewalramani, S.;Tkachenko, A.;Pontoni, D.;Reichert, H.;Deutsch, M.;
2:256:3 Two-Dimensional Order in Mercury-Supported Langmuir Films of Fatty Diacids
DOI:10.1021/la3034325 JN:LANGMUIR PY:2012 TC:2 AU: Tamam, Lilach;Ocko, Benjamin M.;Deutsch, Moshe;
2:256:4 Surface Layering at the Mercury-Electrolyte Interface
DOI:10.1103/PhysRevLett.104.105501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:15 AU: Elsen, A.;Murphy, B. M.;Ocko, B. M.;Tamam, L.;Deutsch, M.;Kuzmenko, I.;Magnussen, O. M.;
2:256:5 The structure of Langmuir films of long diols on mercury
DOI:10.1039/c3sm52133h JN:SOFT MATTER PY:2013 TC:0 AU: Tamam, Lilach;Ocko, Benjamin M.;Nakamura, Naotake;Ogawa, Yoshihiro;Deutsch, Moshe;
2:256:6 Highly anisotropic thermal expansion in molecular films of dicarboxylic fatty acids
DOI:10.1103/PhysRevB.85.205449 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Tamam, Lilach;Kraack, Henning;Sloutskin, Eli;Ocko, Benjamin M.;Deutsch, Moshe;
2:256:7 Surface Nanocrystallization of an Ionic Liquid
DOI:10.1103/PhysRevLett.108.055502 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:8 AU: Jeon, Yoonnam;Vaknin, David;Bu, Wei;Sung, Jaeho;Ouchi, Yukio;Sung, Woongmo;Kim, Doseok;
2:256:8 Surfactant-induced Phases in Water-Supported Alkane Monolayers: I. Thermodynamics
DOI:10.1021/la501567s JN:LANGMUIR PY:2014 TC:1 AU: Yefet, Shai;Soutskin, Eli;Tamam, Lilach;Sapir, Zvi;Cohen, Asaf;Deutsch, Moshe;Ocko, Benjamin M.;
2:256:9 The structure and phase diagram of chiral alkyl-serine monolayers on mercury
DOI:10.1039/b914714d JN:SOFT MATTER PY:2010 TC:4 AU: Tamam, L.;Medina, D. D.;Menahem, T.;Mastai, Y.;Sloutskin, E.;Yefet, S.;Deutsch, M.;
2:256:10 X-Ray Reflectivity at Polarized Liquid-Hg-Aqueous-Electrolyte Interface: Challenging Macroscopic Approaches for Ion-Specificity Issues
DOI:10.1103/PhysRevLett.108.206102 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:5 AU: Duval, Jerome F. L.;Bera, Sambhunath;Michot, Laurent J.;Daillant, Jean;Belloni, Luc;Konovalov, Oleg;Pontoni, Diego;
2:256:11 Surfactant-Induced Phases in Water-Supported Alkane Monolayers: II. Structure
DOI:10.1021/la501589t JN:LANGMUIR PY:2014 TC:0 AU: Yefet, Shai;Sloutskin, Eli;Tamam, Lilach;Sapir, Zvi;Deutsch, Moshe;Ocko, Benjamin M.;
2:256:12 Enhanced specific heat capacity of molten salt-based nanomaterials: Effects of nanoparticle dispersion and solvent material
DOI:10.1016/j.actamat.2014.05.005 JN:ACTA MATERIALIA PY:2014 TC:3 AU: Jo, Byeongnam;Banerjee, Debjyoti;
2:256:13 The adsorption behavior of octafluoropropane at the water/gas interface
DOI:10.1063/1.4902961 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Giebel, Friederike;Paulus, Michael;Nase, Julia;Bieder, Steffen;Kiesel, Irena;Tolan, Metin;
2:256:14 Confinement-Driven Weakening of the Rotator Phase Transitions in an Alkane through a Possible Tricritical Point
DOI:10.1021/la1037266 JN:LANGMUIR PY:2010 TC:9 AU: Kumar, M. Vijay;Prasad, S. Krishna;Rao, D. S. Shankar;
2:256:15 Surface Electrostatic Immobilization of Thin Layers of Water on Silver Halide. Experimental and Calculated Infrared Spectrum of Cyclic Trimer of Water and a Ponderal Isotope Effect
DOI:10.1021/la301613k JN:LANGMUIR PY:2012 TC:4 AU: Kosower, Edward M.;Markovich, Gil;Borz, Galina;
2:256:16 Effect of Headgroup on the Physicochemical Properties of Phospholipid Bilayers in Electric Fields: Size Matters
DOI:10.1021/la304455d JN:LANGMUIR PY:2013 TC:5 AU: Madrid, Elena;Horswell, Sarah L.;
2:257:1 Toward White Light Emission through Efficient Two-Step Energy Transfer in Hybrid Nanofibers
DOI:10.1021/nn9017922 JN:ACS NANO PY:2010 TC:43 AU: Vohra, Varun;Calzaferri, Gion;Destri, Silvia;Pasini, Mariacecilia;Porzio, William;Botta, Chiara;
2:257:2 Fabrication of molecular sieve fibers by electrospinning
DOI:10.1039/c1jm10512d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Di, Jiancheng;Zhao, Yong;Yu, Jihong;
2:257:3 Synthesis of novel platinum complex core as a selective Ag+ sensor and its H-bonded tetrads self-assembled with triarylamine dendrimers for electron/energy transfers
DOI:10.1039/c4ta04231j JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:0 AU: Shellaiah, Muthaiah;Raju, Mandapati V. Ramakrishnam;Singh, Ashutosh;Lin, Hsin-Chieh;Wei, Kung-Hwa;Lin, Hong-Cheu;
2:257:4 A novel catalyst based on electrospun silver-doped silica fibers with ribbon morphology
DOI:10.1016/j.jcis.2009.09.050 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:26 AU: Kang, Haigang;Zhu, Yihua;Yang, Xiaoling;Jing, Yujia;Lengalova, Anezka;Li, Chungzhong;
2:257:5 Synthesis and applications of main-chain Ru(II) metallo-polymers containing bis-terpyridyl ligands with various benzodiazole cores for solar cells
DOI:10.1039/c0jm02532a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:23 AU: Padhy, Harihara;Sahu, Duryodhan;Chiang, I-Hung;Patra, Dhananjaya;Kekuda, Dhananjay;Chu, Chih-Wei;Lin, Hong-Cheu;
2:257:6 Synthesis of Hollow Silica Fibers with Porous Walls by Coaxial Electrospinning Method
DOI:10.1111/j.1551-2916.2011.04923.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2012 TC:5 AU: Katoch, Akash;Kim, Sang Sub;
2:257:7 Formation of dynamic metallo-copolymers by inkjet printing: towards white-emitting materials
DOI:10.1039/c2tc00552b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:15 AU: Wild, Andreas;Teichler, Anke;Ho, Cheuk-Lam;Wang, Xing-Zhu;Zhan, Hongmei;Schluetter, Florian;Winter, Andreas;Hager, Martin D.;Wong, Wai-Yeung;Schubert, Ulrich S.;
2:257:8 Preparation of poly (vinyl alcohol)/silica composite nanofibers membrane functionalized with mercapto groups by electrospinning
DOI:10.1016/j.matlet.2010.03.012 JN:MATERIALS LETTERS PY:2010 TC:14 AU: Wu, Shengju;Li, Fengting;Xu, Ran;Wei, Shihui;Wang, Hongtao;
2:257:9 A coating of silane modified silica nanoparticles on PET substrate film for inkjet printing
DOI:10.1016/j.apsusc.2012.01.147 JN:APPLIED SURFACE SCIENCE PY:2012 TC:4 AU: Wu, J.;Liu, L.;Jiang, B.;Hu, Z.;Wang, X. Q.;Huang, Y. D.;Lin, D. R.;Zhang, Q. H.;
2:257:10 Hybrid effect of doped and de-doped poly(3-methylthiophene) nanowires with CdSe/ZnS quantum dots: Nanoscale luminescence variation
DOI:10.1016/j.synthmet.2012.12.025 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Lee, Sunmi;Lee, Youg-baek;Park, Sung-yeoun;Lee, Hyunsoo;Kim, Jeongyong;Lee, Kwang-Sup;Joo, Jinsoo;
2:257:11 The structure of electrical double layer of silica in the presence of polyvinyl alcohol (PVA) at different temperatures
DOI:10.1016/j.matlet.2010.04.062 JN:MATERIALS LETTERS PY:2010 TC:9 AU: Wisniewska, Malgorzata;
2:257:12 Silica/PVA biocatalytic nanofibers
DOI:10.1016/j.matlet.2013.08.102 JN:MATERIALS LETTERS PY:2013 TC:4 AU: Tong, Ho-Wang;Mutlu, Bans R.;Wackett, Lawrence P.;Aksan, Alptekin;
2:258:1 Highly color-stable solution-processed multilayer WOLEDs for lighting application
DOI:10.1039/b924968k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:31 AU: Koehnen, Anne;Irion, Mayra;Gather, Malte C.;Rehmann, Nina;Zacharias, Philipp;Meerholz, Klaus;
2:258:2 OLED manufacturing for large area lighting applications
DOI:10.1016/j.tsf.2009.09.188 JN:THIN SOLID FILMS PY:2010 TC:38 AU: Eritt, M.;May, C.;Leo, K.;Toerker, M.;Radehaus, C.;
2:258:3 Ionic Iridium Complex and Conjugated Polymer Used To Solution-Process a Bilayer White Light-Emitting Diode
DOI:10.1021/am302033k JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Sessolo, Michele;Tordera, Daniel;Bolink, Henk J.;
2:258:4 Highly Efficient Color-Stable Deep-Blue Multilayer PLEDs: Preventing PEDOT:PSS-Induced Interface Degradation
DOI:10.1002/adma.201300832 JN:ADVANCED MATERIALS PY:2013 TC:7 AU: Nau, Sebastian;Schulte, Niels;Winkler, Stefanie;Frisch, Johannes;Vollmer, Antje;Koch, Norbert;Sax, Stefan;List, Emil J. W.;
2:258:5 Orthogonal Processing and Patterning Enabled by Highly Fluorinated Light-Emitting Polymers
DOI:10.1002/adma.201002986 JN:ADVANCED MATERIALS PY:2011 TC:15 AU: Fong, Hon Hang;Lee, Jin-Kyun;Lim, Yee-Fun;Zakhidov, Alexander A.;Wong, Wallace W. H.;Holmes, Andrew B.;Ober, Christopher K.;Malliaras, George G.;
2:258:6 A Novel Thermally Reversible Soluble-Insoluble Conjugated Polymer with Semi-Fluorinated Alkyl Chains: Enhanced Transistor Performance by Fluorophobic Self-Organization and Orthogonal Hydrophobic Patterning
DOI:10.1002/adma.201301337 JN:ADVANCED MATERIALS PY:2013 TC:4 AU: Jeong, Hyung-Gu;Lim, Bogyu;Khim, Dongyoon;Han, Mingu;Lee, Jaewon;Kim, Juhwan;Yun, Jin-Mun;Cho, Kilwon;Park, Ji-Woong;Kim, Dong-Yu;
2:258:7 An electrochemically deposited film as an interface layer to improve the performance of polymer light-emitting diodes
DOI:10.1039/c4tc00373j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Yu, Tiancheng;Wu, Xiaoyan;Lv, Ying;Liu, Linlin;Du, Luyang;Zhou, Jiadong;Xie, Zengqi;Ma, Yuguang;
2:258:8 CZTSe Thin Film Growth via a Co-evaporation Process Using a ZnSe Effusion Source
DOI:10.1007/s13391-012-2033-y JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:3 AU: Gwak, Jihye;Jung, Sunghun;Park, Sang Hyun;Ahn, Sejin;Cho, Ara;Shin, Keeshik;Yoon, Kyung Loon;Yun, Jae Ho;
2:258:9 Luminance Efficiency Enhancement in Organic Light-Emitting Devices Utilizing 4,7-Diphenyl-1,10-phenanthroline/aluminum tris(8-hydroxyquinoline) Multiple Heterostructures Acting as an Electron Transport Layer
DOI:10.1080/15421406.2011.600129 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Choo, D. C.;Bang, H. S.;Kim, T. W.;Jin, Y. Y.;Seo, J. H.;Kim, Y. K.;
2:258:10 A study on the evaporation process with multiple point-sources
DOI:10.1007/s13391-013-3181-4 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:1 AU: Jun, Sunghoon;Kim, Minseok;Kim, Suk Han;Lee, Moon Yong;Lee, Eung Ki;
2:258:11 Photo-Induced Degradation of a-Si: H Thin Film Depending on Electrical Load Conditions
DOI:10.1007/s13391-011-0290-2 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:1 AU: Park, Sang Hyun;Cho, Jun-Sik;Yoon, Kyung Hoon;
2:259:1 Photophysical properties and potential application in photocurrent generation of porphyrin-[60]fullerene polymer linked by metal axial coordination
DOI:10.1016/j.polymer.2014.02.058 JN:POLYMER PY:2014 TC:7 AU: Zhao, Haiying;Zhu, Yizhou;Chen, Chen;Zheng, Jianyu;
2:259:2 Triazole Bridges as Versatile Linkers in Electron Donor-Acceptor Conjugates
DOI:10.1021/ja202485s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:43 AU: de Miguel, Gustavo;Wielopolski, Mateusz;Schuster, David I.;Fazio, Michael A.;Lee, Olivia P.;Haley, Christopher K.;Ortiz, Angy L.;Echegoyen, Luis;Clark, Timothy;Guldi, Dirk M.;
2:259:3 Electron Transfer within Self-Assembling Cyclic Tetramers Using Chlorophyll-Based Donor Acceptor Building Blocks
DOI:10.1021/ja211329k JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Gunderson, Victoria L.;Smeigh, Amanda L.;Kim, Chul Hoon;Co, Dick T.;Wasielewski, Michael R.;
2:259:4 Design and Synthesis of Bipyridine Platinum(II) Bisalkynyl Fullerene Donor-Chromophore-Acceptor Triads with Ultrafast Charge Separation
DOI:10.1021/ja5040073 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Lee, Sai-Ho;Chan, Chris Tsz-Leung;Wong, Keith Man-Chung;Lam, Wai Han;Kwok, Wai-Ming;Yam, Vivian Wing-Wah;
2:259:5 Pairing Fullerenes and Porphyrins: Supramolecular Wires That Exhibit Charge Transfer Activity
DOI:10.1021/ja101937w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:44 AU: Wessendorf, Florian;Grimm, Bruno;Guldi, Dirk M.;Hirsch, Andreas;
2:259:6 De Novo Designed Coiled-Coil Proteins with Variable Conformations as Components of Molecular Electronic Devices
DOI:10.1021/ja907902h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:14 AU: Shlizerman, Clara;Atanassov, Alexander;Berkovich, Inbal;Ashkenasy, Gonen;Ashkenasy, Nurit;
2:259:7 Cooperatively Assembling Donor-Acceptor Superstructures Direct Energy Into an Emergent Charge Separated State
DOI:10.1021/ja5015053 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Ley, David;Guzman, Carmen X.;Adolfsson, Karin H.;Scott, Amy M.;Braunschweig, Adam B.;
2:259:8 Control over Charge Transfer through Molecular Wires by Temperature and Chemical Structure Modifications
DOI:10.1021/nn1013758 JN:ACS NANO PY:2010 TC:12 AU: Wielopolski, Mateusz;Rojas, Gustavo de Miguel;van der Pol, Cornelia;Brinkhaus, Linda;Katsukis, Georgios;Bryce, Martin R.;Clark, Timothy;Guldi, Dirk M.;
2:259:9 Alkynyl Phosphonate DNA: A Versatile "Click"able Backbone for DNA-Based Biological Applications
DOI:10.1021/ja3026714 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:5 AU: Krishna, Heera;Caruthers, Marvin H.;
2:259:10 Conformationally Constrained Macrocyclic Diporphyrin-Fullerene Artificial Photosynthetic Reaction Center
DOI:10.1021/ja1083078 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:32 AU: Garg, Vikas;Kodis, Gerdenis;Chachisvilis, Mirianas;Hambourger, Michael;Moore, Ana L.;Moore, Thomas A.;Gust, Devens;
2:259:11 Dipole-Mediated Rectification of Intramolecular Photoinduced Charge Separation and Charge Recombination
DOI:10.1021/ja505618n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Bao, Duoduo;Upadhyayula, Srigokul;Larsen, Jillian M.;Xia, Bing;Georgieva, Boriana;Nunez, Vicente;Espinoza, Eli M.;Hartman, Joshua D.;Wurch, Michelle;Chang, Andy;Lin, Chung-Kuang;Larkin, Jason;Vasquez, Krystal;Beran, Gregory J. O.;Vullev, Valentine I.;
2:259:12 Proton-Coupled Electron Shuttling in a Covalently Linked Ruthenium-Copper Heterodinuclear Complex
DOI:10.1021/ja208141b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:8 AU: Ishizuka, Tomoya;Tobita, Kengo;Yano, Yuichi;Shiota, Yoshihito;Yoshizawa, Kazunari;Fukuzumi, Shunichi;Kojima, Takahiko;
2:259:13 Effect of Orientation of the Peptide-Bridge Dipole Moment on the Properties of Fullerene-Peptide-Radical Systems
DOI:10.1021/ja303696s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:4 AU: Garbuio, Luca;Antonello, Sabrina;Guryanov, Ivan;Li, Yongjun;Ruzzi, Marco;Turro, Nicholas J.;Maran, Flavio;
2:259:14 Implementation of redox gradients in hydrogen bonded complexes containing N,N-dimethylaniline, flavin and fullerene derivatives
DOI:10.1039/b918462g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Murakami, Motonobu;Ohkubo, Kei;Hasobe, Taku;Sgobba, Vito;Guldi, Dirk M.;Wessendorf, Florian;Hirsch, Andreas;Fukuzumi, Shunichi;
2:259:15 Antisense and Antigene Inhibition of Gene Expression by Cell-Permeable Oligonucleotide-Oligospermine Conjugates
DOI:10.1021/ja200312y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:13 AU: Gagnon, Keith T.;Watts, Jonathan K.;Pendergraff, Hannah M.;Montaillier, Christophe;Thai, Danielle;Potier, Pierre;Corey, David R.;
2:259:16 Double Helices of a Pyridine-Appended Zinc Chlorophyll Derivative
DOI:10.1021/ja400493e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:11 AU: Shinozaki, Yoshinao;Richards, Gary;Ogawa, Keizo;Yamano, Akihito;Ohara, Kazuaki;Yamaguchi, Kentaro;Kawano, Shin-ichiro;Tanaka, Kentaro;Araki, Yasuyuki;Wada, Takehiko;Otsuki, Joe;
2:259:17 Synthesis and photophysical properties of polyamides containing in-chain porphyrin and [60]fullerene
DOI:10.1007/s11051-012-0765-0 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:5 AU: Zhao, Haiying;Chen, Chen;Zhu, Yizhou;Shi, Mingzhu;Zheng, Jianyu;
2:260:1 Low-dimensional nanostructures fabricated from bis(dioxaborine) carbazole derivatives as fluorescent chemosensors for detecting organic amine vapors
DOI:10.1039/c0jm04274a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:43 AU: Liu, Xingliang;Zhang, Xiaofei;Lu, Ran;Xue, Pengchong;Xu, Defang;Zhou, Huipeng;
2:260:2 Fast detection of organic amine vapors based on fluorescent nanofibrils fabricated from triphenylamine functionalized beta-diketone-boron difluoride
DOI:10.1039/c1jm14187b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:36 AU: Zhang, Xiaofei;Liu, Xingliang;Lu, Ran;Zhang, Haojun;Gong, Peng;
2:260:3 Supramolecular assemblies from carbazole dendrimers modulated by core size and molecular configuration
DOI:10.1039/c3sm52191e JN:SOFT MATTER PY:2013 TC:5 AU: Ding, Zicheng;Xing, Rubo;Wang, Xingdong;Ding, Junqiao;Wang, Lixiang;Han, Yanchun;
2:260:4 Main-Chain Optically Active Riboflavin Polymer for Asymmetric Catalysis and Its Vapochromic Behavior
DOI:10.1021/ja306159t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Iida, Hiroki;Iwahana, Soichiro;Mizoguchi, Tomohisa;Yashima, Eiji;
2:260:5 Torsionally Responsive C-3-Symmetric Azo Dyes: Azo-Hydrazone Tautomerism, Conformational Switching, and Application for Chemical Sensing
DOI:10.1021/ja105121z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:38 AU: Lee, Ho Yong;Song, Xinli;Park, Hyunsoo;Baik, Mu-Hyun;Lee, Dongwhan;
2:260:6 Supramolecular metallogels with complex of phosphonate substituted carbazole derivative and aluminum(III) ion as gelator
DOI:10.1016/j.jcis.2014.03.016 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:0 AU: Ding, Zicheng;Chen, Bo;Ding, Junqiao;Wang, Lixiang;Han, Yanchun;
2:260:7 Investigation of the spontaneous emission rate of perylene dye molecules encapsulated into three-dimensional nanofibers via FLIM method
DOI:10.1007/s00339-014-8346-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Acikgoz, Sabriye;Demir, Mustafa M.;Yapasan, Ece;Kiraz, Alper;Unal, Ahmet A.;Inci, M. Naci;
2:260:8 Detection of explosives with porous xerogel film from conjugated carbazole-based dendrimers
DOI:10.1039/c2tc00125j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:20 AU: Ding, Zicheng;Zhao, Qiaoqiao;Xing, Rubo;Wang, Xingdong;Ding, Junqiao;Wang, Lixiang;Han, Yanchun;
2:260:9 Effects of pi-spacers on the linear and nonlinear optical properties of novel fluorenone-based D-pi-A-pi-D type conjugated oligomers with different donors
DOI:10.1016/j.optmat.2013.02.005 JN:OPTICAL MATERIALS PY:2013 TC:6 AU: Huang, Tian-Hao;Li, Xue-Cong;Wang, Ying-Hui;Kang, Zhi-Hui;Lu, Ran;Miao, Er-Long;Wang, Fei;Wang, Gao-Wen;Zhang, Han-Zhuang;
2:260:10 Synthesis and photophysical properties of 2,1,3-benzothiadiazole-cored H-shaped conjugated compounds
DOI:10.1016/j.optmat.2013.12.047 JN:OPTICAL MATERIALS PY:2014 TC:2 AU: Zhao, Xin;Cao, Kaiyu;Zhou, Huipeng;Lu, Ran;
2:260:11 Preparation and luminescent properties of YBO3:Eu nanofibers by electrospinning
DOI:10.1007/s00339-012-6878-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:3 AU: Yu, Hongquan;Wang, Hongdan;Li, Tao;Che, Ruxi;
2:260:12 Main-Chain Optically Active Riboflavin Polymer for Asymmetric Catalysis and Its Vapochromic Behavior (vol 134, pg 15103, 2012)
DOI:10.2021/ja310013j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:3 AU: Iida, Hiroki;Iwahana, Soichiro;Mizoguchi, Tomohisa;Yashima, Eiji;
2:260:13 A fluorescent conjugated polymer for trace detection of diamines and biogenic polyamines
DOI:10.1039/c0jm01467b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:23 AU: Bao, Biqing;Yuwen, Lihui;Zheng, Xiannuo;Weng, Lixing;Zhu, Xingrong;Zhan, Xiaowei;Wang, Lianhui;
2:260:14 Linear and nonlinear optical properties of two novel D-pi-A-pi-D type conjugated oligomers with different donors
DOI:10.1016/j.optmat.2012.09.032 JN:OPTICAL MATERIALS PY:2013 TC:11 AU: Huang, Tian-Hao;Yang, Dan;Kang, Zhi-Hui;Miao, Er-Long;Lu, Ran;Zhou, Hui-Peng;Wang, Fei;Wang, Gao-Wen;Cheng, Peng-Fei;Wang, Ying-Hui;Zhang, Han-Zhuang;
2:260:15 Electronic characterization of all-thiophene conducting dendrimers: Molecules and assemblies
DOI:10.1016/j.polymer.2009.11.007 JN:POLYMER PY:2010 TC:6 AU: Rodriguez-Ropero, Francisco;Zanuy, David;Aleman, Carlos;
2:261:1 Polythiophenes comprising conjugated pendants toward long-term air-stable inverted polymer solar cells with high open circuit voltages
DOI:10.1039/c3ta11272a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:6 AU: Wang, Hsing-Ju;Chou, Chen-Wei;Chen, Chih-Ping;Chen, Ying-Hsiao;Lee, Rong-Ho;Jeng, Ru-Jong;
2:261:2 Synthesis and photovoltaic properties of two-dimensional conjugated polythiophene derivatives presenting conjugated triphenylamine/thiophene moieties
DOI:10.1016/j.polymer.2012.07.010 JN:POLYMER PY:2012 TC:12 AU: Wang, Hsing-Ju;Chen, Yuan-Peng;Chen, Yung-Chung;Chen, Chih-Ping;Lee, Rong-Ho;Chan, Li-Hsin;Jeng, Ru-Jong;
2:261:3 Synthesis of indolo[3,2-b]carbazole-based random copolymers for polymer solar cell applications
DOI:10.1016/j.tsf.2013.02.094 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Chan, Li-Hsin;Lin, Lu-Chi;Yao, Chi-Han;Liu, You-Ren;Jiang, Zong-Jhih;Cho, Ting-Yu;
2:261:4 Synthesis and photovoltaic properties of the polymers base on thiophene derivatives with electron-deficient 3-nitro-1,2,4-triazole side chains
DOI:10.1016/j.tsf.2013.04.152 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Zhao, Bin;Li, Xinwei;Tang, Peng;Cao, Zhencai;Huang, Hongyan;Shen, Ping;Tan, Songting;
2:261:5 Bulky side-chain density effect on the photophysical, electrochemical and photovoltaic properties of polythiophene derivatives
DOI:10.1016/j.polymer.2010.11.036 JN:POLYMER PY:2011 TC:24 AU: Wang, Hsing-Ju;Chan, Li-Hsin;Chen, Chih-Ping;Lin, Shin-Lei;Lee, Rong-Ho;Jeng, Ru-Jong;
2:261:6 A new series of random conjugated copolymers containing 3,4-diphenyl-maleimide and thiophene units for organic photovoltaic cell applications
DOI:10.1016/j.polymer.2012.04.014 JN:POLYMER PY:2012 TC:5 AU: Chan, Li-Hsin;Juang, Shiang-Yin;Chen, Ming-Chou;Lin, Yu-Jou;
2:261:7 Polythiophene derivative comprising carbazoles as pendant groups for polymer solar cell applications
DOI:10.1016/j.tsf.2011.01.173 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Wang, Hsing-Ju;Chan, Li-Hsin;Chen, Chih-Ping;Lee, Rong-Ho;Su, Wen-Chiung;Jeng, Ru-Jong;
2:261:8 Photovoltaic properties of low-band-gap fluorene-based donor-acceptor copolymers
DOI:10.1016/j.tsf.2009.07.125 JN:THIN SOLID FILMS PY:2010 TC:11 AU: Lee, Wen-Ya;Cheng, Kai-Fang;Wang, Then-Fu;Chen, Wen-Chang;Tsai, Feng-Yu;
2:261:9 Synthesis and optical studies of conjugated polyfluorenyl cations
DOI:10.1016/j.polymer.2010.09.062 JN:POLYMER PY:2010 TC:3 AU: Scaria, Renchu;Muellen, Klaus;Jacob, Josemon;
2:262:1 New Discotic Mesogens Based on Triphenylene-Fused Triazatruxenes: Synthesis, Physical Properties, and Self-Assembly
DOI:10.1021/cm903555s JN:CHEMISTRY OF MATERIALS PY:2010 TC:54 AU: Zhao, Baomin;Liu, Bo;Png, Rui Qi;Zhang, Kai;Lim, Kheng Aik;Luo, Jing;Shao, Jinjun;Ho, Peter K. H.;Chi, Chunyan;Wu, Jishan;
2:262:2 New interfacial materials for rapid hole-extraction in organic photovoltaic cells
DOI:10.1039/c3ta00808h JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:8 AU: Kulshreshtha, Chandramouli;Kim, Gyeong Woo;Lampande, Raju;Huh, Dal Ho;Chae, Miyoung;Kwon, Jang Hyuk;
2:262:3 Helical columnar liquid crystals based on dendritic peptides substituted perylene bisimides
DOI:10.1039/c1jm13144c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Gao, Baoxiang;Xia, Defang;Zhang, Licui;Bai, Qianqian;Bai, Libin;Yang, Tao;Ba, Xinwu;
2:262:4 Highly ordered pi-extended discotic liquid-crystalline triindoles
DOI:10.1039/c0jm04395h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Garcia-Frutos, Eva M.;Omenat, Ana;Barbera, Joaquin;Luis Serrano, Jose;Gomez-Lor, Berta;
2:262:5 Large core-expanded triazatruxene-based discotic liquid crystals: synthesis, characterization and physical properties
DOI:10.1039/c2jm31684f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Ye, Qun;Chang, Jingjing;Shao, Jinjun;Chi, Chunyan;
2:262:6 Synthesis, physical properties and self-assembly of star-shaped oligothiophenes-substituted and fused triphenylenes
DOI:10.1039/b918671a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:25 AU: Luo, Jing;Zhao, Baomin;Chan, Hardy Sze On;Chi, Chunyan;
2:262:7 High hole mobility hole transport material for organic light-emitting devices
DOI:10.1016/j.synthmet.2013.07.021 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Huh, Dal Ho;Kim, Gyeong Woo;Kim, Gyeong Heon;Kulshreshtha, Chandramouli;Kwon, Jang Hyuk;
2:262:8 Very Large Photoconduction Enhancement Upon Self-Assembly of a New Triindole Derivative in Solution-Processed Films
DOI:10.1002/adfm.201000956 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:13 AU: Gallego-Gomez, Francisco;Garcia-Frutos, Eva M.;Villalvilla, Jose M.;Quintana, Jose A.;Gutierrez-Puebla, Enrique;Monge, Angeles;Diaz-Garcia, Maria A.;Gomez-Lor, Berta;
2:262:9 High Hole Mobility in Triindole-Based Columnar phases: Removing the Bottleneck of Homogeneous Macroscopic Orientation
DOI:10.1021/cm3033548 JN:CHEMISTRY OF MATERIALS PY:2013 TC:8 AU: Benito-Hernandez, Angela;Pandey, Upendra K.;Cavero, Emma;Termine, Roberto;Garcia-Frutos, Eva M.;Serrano, Jose L.;Golemme, Attilio;Gomez-Lor, Berta;
2:262:10 Synthesis and characterization of room temperature columnar mesogens of cyclotriphosphazene with Schiff base units
DOI:10.1039/c3tc31371a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: He, Qingye;Dai, Heng;Tan, Xiaoping;Cheng, Xiaohong;Liu, Feng;Tschierske, Carsten;
2:262:11 Organic field-effect transistors based on two phenylene-thiophene oligomer derivatives with a biphenyl or fluorene core
DOI:10.1016/j.synthmet.2012.05.002 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Duan, Zongfan;Hu, Dengwei;Ohuchi, Hirokuni;Zhao, Maiqun;Zhao, Gaoyang;Nishioka, Yasushiro;
2:262:12 Synthesis and Properties of Triindole-Based Monomers and Polymers
DOI:10.1080/15421406.2013.873856 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Andrikaityte, E.;Simokaitiene, J.;Tomkeviciene, A.;Grazulevicius, J. V.;Jankauskas, V.;
2:263:1 Hydrophobic and flexible conductive films consisting of PEDOT:PSS-PBA/fluorine-modified silica and their performance in weather stability
DOI:10.1039/c2jm31352a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Yin, Hui-En;Huang, Feng-Hsi;Chiu, Wen-Yen;
2:263:2 Innovative elastic and flexible conductive PEDOT:PSS composite films prepared by introducing soft latexes
DOI:10.1039/c2jm15689j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Yin, Hui-En;Wu, Chieh-Han;Kuo, Kai-Shiang;Chiu, Wen-Yen;Tai, Horng-Jer;
2:263:3 Preparation of thermally curable conductive films PEDOT:P(SS-NMA) and their performances on weather stability and water resistance
DOI:10.1016/j.polymer.2011.08.044 JN:POLYMER PY:2011 TC:8 AU: Yin, Hui-En;Lee, Chia-Fen;Chiu, Wen-Yen;
2:263:4 Study of the effect of DMSO concentration on the thickness of the PSS insulating barrier in PEDOT:PSS thin films
DOI:10.1016/j.synthmet.2010.05.010 JN:SYNTHETIC METALS PY:2010 TC:32 AU: Cruz-Cruz, I.;Reyes-Reyes, M.;Aguilar-Frutis, M. A.;Rodriguez, A. G.;Lopez-Sandoval, R.;
2:263:5 Preparation of almost dispersant-free colloidal silica with superb dispersiblility in organic solvents and monomers
DOI:10.1007/s11051-011-0342-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:9 AU: Huang, Feng-Hsi;Chang, Chao-Ching;Oyang, Tai-Yueh;Chen, Ching-Chung;Cheng, Liao-Ping;
2:263:6 Temperature-dependent conductive composites: poly(N-isopropylacrylamide-co-N-methylol acrylamide) and carbon black composite films
DOI:10.1039/c2jm33601d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Chuang, Wen-Ju;Chiu, Wen-Yen;Tai, Horng-Jer;
2:263:7 Fabrication of hydrophobic poly(3,4-ethylenedioxythiophene): Poly(4-styrenesulfonate)/zinc oxide rod conductive film via hydrothermal method and their performance on weather stability and pH buffering ability
DOI:10.1016/j.tsf.2013.11.101 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Huang, Ting-Chang;Yin, Hui-En;Chiu, Wen-Yen;Lee, Chia-Fen;
2:263:8 Preparation of polymer/silica hybrid hard coatings with enhanced hydrophobicity on plastic substrates
DOI:10.1016/j.jnoncrysol.2011.08.024 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:13 AU: Chang, Chao-Ching;Oyang, Tai-Yueh;Hwang, Feng-Hsi;Chen, Ching-Chung;Cheng, Liao-Ping;
2:263:9 Synthesis and optoelectronic properties of high transparent polymer based anode materials with good wetting abilities and their application in electroluminescent devices
DOI:10.1016/j.synthmet.2011.06.027 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Yin, Hui-En;Wu, Chieh-Han;Kuo, Kai-Shiang;Chiu, Wen-Yen;Lee, Chia-Fen;Li, Nien-ting;Chen, Pei-Jing;
2:263:10 Formation of polystyrene sulfonic acid surface structures on poly(3,4-ethylenedioxythiophene): Poly(styrenesulfonate) thin films and the enhancement of its conductivity by using sulfuric acid
DOI:10.1016/j.tsf.2012.12.050 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Cruz-Cruz, Isidro;Reyes-Reyes, Marisol;Lopez-Sandoval, Roman;
2:263:11 Effect of particle size on the photochromic response of PWA/SiO2 nanocomposite
DOI:10.1007/s11051-010-9884-7 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:4 AU: Huang, Feng-Hsi;Chen, Ching-Chung;Lin, Dar-Jong;Don, Trong-Ming;Cheng, Liao-Ping;
2:263:12 Thermally crosslinkable poly(N-isopropylacrylamide) copolymers: Synthesis and characterization of temperature-responsive hydrogel
DOI:10.1016/j.matchemphys.2012.04.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:5 AU: Chuang, Wen-Ju;Chiu, Wen-Yen;Tai, Horng-Jer;
2:263:13 Kinetic Behavior of Photo-Polymerization of UV-Curable Resins with Carboxylic Acid and Amino Groups
DOI:10.1002/app.31279 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:1 AU: Kuo, Kuo-Huai;Chiu, Wen-Yen;Don, Trong-Ming;
2:263:14 Thermo-responsive nanofibers prepared from poly (N-isopropylacrylamide-co-N-methylol acrylamide)
DOI:10.1016/j.polymer.2012.05.014 JN:POLYMER PY:2012 TC:5 AU: Chuang, Wen-Ju;Chiu, Wen-Yen;
2:264:1 Hole-Transporting Transistors and Circuits Based on the Transparent Inorganic Semiconductor Copper(I) Thiocyanate (CuSCN) Processed from Solution at Room Temperature
DOI:10.1002/adma.201202758 JN:ADVANCED MATERIALS PY:2013 TC:21 AU: Pattanasattayavong, Pichaya;Yaacobi-Gross, Nir;Zhao, Kui;Ndjawa, Guy Olivier Ngongang;Li, Jinhua;Yan, Feng;O'Regan, Brian C.;Amassian, Aram;Anthopoulos, Thomas D.;
2:264:2 Direct patterning of solution-processed organic thin-film transistor by selective control of solution wettability of polymer gate dielectric
DOI:10.1063/1.4802499 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Fujisaki, Yoshihide;Ito, Hiroshi;Nakajima, Yoshiki;Nakata, Mitsuru;Tsuji, Hiroshi;Yamamoto, Toshihiro;Furue, Hirokazu;Kurita, Taiichiro;Shimidzu, Naoki;
2:264:3 Towards Colorless Transparent Organic Transistors: Potential of Benzothieno[3,2-b] benzothiophene-Based Wide-Gap Semiconductors
DOI:10.1002/adma.201305440 JN:ADVANCED MATERIALS PY:2014 TC:1 AU: Moon, Hanul;Cho, Hyunsu;Kim, Mincheol;Takimiya, Kazuo;Yoo, Seunghyup;
2:264:4 Controlling the surface wettability of the polymer dielectric for improved resolution of inkjet-printed electrodes and patterned channel regions in low-voltage solution-processed organic thin film transistors
DOI:10.1039/4tc00343h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Tang, Wei;Feng, Linrun;Jiang, Chen;Yao, Guangyu;Zhao, Jiaqing;Cui, Qingyu;Guo, Xiaojun;
2:264:5 Towards transparent electronics: fabrication of an organic transistor with a wide bandgap polymer
DOI:10.1039/c1jm15211d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Lin, C. W.;Tai, Y.;Liaw, D. J.;Chen, M. C.;Huang, Y. C.;Lin, C. T.;Huang, C. W.;Yang, Y. J.;Chen, Y. F.;
2:264:6 Inkjet printed fine silver electrodes for all-solution-processed low-voltage organic thin film transistors
DOI:10.1039/c3tc32134g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Tang, Wei;Feng, Linrun;Zhao, Jiaqing;Cui, Qingyu;Chen, Sujie;Guo, Xiaojun;
2:264:7 A study on the carrier injection mechanism of the bottom-contact pentacene thin film transistor
DOI:10.1063/1.3339877 JN:APPLIED PHYSICS LETTERS PY:2010 TC:10 AU: Jung, Keum-Dong;Kim, Yoo Chul;Shin, Hyungcheol;Park, Byung-Gook;Lee, Jong Duk;Cho, Eou Sik;Kwon, Sang Jik;
2:264:8 Control of device parameters by active layer thickness in organic field-effect transistors
DOI:10.1063/1.3555463 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Kano, Masataka;Minari, Takeo;Tsukagoshi, Kazuhito;Maeda, Hiroki;
2:264:9 Preparation of Patterned Ultrathin Polymer Films
DOI:10.1021/la502659e JN:LANGMUIR PY:2014 TC:0 AU: Yang, Huige;Su, Meng;Li, Kaiyong;Jiang, Lei;Song, Yanlin;Doi, Masao;Wang, Jianjun;
2:264:10 OTFT performance of air-stable ester-functionalized polythiophenes
DOI:10.1039/b927164c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:3 AU: Kazarinoff, Peter D.;Shamburger, Patrick J.;Ohuchi, Fumio S.;Luscombe, Christine K.;
2:265:1 Nanoconfinement: an Effective Way to Enhance PVDF Piezoelectric Properties
DOI:10.1021/am4016878 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:23 AU: Cauda, Valentina;Stassi, Stefano;Bejtka, Katarzyna;Canayese, Giancarlo;
2:265:2 Confinement in Oriented Mesopores Induces Piezoelectric Behavior of Polymeric Nanowires
DOI:10.1021/cm302594s JN:CHEMISTRY OF MATERIALS PY:2012 TC:23 AU: Cauda, Valentina;Torre, Bruno;Falqui, Andrea;Canavese, Giancarlo;Stassi, Stefano;Bein, Thomas;Pizzi, Marco;
2:265:3 Polarization Orientation, Piezoelectricity, and Energy Harvesting Performance of Ferroelectric PVDF-TrFE Nanotubes Synthesized by Nanoconfinement
DOI:10.1002/aenm.201400723 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:1 AU: Bhavanasi, Venkateswarlu;Kusuma, Damar Yoga;Lee, Pooi See;
2:265:4 Laser-Induced Nondestructive Patterning of a Thin Ferroelectric Polymer Film with Controlled Crystals using Ge8Sb2Te11 Alloy Layer for Nonvolatile Memory
DOI:10.1021/am503397j JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Bae, Insung;Kim, Richard Hahnkee;Hwang, Sun Kak;Kang, Seok Ju;Park, Cheolmin;
2:265:5 One-dimensional confinement in crystallization of P(VDF-TrFE) thin films with transfer-printed metal electrode
DOI:10.1016/j.polymer.2013.12.013 JN:POLYMER PY:2014 TC:1 AU: Hahm, Si-Woo;Kim, Donyoung;Khang, Dahl-Young;
2:265:6 Nano-Imprinted Ferroelectric Polymer Nanodot Arrays for High Density Data Storage
DOI:10.1002/adfm.201203042 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:17 AU: Chen, Xiang-Zhong;Li, Qian;Chen, Xin;Guo, Xu;Ge, Hai-Xiong;Liu, Yun;Shen, Qun-Dong;
2:265:7 Optimal processing for hydrophobic nanopillar polymer surfaces using nanoporous alumina template
DOI:10.1016/j.apsusc.2014.03.105 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Huang, C. F.;Lin, Y.;Shen, Y. K.;Fan, Y. M.;
2:265:8 Fabrication of Ag nanodot array over large area for surface-enhanced Raman scattering using hybrid nanoimprint mold made from AAO template
DOI:10.1007/s00339-014-8454-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Yang, Tao;Fu, Xinxin;Zhang, Qian;Cui, Yushuang;Yuan, Changsheng;Zhang, Weihua;Ge, Haixiong;Chen, Yanfeng;
2:265:9 Direct stamping and capillary flow patterning of solution processable piezoelectric polyvinylidene fluoride films
DOI:10.1016/j.polymer.2013.07.062 JN:POLYMER PY:2013 TC:3 AU: Ong, Weili;Ke, Cangming;Lim, Pin;Kumar, Amit;Zeng, Kaiyang;Ho, Ghim Wei;
2:265:10 Transfer-printed thin film metal electrodes for high-performance ferroelectric P(VDF-TrFE) devices
DOI:10.1016/j.polymer.2014.03.054 JN:POLYMER PY:2014 TC:2 AU: Kim, Donyoung;Khang, Dahl-Young;
2:266:1 Multilayer Polymer Stacking by In Situ Electrochemical Polymerization for Color-Stable White Electroluminescence
DOI:10.1002/adma.201003027 JN:ADVANCED MATERIALS PY:2011 TC:31 AU: Gu, Cheng;Fei, Teng;Yao, Liang;Lv, Ying;Lu, Dan;Ma, Yuguang;
2:266:2 Cross-Linked Multifunctional Conjugated Polymers Prepared by In Situ Electrochemical Deposition for a Highly-Efficient Blue-Emitting and Electron-Transport Layer
DOI:10.1002/adma.201200559 JN:ADVANCED MATERIALS PY:2012 TC:28 AU: Gu, Cheng;Dong, Wenyue;Yao, Liang;Lv, Ying;Zhang, Zhongbo;Lu, Dan;Ma, Yuguang;
2:266:3 Achieving High Efficiency of PTB7-Based Polymer Solar Cells via Integrated Optimization of Both Anode and Cathode Interlayers
DOI:10.1002/aenm.201301771 JN:ADVANCED ENERGY MATERIALS PY:2014 TC:19 AU: Gu, Cheng;Chen, Youchun;Zhang, Zhongbo;Xue, Shanfeng;Sun, Shuheng;Zhong, Chengmei;Zhang, Huanhuan;Lv, Ying;Li, Fenghong;Huang, Fei;Ma, Yuguang;
2:266:4 Color-stable White Electroluminescence Based on a Cross-linked Network Film Prepared by Electrochemical Copolymerization
DOI:10.1002/adma.201000347 JN:ADVANCED MATERIALS PY:2010 TC:39 AU: Gu, Cheng;Fei, Teng;Lv, Ying;Feng, Tao;Xue, Shanfeng;Lu, Dan;Ma, Yuguang;
2:266:5 Highly Efficient and Fully Solution-Processed White Electroluminescence Based on Fluorescent Small Molecules and a Polar Conjugated Polymer as the Electron-Injection Material
DOI:10.1002/adfm.201102338 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:22 AU: Xue, Shanfeng;Yao, Liang;Shen, Fangzhong;Gu, Cheng;Wu, Hongbin;Ma, Yuguang;
2:266:6 Mixed bipolar fluorescent small molecules for solution processable white light-emitting devices with excellent efficiency roll-off
DOI:10.1039/c3tc31527d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Xue, Shanfeng;Yao, Liang;Gu, Cheng;Zhang, Huanhuan;Shen, Fangzhong;Xie, Zengqi;Wub, Hongbin;Ma, Yuguang;
2:266:7 Electroactive Self-Assembled Monolayers for Enhanced Efficiency and Stability of Electropolymerized Luminescent Films and Devices
DOI:10.1002/adfm.201100467 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:7 AU: Lv, Ying;Yao, Liang;Gu, Cheng;Xu, Yuanxiang;Liu, Dandan;Lu, Dan;Ma, Yuguang;
2:266:8 Morphological Control of the Electrochemically Deposited Poly(4-vinyltriphenylamines) (PVTPAs)
DOI:10.1021/la9036315 JN:LANGMUIR PY:2010 TC:4 AU: Lin, Kun-Rung;Chang, Chin-Chuan;Chien, Ying-Hsueh Chang;Leung, Man-kit;Liu, Shun-Wei;Lee, Jiun-Haw;Hsieh, Kuo-Huang;
2:267:1 All-Conjugated Diblock Copolymer Approach To Improve Single Layer Green Electroluminescent Devices
DOI:10.1021/cm102154q JN:CHEMISTRY OF MATERIALS PY:2011 TC:16 AU: Giovanella, Umberto;Betti, Paolo;Botta, Chiara;Destri, Silvia;Moreau, Juliette;Pasini, Mariacecilia;Porzio, William;Vercelli, Barbara;Bolognesi, Alberto;
2:267:2 Phosphorescent Organic Light-Emitting Diodes with Outstanding External Quantum Efficiency using Dinuclear Rhenium Complexes as Dopants
DOI:10.1002/adma.201104831 JN:ADVANCED MATERIALS PY:2012 TC:31 AU: Mauro, Matteo;Yang, Cheng-Han;Shin, Chin-Yao;Panigati, Monica;Chang, Chih-Hao;D'Alfonso, Giuseppe;De Cola, Luisa;
2:267:3 Highly emissive supramolecular assemblies based on pi-stacked polybenzofulvene hosts and a benzothiadiazole guest
DOI:10.1039/c4tc01200c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Cappelli, Andrea;Villafiorita-Monteleone, Francesca;Grisci, Giorgio;Paolino, Marco;Razzano, Vincenzo;Fabio, Giuseppe;Giuliani, Germano;Donati, Alessandro;Mendichi, Raniero;Boccia, Antonella Caterina;Pasini, Mariacecilia;Botta, Chiara;
2:267:4 Novel Bis[5-(fluoren-2-yl)thiophen-2-yl]benzothiadiazole End-Capped with Carbazole Dendrons as Highly Efficient Solution-Processed Nondoped Red Emitters for Organic Light-Emitting Diodes
DOI:10.1021/am402349v JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:16 AU: Prachumrak, Narid;Pojanasopa, Sirintra;Namuangruk, Supawadee;Kaewin, Tinnagon;Jungsuttiwong, Siriporn;Sudyoadsuk, Taweesak;Promarak, Vinich;
2:267:5 A Simple Design for Strongly Emissive Sky-Blue Phosphorescent Neutral Rhenium Complexes: Synthesis, Photophysics, and Electroluminescent Devices
DOI:10.1021/cm4038654 JN:CHEMISTRY OF MATERIALS PY:2014 TC:10 AU: Chu, Wing-Kin;Ko, Chi-Chiu;Chan, Kin-Cheung;Yiu, Shek-Man;Wong, Fu-Lung;Lee, Chun-Sing;Roy, V. A. L.;
2:267:6 Synthesis and characterization of charge-transporting pi-stacked polybenzofulvene derivatives
DOI:10.1039/c2jm16790e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Cappelli, Andrea;Paolino, Marco;Grisci, Giorgio;Giuliani, Germano;Donati, Alessandro;Mendichi, Raniero;Boccia, Antonella Caterina;Botta, Chiara;Mroz, Wojciech;Samperi, Filippo;Scamporrino, Andrea;Giorgi, Gianluca;Vomero, Salvatore;
2:267:7 A persulfurated benzene molecule exhibits outstanding phosphorescence in rigid environments: from computational study to organic nanocrystals and OLED applications
DOI:10.1039/c3tc00878a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Bergamini, Giacomo;Fermi, Andrea;Botta, Chiara;Giovanella, Umberto;Di Motta, Simone;Negri, Fabrizia;Peresutti, Romain;Gingras, Marc;Ceroni, Paola;
2:267:8 Novel Thieno-[3,4-b]-Pyrazines Cored Dendrimers with Carbazole Dendrons: Design, Synthesis, and Application in Solution-Processed Red Organic Light-Emitting Diodes
DOI:10.1021/am200317k JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:18 AU: Li, Jiuyan;Li, Qing;Liu, Di;
2:267:9 New rhenium(I) complexes with substituted diimine ligands for highly efficient phosphorescent devices fabricated by a solution process
DOI:10.1039/c2jm14222h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:22 AU: Liu, Xiaoming;Xia, Hong;Gao, Wei;Wu, Qiaolin;Fan, Xiao;Mu, Ying;Ma, Chunsheng;
2:267:10 Reduced efficiency roll-off in electrophosphorescent devices by a short-living rhenium emitter with well-matched energy levels
DOI:10.1063/1.3531576 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Li, Xiao;Zhang, Dongyu;Chi, Haijun;Xiao, Guoyong;Dong, Yan;Wu, Shuanghong;Su, Zisheng;Zhang, Zhiqiang;Lei, Peng;Hu, Zhizhi;Li, Wenlian;
2:267:11 A Luminescent and Biocompatible PhotoCORM
DOI:10.1021/ja3084434 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:38 AU: Pierri, Agustin E.;Pallaoro, Alessia;Wu, Guang;Ford, Peter C.;
2:268:1 Nanoscale Electronics: Digital Fabrication by Direct Femtosecond Laser Processing of Metal Nanoparticles
DOI:10.1002/adma.201100717 JN:ADVANCED MATERIALS PY:2011 TC:42 AU: Son, Yong;Yeo, Junyeob;Moon, Hanul;Lim, Toe Woo;Hong, Sukjoon;Nam, Koo Hyun;Yoo, Seunghyup;Grigoropoulos, Costas P.;Yang, Dong-Yol;Ko, Seung Hwan;
2:268:2 Non-vacuum, single-step conductive transparent ZnO patterning by ultra-short pulsed laser annealing of solution-deposited nanoparticles
DOI:10.1007/s00339-012-6792-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:9 AU: Lee, Daeho;Pan, Heng;Ko, Seung Hwan;Park, Hee K.;Kim, Eunpa;Grigoropoulos, Costas P.;
2:268:3 Laser Direct Synthesis and Patterning of Silver Nano/Microstructures on a Polymer Substrate
DOI:10.1021/am503897r JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Liu, Yi-Kai;Lee, Ming-Tsang;
2:268:4 Vacuum-Free, Maskless Patterning of Ni Electrodes by Laser Reductive Sintering of NiO Nanoparticle Ink and Its Application to Transparent Conductors
DOI:10.1021/nn503383z JN:ACS NANO PY:2014 TC:5 AU: Lee, Daeho;Paeng, Dongwoo;Park, Hee K.;Grigoropoulos, Costas P.;
2:268:5 Nanotechnology-based flexible electronics
DOI:10.1088/0957-4484/23/34/340201 JN:NANOTECHNOLOGY PY:2012 TC:8 AU: Subramanian, Vivek;Lee, Takhee;
2:268:6 Fiber laser annealing of indium-tin-oxide nanoparticles for large area transparent conductive layers and optical film characterization
DOI:10.1007/s00339-011-6397-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:8 AU: Pan, Heng;Lee, Daeho;Ko, Seung Hwan;Grigoropoulos, Costas P.;Park, Hee K.;Hoult, Tony;
2:268:7 Large-area nanoimprinting on various substrates by reconfigurable maskless laser direct writing
DOI:10.1088/0957-4484/23/34/344012 JN:NANOTECHNOLOGY PY:2012 TC:5 AU: Lee, Daeho;Pan, Heng;Sherry, Alex;Ko, Seung Hwan;Lee, Ming-Tsang;Kim, Eunpa;Grigoropoulos, Costas P.;
2:268:8 Characteristic time scales of coalescence of silver nanocomposite and nanoparticle films induced by continuous wave laser irradiation
DOI:10.1063/1.4893465 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Paeng, Dongwoo;Lee, Daeho;Grigoropoulos, Costas P.;
2:269:1 Fabrication and electromechanical characterization of near-field electrospun composite fibers
DOI:10.1088/0957-4484/23/10/105305 JN:NANOTECHNOLOGY PY:2012 TC:8 AU: Huang, Y. Y. S.;Terentjev, E. M.;Oppenheim, T.;Lacour, S. P.;Welland, M. E.;
2:269:2 Thermoplastic Polyurethane:Polythiophene Nanomembranes for Biomedical and Biotechnological Applications
DOI:10.1021/am502150q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Perez-Madrigal, Maria M.;Giannotti, Marina I.;del Valle, Luis J.;Franco, Lourdes;Armelin, Elaine;Puiggali, Jordi;Sanz, Fausto;Aleman, Carlos;
2:269:3 Synthesis of organic rectorite with novel Gemini surfactants for copper removal
DOI:10.1016/j.apsusc.2014.08.087 JN:APPLIED SURFACE SCIENCE PY:2014 TC:6 AU: Han, Guocheng;Han, Yang;Wang, Xiaoying;Liu, Shijie;Sun, Runcang;
2:269:4 Microwave-assisted modification on montmorillonite with ester containing Gemini surfactant and its adsorption behavior for triclosan
DOI:10.1016/j.jcis.2013.12.035 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:5 AU: Liu, Bo;Lu, Junxiang;Xie, Yu;Yang, Bin;Wang, Xiaoying;Sun, Runcang;
2:269:5 Biodegradable free-standing nanomembranes of conducting polymer:polyester blends as bioactive platforms for tissue engineering
DOI:10.1039/c1jm14168f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Armelin, Elaine;Gomes, Alex L.;Perez-Madrigal, Maria M.;Puiggali, Jordi;Franco, Lourdes;del Valle, Luis J.;Rodriguez-Galan, Alfonso;Campos, Joao Sinezio de C.;Ferrer-Anglada, Nuria;Aleman, Carlos;
2:269:6 Rapid modification of montmorillonite with novel cationic Gemini surfactants and its adsorption for methyl orange
DOI:10.1016/j.matchemphys.2011.08.064 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:29 AU: Liu, Bo;Wang, Xiaoying;Yang, Bin;Sun, Runcang;
2:269:7 Thermoresponsive Hydrogels from BSA Esterified with Low Molecular Weight PEG
DOI:10.1002/app.40946 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Wang, Kai;Buschle-Diller, Gisela;Wu, Yonnie;
2:269:8 Nanostructured conducting polymer for dopamine detection
DOI:10.1039/c0jm01364a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:19 AU: Marti, Mireia;Fabregat, Georgina;Estrany, Francesc;Aleman, Carlos;Armelin, Elaine;
2:269:9 Inkjet and extrusion printing of conducting poly(3,4-ethylenedioxythiophene) tracks on and embedded in biopolymer materials
DOI:10.1039/c0jm03587d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Mire, Charles A.;Agrawal, Animesh;Wallace, Gordon G.;Calvert, Paul;Panhuis, Marc In Het;
2:269:10 Adsorption of single-strand alkylammonium salts on bentonite, surface properties of the modified clay and polymer nanocomposites formation by a two-roll mill
DOI:10.1016/j.matchemphys.2010.05.042 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:5 AU: Hoshino, Jumpei;Limpanart, Sarintorn;Khunthon, Srichalai;Osotchan, Tanakorn;Traiphol, Rakchart;Srikhirin, Toemsak;
2:269:11 Properties of recycled polycaprolactone-based thermoplastic polyurethane filled with montmorillonites
DOI:10.1002/app.38408 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:1 AU: Zukiene, Kristina;Jankauskaite, Virginija;Betingyte, Vitalija;Baltusnikas, Arunas;
2:269:12 Fiber formation by dehydration-induced aggregation of albumin
DOI:10.1002/app.38771 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Wu, Yonnie;Wang, Kai;Buschle-Diller, Gisela;Liles, Mark R.;
2:269:13 Fabrication and characterisation of protein fibril-elastomer composites
DOI:10.1016/j.actbio.2009.10.013 JN:ACTA BIOMATERIALIA PY:2010 TC:10 AU: Oppenheim, Tomas;Knowles, Tuomas P. J.;Lacour, Stephanie P.;Welland, Mark E.;
2:270:1 Performance Enhancement of a Graphene-Zinc Phosphide Solar Cell Using the Electric Field-Effect
DOI:10.1021/nl500925n JN:NANO LETTERS PY:2014 TC:2 AU: Vazquez-Mena, Oscar;Bosco, Jeffrey P.;Ergen, O.;Rasool, Haider I.;Fathalizadeh, Aidin;Tosun, Mahmut;Crommie, Michael;Javey, Ali;Atwater, Harry A.;Zettl, Alex;
2:270:2 Energy-band alignment of II-VI/Zn3P2 heterojunctions from x-ray photoemission spectroscopy
DOI:10.1063/1.4807646 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:7 AU: Bosco, Jeffrey P.;Scanlon, David O.;Watson, Graeme W.;Lewis, Nathan S.;Atwater, Harry A.;
2:270:3 Intrinsic defects and dopability of zinc phosphide
DOI:10.1103/PhysRevB.85.195208 JN:PHYSICAL REVIEW B PY:2012 TC:7 AU: Demers, Steven;van de Walle, Axel;
2:270:4 Band alignment of epitaxial ZnS/Zn3P2 heterojunctions
DOI:10.1063/1.4759280 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:8 AU: Bosco, Jeffrey P.;Demers, Steven B.;Kimball, Gregory M.;Lewis, Nathan S.;Atwater, Harry A.;
2:270:5 The electronic properties of point defects in earth-abundant photovoltaic material Zn3P2: A hybrid functional method study
DOI:10.1063/1.4772708 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Yin, Wan-Jian;Yan, Yanfa;
2:270:6 Pseudomorphic growth and strain relaxation of alpha-Zn3P2 on GaAs(001) by molecular beam epitaxy
DOI:10.1016/j.jcrysgro.2012.10.054 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:6 AU: Bosco, Jeffrey P.;Kimball, Gregory M.;Lewis, Nathan S.;Atwater, Harry A.;
2:270:7 Alternative sources of p-type conduction in acceptor-doped ZnO
DOI:10.1063/1.3481069 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Limpijumnong, Sukit;Gordon, Luke;Miao, Maosheng;Janotti, Anderson;Van de Walle, Chris G.;
2:270:8 Persistent photoconductivity in high resistive Zn3P2
DOI:10.1063/1.4867296 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Sieranski, K.;Szatkowski, J.;Pawlikowski, J. M.;
2:270:9 Room temperature persistent photoconductivity in p-PbTe and p-PbTe: BaF2
DOI:10.1063/1.4899140 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: de Castro, S.;Soares, D. A. W.;Peres, M. L.;Rappl, P. H. O.;Abramof, E.;
2:270:10 Passivation of Zn3P2 substrates by aqueous chemical etching and air oxidation
DOI:10.1063/1.4765030 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Kimball, Gregory M.;Bosco, Jeffrey P.;Mueller, Astrid M.;Tajdar, Syed F.;Brunschwig, Bruce S.;Atwater, Harry A.;Lewis, Nathan S.;
2:270:11 Structural, Surface Morphology and Optical Properties of ZnS Films by Chemical Bath Deposition at Various Zn/S Molar Ratios
DOI:10.1155/2014/594952 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Yu, Fei-Peng;Ou, Sin-Liang;Yao, Pin-Chuan;Wu, Bing-Rui;Wuu, Dong-Sing;
2:270:12 Comparative study of defect transition energy calculation methods: The case of oxygen vacancy in In2O3 and ZnO
DOI:10.1103/PhysRevB.86.045211 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Yin, Wan-Jian;Ma, Jie;Wei, Su-Huai;Al-Jassim, Mowafak M.;Yan, Yanfa;
2:271:1 Simple Technique for Spatially Separated Nanofibers/Nanobeads by Multinozzle Electrospinning toward White-Light Emission
DOI:10.1021/am400782s JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:4 AU: Kim, Jongho;Noh, Jaeguk;Jo, Seonyoung;Park, Ko Eun;Park, Won Ho;Lee, Taek Seung;
2:271:2 Electroluminescence from Conjugated Polymer Electrospun Nanofibers in Solution Processable Organic Light-Emitting Diodes
DOI:10.1021/nn201029c JN:ACS NANO PY:2011 TC:40 AU: Vohra, Varun;Giovanella, Umberto;Tubino, Riccardo;Murata, Hideyuki;Botta, Chiara;
2:271:3 Low-Power Flexible Organic Light-Emitting Diode Display Device
DOI:10.1002/adma.201101066 JN:ADVANCED MATERIALS PY:2011 TC:43 AU: Kim, Sunkook;Kwon, Hyuk-Jun;Lee, Sunghun;Shim, Hongshik;Chun, Youngtea;Choi, Woong;Kwack, Jinho;Han, Dongwon;Song, MyoungSeop;Kim, Sungchul;Mohammadi, Saeed;Kee, InSeo;Lee, Sang Yoon;
2:271:4 Efficient Separation of Dyes by Mucin: Toward Bioinspired White-Luminescent Devices
DOI:10.1002/adma.201100529 JN:ADVANCED MATERIALS PY:2011 TC:9 AU: Hendler, Netta;Belgorodsky, Bogdan;Mentovich, Elad D.;Gozin, Michael;Richter, Shachar;
2:271:5 High crystallinity parameter poly(3-hexylthiophene-2,5-diyl) thin film fabricated by the electrospray deposition method
DOI:10.1016/j.tsf.2013.08.019 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Liao, Yingjie;Fukuda, Takeshi;Takagi, Kenji;Kamata, Norihiko;Fukuda, Fumihiko;Furukawa, Yukio;
2:271:6 Mechanically and optically reliable folding structure with a hyperelastic material for seamless foldable displays
DOI:10.1063/1.3576906 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Kwon, Hyuk-Jun;Shim, HongShik;Kim, Sunkook;Choi, Woong;Chun, Youngtea;Kee, Inseo;Lee, SangYoon;
2:271:7 Two Color Realization of Red and Blue by the Selective Deposition of a Red Light Emitter
DOI:10.1080/15421406.2013.849432 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Jang, Ji Geun;Kim, Hyun;Kim, Jae Min;
2:271:8 Synthesis, optical properties and alignment of poly(9,9-dioctylfuorene) nanofibers
DOI:10.1088/0957-4484/25/43/435607 JN:NANOTECHNOLOGY PY:2014 TC:1 AU: Iacopino, Daniela;Redmond, Gareth;
2:271:9 Mucin Complexes of Nanomaterials: First Biochemical Encounter
DOI:10.1002/smll.200900637 JN:SMALL PY:2010 TC:7 AU: Belgorodsky, Bogdan;Drug, Eyal;Fadeev, Ludmila;Hendler, Netta;Mentovich, Elad;Gozin, Michael;
2:271:10 Dispersion of micelle-encapsulated fluorophores in a polymer matrix for control of color of light emitted by light-emitting diodes
DOI:10.1016/j.tsf.2011.05.012 JN:THIN SOLID FILMS PY:2011 TC:2 AU: Kim, Jin-Hyung;Kim, Ki-Se;Il Yoo, Seong;Sohn, Byeong-Hyeok;
2:271:11 Modeling and validation of mechanical stress in indium tin oxide layer integrated in highly flexible stacked thin films
DOI:10.1016/j.tsf.2013.02.084 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Lee, Chang-Chun;
2:272:1 Molecular Dynamics Simulations of Rapid Hydrogen Production from Water Using Aluminum Clusters as Catalyzers
DOI:10.1103/PhysRevLett.104.126102 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:40 AU: Shimojo, Fuyuki;Ohmura, Satoshi;Kalia, Rajiv K.;Nakano, Aiichiro;Vashishta, Priya;
2:272:2 Dynamics of Confined Reactive Water in Smectite Clay-Zeolite Composites
DOI:10.1021/ja208894m JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:19 AU: Pitman, Michael C.;van Duin, Adri C. T.;
2:272:3 Molecular dynamic simulation of aluminum-water reactions using the ReaxFF reactive force field
DOI:10.1016/j.ijhydene.2011.02.035 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:26 AU: Russo, Michael F., Jr.;Li, Rong;Mench, Matthew;van Duin, Adri C. T.;
2:272:4 Size-resolved kinetics of Zn nanocrystal hydrolysis for hydrogen generation
DOI:10.1016/j.ijhydene.2010.01.011 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2010 TC:21 AU: Ma, Xiaofei;Zachariah, Michael R.;
2:272:5 Hydrogen-on-Demand Using Metallic Alloy Nanoparticles in Water
DOI:10.1021/nl501612v JN:NANO LETTERS PY:2014 TC:3 AU: Shimamura, Kohei;Shimojo, Fuyuki;Kalia, Rajiv K.;Nakano, Aiichiro;Nomura, Ken-ichi;Vashishta, Priya;
2:272:6 Effects of solvation shells and cluster size on the reaction of aluminum clusters with water
DOI:10.1063/1.3664751 JN:AIP ADVANCES PY:2011 TC:6 AU: Mou, Weiwei;Ohmura, Satoshi;Hemeryck, Anne;Shimojo, Fuyuki;Kalia, Rajiv K.;Nakano, Aiichiro;Vashishta, Priya;
2:272:7 Molecular dynamics simulation of Al grain mixing in Fe/Ni matrices and its influence on oxidation
DOI:10.1063/1.4812387 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Verners, O.;Shin, Y. K.;van Duin, A. C. T.;
2:272:8 Mechanisms of H-2 generation for metal doped Al16M (M = Mg and Bi) clusters in water
DOI:10.1016/j.ijhydene.2013.03.076 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:4 AU: Li, Fen;Sun, Lixian;Zhao, Jijun;Xu, Fen;Zhou, Huai-Ying;Zhang, Qing-Ming;Huang, Feng-Lei;
2:272:9 Clay Minerals Mediate Folding and Regioselective Interactions of RNA: A Large-Scale Atomistic Simulation Study
DOI:10.1021/ja104106y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:19 AU: Swadling, Jacob B.;Coveney, Peter V.;Greenwell, H. Christopher;
2:272:10 Rapid hydrogen production from water using aluminum nanoclusters: A quantum molecular dynamics simulation study
DOI:10.1016/j.ssi.2013.12.025 JN:SOLID STATE IONICS PY:2014 TC:1 AU: Vashishta, Priya;Shimojo, Fuyuki;Ohmura, Satoshi;Shimamura, Kohei;Mou, Weiwei;Kalia, Rajiv K.;Nakano, Aiichiro;
2:273:1 A benzothiadiazole-based oligothiophene for vacuum-deposited organic photovoltaic cells
DOI:10.1016/j.solmat.2010.06.016 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:21 AU: Kong, Jin Ah;Lim, Eunhee;Lee, Kyeong K.;Lee, Sungkoo;Kim, Sung Hyun;
2:273:2 DFT modeling of conjugated copolymers photophysical properties: Towards organic solar cell application
DOI:10.1016/j.synthmet.2014.10.015 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Azazi, A.;Mabrouk, A.;Chemek, M.;Kreher, D.;Alimi, K.;
2:273:3 An ambipolar behavior of novel ethynyl-bridged polythiophenes-A comprehensive study
DOI:10.1016/j.synthmet.2012.12.030 JN:SYNTHETIC METALS PY:2013 TC:8 AU: Krompiec, Stanislaw;Filapek, Michal;Grudzka, Iwona;Kula, Slawomir;Slodek, Aneta;Skorka, Lukasz;Danikiewicz, Witold;Ledwon, Przemyslaw;Lapkowski, Mieczyslaw;
2:273:4 Molecular assembly and properties of polythiophenes
DOI:10.1038/asiamat.2010.37 JN:NPG ASIA MATERIALS PY:2010 TC:27 AU: Yamamoto, Takakazu;
2:273:5 Cross-linking conducting polythiophene with yellow-green light-emitting properties and good thermal stability via free radical polymerization and electropolymerization
DOI:10.1016/j.synthmet.2011.06.028 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Lai, Cunyuan;Guo, Wenjuan;Tang, Xinde;Zhang, Guangyou;Pan, Qiwei;Pei, Meishan;
2:273:6 A New Supramolecular Hole Injection/Transport Material on Conducting Polymer for Application in Light-Emitting Diodes
DOI:10.1002/adma.201103866 JN:ADVANCED MATERIALS PY:2012 TC:10 AU: Chu, Yu-Lin;Cheng, Chih-Chia;Yen, Ying-Chieh;Chang, Feng-Chih;
2:273:7 Thermally cross-linkable hyperbranched polymers containing triphenylamine moieties: Synthesis, curing and application in light-emitting diodes
DOI:10.1016/j.polymer.2010.08.001 JN:POLYMER PY:2010 TC:12 AU: Yu, Juin-Meng;Chen, Yun;
2:273:8 Bioinspired hole-conducting polymers for application in organic light-emitting diodes
DOI:10.1039/c2jm32665e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Cheng, Chih-Chia;Chu, Yu-Lin;Huang, Pei-Hsiu;Yen, Ying-Chieh;Chu, Chih-Wei;Yang, Arnold C. -M.;Ko, Fu-Hsiang;Chen, Jem-Kun;Chang, Feng-Chih;
2:273:9 Effect of thiophene donor units on the optical and photovoltaic behavior of fluorene-based copolymers
DOI:10.1016/j.solmat.2011.03.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Piyakulawat, Phimwipha;Keawprajak, Anusit;Jiramitmongkon, Kanpitcha;Hanusch, Matthias;Wlosnewski, Joerg;Asawapirom, Udom;
2:273:10 Synthesis and Characterization of Carbazole-Thiophene-based Conjugated Polymers for Organic Photovoltaic Cells
DOI:10.1080/15421406.2011.600626 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Lim, Eunhee;Lee, Kyeong K.;Lee, Sungkoo;
2:273:11 Preparation and characterization of novel polythiophenes bearing oligo(ethylene glycol) spacers and porphyrin units: Optical and electrochemical properties
DOI:10.1016/j.synthmet.2012.04.020 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Aguilar-Ortiz, Edgar;Zaragoza-Galan, Gerardo;Solladie, Nathalie;Rein, Regis;Aguilar-Martinez, Martha;Macias-Ruvalcaba, Norma;Rivera, Ernesto;
2:273:12 Improved OPV Efficiency of Fluorene-Thiophene-Based Copolymers with Hole- and Electron-Transporting Units in the Main Chain
DOI:10.1080/15421406.2011.563709 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:5 AU: Lim, Eunhee;Lee, Sungkoo;Lee, Kyeong K.;
2:274:1 Copolymerization of EDOT with Pyrrole on TiO2 Semiconductor Films by One-Step Reaction, Structure-Dependent Electronic Properties, and Charge Conduction Models of the Composite Films
DOI:10.1021/la404773r JN:LANGMUIR PY:2014 TC:4 AU: Ma, Xun;Ni, Xiuyuan;
2:274:2 New electropolymerizable metal-free and metallophthalocyanines bearing {2-[3-(diethylamino)phenoxy]ethoxy} substituents
DOI:10.1016/j.synthmet.2014.07.023 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Biyiklioglu, Zekeriya;Cakir, Volkan;Demir, Faruk;Koca, Atif;
2:274:3 Multicolor electrochromism of low-bandgap copolymers based on pyrrole and 3,4-ethylenedioxythiophene: Fine-tuning colors through feed ratio
DOI:10.1002/app.38777 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:5 AU: Zhang Zhao-yang;Tao Yi-jie;Xu Xiao-qian;Zhou Yong-jiang;Cheng Hai-feng;Zheng Wen-wei;
2:274:4 Tricolor electrochromism of PEDOT film electrodeposited in mixed solution of boron trifluoride diethyl etherate and tetrahydrofuran: Hypsochromic effect
DOI:10.1002/app.38778 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:5 AU: Cao Yi;Tao Yi-Jie;Cheng Hai-Feng;Zhang Zhao-Yang;
2:274:5 Electrosynthesises and characterizations of copolymers based on pyrrole and 3,4-ethylenedioxythiophene in aqueous micellar solution
DOI:10.1016/j.synthmet.2012.02.003 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Tao Yi-jie;Cheng Hai-feng;Zheng Wen-wei;Zhang Zhao-yang;Liu Dong-qing;
2:274:6 Electrosynthesis and characterization of an electrochromic material from poly(1,4-bis(3-methylthiophen-2-yl)benzene) and its application in electrochromic device
DOI:10.1016/j.solmat.2011.10.032 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:15 AU: Wang, Bin;Zhao, Jinsheng;Cui, Chuansheng;Liu, Jifeng;He, Qingpeng;
2:274:7 3,4-Ethylenedioxythiophene substituted phthalocyanines
DOI:10.1016/j.synthmet.2011.06.040 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Yildiz, Hasan Kutay;Korkut, Sibel Eken;Koca, Atif;Sener, M. Kasim;
2:274:8 Synthesis, electrochemistry, spectroelectrochemistry and electrocolorimetry of phthalocyanine-anthraquinone hybrids
DOI:10.1016/j.synthmet.2010.08.002 JN:SYNTHETIC METALS PY:2010 TC:10 AU: Sezer, Burcu;Sener, M. Kasim;Koca, Atif;Erdogmus, Ali;Avciata, Ulvi;
2:274:9 Electrochemical relaxation study of polythiophene as a conducting polymer (II)
DOI:10.1016/j.synthmet.2010.04.012 JN:SYNTHETIC METALS PY:2010 TC:4 AU: El-Maghraby, A. A.;Abou-Elenien, G. M.;El-Abdallah, G. M.;
2:274:10 Tricolor electrochromism of copolymer based on selenophene and 3,4-ethylenedioxythiophene
DOI:10.1016/j.synthmet.2012.11.026 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Xu Xiao-qian;Zheng Wen-wei;Tao Yi-jie;Cheng Hai-feng;Zhang Zhao-yang;
2:274:11 Electrochemical metal-ion sensors based on a novel manganese phthalocyanine complex
DOI:10.1016/j.synthmet.2012.07.019 JN:SYNTHETIC METALS PY:2012 TC:12 AU: Ceken, Berna;Kandaz, Mehmet;Koca, Atif;
2:274:12 Novel Fully Conjugated 2H-and Metal-Phthalocyanine Network Polymers: Synthesis, Characterization, and Dielectric Spectra Analysis
DOI:10.1002/app.34608 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Abdel-Razik, H. H.;Mahmoud, K. H.;
2:274:13 Electrosynthesis and characterizations of a multielectrochromic copolymer based on pyrrole and 3,4-ethylenedioxythiophene
DOI:10.1002/app.37842 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Tao Yi-Jie;Cheng Hai-Feng;Zheng Wen-Wei;Zhang Zhao-Yang;
2:274:14 Electropolymerization of a Ru(II)-terpyridine complex ethynyl-terthiophene functionalized originating different metallopolymers
DOI:10.1016/j.polymer.2013.05.026 JN:POLYMER PY:2013 TC:6 AU: Manca, Paola;Scanu, Roberta;Zucca, Antonio;Sanna, Gavino;Spano, Nadia;Pilo, Maria I.;
2:274:15 Electrodeposition and characterisation of polythiophene films on gold substrates
DOI:10.1016/j.synthmet.2011.10.023 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Monnin, Alexandra F.;Buron, Cedric C.;Guyard, Laurent;Charraut, Daniel;Salut, Roland;Filiatre, Claudine;
2:275:1 Evaluation of Charge Mobility in Organic Materials: From Localized to Delocalized Descriptions at a First-Principles Level
DOI:10.1002/adma.201003503 JN:ADVANCED MATERIALS PY:2011 TC:57 AU: Shuai, Zhigang;Wang, Linjun;Li, Qikai;
2:275:2 Toward Quantitative Prediction of Charge Mobility in Organic Semiconductors: Tunneling Enabled Hopping Model
DOI:10.1002/adma.201104454 JN:ADVANCED MATERIALS PY:2012 TC:34 AU: Geng, Hua;Peng, Qian;Wang, Linjun;Li, Haijiao;Liao, Yi;Ma, Zhiying;Shuai, Zhigang;
2:275:3 Dependence of persistent photocurrent on gate bias in inkjet printed organic thin-film transistor
DOI:10.1063/1.3372619 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Kim, Chang Hyun;Choi, Min Hee;Lee, Sun Hee;Jang, Jin;Kirchmeyer, Stephan;
2:275:4 Substitution effects on the electrical tranporting properties of tetrathia[22]annulene[2,1,2,1]: experimental and theoretical investigations
DOI:10.1039/c3tc30776j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Zhang, Jing;Ma, Zhiying;Zhang, Qian;Virk, Tarunpreet Singh;Geng, Hua;Wang, Dong;Xu, Wei;Shuai, Zhigang;Singh, Kamaljit;Hu, Wenping;Zhu, Daoben;
2:275:5 Two-dimensional deformation potential model of mobility in small molecule organic semiconductors
DOI:10.1063/1.3624588 JN:APPLIED PHYSICS LETTERS PY:2011 TC:14 AU: Northrup, J. E.;
2:275:6 Persistent photoconductivity effects in printed n-channel organic transistors
DOI:10.1063/1.4794097 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Ng, Tse Nga;Fujieda, Ichiro;Street, Robert A.;Veres, Janos;
2:275:7 Crystal structure versus charge transport in organic single crystals of [1]benzothieno[3,2-b][1] benzothiophene derivatives from a multiscale theoretical study
DOI:10.1039/c3tc31711k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Nan, Guangjun;Li, Zesheng;
2:276:1 Preparation and characterizations of poly(2-methyl-2-oxazoline) based antifouling coating by thermally induced immobilization
DOI:10.1039/c4tb01383b JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:4 AU: Bai, Longchao;Tan, Lin;Chen, Lijuan;Liu, Songtao;Wang, Yanmei;
2:276:2 A Single-Component Inimer Containing Cross-Linkable Ultrathin Polymer Coating for Dense Polymer Brush Growth
DOI:10.1021/la305060z JN:LANGMUIR PY:2013 TC:8 AU: Sweat, Daniel P.;Kim, Myungwoong;Yu, Xiang;Gopalan, Padma;
2:276:3 Crosslinked PEG mats for peptide immobilization and stem cell adhesion
DOI:10.1039/c2tb00253a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:11 AU: Schmitt, Samantha K.;Murphy, William L.;Gopalan, Padma;
2:276:4 A Dual Functional Layer for Block Copolymer Self-Assembly and the Growth of Nanopatterned Polymer Brushes
DOI:10.1021/la403474k JN:LANGMUIR PY:2013 TC:7 AU: Sweat, Daniel P.;Kim, Myungwoong;Yu, Xiang;Schmitt, Samantha K.;Han, Eungnak;Choi, Jonathan W.;Gopalan, Padma;
2:276:5 Simultaneous Bulk- and Surface-Initiated Controlled Radical Polymerization from Planar Substrates
DOI:10.1021/ja2081636 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:26 AU: Turgman-Cohen, Salomon;Genzer, Jan;
2:276:6 Formation and characterization of DNA-polymer-condensates based on poly(2-methyl-2-oxazoline) grafted poly(L-lysine) for non-viral delivery of therapeutic DNA
DOI:10.1016/j.biomaterials.2011.03.080 JN:BIOMATERIALS PY:2011 TC:22 AU: von Erlach, Thomas;Zwicker, Sven;Pidhatika, Bidhari;Konradi, Rupert;Textor, Marcus;Hall, Heike;Luehmann, Tessa;
2:276:7 The angiogenic response to PLL-g-PEG-mediated HIF-1 alpha plasmid DNA delivery in healthy and diabetic rats
DOI:10.1016/j.biomaterials.2013.02.021 JN:BIOMATERIALS PY:2013 TC:7 AU: Thiersch, Markus;Rimann, Markus;Panagiotopoulou, Vasiliki;Oeztuerk, Ece;Biedermann, Thomas;Textor, Marcus;Luehmann, Tessa C.;Hall, Heike;
2:277:1 Thermal [6,6] -> [6,6] Isomerization and Decomposition of PCBM (Phenyl-C-61-butyric Acid Methyl Ester)
DOI:10.1021/cm500594u JN:CHEMISTRY OF MATERIALS PY:2014 TC:8 AU: Larson, Bryon W.;Whitaker, James B.;Popov, Alexey A.;Kopidakis, Nikos;Rumbles, Garry;Boltalina, Olga V.;Strauss, Steven H.;
2:277:2 Synthesis and characterization of novel fulleropyrrolidine in P3HT blended bulk heterojunction solar cells
DOI:10.1016/j.polymer.2014.02.034 JN:POLYMER PY:2014 TC:3 AU: Pitliya, P.;Sun, Y.;Garza, J. C.;Liu, C.;Gong, X.;Karim, A.;Raghavan, D.;
2:277:3 Vibrational investigations of new functionalized fullerenes
DOI:10.1016/j.synthmet.2011.12.007 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Barszcz, Boleslaw;Lewandowska, Kornelia;Graja, Andrzej;Kim, Sin-Tae;Kim, Tae-Dong;Lee, Kwang-Sup;
2:277:4 Synthesis and characteristics of a solution-processable fullerene derivative for n-type organic field-effect transistors
DOI:10.1016/j.tsf.2010.08.120 JN:THIN SOLID FILMS PY:2010 TC:9 AU: Kim, Sin-Tae;Cho, Sung Yun;Lee, Changjin;Baek, Nam Seob;Lee, Kwang-Sup;Kim, Tae-Dong;
2:277:5 Dispersion-orientation effects of fulleropyrrolidine in zone annealed block-copolymer films toward optimizing OPV interfaces
DOI:10.1016/j.polymer.2012.12.068 JN:POLYMER PY:2013 TC:5 AU: Pitliya, Praveen;Singh, Gurpreet;Chapa, Jose;Karim, Alamgir;Raghavan, Dharmaraj;
2:277:6 Nanostructured films of in situ deprotected thioacetyl-functionalized C-60-fullerenes on a gold surface
DOI:10.1039/c3ta13844e JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:8 AU: Piotrowski, Piotr;Pawlowska, Joanna;Pawlowski, Jan;Wieckowska, Agnieszka;Bilewicz, Renata;Kaim, Andrzej;
2:277:7 Vibrational spectra of functionalized fullerenes containing amide
DOI:10.1016/j.synthmet.2010.09.010 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Barszcz, Boleslaw;Graja, Andrzej;Liu, Cao;Li, Yuliang;
2:277:8 Impact of processing on the chemical and electronic properties of phenyl-C-61-butyric acid methyl ester
DOI:10.1039/c4tc00769g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Maibach, Julia;Adermann, Torben;Glaser, Tobias;Eckstein, Ralph;Mankel, Eric;Pucci, Annemarie;Muellen, Klaus;Lemmer, Uli;Hamburger, Manuel;Mayer, Thomas;Jaegermann, Wolfram;
2:277:9 Effects of Fullerene Derivatives on the Gas Permeability of Thermoplastic Polyurethane Elastomers
DOI:10.1002/app.39986 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Dobashi, Ryohei;Matsunaga, Katsuji;Tajima, Masahiro;
2:277:10 Spontaneous electron transfer from C-60 to Au ions: oxidation of C-60 and hole doping
DOI:10.1039/c0jm00783h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:3 AU: Shin, Hyeon Suk;Lim, Hyunseob;Song, Hyun Jae;Shin, Hyun-Joon;Park, Su-Moon;Choi, Hee Cheul;
2:277:11 Spectroscopic characterization of selected functionalized fullerenes - IR absorption and Raman scattering studies
DOI:10.1016/j.matchemphys.2014.08.043 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Lewandowska, Kornelia;Barszcz, Boleslaw;Graja, Andrzej;Nam, Sun Young;Han, Yi-Seul;Kim, Tae-Dong;Lee, Kwang-Sup;
2:277:12 Molecular orientation in self-assembled layers of two functionalized fullerenes-Role of bromine atom at the end of alkyl chain
DOI:10.1016/j.synthmet.2012.09.016 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Lewandowska, K.;Barszcz, B.;Graja, A.;Biadasz, A.;Bursa, B.;Wrobel, D.;Kim, S. -T.;Kim, T. -D.;Lee, K. -S.;
2:277:13 The band energy diagram of PCBM-DH6T bulk heterojunction solar cells: synchrotron-induced photoelectron spectroscopy on solution processed DH6T:PCBM blends and in situ prepared PCBM/DH6T interfaces
DOI:10.1039/c3tc31745e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Maibach, J.;Mankel, E.;Mayer, T.;Jaegermann, W.;
2:278:1 Solution-processed bulk-heterojunction organic solar cells employing Ir complexes as electron donors
DOI:10.1039/c4ta01526f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:1 AU: Zhen, Hongyu;Hou, Qiong;Li, Kan;Ma, Zaifei;Fabiano, Simone;Gao, Feng;Zhang, Fengling;
2:278:2 Triplet Exciton Dynamics in Fluorene-Amine Copolymer Films
DOI:10.1021/cm500647b JN:CHEMISTRY OF MATERIALS PY:2014 TC:7 AU: Tamai, Yasunari;Ohkita, Hideo;Benten, Hiroaki;Ito, Shinzaburo;
2:278:3 Direct Measurement of the Triplet Exciton Diffusion Length in Organic Semiconductors
DOI:10.1103/PhysRevLett.108.137401 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:7 AU: Mikhnenko, Oleksandr V.;Ruiter, Roald;Blom, Paul W. M.;Loi, Maria Antonietta;
2:278:4 Diffusion length of triplet excitons in organic semiconductors
DOI:10.1103/PhysRevB.82.205211 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Samiullah, Mohammad;Moghe, Dhanashree;Scherf, Ullrich;Guha, Suchi;
2:278:5 Vacuum-processable ladder-type oligophenylenes for organic-inorganic hybrid structures: synthesis, optical and electrochemical properties upon increasing planarization as well as thin film growth
DOI:10.1039/c2jm15868j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Kobin, Bjoern;Grubert, Lutz;Blumstengel, Sylke;Henneberger, Fritz;Hecht, Stefan;
2:278:6 Photoexcitation dynamics in polyfluorene-based thin films: Energy transfer and amplified spontaneous emission
DOI:10.1103/PhysRevB.85.214204 JN:PHYSICAL REVIEW B PY:2012 TC:6 AU: Marciniak, Henning;Teicher, Maik;Scherf, Ullrich;Trost, Sara;Riedl, Thomas;Lehnhardt, Marcus;Rabe, Torsten;Kowalsky, Wolfgang;Lochbrunner, Stefan;
2:278:7 Magnetic field control of fluorescent polymer nanorods
DOI:10.1088/0957-4484/22/45/455704 JN:NANOTECHNOLOGY PY:2011 TC:1 AU: Kim, Taehyung;He, Le;Morales, Jason R.;Beyermann, W. P.;Bardeen, Christopher J.;
2:278:8 Triplet Exciton and Polaron Dynamics in Phosphorescent Dye Blended Polymer Photovoltaic Devices
DOI:10.1002/adfm.201000763 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:14 AU: Lee, Chang-Lyoul;Hwang, In-Wook;Byeon, Clare Chisu;Kim, Bok Hyeon;Greenham, Neil C.;
2:278:9 Exciton-Exciton Annihilation in Mixed-Phase Polyfluorene Films
DOI:10.1002/adfm.200900879 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:22 AU: Shaw, Paul E.;Ruseckas, Arvydas;Peet, Jeffrey;Bazan, Guillermo C.;Samuel, Ifor D. W.;
2:278:10 Dopant optimization for triplet harvesting in polymer photovoltaics
DOI:10.1063/1.3665688 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Winroth, Gustaf;Podobinski, Daniel;Cacialli, Franco;
2:278:11 Green Emission in Ladder-Type Quarterphenyl: Beyond the Fluorenone-Defect
DOI:10.1002/adfm.201402638 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:0 AU: Kobin, Bjoern;Bianchi, Francesco;Halm, Simon;Leistner, Joachim;Blumstengel, Sylke;Henneberger, Fritz;Hecht, Stefan;
2:278:12 The effects of nanopillar surface texturing on the photoluminescence of polymer films
DOI:10.1063/1.3457147 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Kim, Taehyung;Kurunthu, Dharmalingam;Burdett, Jonathan J.;Bardeen, Christopher J.;
2:279:1 Linear and Cyclic Porphyrin Hexamers as Near-Infrared Emitters in Organic Light-Emitting Diodes
DOI:10.1021/nl2008778 JN:NANO LETTERS PY:2011 TC:43 AU: Fenwick, Oliver;Sprafke, Johannes K.;Binas, Jonathan;Kondratuk, Dmitry V.;Di Stasio, Francesco;Anderson, Harry L.;Cacialli, Franco;
2:279:2 Efficient red electroluminescence from diketopyrrolopyrrole copolymerised with a polyfluorene
DOI:10.1063/1.4820433 JN:APL MATERIALS PY:2013 TC:6 AU: Fenwick, O.;Fusco, S.;Baig, T. N.;Di Stasio, F.;Steckler, T. T.;Henriksson, P.;Flechon, C.;Andersson, M. R.;Cacialli, F.;
2:279:3 Virtually pure near-infrared electroluminescence from exciplexes at polyfluorene/hexaazatrinaphthylene interfaces
DOI:10.1063/1.4898135 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Tregnago, G.;Flechon, C.;Choudhary, S.;Gozalvez, C.;Mateo-Alonso, A.;Cacialli, F.;
2:279:4 Cross-linking of a poly(3,4-ethylene dioxythiophene):(polystyrene sulfonic acid) hole injection layer with a bis-azide salt and the effect of atmospheric processing conditions on device properties
DOI:10.1063/1.3680606 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Fenwick, Oliver;Oliver, Kate;Cacialli, Franco;
2:279:5 Optoelectronic Processes in Squaraine Dye-Doped OLEDs for Emission in the Near-Infrared
DOI:10.1002/adma.201204938 JN:ADVANCED MATERIALS PY:2013 TC:13 AU: Stender, Benedikt;Voelker, Sebastian F.;Lambert, Christoph;Pflaum, Jens;
2:279:6 Enhancement of electroluminescence properties of red diketopyrrolopyrrole-doped copolymers by oxadiazole and carbazole units as pendants
DOI:10.1016/j.polymer.2010.09.046 JN:POLYMER PY:2010 TC:8 AU: Jin, Yi;Xu, Yanbin;Qiao, Zhi;Peng, Junbiao;Wang, Baozheng;Cao, Derong;
2:279:7 Synthesis and characterization of red-emitting diketopyrrolopyrrole-alt-phenylenevinylene polymers
DOI:10.1016/j.synthmet.2010.05.019 JN:SYNTHETIC METALS PY:2010 TC:22 AU: Qiao, Zhi;Xu, Yanbin;Lin, Shuimu;Peng, Junbiao;Cao, Derong;
2:279:8 Synthesis and electroluminescence properties of fluorene-co-diketopyrrolopyrrole-co-phenothiazine polymers
DOI:10.1016/j.polymer.2009.12.044 JN:POLYMER PY:2010 TC:13 AU: Qiao, Zhi;Peng, Junbiao;Jin, Yi;Liu, Qilin;Weng, Jiena;He, Zhicai;Han, Shaohu;Cao, Derong;
2:279:9 Syntheses and eletroluminescence properties of red emitting copolymers with different lengths of diketopyrrolopyrrole units
DOI:10.1016/j.synthmet.2010.07.044 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Xu, Yanbin;Jin, Yi;Lin, Weihong;Peng, Junbiao;Jiang, Huanfeng;Cao, Derong;
2:280:1 Magnetic-Field-Assisted Layer-by-Layer Electrostatic Assembly of Ferromagnetic Nanoparticles
DOI:10.1021/la101132z JN:LANGMUIR PY:2010 TC:19 AU: Dey, Sukumar;Mohanta, Kallol;Pal, Amlan J.;
2:280:2 Electrical bistability in monolayers of cobalt-doped ZnO nanocrystals: Effect of alignment of their magnetic domains
DOI:10.1063/1.4817841 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Dey, Sukumar;Pal, Amlan J.;
2:280:3 Magnetic Moment Assisted Layer-by-Layer Film Formation of a Prussian Blue Analog
DOI:10.1021/la3036506 JN:LANGMUIR PY:2013 TC:2 AU: Bera, Abhijit;Dey, Sukumar;Pal, Amlan J.;
2:280:4 Hierarchical assembly of a molecular material through the amorphous phase and the evolution of its fluorescence emission
DOI:10.1039/c3tc30615a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:3 AU: Chandaluri, Ch G.;Radhakrishnan, T. P.;
2:280:5 Assembly of gamma-Fe2O3/polyaniline nanofilms with tuned dipolar interaction
DOI:10.1007/s11051-011-0653-z JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:5 AU: Soler, M. A. G.;Paterno, L. G.;Sinnecker, J. P.;Wen, J. G.;Sinnecker, E. H. C. P.;Neumann, R. F.;Bahiana, M.;Novak, M. A.;Morais, P. C.;
2:280:6 Layer-by-Layer Electrostatic Assembly with a Control over Orientation of Molecules: Anisotropy of Electrical Conductivity and Dielectric Properties
DOI:10.1021/la201471f JN:LANGMUIR PY:2011 TC:9 AU: Dey, Sukumar;Pal, Amlan J.;
2:280:7 Mechanical Control of Molecular Aggregation and Fluorescence Switching/Enhancement in an Ultrathin Film
DOI:10.1021/la303549z JN:LANGMUIR PY:2012 TC:3 AU: Balaswamy, B.;Maganti, Lasya;Sharma, Sonika;Radhakrishnan, T. P.;
2:280:8 Layer-by-Layer Electrostatic-Assembly: Magnetic-Field Assisted Ordering of Organic Molecules
DOI:10.1021/la102996t JN:LANGMUIR PY:2010 TC:4 AU: Dey, Sukumar;Pal, Amlan J.;
2:280:9 Morphology of cobalt ferrite nanoparticle-polyelectrolyte multilayered nanocomposites
DOI:10.1016/j.jmmm.2010.11.049 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2011 TC:9 AU: Alcantara, G. B.;Paterno, L. G.;Fonseca, F. J.;Morais, P. C.;Soler, M. A. G.;
2:280:10 Fluorescent self-assembled nanowires of AIE fluorogens
DOI:10.1039/c4tc00788c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:6 AU: Hu, Rongrong;Lam, Jacky W. Y.;Deng, Haiqin;Song, Zhegang;Zheng, Chao;Tang, Ben Zhong;
2:280:11 The processing of polyelectrolyte-covered magnetite nanoparticles in the form of nanostructured thin films
DOI:10.1007/s11051-012-0769-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:4 AU: Marangoni, Valeria S.;Martins, Marccus Victor A.;Souza, Jose A.;Oliveira, Osvaldo N., Jr.;Zucolotto, Valtencir;Crespilho, Frank N.;
2:280:12 Comparing the distribution of the electronic gap of an organic molecule with its photoluminescence spectrum
DOI:10.1063/1.4803169 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Milan, D. C.;Villalvilla, J. M.;Diaz-Garcia, M. A.;Untiedt, C.;
2:280:13 The use of colloidal ferrofluid as building blocks for nanostructured layer-by-layer films fabrication
DOI:10.1007/s11051-010-9855-z JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2010 TC:2 AU: Pereira, A.;Alves, S.;Casanova, M.;Zucolotto, V.;Bechtold, I. H.;
2:281:1 Ultra-low voltage, organic thin film transistors fabricated on plastic substrates by a highly reproducible process
DOI:10.1063/1.3691181 JN:APPLIED PHYSICS LETTERS PY:2012 TC:15 AU: Cosseddu, P.;Lai, S.;Barbaro, M.;Bonfiglio, A.;
2:281:2 Bioinspired Peptide Nanostructures for Organic Field-Effect Transistors
DOI:10.1021/am5064124 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Cipriano, Thiago;Knotts, Grant;Laudari, Amrit;Bianchi, Roberta C.;Alves, Wendel A.;Guha, Suchismita;
2:281:3 Low-operating voltage and stable organic field-effect transistors with poly (methyl methacrylate) gate dielectric solution deposited from a high dipole moment solvent
DOI:10.1063/1.3669696 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Ukah, N. B.;Granstrom, J.;Gari, R. R. Sanganna;King, G. M.;Guha, S.;
2:281:4 Enhanced performance of ferroelectric-based all organic capacitors and transistors through choice of solvent
DOI:10.1063/1.4880119 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Knotts, G.;Bhaumik, A.;Ghosh, K.;Guha, S.;
2:281:5 Wire-bar coating of semiconducting polythiophene/insulating polyethylene blend thin films for organic transistors
DOI:10.1063/1.3660779 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:12 AU: Murphy, Craig E.;Yang, Li;Ray, Santanu;Yu, Liyang;Knox, Steven;Stingelin, Natalie;
2:281:6 Organic thin-film transistors using photocurable acryl-fuctionalized polyhedral oligomeric silsesquioxanes as gate dielectrics
DOI:10.1016/j.synthmet.2012.08.015 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Kim, Yuntae;Cho, Hyunduck;Kwak, Jeonghun;Lee, Jong-Keun;Lee, Changhee;Hwang, Do-Hoon;
2:281:7 An organic ferroelectric field effect transistor with poly(vinylidene fluoride-co-trifluoroethylene) nanostripes as gate dielectric
DOI:10.1063/1.4896292 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Cai, Ronggang;Kassa, Hailu G.;Marrani, Alessio;van Breemen, Albert J. J. M.;Gelinck, Gerwin H.;Nysten, Bernard;Hu, Zhijun;Jonas, Alain M.;
2:281:8 Chemical modification of a nanocrystalline TiO2 film for efficient electric connection of glucose oxidase
DOI:10.1016/j.jcis.2010.03.036 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:11 AU: Sousa, Camila P.;Polo, Andre S.;Torresi, Roberto M.;Cordoba de Torresi, Susana I.;Alves, Wendel A.;
2:281:9 Charge sensing by organic charge-modulated field effect transistors: application to the detection of bio-related effects
DOI:10.1039/c3tb20237b JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:4 AU: Demelas, Monia;Lai, Stefano;Spanu, Andrea;Martinoia, Sergio;Cosseddu, Piero;Barbaro, Massimo;Bonfiglio, Annalisa;
2:281:10 Theoretical and experimental study of the bending influence on the capacitance of interdigitated micro-electrodes patterned on flexible substrates
DOI:10.1063/1.4829023 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Molina-Lopez, F.;Kinkeldei, T.;Briand, D.;Troester, G.;de Rooij, N. F.;
2:281:11 Bias stress effect on high mobility-hysteresis free pentacene-based organic thin film transistors
DOI:10.1016/j.synthmet.2014.02.016 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Fakher, S. J.;Hassan, A. K.;Mabrook, M. F.;
2:282:1 Preparation of the thermally stable conducting polymer PEDOT - Sulfonated poly(imide)
DOI:10.1016/j.polymer.2010.01.048 JN:POLYMER PY:2010 TC:34 AU: Somboonsub, Bongkoch;Invernale, Michael A.;Thongyai, Supakanok;Praserthdam, Piyasan;Scola, Daniel A.;Sotzing, Gregory A.;
2:282:2 Sulfonated polyimide as a thermally stable template for water processable conductive polymers
DOI:10.1016/j.synthmet.2012.03.023 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Somboonsub, Bongkoch;Thongyai, Supakanok;Scola, Daniel A.;Sotzing, Gregory A.;Praserthdam, Piyasan;
2:282:3 Comparison of the thermally stable conducting polymers PEDOT, PANi, and PPy using sulfonated poly(imide) templates
DOI:10.1016/j.polymer.2010.08.008 JN:POLYMER PY:2010 TC:16 AU: Somboonsub, Bongkoch;Srisuwan, Suttisak;Invernale, Michael A.;Thongyai, Supakanok;Praserthdam, Piyasan;Scola, Daniel A.;Sotzing, Gregory A.;
2:282:4 Improvement of Electrical Conductivity of Poly(3,4-ethylenedioxythiophene) (PEDOT) Thin Film
DOI:10.1080/15421406.2013.804761 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Yu, Seong Hun;Lee, Jae Hak;Choi, Myong Soo;Park, Jong Hyeok;Yoo, Pil J.;Lee, Jun Young;
2:282:5 Controlling the morphology of micrometre-size polystyrene/polyaniline composite particles by Swelling-Diffusion-Interfacial-Polymerization Method
DOI:10.1016/j.polymer.2010.11.025 JN:POLYMER PY:2011 TC:12 AU: Li, Yunxing;Wang, Zhaoqun;Wang, Chunjian;Zhao, Zhen;Xue, Gi;
2:282:6 Synthesis and Characterization of Poly(3,4-ethylenedioxythiophene) Nanoparticles Obtained Through Ultrasonic Irradiation
DOI:10.1002/app.32531 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:10 AU: Zhong, Xinrui;Fei, Guoxia;Xia, Hesheng;
2:282:7 Fabrication and characterization of new semiconducting nanomaterials composed of natural layered silicates (Na+-MMT), natural rubber (NR), and polypyrrole (PPy)
DOI:10.1016/j.polymer.2009.07.003 JN:POLYMER PY:2010 TC:22 AU: Pojanavaraphan, Tassawuth;Magaraphan, Rathanawan;
2:282:8 Modification of Novel Conductive PEDOT:Sulfonated Polyimide Nano-Thin Films by Anionic Surfactant and Poly(vinyl alcohol) for Electronic Applications
DOI:10.1007/s11664-013-2816-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2013 TC:2 AU: Romyen, Nathavat;Thongyai, Supakanok;Praserthdam, Piyasan;Sotzing, Gregory A.;
2:282:9 Effects of the addition of anionic surfactant during template polymerization of conducting polymers containing pedot with sulfonated poly(imide) and poly(styrene sulfonate) as templates for nano-thin film applications
DOI:10.1016/j.synthmet.2013.07.005 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Sukchol, Kulthida;Thongyai, Supakanok;Praserthdam, Piyasan;Sotzing, Gregory A.;
2:282:10 Facile Preparation of Poly(3,4-ethylenedioxythiophene) Nanoparticles via a Miniemulsion Polymerization Process
DOI:10.1002/app.33654 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:0 AU: Jin, Sun-Mi;Joo, Young-Tae;Park, Ye-Ji;Kim, Yangsoo;
2:282:11 Secondary dopants modified PEDOT-sulfonated poly(imide)s for high-temperature range application
DOI:10.1002/app.38593 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:1 AU: Srisuwan, Suttisak;Ding, Yujie;Mamangun, Donna;Thongyai, Supakanok;Praserthdam, Piyasan;Sotzing, Gregory A.;
2:282:12 Synthesis of discus-like Poly(3,4-ethylenedioxythiophene) nanoparticles using a bicellar template
DOI:10.1016/j.synthmet.2010.03.023 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Sheng, Kaixuan;Shi, Gaoquan;
2:282:13 Electrically conductive poly(3,4-ethylenedioxythiophene)-polystyrene sulfonic acid/polyacrylonitrile composite fibers prepared by wet spinning
DOI:10.1002/app.39174 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Liu, Yin;Li, Xin;Lu, Jing Chun;
2:283:1 Capacitive behavior of pentacene-based diodes: Quasistatic dielectric constant and dielectric strength
DOI:10.1063/1.3574661 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:30 AU: Kim, Chang Hyun;Yaghmazadeh, Omid;Tondelier, Denis;Bin Jeong, Yong;Bonnassieux, Yvan;Horowitz, Gilles;
2:283:2 Modeling the low-voltage regime of organic diodes: Origin of the ideality factor
DOI:10.1063/1.3660221 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:17 AU: Kim, Chang Hyun;Yaghmazadeh, Omid;Bonnassieux, Yvan;Horowitz, Gilles;
2:283:3 Organic Metal-Semiconductor Field-Effect Transistor (OMESFET) Fabricated on a Rubrene Single Crystal
DOI:10.1002/adma.200902124 JN:ADVANCED MATERIALS PY:2010 TC:22 AU: Braga, Daniele;Campione, Marcello;Borghesi, Alessandro;Horowitz, Gilles;
2:283:4 Electroless Silver Plating of the Surface of Organic Semiconductors
DOI:10.1021/la2025999 JN:LANGMUIR PY:2011 TC:3 AU: Campione, Marcello;Parravicini, Matteo;Moret, Massimo;Papagni, Antonio;Schroeter, Bernd;Fritz, Torsten;
2:283:5 Charge-Selective Raman Scattering and Fluorescence Quenching by "Nanometal On Semiconductor" Substrates
DOI:10.1021/nl101480n JN:NANO LETTERS PY:2010 TC:11 AU: Bhatt, Karthik;Tan, Susheng;Karumuri, Sriharsha;Kalkan, A. Kaan;
2:283:6 Highly energy-efficient and air-stable organic transistors by an ultrathin hybrid dielectric with large internal voltage generation
DOI:10.1039/c4tc00926f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Wang, Yu-Wu;Tseng, Guan-Yi;Chiu, Liang-Yun;Lin, Bo-Ren;Lin, Yu-Yang;Haung, Tsu-Wei;Chou, Wei-Yang;Horng, Lance;Cheng, Horng-Long;
2:283:7 Persistent photoexcitation effect on the poly(3-hexylthiophene) film: Impedance measurement and modeling
DOI:10.1016/j.synthmet.2011.12.021 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Kim, Chang Hyun;Kisiel, Krzysztof;Jung, Jaroslaw;Ulanski, Jacek;Tondelier, Denis;Geffroy, Bernard;Bonnassieux, Yvan;Horowitz, Gilles;
2:283:8 Organic semiconducting layers fabricated by self-metered slot-die coating for solution-processable organic light-emitting devices
DOI:10.1039/c4tc00817k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Park, Byoungchoo;Kwon, O. Eun;Yun, Soo Hong;Jeon, Hong Goo;Huh, Yoon Ho;
2:283:9 Stimuli Responsive Release of Metalic Nanoparticles on Semiconductor Substrates
DOI:10.1021/la3002256 JN:LANGMUIR PY:2012 TC:1 AU: Santiago-Cordoba, Miguel;Topal, Oezge;Allara, David L.;Kalkan, A. Kaan;Demirel, Melik C.;
2:283:10 Surface-Enhanced Raman Scattering Captures Conformational Changes of Single Photoactive Yellow Protein Molecules under Photoexcitation
DOI:10.1021/ja9028704 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:16 AU: Singhal, Kushagra;Kalkan, A. Kaan;
2:283:11 Overall current-voltage characteristics of space charge controlled currents for thin films by a single carrier species
DOI:10.1063/1.4892987 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Seki, Kazuhiko;
2:284:1 Highly controlled bifunctional Ag@rubrene core-shell nanostructures: surface-enhanced fluorescence and Raman scattering
DOI:10.1039/c3tc30521j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Wang, Cheng;Kuang, Yun;Luo, Liang;Sun, Xiaoming;
2:284:2 Gold nanoparticle hybridized rubrene nanofibers made by electrospinning: enhancement of optical and structural properties
DOI:10.1039/c3tc31519c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Dhakal, Krishna P.;Lee, Hyunsoo;Lee, Jubok;Lee, Seok Ho;Joo, Jinsoo;Kim, Jeongyong;
2:284:3 Electrospinning and optical characterization of organic rubrene nanofibers
DOI:10.1063/1.4729537 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:11 AU: Dhakal, Krishna P.;Lee, Hyunsoo;Lee, Jin Woo;Joo, Jinsoo;Guthold, Martin;Kim, Jeongyong;
2:284:4 Growth of thin rubrene single crystals from 1-propanol solvent
DOI:10.1016/j.jcrysgro.2009.10.048 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:18 AU: Matsukawa, Takeshi;Yoshimura, Masashi;Sasai, Kenichi;Uchiyama, Masahito;Yamagishi, Masakazu;Tominari, Yukihiro;Takahashi, Yoshinori;Takeya, Junichi;Kitaoka, Yasuo;Mori, Yusuke;Sasaki, Takatomo;
2:284:5 Core-shell nanoparticle of silver coated with light-emitting rubrene: Surface plasmon enhanced photoluminescence
DOI:10.1016/j.synthmet.2011.08.001 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Han, Yoon Deok;Lee, Jin Woo;Park, Dong Hyuk;Yang, Seung Ho;Kim, Bo Kyung;Kim, Jeongyong;Joo, Jinsoo;
2:284:6 Luminescence variation of organic Alq3 nanoparticles on surface of Au nanoparticles and graphene
DOI:10.1016/j.synthmet.2012.08.005 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Jung, Jin Sun;Lee, Jin Woo;Seo, Mi Ri;Lee, Hyun Soo;Kim, Jeongyong;Lee, Sang Wook;Joo, Jinsoo;
2:284:7 White light-emitting LED using electrospun Alq3/P3BT composite microfibers
DOI:10.1016/j.synthmet.2014.02.002 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Dhakal, Krishna P.;Lee, Hyunsoo;Kim, Jeongyong;
2:284:8 Anisotropic optical absorption of organic rubrene single nanoplates and thin films studied by mu-mapping absorption spectroscopy
DOI:10.1063/1.4751981 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Lee, Hyunsoo;Kim, Ji Hyun;Dhakal, Krishna P.;Lee, Jin Woo;Jung, Jin Sun;Joo, Jinsoo;Kim, Jeongyong;
2:284:9 Fabrication and optical characterization of electrospun poly(3-buthylthiophene) nanofibers
DOI:10.1016/j.synthmet.2011.03.020 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Park, Soung Kyu;Dhakal, Krishna P.;Kim, Jeongyong;Kim, Jin Heung;Rho, Heesuk;
2:284:10 Electric-field-induced orientation control of organic semiconductor rubrene crystals
DOI:10.1016/j.matchemphys.2012.11.008 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Matsukawa, Takeshi;Kobayashi, Shin-ichiro;Onodera, Tsunenobu;Oikawa, Hidetoshi;Itaya, Kingo;
2:285:1 Layer-by-layer assembled films of multi-walled carbon nanotubes with chitosan and cellulose nanocrystals
DOI:10.1016/j.jcis.2014.07.001 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:2 AU: Campos Trigueiro, Joao Paulo;Silva, Glaura Goulart;Pereira, Fabiano Vargas;Lavall, Rodrigo Lassarote;
2:285:2 Graphene constructed carbon thin films as transparent electrodes for solar cell applications
DOI:10.1039/c0jm01352h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:40 AU: Kalita, Golap;Matsushima, Masahiro;Uchida, Hideo;Wakita, Koichi;Umeno, Masayoshi;
2:285:3 Efficient organic solar cells with solution-processed carbon nanosheets as transparent electrodes
DOI:10.1063/1.4789980 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Na, Seok-In;Noh, Yong-Jin;Son, Su-Young;Kim, Tae-Wook;Kim, Seok-Soon;Lee, Sungho;Joh, Han-Ik;
2:285:4 Nanostructured networks of single wall carbon nanotubes for highly transparent, conductive, and anti-reflective flexible electrodes
DOI:10.1063/1.4813498 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Boulanger, Nicolas;Barbero, David R.;
2:285:5 Multilayer assemblies of polyelectrolyte-gold nanoparticles for the electrocatalytic oxidation and detection of arsenic(III)
DOI:10.1016/j.jcis.2012.06.033 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:11 AU: Thotiyl, M. M. Ottakam;Basit, Hajra;Sanchez, Julio A.;Goyer, Cedric;Coche-Guerente, Liliane;Dumy, Pascal;Sampath, S.;Labbe, Pierre;Moutet, Jean-Claude;
2:285:6 Electrical and optical properties of flexible conductive carbon nanotube/Ag/Al-doped zinc oxide multilayer coatings
DOI:10.1016/j.tsf.2012.10.071 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Li, Fushan;Lin, Zhixiao;Zhang, Beibei;Wu, Chaoxing;Hong, Chunyan;Guo, Tailiang;
2:286:1:1:1 A novel approach to fabrication of fullerene C-60 nanotubes: Using C-60-pyridine colloid as a precursor
DOI:10.1016/j.matlet.2009.11.056 JN:MATERIALS LETTERS PY:2010 TC:10 AU: Li, Guibao;Liu, Ping;Han, Zhu;Piao, Guangzhe;Zhao, Jian;Li, Shaoxiang;Liu, Guangye;
2:286:1:1:2 Effect of solvent type on the formation of tubular fullerene nanofibers
DOI:10.1016/j.matlet.2010.10.075 JN:MATERIALS LETTERS PY:2011 TC:11 AU: Qu, Yongtao;Liang, Shaocen;Zou, Kai;Li, Shaoxiang;Liu, Lumei;Zhao, Jian;Piao, Guangzhe;
2:286:1:1:3 Fabrication of C-60 Fullerene Nanofibers by Volatile Diffusion Method
DOI:10.1155/2013/646040 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:1 AU: Wang, Bingzhe;Gao, Xin;Piao, Guangzhe;
2:286:1:1:4 Preparation and superconductivity of potassium-doped fullerene nanowhiskers
DOI:10.1016/j.materresbull.2012.10.033 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:8 AU: Takeya, Hiroyuki;Kato, Ryoei;Wakahara, Takatsugu;Miyazawa, Kun'ichi;Yamaguchi, Takahide;Ozaki, Toshinori;Okazaki, Hiroyuki;Takano, Yoshihiko;
2:286:1:1:5 Controllable preparation of fullerene nanotubes
DOI:10.1016/j.matlet.2013.10.023 JN:MATERIALS LETTERS PY:2014 TC:1 AU: Wang, Bingzhe;Gao, Xin;Piao, Guangzhe;
2:286:1:1:6 Structure and Morphology Characteristics of Fullerene C-60 Nanotubes Fabricated with N-Methyl-2-pyrrolidone as a Good Solvent
DOI:10.1155/2011/706293 JN:JOURNAL OF NANOMATERIALS PY:2011 TC:2 AU: Qu, Yongtao;Yu, Wenwen;Liang, Shaocen;Li, Shaoxiang;Zhao, Jian;Piao, Guangzhe;
2:286:1:1:7 Amorphization of C-60 nanotubes under pressure
DOI:10.1063/1.3601740 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Hu, J. Y.;Liang, S. C.;Piao, G. Z.;Zhang, S. J.;Zhang, Q. H.;Yang, Y.;Zhao, Q.;Zhu, K.;Liu, Y. L.;Tang, L. Y.;Li, Y. C.;Liu, J.;Jin, C. Q.;Yu, R. C.;
2:286:1:1:8 Fullerene nanowhiskers at liquid-liquid interface: A facile template for metal oxide (TiO2, CeO2) nanofibers and their photocatalytic activity
DOI:10.1016/j.matchemphys.2011.06.031 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:3 AU: Sathish, Marappan;Miyazawa, Kun'ichi;Ye, Jinhua;
2:286:1:2:1 Synthesis and structural analysis of C-60-C-70 two-component fullerene nanowhiskers
DOI:10.1016/j.jcrysgro.2014.12.016 JN:JOURNAL OF CRYSTAL GROWTH PY:2015 TC:0 AU: Konno, Toshio;Wakahara, Takatsugu;Miyazawa, Kun'ichi;
2:286:1:2:2 Reduced working electrode based on fullerene C60 nanotubes@DNA: Characterization and application
DOI:10.1016/j.mseb.2010.07.020 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:9 AU: Zhang, Xuzhi;Qu, Yongtao;Piao, Guangzhe;Zhao, Jian;Jiao, Kui;
2:286:1:2:3 Oxygen Self-Diffusion in HfO2 Studied by Electron Spectroscopy
DOI:10.1103/PhysRevLett.112.175901 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:1 AU: Vos, M.;Grande, P. L.;Venkatachalam, D. K.;Nandi, S. K.;Elliman, R. G.;
2:286:2:1 The effect of solvent ratio and water on the growth of C-60 nanowhiskers
DOI:10.1016/j.jcrysgro.2010.06.020 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:14 AU: Miyazawa, Kun'ichi;Hotta, Kayoko;
2:286:2:2 Influence of the solution volume on the growth of C-60 nanowhiskers
DOI:10.1016/j.jcrysgro.2014.07.036 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:2 AU: Miyazawa, Kun'ichi;Hirata, Chika;Wakahara, Takatsugu;
2:286:2:3 The effect of water on the stability of C-60 fullerene nanowhiskers
DOI:10.1007/s11051-010-0132-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:4 AU: Miyazawa, Kun'ichi;Hotta, Kayoko;
2:286:2:4 The effect of solvent ratio and water on the growth of C-60 nanowhiskers (vol 312, pg 2764, 2010)
DOI:10.1016/j.jcrysgro.2012.05.016 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:0 AU: Miyazawa, Kun'ichi;Hotta, Kayoko;
2:286:3:1 The effect of process parameters on floating zone crystal growth of selected cuprates
DOI:10.1016/j.jcrysgro.2013.11.009 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:0 AU: Wizent, Nadja;Leps, Norman;Behr, Guenter;Klingeler, Ruediger;Buechner, Bernd;Loeser, Wolfgang;
2:286:3:2 Incidence of crystal growth conditions on the formation of macroscopic liquid inclusions in ciclopirox crystals
DOI:10.1016/j.jcrysgro.2011.02.047 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:4 AU: Waldschmidt, Audrey;Dupray, Valerie;Berton, Benjamin;Couvrat, Nicolas;Petit, Samuel;Coquerel, Gerard;
2:286:3:3 Influence of heat distribution and zone shape in the floating zone growth of selected oxide compounds
DOI:10.1007/s10853-009-4075-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:1 AU: Behr, G.;Loeser, W.;Wizent, N.;Ribeiro, P.;Apostu, M-O.;Souptel, D.;
2:286:3:4 Effect of linear alcohol molecular size on the self-assembly of fullerene whiskers
DOI:10.1016/j.matchemphys.2011.05.070 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:2 AU: Amer, Maher S.;Todd, T. Kyle;Busbee, John D.;
2:287:1 Memory effects and carrier transport mechanisms of write-once-read-many-times memory devices fabricated using poly(3-hexylthiophene) molecules embedded in a polymethylmethacrylate layer on a flexible substrate
DOI:10.1063/1.3588231 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Park, Keun Kab;Jung, Jae Hun;Kim, Tae Whan;
2:287:2 The importance of spinning speed in fabrication of spin-coated organic thin film transistors: Film morphology and field effect mobility
DOI:10.1063/1.4883216 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Kotsuki, Kenji;Tanaka, Hiroshige;Obata, Seiji;Stauss, Sven;Terashima, Kazuo;Saiki, Koichiro;
2:287:3 Direct Observation of Interfacial Morphology in Poly(3-hexylthiophene) Transistors: Relationship between Grain Boundary and Field-Effect Mobility
DOI:10.1021/am9005385 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:18 AU: Choi, Danbi;Jin, Sangwoo;Lee, Youngmin;Kim, Se Hyun;Chung, Dae Sung;Hong, Kipyo;Yang, Chanwoo;Jung, Jungwoon;Kim, Jin Kon;Ree, Moonhor;Park, Chan Eon;
2:287:4 Inkjet catalyst printing and electroless copper deposition for low-cost patterned microwave passive devices on paper
DOI:10.1007/s13391-013-3027-0 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:14 AU: Cook, Benjamin S.;Fang, Yunnan;Kim, Sangkil;Le, Taoran;Goodwin, W. Brandon;Sandhage, Kenneth H.;Tentzeris, Manos M.;
2:287:5 High-Performance Triisopropylsilylethynyl Pentacene Transistors via Spin Coating with a Crystallization-Assisting Layer
DOI:10.1021/am201074n JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:15 AU: Choi, Danbi;Ahn, Byungcheol;Kim, Se Hyun;Hong, Kipyo;Ree, Moonhor;Park, Chan Eon;
2:287:6 Formation of Solution-Processed Multistacked Ferroelectric Layers for Performance Improvement of Ferroelectric-Gated Pentacene Field-Effect Transistors
DOI:10.1007/s13391-014-3380-7 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Lee, Won-Yong;Kim, Woo Young;Bae, Jin-Hyuk;
2:287:7 Effects of annealing and degradation on regioregular polythiophene-based bulk heterojunction organic photovoltaic devices
DOI:10.1016/j.solmat.2010.07.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:33 AU: Ebadian, Soheil;Gholamkhass, Bobak;Shambayati, Shabnam;Holdcroft, Steven;Servati, Peyman;
2:287:8 Large Area Photonic Flash Soldering of Thin Chips on Flex Foils for Flexible Electronic Systems: In Situ Temperature Measurements and Thermal Modelling
DOI:10.1007/s13391-014-4222-3 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:1 AU: van den Ende, D. A.;Hendriks, R.;Cauchois, R.;Groen, W. A.;
2:287:9 Development of Extremely Ductile Lead-Free Sn-Al Solders for Futuristic Electronic Packaging Applications
DOI:10.1007/s13391-013-3087-1 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:3 AU: Alam, Md Ershadul;Gupta, Manoj;
2:287:10 Development of high strength Sn-Mg solder alloys with reasonable ductility
DOI:10.1007/s13391-013-2168-5 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:3 AU: Alam, Md Ershadul;Gupta, Manoj;
2:288:1 Blue emitting halogen-phenoxy substituted 1,8-naphthalimides for potential organic light emitting diode applications
DOI:10.1016/j.optmat.2014.06.016 JN:OPTICAL MATERIALS PY:2014 TC:3 AU: Ulla, Hidayath;Kiran, M. Raveendra;Garudachari, B.;Satyanarayan, M. N.;Umesh, G.;Isloor, A. M.;
2:288:2 Blue organic light emitting materials: Synthesis and characterization of novel 1,8-naphthalimide derivatives
DOI:10.1016/j.optmat.2013.11.017 JN:OPTICAL MATERIALS PY:2014 TC:6 AU: Ulla, Hidayath;Garudachari, B.;Satyanarayan, M. N.;Umesh, G.;Isloor, A. M.;
2:288:3 Optical absorption and fluorescence spectra of novel annulated analogues of azafluoranthene and azulene dyes
DOI:10.1016/j.matchemphys.2010.02.010 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:16 AU: Calus, S.;Danel, K. S.;Uchacz, T.;Kityk, A. V.;
2:288:4 High efficiency blue phosphorescent organic light-emitting diode based on blend of hole- and electron-transporting materials as a co-host
DOI:10.1063/1.4720512 JN:APPLIED PHYSICS LETTERS PY:2012 TC:17 AU: Chen, Yonghua;Chen, Jiangshan;Zhao, Yongbiao;Ma, Dongge;
2:288:5 DFT/TDDFT study on the electronic structure and spectral properties in annulated analogue of phenyl heteroazulene derivative
DOI:10.1016/j.matchemphys.2011.11.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:14 AU: Gasiorski, P.;Danel, K. S.;Matusiewicz, M.;Uchacz, T.;Kuznik, W.;Piatek, L.;Kityk, A. V.;
2:288:6 Synthesis and structure dependent photophysical properties of novel 2-pyrazolines
DOI:10.1016/j.synthmet.2012.09.006 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Singh, Pramod;Negi, J. S.;Singh, K.;Pant, Geeta J.;Rawat, M. S. M.;Joshi, G. C.;
2:288:7 Green electroluminescence from azafluoranthene derivatives in polymer based electroluminescent devices
DOI:10.1016/j.optmat.2012.09.027 JN:OPTICAL MATERIALS PY:2013 TC:2 AU: Gasiorski, P.;Gondek, E.;Danel, K. S.;Pokladko-Kowar, M.;Armatys, P.;Kityk, A. V.;
2:288:8 Synthesis and characterization of triphenylamine-benzothiazole-based donor and acceptor materials
DOI:10.1016/j.synthmet.2010.02.028 JN:SYNTHETIC METALS PY:2010 TC:17 AU: Wang, Hai-Ying;Chen, Gang;Xu, Xiao-Ping;Ji, Shun-Jun;
2:288:9 Efficient Charge Balance of Green Organic Light Emitting Diodes Using Mixed Charge Transporting Materials as the Host
DOI:10.1080/15421406.2014.935977 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Yang, Hyung Jin;Lee, Ho Won;Lee, Seok Jae;Lee, Song Eun;Lee, Dong Hyung;Koo, Ja Ryong;Yoon, Jhin Yeong;Yoon, Seung Soo;Kim, Young Kwan;
2:288:10 Photoluminescence spectra of bisphenol A based pyrazoloquinoline dimers in different solvents: Experiment and quantum chemical calculations
DOI:10.1016/j.matchemphys.2009.08.048 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:9 AU: Gondek, E.;Danel, A.;Kwiecien, B.;Niziol, J.;Kityk, A. V.;
2:288:11 The comparative investigation on the optical properties and electronic structures of the alkoxy-tuned 1,3,4-oxadiazole derivatives
DOI:10.1016/j.matchemphys.2009.08.053 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:5 AU: Zhang, Peng;Tang, Benchen;Tian, Wenjing;Yang, Bing;Li, Min;
2:288:12 Methoxyphenyl indenopyrazoloquinoline derivatives as green fluorescent emitters for polymer based electroluminescent devices
DOI:10.1016/j.optmat.2011.08.013 JN:OPTICAL MATERIALS PY:2011 TC:4 AU: Gasiorski, P.;Gondek, E.;Pokladko-Kowar, M.;Danel, K. S.;Matusiewicz, M.;Kuznik, W.;Kityk, A. V.;
2:288:13 Synthesis and characteristics of novel benzothiazoyl-pyrazoline derivatives containing carbazole
DOI:10.1016/j.synthmet.2011.11.013 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Wang, Hai-Ying;Shi, Jing-Jing;Chen, Gang;Xu, Xiao-Ping;Ji, Shun-Jun;
2:289:1 Molecular design of new P3HT derivatives: Adjusting electronic energy levels for blends with PCBM
DOI:10.1016/j.matchemphys.2014.09.002 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Oliveira, Eliezer Fernando;Lavarda, Francisco Carlos;
2:289:2 Chain length and torsional dependence of exciton binding energies in P3HT and PTB7 conjugated polymers: A first-principles study
DOI:10.1016/j.polymer.2014.04.022 JN:POLYMER PY:2014 TC:6 AU: Bhatta, Ram S.;Tsige, Mesfin;
2:289:3 Band structure engineering for low band gap polymers containing thienopyrazine
DOI:10.1039/c2jm12312f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Chao, Chi-Yang;Chao, Chung-Hsiang;Chen, Lung-Pin;Hung, Ying-Chieh;Lin, Shiang-Tai;Su, Wei-Fang;Lin, Ching-Fuh;
2:289:4 Synthesis and characterization of low bandgap pi-conjugated copolymers incorporating 4,7-bis(3,3 '/4,4 '-hexylthiophene-2-yl)benzo[c][2,1,3]thiadiazole units for photovoltaic application
DOI:10.1039/c3ta11433c JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2013 TC:8 AU: Abdo, Nabiha I.;Ku, Jamin;El-Shehawy, Ashraf A.;Shim, Hee-Sang;Min, Joon-Keun;El-Barbary, Ahmed A.;Jang, Yun Hee;Lee, Jae-Suk;
2:289:5 Hybrid organic solar cells using both ZnO and PCBM as electron acceptor materials
DOI:10.1016/j.mseb.2014.08.005 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:6 AU: Ikram, Muhammad;Murray, Roy;Hussain, Afzal;Ali, Salamat;Shah, S. Ismat;
2:289:6 DFT study of electronic band structure of alternating triphenylamine-fluorene copolymers
DOI:10.1016/j.polymer.2013.03.021 JN:POLYMER PY:2013 TC:6 AU: Ling, Lin;Lagowski, Jolanta B.;
2:289:7 Effects of ZnO Nanoparticles on P3HT:PCBM Organic Solar Cells with DMF-Modulated PEDOT:PSS Buffer Layers
DOI:10.1021/am4046475 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:14 AU: Oh, Sang Hoon;Heo, Seung Jin;Yang, Jeong Suk;Kim, Hyun Jae;
2:289:8 Hole Transport Enhancing Effects of Polar Solvents on Poly(3,4-ethylenedioxythiophene):Poly(styrene sulfonic acid) for Organic Solar Cells
DOI:10.1021/am301320m JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:10 AU: Yang, Jeong Suk;Oh, Sang Hoon;Kim, Dong Lim;Kim, Si Joon;Kim, Hyun Jae;
2:289:9 Excitons in organic semiconductors
DOI:10.1016/j.synthmet.2011.04.003 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Dkhissi, Ahmed;
2:290:1 Poly(3-hexylthiophene)/Multiwalled Carbon Hybrid Coaxial Nanotubes: Nanoscale Rectification and Photovoltaic Characteristics
DOI:10.1021/nn100427f JN:ACS NANO PY:2010 TC:21 AU: Kim, Kihyun;Shin, Ji Won;Lee, Yong Baek;Cho, Mi Yeon;Lee, Suk Ho;Park, Dong Hyuk;Jang, Dong Kyu;Lee, Cheol Jin;Joo, Jinsoo;
2:290:2 Self-assembly of low dimensional nanostructures and materials via supramolecular interactions at interfaces
DOI:10.1016/j.jcis.2013.01.054 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:2 AU: Zhou, Chunjie;Li, Yongjun;
2:290:3 Growing uniform copolymer nanowire arrays for high stability and efficient field emission
DOI:10.1039/c2jm16368c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:12 AU: Chen, Nan;Qian, Xuemin;Lin, Haowei;Liu, Huibiao;Li, Yuliang;
2:290:4 Gold nanoparticles as advanced building blocks for nanoscale self-assembled systems
DOI:10.1039/c1jm11945a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Shaw, Christopher P.;Fernig, David G.;Levy, Raphael;
2:290:5 Innovative materials and applications based on poly(3,4-ethylenedioxythiophene) and ionic liquids
DOI:10.1039/c0jm00114g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:15 AU: Doebbelin, Markus;Marcilla, Rebeca;Pozo-Gonzalo, Cristina;Mecerreyes, David;
2:290:6 An Elastomeric Poly(Thiophene-EDOT) Composite with a Dynamically Variable Permeability Towards Organic and Water Vapors
DOI:10.1002/adfm.201102237 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:0 AU: Martin, Brett D.;Justin, Gusphyl A.;Moore, Martin H.;Naciri, Jawad;Mazure, Theresa;Melde, Brian J.;Stroud, Rhonda M.;Ratna, Banahalli;
2:290:7 Porous Conjugated Polymer Nanotip Arrays for Highly Stable Field Emitter
DOI:10.1021/am4004914 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Zhang, Liang;Wang, Ke;Qian, Xuemin;Liu, Huibiao;Shi, Zhiqiang;
2:290:8 Formation of Assemblies Comprising Ru-Polypyridine Complexes and CdSe Nanocrystals Studied by ATR-FTIR Spectroscopy and DFT Modeling
DOI:10.1021/la200531s JN:LANGMUIR PY:2011 TC:20 AU: Koposov, Alexey Y.;Cardolaccia, Thomas;Albert, Victor;Badaeva, Ekaterina;Kilina, Svetlana;Meyer, Thomas J.;Tretiak, Sergei;Sykora, Milan;
2:290:9 Quantum dot and pi-conjugated molecule hybrids: nanoscale luminescence and application to photoresponsive molecular electronics
DOI:10.1038/am.2014.28 JN:NPG ASIA MATERIALS PY:2014 TC:4 AU: Han, Yoon Deok;Lee, Yong-baek;Park, Sungyeoun;Jeon, Sumin;Epstein, Arthur J.;Kim, Ji-Hee;Kim, Jeongyong;Lee, Kwang-Sup;Joo, Jinsoo;
2:291:1 The effect of carrier mobility in organic solar cells
DOI:10.1063/1.3327210 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:37 AU: Shieh, Ji-Ting;Liu, Chiou-Hua;Meng, Hsin-Fei;Tseng, Shin-Rong;Chao, Yu-Chiang;Horng, Sheng-Fu;
2:291:2 Analyzing local exciton generation profiles as a means to extract transport lengths in organic solar cells
DOI:10.1103/PhysRevB.82.205325 JN:PHYSICAL REVIEW B PY:2010 TC:7 AU: Tumbleston, John R.;Ko, Doo-Hyun;Samulski, Edward T.;Lopez, Rene;
2:291:3 Nonideal parasitic resistance effects in bulk heterojunction organic solar cells
DOI:10.1063/1.3494100 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Tumbleston, John R.;Ko, Doo-Hyun;Samulski, Edward T.;Lopez, Rene;
2:291:4 Highly efficient inverted polymer solar cells with reduced graphene-oxide-zinc-oxide nanocomposites buffer layer
DOI:10.1063/1.4804645 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Lee, Hyun Woo;Oh, Jin Young;Lee, Tae Il;Jang, Woo Soon;Yoo, Young Bum;Chae, Soo Sang;Park, Jee Ho;Myoung, Jae Min;Song, Kie Moon;Baik, Hong Koo;
2:291:5 Solvent polarity and nanoscale morphology in bulk heterojunction organic solar cells: A case study
DOI:10.1063/1.4867642 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Thomas, Ajith;Tom, Anju Elsa;Rao, Arun D.;Varman, K. Arul;Ranjith, K.;Vinayakan, R.;Ramamurthy, Praveen C.;Ison, V. V.;
2:291:6 Suppression of bimolecular recombination by UV-sensitive electron transport layers in organic solar cells
DOI:10.1063/1.3488609 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Ko, Doo-Hyun;Tumbleston, John R.;Ok, Myoung-Ryul;Chun, Honggu;Lopez, Rene;Samulski, Edward;
2:291:7 Combined influence of carrier mobility and dielectric constant on the performance of organic bulk heterojunction solar cells
DOI:10.1063/1.4881080 JN:AIP ADVANCES PY:2014 TC:1 AU: Ibrahim, M. L. Inche;Ahmad, Zubair;Sulaiman, Khaulah;Muniandy, S. V.;
2:291:8 Modelling of Charge Carrier Mobility Effect on Organic Bulk Heterojunction Solar Cells
DOI:10.1080/10584587.2012.688432 JN:INTEGRATED FERROELECTRICS PY:2012 TC:0 AU: Guo, Wenbin;Shen, Liang;Liu, Caixia;Ruan, Shengping;Chen, Weiyou;
2:292:1 Bulk Heterojuction Solar Cells Containing 6,6-Dicyanofulvenes as n-Type Additives
DOI:10.1021/nn301851k JN:ACS NANO PY:2012 TC:20 AU: Andrew, Trisha L.;Bulovic, Vladimir;
2:292:2 Improved photovoltaic properties of pentacene/N,N '-Dioctyl-3,4,9,10-perylenedicarboximide-based organic heterojunctions with thermal annealing
DOI:10.1016/j.solmat.2010.01.002 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:16 AU: Karak, S.;Ray, S. K.;Dhar, A.;
2:292:3 Photoinduced charge transfer and photovoltaic energy conversion in self-assembled N,N '-dioctyl-3,4,9,10-perylenedicarboximide nanoribbons
DOI:10.1063/1.3475024 JN:APPLIED PHYSICS LETTERS PY:2010 TC:12 AU: Karak, S.;Ray, S. K.;Dhar, A.;
2:292:4 Fabrication of N,N '-dioctyl-3,4,9,10-perylenedicarboximide nanostructures through solvent influenced pi-pi stacking and their morphological impact on photovoltaic performance
DOI:10.1016/j.tsf.2014.03.035 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Pradhan, S.;Redwine, J.;McLeskey, J. T., Jr.;Dhar, A.;
2:292:5 Supramolecular donor-acceptor assemblies composed of carbon nanodiamond and porphyrin for photoinduced electron transfer and photocurrent generation
DOI:10.1039/b916634c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Ohtani, Masataka;Kamat, Prashant V.;Fukuzumi, Shunichi;
2:292:6 Expanding the Chemical Structure Space of Opto-Electronic Molecular Materials: Unprecedented Push-Pull Chromophores by Reaction of a Donor-Substituted Tetracyanofulvene with Electron-Rich Alkynes
DOI:10.1021/ja312084s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:9 AU: Jayamurugan, Govindasamy;Dumele, Oliver;Gisselbrecht, Jean-Paul;Boudon, Corinne;Schweizer, W. Bernd;Bernet, Bruno;Diedericht, Francois;
2:292:7 Structural and optical properties of nanocrystalline CdSe and Al:CdSe thin films for photoelectrochemical application
DOI:10.1016/j.matchemphys.2011.04.059 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:5 AU: Gawali, Sanjay A.;Bhosale, C. H.;
2:292:8 Organocatalyst-Mediated Dehydrogenation of Aldehydes to alpha,beta-Unsaturated Aldehydes, and Oxidative and Enantioselective Reaction of Aldehydes and Nitromethane Catalyzed by Diphenylprolinol Silyl Ether
DOI:10.1002/adsc.201300919 JN:ADVANCED SYNTHESIS & CATALYSIS PY:2013 TC:4 AU: Hayashi, Yujiro;Itoh, Takahiko;Ishikawa, Hayato;
2:292:9 Organocatalytic, Enantioselective Intramolecular [6+2] Cycloaddition Reaction for the Formation of Tricyclopentanoids and Insight on Its Mechanism from a Computational Study
DOI:10.1021/ja108516b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Hayashi, Yujiro;Gotoh, Hiroaki;Honma, Masakazu;Sankar, Kuppusamy;Kumar, Indresh;Ishikawa, Hayato;Konno, Kohzo;Yui, Hiroharu;Tsuzuki, Seiji;Uchimaru, Tadafumi;
2:292:10 6,6-Dicyanopentafulvenes: Electronic Structure and Regioselectivity in [2+2] Cycloaddition-Retroelectrocyclization Reactions
DOI:10.1021/ja309141r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Finke, Aaron D.;Dumele, Oliver;Zalibera, Michal;Confortin, Daria;Cias, Pawel;Jayamurugan, Govindasamy;Gisselbrecht, Jean-Paul;Boudon, Corinne;Schweizer, W. Bernd;Gescheidt, Georg;Diederich, Francois;
2:293:1 Synthesis and characterization of conjugated polymers for the obtainment of conductive patterns through laser tracing
DOI:10.1007/s10853-013-7204-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Lanzi, Massimiliano;Di-Nicola, Francesco Paolo;Livi, Massimiliano;Paganin, Luisa;Cappelli, Fabio;Pierini, Filippo;
2:293:2 Solventless deposition of oligo- and polythiophenes for bulk heterojunction solar cells
DOI:10.1016/j.synthmet.2014.05.016 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Lanzi, Massimiliano;Di-Nicola, Francesco Paolo;Errani, Francesco;Paganin, Luisa;Mucci, Adele;
2:293:3 Simultaneous enhancement of the carrier mobility and luminous efficiency through thermal annealing a molecular glass material and device
DOI:10.1039/c2jm34663j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Xue, Shanfeng;Yao, Liang;Liu, Suijun;Gu, Cheng;Shen, Fangzhong;Li, Weijun;Zheng, Hui;Wu, Hongbin;Ma, Yuguang;
2:293:4 Polyalkylthiophene-containing electron donor and acceptor heteroaromatic bicycles: synthesis, photo-physical, and electroluminescent properties
DOI:10.1007/s10853-013-7921-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:3 AU: Palai, Akshaya K.;Kumar, Amit;Shashidhara, K.;Mishra, Sarada P.;
2:293:5 Synthesis, characterization and photovoltaic properties of a new thiophene-based double-cable polymer with pendent fullerene group
DOI:10.1016/j.polymer.2012.03.040 JN:POLYMER PY:2012 TC:13 AU: Lanzi, Massimiliano;Paganin, Luisa;Errani, Francesco;
2:293:6 Vacuum-Deposited Planar Heterojunction Polymer Solar Cells
DOI:10.1021/am1008985 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:9 AU: Kovacik, Peter;Sforazzini, Giuseppe;Cook, Andrew G.;Willis, Shawn M.;Grant, Patrick S.;Assender, Hazel E.;Watt, Andrew A. R.;
2:293:7 Synthesis of hyperbranched polythiophenes containing tetrachloroperylene bisimide as bridging moiety for polymer solar cells
DOI:10.1016/j.polymer.2014.09.046 JN:POLYMER PY:2014 TC:0 AU: Yang, Sheng-Hsiung;Lin, Tz-Shiuan;Huang, Yu-Zhang;Li, Husan-De;Chao, Yu-Chiang;
2:293:8 A regioregular head to tail thiophene based "double-cable" polymer with pendant anthraquinone functional groups: Preparation, spectroscopy and photovoltaic properties
DOI:10.1016/j.solmat.2011.01.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:4 AU: Mohamad, David K.;Chauhan, Sangita S.;Yi, Hunan;Cadby, Ashley J.;Lidzey, David G.;Iraqi, Ahmed;
2:293:9 Solution-processable pi-conjugated dendrimers with hole-transporting, electroluminescent and fluorescent pattern properties
DOI:10.1039/c1jm11176k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Li, Zhong'an;Jiang, Zuoquan;Ye, Shanghui;Jim, Cathy K. W.;Yu, Gui;Liu, Yunqi;Qin, Jingui;Tang, Ben Zhong;Li, Zhen;
2:293:10 Molecular structure of poly(3-alkyl-thiophenes) investigated by calorimetry and grazing incidence X-ray scattering
DOI:10.1016/j.solmat.2011.09.025 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Abad, Jose;Espinosa, Nieves;Ferrer, Pilar;Garcia-Valverde, Rafael;Miguel, Carmen;Padilla, Javier;Alcolea, Alberto;Castro, German R.;Colchero, Jaime;Urbina, Antonio;
2:294:1 Surface plasmon as a probe for melting of silver nanoparticles
DOI:10.1088/0957-4484/21/4/045203 JN:NANOTECHNOLOGY PY:2010 TC:19 AU: Yeshchenko, Oleg A.;Dmitruk, Igor M.;Alexeenko, Alexandr A.;Kotko, Andriy V.;
2:294:2 Optical detection of melting point depression for silver nanoparticles via in situ real time spectroscopic ellipsometry
DOI:10.1063/1.3681367 JN:APPLIED PHYSICS LETTERS PY:2012 TC:9 AU: Little, S. A.;Begou, T.;Collins, R. W.;Marsillac, S.;
2:294:3 A broadband analysis of the optical properties of silver nanoparticle films by in situ real time spectroscopic ellipsometry
DOI:10.1016/j.tsf.2010.11.065 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Marsillac, S.;Little, S. A.;Collins, R. W.;
2:294:4 Enhanced Electrical Conductivity of Silver Nanoparticles for High Frequency Electronic Applications
DOI:10.1021/am3022569 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:14 AU: Alshehri, Ali H.;Jakubowska, Malgorzata;Mlozniak, Anna;Horaczek, Michal;Rudka, Diana;Free, Charles;Carey, J. David;
2:294:5 Determination of optical properties of percolated nanostructures using an optical resonator system
DOI:10.1063/1.4768202 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:3 AU: Sukmanowski, J.;Battie, Y.;Royer, F. X.;Naciri, A. En;
2:294:6 Analysis of interband, intraband, and plasmon polariton transitions in silver nanoparticle films via in situ real-time spectroscopic ellipsometry
DOI:10.1063/1.3564894 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Little, S. A.;Collins, R. W.;Marsillac, S.;
2:294:7 Electrical performance of carbon nanotube-polymer composites at frequencies up to 220 GHz
DOI:10.1063/1.3651278 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Alshehri, Ali H.;Jakubowska, Malgorzata;Sloma, Marcin;Horaczek, Michal;Rudka, Diana;Free, Charles;Carey, J. David;
2:294:8 Phase constitution and interface structure of nano-sized Ag-Cu/AlN multilayers: Experiment and ab initio modeling
DOI:10.1063/1.4761471 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Pigozzi, Giancarlo;Antusek, Andrej;Janczak-Rusch, Jolanta;Parlinska-Wojtan, Magdalena;Passerone, Daniele;Pignedoli, Carlo Antonio;Bissig, Vinzenz;Patscheider, Joerg;Jeurgens, Lars P. H.;
2:294:9 The microstructure and improved mechanical properties of Ag/Cu nanoscaled multilayer films deposited by magnetron sputtering
DOI:10.1016/j.apsusc.2014.06.023 JN:APPLIED SURFACE SCIENCE PY:2014 TC:2 AU: Hu, Ming;Gao, Xiaoming;Weng, Lijun;Sun, Jiayi;Liu, Weimin;
2:294:10 Atomistic simulation of the eutectic mixture in bulk and nano-layered Ag-40 at.%Cu alloy
DOI:10.1016/j.commatsci.2014.03.021 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2014 TC:0 AU: Brodacka, S.;Kozlowski, M.;Kozubski, R.;Janczak-Rusch, J.;
2:294:11 Growth of nanocomposite in eutectic Cu-Ag films
DOI:10.1016/j.tsf.2009.12.095 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Misjak, F.;Barna, P. B.;Radnoczi, G.;
2:294:12 Surface enhanced Raman scattering by organic and inorganic semiconductors formed on laterally ordered arrays of Au nanoclusters
DOI:10.1016/j.tsf.2013.03.070 JN:THIN SOLID FILMS PY:2013 TC:5 AU: Milekhin, Alexander G.;Yeryukov, Nikolay A.;Sveshnikova, Larisa L.;Duda, Tatyana A.;Rodyakina, Ekaterina E.;Sheremet, Evgeniya S.;Ludemann, Michael;Gordan, Ovidiu D.;Latyshev, Alexander V.;Zahn, Dietrich R. T.;
2:294:13 Design of a real-time spectroscopic rotating compensator ellipsometer without systematic errors
DOI:10.1016/j.tsf.2013.11.138 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Broch, Laurent;Stein, Nicolas;Zimmer, Alexandre;Battie, Yann;Naciri, Aotmane En;
2:294:14 Microstructural and mechanical properties of sputter deposited TiN/SiNx multilayer thin films
DOI:10.1016/j.matchemphys.2010.03.018 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:3 AU: Chawla, Vipin;Jayaganthan, R.;Chandra, Ramesh;
2:294:15 Thermo-optical properties of embedded silver nanoparticles
DOI:10.1063/1.4766409 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Huyeh, M. Rashidi;Havar, M. Shirdel;Palpant, B.;
2:295:1 Flexible picene thin film field-effect transistors with parylene gate dielectric and their physical properties
DOI:10.1063/1.3360223 JN:APPLIED PHYSICS LETTERS PY:2010 TC:24 AU: Kawasaki, Naoko;Kalb, Wolfgang L.;Mathis, Thomas;Kaji, Yumiko;Mitsuhashi, Ryoji;Okamoto, Hideki;Sugawara, Yasuyuki;Fujiwara, Akihiko;Kubozono, Yoshihiro;Batlogg, Bertram;
2:295:2 Performance improvements of the hydrophobic and the dielectric properties of parylene C
DOI:10.1063/1.4821842 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Kahouli, A.;Sylvestre, A.;Laithier, J-F.;
2:295:3 Dielectric strength of parylene HT
DOI:10.1063/1.4863877 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Diaham, S.;Bechara, M.;Locatelli, M. -L.;Khazaka, R.;Tenailleau, C.;Kumar, R.;
2:295:4 Dielectric properties of parylene AF4 as low-k material for microelectronic applications
DOI:10.1016/j.tsf.2011.10.025 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Kahouli, A.;Sylvestre, A.;Jomni, F.;Andre, E.;Garden, J-L;Yangui, B.;Berge, B.;Legrand, J.;
2:295:5 Stable organic field-effect-transistors with high mobilities unaffected by supporting dielectric based on phenylene-bridged thienobenzothiophene
DOI:10.1063/1.4863209 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Mathis, T.;Liu, Y.;Ai, L.;Ge, Z.;Lumpi, D.;Horkel, E.;Holzer, B.;Froehlich, J.;Batlogg, B.;
2:295:6 Characteristics of [6]phenacene thin film field-effect transistor
DOI:10.1063/1.4747201 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Komura, Noriko;Goto, Hidenori;He, Xuexia;Mitamura, Hiroki;Eguchi, Ritsuko;Kaji, Yumiko;Okamoto, Hideki;Sugawara, Yasuyuki;Gohda, Shin;Sato, Kaori;Kubozono, Yoshihiro;
2:295:7 Effect of film thickness on structural, morphology, dielectric and electrical properties of parylene C films
DOI:10.1063/1.4752022 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Kahouli, Abdelkader;
2:295:8 Effect of Cl-H aromatic substitution on structural and dielectric properties of poly(p-xylylene)
DOI:10.1016/j.polymer.2012.05.016 JN:POLYMER PY:2012 TC:10 AU: Kahouli, A.;Sylvestre, A.;Pairis, S.;Laithier, J. -F.;
2:295:9 Morphology and microstructure of picene thin-films for air-operating transistors
DOI:10.1016/j.apsusc.2014.07.085 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Diallo, Abdou Karim;Kurihara, Ryouta;Yoshimoto, Noriyuki;Videlot-Ackermann, Christine;
2:295:10 Influence of crystallization-induced amorphous phase confinement on alpha- and beta-relaxation molecular mobility in parylene F
DOI:10.1063/1.3619864 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Diaham, S.;Bechara, M.;Locatelli, M. -L.;Lebey, T.;
2:295:11 Electrical Conductivity of Parylene F at High Temperature
DOI:10.1007/s11664-010-1414-y JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:5 AU: Diaham, S.;Bechara, M.;Locatelli, M. -L.;Tenailleau, C.;
2:295:12 Structural and dielectric properties of parylene-VT4 thin films
DOI:10.1016/j.matchemphys.2013.08.044 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:1 AU: Kahouli, A.;Sylvestre, A.;Laithier, J. -F;Lutsen, L.;Pairis, S.;Andre, E.;Garden, J. -L.;
2:295:13 Comparison between the density-of-states of picene transistors measured in air and under vacuum
DOI:10.1016/j.synthmet.2011.10.009 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Voz, C.;Marsal, A.;Moreno, C.;Puigdollers, J.;Alcubilla, R.;
2:295:14 Characteristics of field-effect transistors using the one-dimensional extended hydrocarbon [7]phenacene
DOI:10.1063/1.3540648 JN:APPLIED PHYSICS LETTERS PY:2011 TC:15 AU: Sugawara, Yasuyuki;Kaji, Yumiko;Ogawa, Keiko;Eguchi, Ritsuko;Oikawa, Shohei;Gohda, Hiroyuki;Fujiwara, Akihiko;Kubozono, Yoshihiro;
2:295:15 Real-time crystallization in fluorinated parylene probed by conductivity spectra
DOI:10.1063/1.4868646 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Khazaka, R.;Locatelli, M. L.;Diaham, S.;Tenailleau, C.;Kumar, R.;
2:295:16 Effect of molecular structure on bias stress effect in organic thin-film transistors
DOI:10.1016/j.apsusc.2011.06.014 JN:APPLIED SURFACE SCIENCE PY:2011 TC:2 AU: Diallo, A. K.;Fages, F.;Serein-Spirau, F.;Lere-porte, J. -P.;Videlot-Ackermann, C.;
2:296:1 Atomic-Scale Interfacial Band Mapping across Vertically Phased-Separated Polymer/Fullerene Hybrid Solar Cells
DOI:10.1021/nl400091f JN:NANO LETTERS PY:2013 TC:10 AU: Shih, Min-Chuan;Huang, Bo-Chao;Lin, Chih-Cheng;Li, Shao-Sian;Chen, Hsin-An;Chiu, Ya-Ping;Chen, Chun-Wei;
2:296:2 Current and illumination dependent series resistance of solar cells
DOI:10.1063/1.4871017 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:3 AU: Turek, Marko;
2:296:3 Stoichiometric dependence of TiOx as a cathode modifier on band alignment of polymer solar cells
DOI:10.1016/j.solmat.2014.03.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Yeh, Yun-Chieh;Li, Shao-Sian;Wu, Chao-Chuan;Shao, Teng-Wei;Kuo, Pai-Chia;Chen, Chun-Wei;
2:296:4 Biased internal potential distributions in a bulk-heterojunction organic solar cell incorporated with a TiOx interlayer
DOI:10.1063/1.4722802 JN:APPLIED PHYSICS LETTERS PY:2012 TC:12 AU: Kong, Jaemin;Lee, Jongjin;Jeong, Yonkil;Kim, Maengjun;Kang, Sung-Oong;Lee, Kwanghee;
2:296:5 Analysis of the series resistance in pin-type thin-film silicon solar cells
DOI:10.1063/1.4798393 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Mueller, Thomas C. M.;Pieters, Bart E.;Rau, Uwe;Kirchartz, Thomas;
2:296:6 Extraction of solar cell series resistance without presumed current-voltage functional form
DOI:10.1016/j.solmat.2009.11.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:15 AU: Lee, Ming-Kun;Wang, Jen-Chun;Horng, Sheng-Fu;Meng, Hsin-Fei;
2:296:7 Enhanced carrier extraction efficiency in organic solar cells with reduced space-charge limited transport by engineered vertical compositional profile
DOI:10.1016/j.synthmet.2012.09.007 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Lee, Ming-Kun;Kuo, Tsung-Han;Kong, Kuo-Wen;Hong, Yun-Ru;Wang, Jen-Chun;Horng, Sheng-Fu;Meng, Hsin-Fei;
2:296:8 A general and precise method to evaluate the series resistance of photovoltaic cells from I-V characteristics
DOI:10.1063/1.3622617 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Chibbaro, C.;Zimbone, M.;Litrico, G.;Baeri, P.;Lo Trovato, M. L.;Aleo, F.;
2:296:9 Luminescence based series resistance mapping of III-V multijunction solar cells
DOI:10.1063/1.4831749 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Nesswetter, Helmut;Dyck, Wilhelm;Lugli, Paolo;Bett, Andreas W.;Zimmermann, Claus G.;
2:297:1 Fluoroalcohol and fluorinated-phenol derivatives functionalized mesoporous SBA-15 hybrids: high-performance gas sensing toward nerve agent
DOI:10.1039/c1jm14779j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Zheng, Qi;Zhu, Yongheng;Xu, Jiaqiang;Cheng, Zhixuan;Li, Huimin;Li, Xinxin;
2:297:2 Amine-Functionalized SBA-15 with Uniform Morphology and Well-Defined Mesostructure for Highly Sensitive Chemosensors To Detect Formaldehyde Vapor
DOI:10.1021/la300560j JN:LANGMUIR PY:2012 TC:25 AU: Zhu, Yongheng;Li, Hui;Zheng, Qi;Xu, Jiaqiang;Li, Xinxin;
2:297:3 Incorporation of a Semiconductive Polymer into Mesoporous SBA-15 Platelets: Toward New Luminescent Hybrid Materials
DOI:10.1021/cm103670w JN:CHEMISTRY OF MATERIALS PY:2011 TC:18 AU: Cucinotta, Fabio;Carniato, Fabio;Paul, Geo;Bracco, Silvia;Bisio, Chiara;Caldarelli, Stefano;Marchese, Leonardo;
2:297:4 A novel stable and efficient light-emitting solid based on saponite and luminescent POSS
DOI:10.1039/c2jm34230h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Olivero, Francesco;Carniato, Fabio;Bisio, Chiara;Marchese, Leonardo;
2:297:5 On the hydrothermal stability of MCM-41 mesoporous silica nanoparticles and the preparation of luminescent materials
DOI:10.1039/c0jm00559b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: Carniato, Fabio;Bisio, Chiara;Paul, Geo;Gatti, Giorgio;Bertinetti, Luca;Coluccia, Salvatore;Marchese, Leonardo;
2:297:6 MCM41 functionalized with ethylenediaminetriacetic acid for ion-exchange chromatography
DOI:10.1039/c0jm02291h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Bruzzoniti, Maria Concetta;Sarzanini, Corrado;Torchia, Anna Maria;Teodoro, Marta;Testa, Flaviano;Virga, Alessandro;Onida, Barbara;
2:298:1 Titanium oxide:fullerene composite films as electron collector layer in organic solar cells and the use of an easy-deposition cathode
DOI:10.1016/j.optmat.2014.03.024 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: Perez-Gutierrez, Enrique;Maldonado, Jose-Luis;Nolasco, Jairo;Ramos-Ortiz, Gabriel;Rodriguez, Mario;Mendoza-De la Torre, Ulises;Meneses-Nava, Marco-Antonio;Barbosa-Garcia, Oiacio;Garcia-Ortega, Hector;Farfan, Norberto;Granados, Giovana;Santillan, Rosa;Juaristi, Eusebio;
2:298:2 New polythiophene derivatives and enhanced photovoltaic effect by a boron compound blended with them in OPVs cells
DOI:10.1016/j.synthmet.2014.07.019 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Del-Oso, Jose-Alfredo;Maldonado, Jose-Luis;Ramos-Ortiz, Gabriel;Rodriguez, Mario;Guizado-Rodriguez, Marisol;Escalante, Jaime;Frontana-Uribe, Bernardo A.;Perez-Gutierrez, Enrique;Santillan, Rosa;
2:298:3 Study of the effect of the charge transport layer in the electrical characteristics of the organic photovoltaics
DOI:10.1016/j.optmat.2012.12.011 JN:OPTICAL MATERIALS PY:2013 TC:5 AU: Rahimi, Ronak;Roberts, Alex;Narang, V.;Kumbham, Vamsi Krishna;Korakakis, D.;
2:298:4 On the use of Woods metal for fabricating and testing polymeric organic solar cells: An easy and fast method
DOI:10.1016/j.solmat.2010.09.024 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:14 AU: Salinas, Jose-Francisco;Maldonado, Jose-Luis;Ramos-Ortiz, Gabriel;Rodriguez, Mario;Meneses-Nava, Marco-Antonio;Barbosa-Garcia, Oracio;Santillan, Rosa;Farfan, Norberto;
2:298:5 Thiophene-based copolymers synthesized by electropolymerization for application as hole transport layer in organic solar cells
DOI:10.1002/app.37831 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:4 AU: Triantou, Despina;Soulis, Spyridon;Koureli, Sofia;De Sio, Antonietta;von Hauff, Elizabeth;
2:298:6 Performance of OPVs cells with the eutectic alloy Wood's metal used as cathode and P3HT:PC61BM blend as active layer
DOI:10.1016/j.synthmet.2011.09.009 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Salto, Cristina;Salinas, Jose-Francisco;Maldonado, Jose-Luis;Ramos-Ortiz, Gabriel;Rodriguez, Mario;Meneses-Nava, Marco-Antonio;Barbosa-Garcia, Oracio;Del Oso, Jose-Alfredo;Ortiz-Gutierrez, Mauricio;
2:298:7 Synthesis, characterization and electrochemical properties of new functional polythiophenes
DOI:10.1016/j.synthmet.2010.10.026 JN:SYNTHETIC METALS PY:2010 TC:2 AU: Salatelli, E.;Angiolini, L.;Brazzi, A.;Lanzi, M.;Scavetta, E.;Tonelli, D.;
2:299:1 Metal Nanoparticle Wires Formed by an Integrated Nanomolding-Chemical Assembly Process: Fabrication and Properties
DOI:10.1021/nn102463r JN:ACS NANO PY:2010 TC:9 AU: Duan, Xuexin;Park, Myoung-Hwan;Zhao, Yiping;Berenschot, Erwin;Wang, Zheyao;Reinhoudt, David N.;Rotello, Vincent M.;Huskens, Jurriaan;
2:299:2 Long-Range Energy Propagation in Nanometer Arrays of Light Harvesting Antenna Complexes
DOI:10.1021/nl1003569 JN:NANO LETTERS PY:2010 TC:35 AU: Escalante, Maryana;Lenferink, Aufried;Zhao, Yiping;Tas, Niels;Huskens, Jurriaan;Hunter, C. Neil;Subramaniam, Vinod;Otto, Cees;
2:299:3 Double-Layer Imprint Lithography on Wafers and Foils from the Submicrometer to the Millimeter Scale
DOI:10.1021/am101187n JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:2 AU: Moonen, Pieter F.;Yakimets, Iryna;Peter, Maria;Meinders, Erwin R.;Huskens, Jurriaan;
2:299:4 Lateral interactions at functional monolayers
DOI:10.1039/c0jm02696d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Hsu, Shu-Han;Reinhoudt, David N.;Huskens, Jurriaan;Velders, Aldrik H.;
2:299:5 Facile Hg2+ detection in water using fluorescent self-assembled monolayers of a rhodamine-based turn-on chemodosimeter formed via a "click" reaction
DOI:10.1039/c1jm11319d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:20 AU: Lu, Hua;Qi, Shulin;Mack, John;Li, Zhifang;Lei, Jianping;Kobayashi, Nagao;Shen, Zhen;
2:299:6 Reversible Switching between Nonquenched and Quenched States in Nanoscale Linear Arrays of Plant Light-Harvesting Antenna Complexes
DOI:10.1021/la501483s JN:LANGMUIR PY:2014 TC:1 AU: Vasilev, Cvetelin;Johnson, Matthew P.;Gonzales, Edward;Wang, Lin;Ruban, Alexander V.;Montano, Gabriel;Cadby, Ashley J.;Hunter, C. Neil;
2:299:7 Large-Area Nanoscale Patterning of Functional Materials by Nanomolding in Capillaries
DOI:10.1002/adfm.201000492 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:9 AU: Duan, Xuexin;Zhao, Yiping;Berenschot, Erwin;Tas, Niels R.;Reinhoudt, David N.;Huskens, Jurriaan;
2:299:8 Energy Transfer between Surface-immobilized Light-Harvesting Chlorophyll a/b Complex (LHCH) Studied by Surface Plasmon Field-Enhanced Fluorescence Spectroscopy (SPFS)
DOI:10.1021/la102525b JN:LANGMUIR PY:2010 TC:5 AU: Lauterbach, Rolf;Liu, Jing;Knoll, Wolfgang;Paulsen, Harald;
2:299:9 Solvent polarity effect on quality of n-octadecanethiol self-assembled monolayers on copper and oxidized copper
DOI:10.1016/j.apsusc.2014.09.070 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Zhang, Yaozhong;Zhou, Jun;Zhang, Xiaoli;Hu, Jun;Gao, Han;
2:299:10 TEMPO Mixed SAMs: Electrocatalytic Efficiency versus Surface Coverage
DOI:10.1021/la301403w JN:LANGMUIR PY:2012 TC:4 AU: Blanchard, Pierre-Yves;Aleveque, Olivier;Breton, Tony;Levillain, Eric;
2:299:11 Electrocatalytic activity of nitroxyl mixed self-assembled monolayers: combined effects of the nanoscale organization and the composition
DOI:10.1039/c2sm07423k JN:SOFT MATTER PY:2012 TC:2 AU: Aleveque, Olivier;Breton, Tony;Levillain, Eric;
2:299:12 Nano-patterned monolayer and multilayer structures of FePtAu nanoparticles on aluminum oxide prepared by nanoimprint lithography and nanomolding in capillaries
DOI:10.1039/c1jm11559f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:3 AU: Gang, T.;Yildirim, O.;Kinge, S.;Duan, X.;Reinhoudt, D. N.;Blank, D. H. A.;Rijnders, G.;van der Wiel, W. G.;Huskens, J.;
2:299:13 Selective Assembly of Photosynthetic Antenna Proteins into a Domain-Structured Lipid Bilayer for the Construction of Artificial Photosynthetic Antenna Systems: Structural Analysis of the Assembly Using Surface Plasmon Resonance and Atomic Force Microscopy
DOI:10.1021/la103281q JN:LANGMUIR PY:2011 TC:16 AU: Sumino, Ayumi;Dewa, Takehisa;Kondo, Masaharu;Morii, Takashi;Hashimoto, Hideki;Gardiner, Alastair T.;Cogdell, Richard J.;Nango, Mamoru;
2:300:1 A field effect transistor biosensor with a gamma-pyrone derivative engineered lipid-sensing layer for ultrasensitive Fe3+ ion detection with low pH interference
DOI:10.1016/j.bios.2013.11.051 JN:BIOSENSORS & BIOELECTRONICS PY:2014 TC:1 AU: Nguyen, Tuyen D.;Labed, Abdelfettah;El Zein, Racha;Lavandier, Sebastien;Bedu, Frederic;Ozerov, Igor;Dallaporta, Herve;Raimundo, Jean-Manuel;Charrier, Anne M.;
2:300:2 Autonomic Self-Healing Lipid Monolayer: A New Class of Ultrathin Dielectric
DOI:10.1021/la202333n JN:LANGMUIR PY:2011 TC:5 AU: Dumas, Carine;El Zein, Racha;Dallaporta, Herve;Charrier, Anne M.;
2:300:3 High-kappa GdTixOy sensing membrane-based electrolyte-insulator-semiconductor with magnetic nanoparticles as enzyme carriers for protein contamination-free glucose biosensing
DOI:10.1016/j.bios.2013.03.013 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:2 AU: Wu, Min-Hsien;Yang, Hung-Wei;Hua, Mu-Yi;Peng, Yen-Bo;Pan, Tung-Ming;
2:300:4 Label free femtomolar electrical detection of Fe(III) ions with a pyridinone modified lipid monolayer as the active sensing layer
DOI:10.1039/c2tb00438k JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2013 TC:5 AU: Duc, Tuyen Nguyen;El Zein, Racha;Raimundo, Jean-Manuel;Dallaporta, Herve;Charrier, Anne M.;
2:300:5 A Minimally Invasive Blood-Extraction System: Elastic Self-Recovery Actuator Integrated with an Ultrahigh- Aspect-Ratio Microneedle
DOI:10.1002/adma.201201109 JN:ADVANCED MATERIALS PY:2012 TC:8 AU: Li, Cheng Guo;Lee, Kwang;Lee, Chang Yeol;Dangol, Manita;Jung, Hyungil;
2:300:6 Solid-state sensor incorporated in microfluidic chip and magnetic-bead enzyme immobilization approach for creatinine and glucose detection in serum
DOI:10.1063/1.3671078 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Lin, Yen-Heng;Chiang, Chien-Hung;Wu, Min-Hsien;Pan, Tung-Ming;Luo, Ji-Dung;Chiou, Chiuan-Chian;
2:300:7 A novel enzyme entrapment in SU-8 microfabricated films for glucose micro-biosensors
DOI:10.1016/j.bios.2010.07.117 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:10 AU: Psoma, Sotiria D.;van der Wal, Peter D.;Frey, Olivier;de Rooij, Nicolaas F.;Turner, Anthony P. F.;
2:300:8 A highly sensitive hybrid organic-inorganic sensor for continuous monitoring of hemoglobin
DOI:10.1016/j.bios.2013.01.040 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:5 AU: Tatikonda, Anand Kumar;Tkachev, Maria;Naaman, Ron;
2:300:9 Integrating solid-state sensor and microfluidic devices for glucose, urea and creatinine detection based on enzyme-carrying alginate microbeads
DOI:10.1016/j.bios.2012.12.053 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:12 AU: Lin, Yen-Heng;Wang, Shih-Hao;Wu, Min-Hsien;Pan, Tung-Ming;Lai, Chao-Sung;Luo, Ji-Dung;Chiou, Chiuan-Chian;
2:300:10 Direct Stabilization of a Phospholipid Monolayer on H-Terminated Silicon
DOI:10.1021/la9028063 JN:LANGMUIR PY:2010 TC:8 AU: Charrier, Anne;Mischki, Trevor;Lopinski, Gregory P.;
2:300:11 Detection and Quantification through a Lipid Membrane Using the Molecularly Controlled Semiconductor Resistor
DOI:10.1021/la203502b JN:LANGMUIR PY:2012 TC:4 AU: Bavli, Danny;Tkachev, Maria;Piwonski, Hubert;Capua, Eyal;de Albuquerque, Ian;Bensimon, David;Haran, Gilad;Naaman, Ron;
2:300:12 Hybrid Organic-Inorganic Biosensor for Ammonia Operating under Harsh Physiological Conditions
DOI:10.1002/adfm.201401331 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Kumar, Tatikonda Anand;Capua, Eyal;Tkachev, Maria;Adler, Samuel N.;Naaman, Ron;
2:300:13 Fabrication of stable antibody-modified field effect transistors using electrical activation of Schiff base cross-linkages for tumor marker detection
DOI:10.1016/j.bios.2010.10.023 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:21 AU: Hideshima, Sho;Sato, Ryosuke;Kuroiwa, Shigeki;Osaka, Tetsuya;
2:301:1 Donor-Acceptor-Donor-based pi-Conjugated Oligomers for Nonlinear Optics and Near-IR Emission
DOI:10.1021/cm201424a JN:CHEMISTRY OF MATERIALS PY:2011 TC:57 AU: Ellinger, Stefan;Graham, Kenneth R.;Shi, Pengjie;Farley, Richard T.;Steckler, Timothy T.;Brookins, Robert N.;Taranekar, Prasad;Mei, Jianguo;Padilha, Lazaro A.;Ensley, Trenton R.;Hu, Honghua;Webster, Scott;Hagan, David J.;Van Stryland, Eric W.;Schanze, Kirk S.;Reynolds, John R.;
2:301:2 Mechanically stable and photocatalytically active TiO2/SiO2 hybrid films on flexible organic substrates
DOI:10.1039/c4ta03826f JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:5 AU: Gregori, D.;Benchenaa, I.;Chaput, F.;Therias, S.;Gardette, J. -L.;Leonard, D.;Guillard, C.;Parola, S.;
2:301:3 A Diels-Alder crosslinkable host polymer for improved PLED performance: the impact on solution processed doped device and multilayer device performance
DOI:10.1039/c2jm14591j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Patel, Dinesh G. (Dan);Graham, Kenneth R.;Reynolds, John R.;
2:301:4 Organoplatinum Chromophores for Application in High-Performance Nonlinear Absorption Materials
DOI:10.1021/am200491y JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:24 AU: Liao, Chen;Shelton, Abigail H.;Kim, Kye-Young;Schanze, Kirk S.;
2:301:5 Silica Hybrid Sol-Gel Materials with Unusually High Concentration of Pt-Organic Molecular Guests: Studies of Luminescence and Nonlinear Absorption of Light
DOI:10.1021/am2015537 JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:11 AU: Chateau, Denis;Chaput, Frederic;Lopes, Cesar;Lindgren, Mikael;Brannlund, Carl;Ohgren, Johan;Djourelov, Nikolay;Nedelec, Patrick;Desroches, Cedric;Eliasson, Bertil;Kindahl, Tomas;Lerouge, Frederic;Andraud, Chantal;Parola, Stephane;
2:301:6 High Efficiency Platinum Acetylide Nonlinear Absorption Chromophores Covalently Linked to Poly(methyl methacrylate)
DOI:10.1021/am401834f JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Shelton, Abigail H.;Price, Randi S.;Brokmann, Luisa;Dettlaff, Barbara;Schanze, Kirk S.;
2:301:7 Phenylene Vinylene Platinum(II) Acetylides with Prodigious Two-Photon Absorption
DOI:10.1021/ja309393c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:18 AU: Dubinina, Galyna G.;Price, Randi S.;Abboud, Khalil A.;Wicks, Geoffrey;Wnuk, Pawel;Stepanenko, Yuriy;Drobizhev, Mikhail;Rebane, Aleksander;Schanze, Kirk S.;
2:301:8 Efficient hybrid materials for optical power limiting at telecommunication wavelengths
DOI:10.1039/c4tc00193a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Chateau, Denis;Bellier, Quentin;Chaput, Frederic;Feneyrou, Patrick;Berginc, Gerard;Maury, Olivier;Andraud, Chantal;Parola, Stephane;
2:301:9 Efficient pi bridges based on five-membered heterocyclic rings for second-order NLO properties of push-pull type molecules
DOI:10.1039/c2jm16282b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:4 AU: Ji, Yan;Qian, Ying;Lu, Wei;
2:301:10 Optimization of optical properties of high chiral planar waveguides obtained by sol-gel method
DOI:10.1016/j.optmat.2013.12.016 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Hadiouche, D.;Le Luyer, C.;Guy, L.;Bensalah-Ledoux, A.;Saoudi, S.;Khireddine, H.;Guy, S.;
2:302:1 Controllable fabrication and magnetic-field assisted alignment of Fe3O4-coated Ag nanowires via a facile co-precipitation method
DOI:10.1039/c3tc30270a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Li, Na;Huang, Gui-Wen;Shen, Xiao-Jun;Xiao, Hong-Mei;Fu, Shao-Yun;
2:302:2 Poly(lactide)-functionalized and Fe3O4 nanoparticle-decorated multiwalled carbon nanotubes for preparation of electrically-conductive and magnetic poly(lactide) films and electrospun nanofibers
DOI:10.1039/c2jm14689d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:16 AU: Li, Hsieh-Yu;Chang, Chia-Ming;Hsu, Keh-Ying;Liu, Ying-Ling;
2:302:3 Electrical Conductivity Enhancement of Polymer/Multiwalled Carbon Nanotube (MWCNT) Composites by Thermally-Induced Defunctionalization of MWCNTs
DOI:10.1021/am200558f JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:22 AU: Chang, Chia-Ming;Liu, Ying-Ling;
2:302:4 The effect of surface modifications of carbon nanotubes on the electrical properties of inkjet-printed SWNT/PEDOT-PSS composite line patterns
DOI:10.1088/0957-4484/21/38/385302 JN:NANOTECHNOLOGY PY:2010 TC:12 AU: Najeeb, C. K.;Lee, Jae-Hyeok;Chang, Jingbo;Kim, Jae-Ho;
2:302:5 Controllable positioning and alignment of silver nanowires by tunable hydrodynamic focusing
DOI:10.1088/0957-4484/22/12/125302 JN:NANOTECHNOLOGY PY:2011 TC:13 AU: Liu, Mei;Chen, Ying;Guo, Qiuquan;Li, Ruying;Sun, Xueliang;Yang, Jun;
2:302:6 Shewanella oneidensis MR-1 Bacterial Nanowires Exhibit p-Type, Tunable Electronic Behavior
DOI:10.1021/nl400237p JN:NANO LETTERS PY:2013 TC:19 AU: Leung, Kar Man;Wanger, Greg;El-Naggar, Mohamed Y.;Gorby, Yuri;Southam, Gordon;Lau, Woon Ming;Yang, Jun;
2:302:7 The effect of surface modifications of carbon nanotubes on the electrical properties of inkjet-printed SWNTPEDOT-PSS composite line patterns (vol 21, 385302, 2010)
DOI:10.1088/0957-4484/21/46/469801 JN:NANOTECHNOLOGY PY:2010 TC:0 AU: Najeeb, C. K.;Lee, Jae-Hyeok;Chang, Jingbo;Kim, Jae-Ho;
2:302:8 Bacterial nanowires: conductive as silicon, soft as polymer
DOI:10.1039/c1sm05611e JN:SOFT MATTER PY:2011 TC:14 AU: Leung, Kar Man;Wanger, Greg;Guo, Qiuquan;Gorby, Yuri;Southam, Gordon;Lau, Woon Ming;Yang, Jun;
2:303:1 Line shapes in the current-voltage characteristics of single layer metal/organic semiconductor structures as response to the electric field at the charge injecting interface
DOI:10.1016/j.tsf.2013.06.026 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Cvikl, B.;
2:303:2 Carrier mobility of organic semiconductors based on current-voltage characteristics
DOI:10.1063/1.3305341 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:19 AU: Wang, Z. B.;Helander, M. G.;Greiner, M. T.;Qiu, J.;Lu, Z. H.;
2:303:3 The elimination of interface charge density singularity in single layer organic semiconductor structures
DOI:10.1063/1.3622313 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Cvikl, B.;
2:303:4 The electric field at hole injecting metal/organic interfaces as a cause for manifestation of exponential bias-dependent mobility
DOI:10.1016/j.tsf.2014.11.001 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Cvikl, B.;
2:303:5 Comparison of simulations to experiment for a detailed analysis of space-charge-limited transient current measurements in organic semiconductors
DOI:10.1103/PhysRevB.85.195205 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Szymanski, Marek Z.;Kulszewicz-Bajer, Irena;Faure-Vincent, Jerome;Djurado, David;
2:303:6 A metrology perspective on the dark injection transient current method for charge mobility determination in organic semiconductors
DOI:10.1063/1.3580256 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:7 AU: Esward, T.;Knox, S.;Jones, H.;Brewer, P.;Murphy, C.;Wright, L.;Williams, J.;
2:303:7 Thermal effect on polymer solar cells with active layer concentrations of 3-5 wt%
DOI:10.1016/j.synthmet.2012.03.017 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Ho, Chiu-Sheng;Huang, E-Ling;Hsu, Wei-Chou;Lee, Ching-Sung;Lai, Ying-Nan;Yao, En-Ping;Wang, Ching-Wu;
2:303:8 Multilayer structured polymer light emitting diodes with cross-linked polymer matrices
DOI:10.1063/1.3284649 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Zhou, Zhang-Lin;Sheng, Xia;Nauka, K.;Zhao, Lihua;Gibson, Gary;Lam, Sity;Yang, Chung Ching;Brug, James;Elder, Rich;
2:303:9 The drift-diffusion interpretation of the electron current within the organic semiconductor characterized by the bulk single energy trap level
DOI:10.1063/1.3290959 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Cvikl, B.;
2:303:10 Development of semi-interpenetrating polymer networks and quantum dots-polymer nanocomposites for low-cost, flexible OLED display application
DOI:10.1557/jmr.2012.3 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:4 AU: Zhao, Lihua;Zhou, Zhang-Lin;Guo, Zengshan;Gibson, Gary;Brug, James A.;Lam, Sity;Pei, Jian;Mao, Samuel S.;
2:303:11 Transport properties of triarylamine based dendrimers studied by space charge limited current transients
DOI:10.1016/j.optmat.2012.03.036 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Szymanski, Marek Z.;Kulszewicz-Bajer, Irena;Faure-Vincent, Jerome;Djurado, David;
2:303:12 Characterization of temperature-dependent carrier transport in disordered indium-tin-oxide/poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) /polyfluorene/Ca/Al polymer structures
DOI:10.1016/j.tsf.2011.01.386 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Jiang, Joe-Air;Wang, Jen-Cheng;Fang, Chia-Hui;Wu, Ya-Fen;Teng, Jen-Wei;Chen, Yu-Ting;Fan, Ping-Lin;Nee, Tzer-En;
2:303:13 Study of the charge transport characteristics of dendrimer molecular thin films
DOI:10.1016/j.tsf.2011.01.166 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Li, J. C.;Han, N.;Wang, S. S.;Ba, D. C.;
2:304:1 Negative Differential Conductance Materials for Flexible Electronics
DOI:10.1002/app.40169 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Nogaret, Alain;
2:304:2 Silicon nanomembranes for fingertip electronics
DOI:10.1088/0957-4484/23/34/344004 JN:NANOTECHNOLOGY PY:2012 TC:38 AU: Ying, Ming;Bonifas, Andrew P.;Lu, Nanshu;Su, Yewang;Li, Rui;Cheng, Huanyu;Ameen, Abid;Huang, Yonggang;Rogers, John A.;
2:304:3 Pressure Sensing and Electronic Amplification with Functionalized Graphite-Silicone Composite
DOI:10.1002/adfm.201300519 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:6 AU: Littlejohn, Samuel;Nogaret, Alain;Prentice, Giles M.;Pantos, G. Dan;
2:304:4 Negative differential resistance in bilayer graphene nanoribbons
DOI:10.1063/1.3590772 JN:APPLIED PHYSICS LETTERS PY:2011 TC:20 AU: Habib, K. M. Masum;Zahid, Ferdows;Lake, Roger K.;
2:304:5 Tunneling Negative Differential Resistance in a Flexible Active Composite
DOI:10.1002/adma.201100442 JN:ADVANCED MATERIALS PY:2011 TC:2 AU: Littlejohn, Samuel;Nogaret, Alain;Crampin, Simon;
2:304:6 Mechanics of finger-tip electronics
DOI:10.1063/1.4828476 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Su, Yewang;Li, Rui;Cheng, Huanyu;Ying, Ming;Bonifas, Andrew P.;Hwang, Keh-Chih;Rogers, John A.;Huang, Yonggang;
2:305:1 Transparent organic thin film transistors with WO3/Ag/WO3 source-drain electrodes fabricated by thermal evaporation
DOI:10.1063/1.4813838 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Zhang, Nan;Hu, Yongsheng;Liu, Xingyuan;
2:305:2 Pulsing frequency induced change in optical constants and dispersion energy parameters of WO3 films grown by pulsed direct current magnetron sputtering
DOI:10.1063/1.4869209 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Punitha, K.;Sivakumar, R.;Sanjeeviraja, C.;
2:305:3 Intense photoluminescence from pentacene monolayers
DOI:10.1063/1.3458816 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: He, Rui;Tassi, Nancy G.;Blanchet, Graciela B.;Pinczuk, Aron;
2:305:4 Correlation between structural and optical properties of WO3 thin films sputter deposited by glancing angle deposition
DOI:10.1016/j.tsf.2013.03.004 JN:THIN SOLID FILMS PY:2013 TC:11 AU: Charles, Cedric;Martin, Nicolas;Devel, Michel;Ollitrault, Julien;Billard, Alain;
2:305:5 Optical constants and dispersion energy parameters of NiO thin films prepared by radio frequency magnetron sputtering technique
DOI:10.1063/1.4821966 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:8 AU: Usha, K. S.;Sivakumar, R.;Sanjeeviraja, C.;
2:305:6 Optical properties of WO3 thin films using surface plasmon resonance technique
DOI:10.1063/1.4862962 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:6 AU: Paliwal, Ayushi;Sharma, Anjali;Tomar, Monika;Gupta, Vinay;
2:305:7 Characteristics of sputtered Al-doped ZnO films for transparent electrodes of organic thin-film transistor
DOI:10.1016/j.tsf.2011.06.005 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Park, Yong Seob;Kim, Han-Ki;
2:305:8 Controllable nanostructure and optical properties of ZrO2 thin films by glancing angle deposition
DOI:10.1007/s00339-011-6748-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:1 AU: Wang, Sumei;Zhao, Xurong;Fan, Zhengxiu;Shao, Jianda;
2:305:9 Temperature dependent optical properties of pentacene films on zinc oxide
DOI:10.1063/1.3663863 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Helzel, J.;Jankowski, S.;El Helou, M.;Witte, G.;Heimbrodt, W.;
2:305:10 Ultra smooth NiO thin films on flexible plastic (PET) substrate at room temperature by RF magnetron sputtering and effect of oxygen partial pressure on their properties
DOI:10.1016/j.apsusc.2009.11.088 JN:APPLIED SURFACE SCIENCE PY:2010 TC:6 AU: Nandy, S.;Goswami, S.;Chattopadhyay, K. K.;
2:305:11 Pentacene ohmic contact on the transparent conductive oxide films
DOI:10.1016/j.tsf.2010.09.005 JN:THIN SOLID FILMS PY:2010 TC:2 AU: Chu, Jian-An;Zeng, Jian-Jhou;Wu, Kuo-Chen;Lin, Yow-Jon;
2:305:12 Improved ohmic contacts on pentacene based on Au with ultraviolet irradiation treatment
DOI:10.1016/j.tsf.2009.09.102 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Lin, Yow-Jon;Chu, Jian-An;Su, Yu-Chao;Lee, Ching-Ting;Chang, Hsing-Cheng;
2:305:13 Contact resistance variation in top-contact organic thin-film transistors with the deposition rate of Au source/drain electrodes
DOI:10.1016/j.tsf.2010.03.168 JN:THIN SOLID FILMS PY:2010 TC:12 AU: Park, Jaehoon;Kang, Jong Mook;Kim, Dong Wook;Choi, Jong Sun;
2:306:1 Photoinitiated Growth of Sub-7 nm Silver Nanowires within a Chemically Active Organic Nanotubular Template
DOI:10.1021/ja907373h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:28 AU: Eisele, Dorthe M.;Berlepsch, Hans V.;Bottcher, Christoph;Stevenson, Keith J.;Bout, David A. Vanden;Kirstein, Stefan;Rabe, Juergen P.;
2:306:2 Color-Selective Photocurrent Enhancement in Coupled J-Aggregate/Nanowires Formed in Solution
DOI:10.1021/nl200679n JN:NANO LETTERS PY:2011 TC:22 AU: Walker, Brian J.;Dorn, August;Bulovic, Vladimir;Bawendi, Moungi G.;
2:306:3 Near-infrared photodetector consisting of J-aggregating cyanine dye and metal oxide thin films
DOI:10.1063/1.4752434 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Osedach, Timothy P.;Iacchetti, Antonio;Lunt, Richard R.;Andrew, Trisha L.;Brown, Patrick R.;Akselrod, Gleb M.;Bulovic, Vladimir;
2:306:4 Spectral-resolving capable and integratable multilayered conductive films via an inkjet method
DOI:10.1039/c2tc00743f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Yang, Yu;Nakamichi, Tokuma;Yoshioka, Hiroaki;Yahiro, Masayuki;Era, Masanao;Watanabe, Hirofumi;Cui, Yuanjing;Oki, Yuji;Qian, Guodong;
2:306:5 Quantum Dot/J-Aggregate Blended Films for Light Harvesting and Energy Transfer
DOI:10.1021/nl1018639 JN:NANO LETTERS PY:2010 TC:27 AU: Walker, Brian J.;Bulovic, Vladimir;Bawendi, Moungi G.;
2:306:6 In situ synthesis of semiconductor nanocrystals at the surface of tubular J-aggregates
DOI:10.1039/c4tc01724b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Qiao, Yan;Polzer, Frank;Kirmse, Holm;Steeg, Egon;Kirstein, Stefan;Rabe, Juergen P.;
2:306:7 Supramolecular Structure of TTBC J-Aggregates in Solution and on Surface
DOI:10.1021/la400417d JN:LANGMUIR PY:2013 TC:4 AU: v. Berlepsch, Hans;Boettcher, Christoph;
2:306:8 Intensity Sensitive Organic Photodiodes Patterned by Inkjet Method
DOI:10.1080/15421406.2011.563689 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:3 AU: Yang, Yu;Nakamichi, Tokuma;Yoshioka, Hiroaki;Omi, Soichiro;Goto, Ryo;Watanabe, Hirofumi;Oki, Yuji;
2:306:9 Photo-induced growth of DNA-capped silver nanoparticles
DOI:10.1088/0957-4484/23/11/115607 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Zon, Vera B.;Burley, Glenn A.;Rant, Ulrich;
2:307:1 Solvent vapour annealing of organic thin films: controlling the self-assembly of functional systems across multiple length scales
DOI:10.1039/b921612j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:27 AU: De Luca, Giovanna;Treossi, Emanuele;Liscio, Andrea;Mativetsky, Jeffrey M.;Scolaro, Luigi Monsu;Palermo, Vincenzo;Samori, Paolo;
2:307:2 High Performance and Stable N-Channel Organic Field-Effect Transistors by Patterned Solvent-Vapor Annealing
DOI:10.1021/am4029075 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:10 AU: Khim, Dongyoon;Baeg, Kang-Jun;Kim, Juhwan;Kang, Minji;Lee, Seung-Hoon;Chen, Zhihua;Facchetti, Antonio;Kim, Dong-Yu;Noh, Yong-Young;
2:307:3 High mobility top-gated poly(3-hexylthiophene) field-effect transistors with high work-function Pt electrodes
DOI:10.1016/j.tsf.2010.01.026 JN:THIN SOLID FILMS PY:2010 TC:19 AU: Baeg, Kang-Jun;Khim, Dongyoon;Kim, Dong-Yu;Koo, Jae Bon;You, In-Kyu;Choi, Won San;Noh, Yong-Young;
2:307:4 Solvent Vapor Annealing of Ferroelectric P(VDF-TrFE) Thin Films
DOI:10.1021/am5055299 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Hu, Jinghang;Zhang, Jianchi;Fu, Zongyuan;Jiang, Yulong;Ding, Shijin;Zhu, Guodong;
2:307:5 Spontaneous nanoscale polymer solution patterning using solvent evaporation driven double-dewetting edge lithography
DOI:10.1039/c1sm06431b JN:SOFT MATTER PY:2012 TC:6 AU: Lee, Kwang-Ho;Kim, Sang-Mook;Jeong, Huisu;Jung, Gun-Young;
2:307:6 Liquid-bridging in particle self-assemblies toward constructing periodic nano-mesh structures and nano-dot arrays
DOI:10.1063/1.4825125 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Park, Seung Chul;Lee, In-Ho;Na, Jun-Hee;Lee, Sin-Doo;
2:307:7 Realizing the concept of a scalable artificial iris with self-regulating capability by reversible photoreaction of spiropyran dyes
DOI:10.1016/j.biomaterials.2013.01.020 JN:BIOMATERIALS PY:2013 TC:7 AU: Na, Jun-Hee;Park, Seung Chul;Sohn, Youngjoo;Lee, Sin-Doo;
2:307:8 A Quaterthiophene-Based Rotaxane: Synthesis, Spectroscopy, and Self-Assembly at Surfaces
DOI:10.1002/smll.201102281 JN:SMALL PY:2012 TC:4 AU: Zalewski, Leszek;Mativetsky, Jeffrey M.;Brovelli, Sergio;Bonini, Massimo;Crivillers, Nuria;Breiner, Thomas;Anderson, Harry L.;Cacialli, Franco;Samori, Paolo;
2:308:1 Small gap semiconducting organic charge-transfer interfaces
DOI:10.1063/1.3449558 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Nakano, M.;Alves, H.;Molinari, A. S.;Ono, S.;Minder, N.;Morpurgo, A. F.;
2:308:2 Surface doping in T6/PDI-8CN(2) heterostructures investigated by transport and photoemission measurements
DOI:10.1063/1.4769345 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Aversa, L.;Verucchi, R.;Tatti, R.;Di Girolamo, F. V.;Barra, M.;Ciccullo, F.;Cassinese, A.;Iannotta, S.;
2:308:3 Tetrathiofulvalene and tetracyanoquinodimethane crystals: Conducting surface versus interface
DOI:10.1063/1.4731244 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Mathis, T.;Mattenberger, K.;Moll, P.;Batlogg, B.;
2:308:4 Infrared signatures of high carrier densities induced in semiconducting poly(3-hexylthiophene) by fluorinated organosilane molecules
DOI:10.1063/1.3436567 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Khatib, O.;Lee, B.;Yuen, J.;Li, Z. Q.;Di Ventra, M.;Heeger, A. J.;Podzorov, V.;Basov, D. N.;
2:308:5 Ambipolar transport and charge transfer at the interface between sexithiophene and N,N-bis(n-octyl)-dicyanoperylenediimide films
DOI:10.1103/PhysRevB.85.125310 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Di Girolamo, F. V.;Barra, M.;Chiarella, F.;Lettieri, S.;Salluzzo, M.;Cassinese, A.;
2:308:6 One-dimensional electronic transport at the organic charge-transfer interfaces under high pressures
DOI:10.1063/1.4876156 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kang, N.;Auban-Senzier, P.;Li, C.;Poulard, C.;Pasquier, C. R.;
2:308:7 High mobility n-type organic thin-film transistors deposited at room temperature by supersonic molecular beam deposition
DOI:10.1063/1.4870991 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Chiarella, F.;Toccoli, T.;Barra, M.;Aversa, L.;Ciccullo, F.;Tatti, R.;Verucchi, R.;Iannotta, S.;Cassinese, A.;
2:308:8 Morphology and molecular orientation in sexithiophene and N,N '-bis (n-octyl)-dicyanoperylenediimide heterostructures
DOI:10.1016/j.tsf.2011.09.075 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Tkachenko, Volodymyr;Di Girolamo, Flavia Viola;Chiarella, Fabio;Cassinese, Antonio;Abbate, Giancarlo;
2:308:9 Study on the interface between the organic and inorganic semiconductors
DOI:10.1016/j.apsusc.2011.01.009 JN:APPLIED SURFACE SCIENCE PY:2011 TC:2 AU: Jin, Dan;Wang, Wei;Rahman, Ateeq;Lizhen, Jiang;Zhang, Hanjie;Li, Haiyang;He, Pimo;Bao, Shining;
2:308:10 Bias stress instability in organic transistors investigated by ac admittance measurements
DOI:10.1063/1.3425795 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Di Girolamo, F. V.;Barra, M.;Capello, V.;Oronzio, M.;Romano, C.;Cassinese, A.;
2:308:11 Optical properties of zinc phthalocyanine thin films prepared by pulsed laser deposition
DOI:10.1007/s00339-014-8474-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Novotny, M.;Bulir, J.;Bensalah-Ledoux, A.;Guy, S.;Fitl, P.;Vrnata, M.;Lancok, J.;Moine, B.;
2:308:12 The conducting polymer/polymer interface
DOI:10.1063/1.3584135 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Gadiev, R. M.;Lachinov, A. N.;Salikhov, R. B.;Rakhmeev, R. G.;Kornilov, V. M.;Yusupov, A. R.;
2:308:13 Infrared signatures of high carrier densities induced in semiconducting poly(3-hexylthiophene) by fluorinated organosilane molecules (vol 107, 123702, 2010)
DOI:10.1063/1.3467784 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:0 AU: Khatib, O.;Lee, B.;Yuen, J.;Li, Z. Q.;Di Ventra, M.;Heeger, A. J.;Podzorov, V.;Basov, D. N.;
2:308:14 Ge(001) As a Template for Long-Range Assembly of pi-Stacked Coronene Rows
DOI:10.1021/la205166m JN:LANGMUIR PY:2012 TC:5 AU: Martinez-Blanco, Jesus;Mascaraque, Arantzazu;Dedkov, Yuriy S.;Horn, Karsten;
2:309:1 Reporting Performance in Organic Photovoltaic Devices
DOI:10.1021/nn402883g JN:ACS NANO PY:2013 TC:39 AU: Luber, Erik J.;Buriak, Jillian M.;
2:309:2 Over 30% transparency large area inverted organic solar array by spray
DOI:10.1016/j.solmat.2011.05.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:25 AU: Lewis, Jason E.;Lafalce, Evan;Toglia, Patrick;Jiang, Xiaomei;
2:309:3 Viscous Conductive Glue Layer in Semitransparent Polymer-Based Solar Cells Fabricated by a Lamination Process
DOI:10.1021/am402698x JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Shimada, Chieko;Shiratori, Seimei;
2:309:4 Your Research Results Look Compelling, but Are They Reliable?
DOI:10.1021/cm5010449 JN:CHEMISTRY OF MATERIALS PY:2014 TC:4 AU: Buriak, Jillian M.;
2:309:5 The Experimental Section: The Key to Longevity of Your Research
DOI:10.1021/cm500632c JN:CHEMISTRY OF MATERIALS PY:2014 TC:3 AU: Buriak, Jillian M.;Korgel, Brian;
2:310:1 Planarization of Polymeric Field-Effect Transistors: Improvement of Nanomorphology and Enhancement of Electrical Performance
DOI:10.1002/adfm.201000346 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:15 AU: Singh, Kumar A.;Young, Tomasz;McCullough, Richard D.;Kowalewski, Tomasz;Porter, Lisa M.;
2:310:2 Controlling drop-casting deposition of 2D Pt-octaethyl porphyrin layers on graphite
DOI:10.1016/j.synthmet.2014.06.011 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Bussetti, G.;Trabattoni, S.;Uttiya, S.;Sassella, A.;Riva, M.;Picone, A.;Brambilla, A.;Duo, L.;Ciccacci, F.;Finazzi, M.;
2:310:3 Stable Alignment of Tautomers at Room Temperature in Porphyrin 2D Layers
DOI:10.1002/adfm.201301892 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:9 AU: Bussetti, Gianlorenzo;Campione, Marcello;Riva, Michele;Picone, Andrea;Raimondo, Luisa;Ferraro, Lorenzo;Hogan, Conor;Palummo, Maurizia;Brambilla, Alberto;Finazzi, Marco;Duo, Lamberto;Sassella, Adele;Ciccacci, Franco;
2:310:4 Effect of Self-Assembled Monolayers on Charge Injection and Transport in Poly(3-hexylthiophene)-Based Field-Effect Transistors at Different Channel Length Scales
DOI:10.1021/am200449x JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:9 AU: Singh, K. A.;Nelson, T. L.;Belot, J. A.;Young, T. M.;Dhumal, N. R.;Kowalewski, T.;McCullough, R. D.;Nachimuthu, P.;Thevuthasan, S.;Porter, L. M.;
2:310:5 Electron and spin transport studies of gated lateral organic devices
DOI:10.1063/1.4770230 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Alborghetti, S.;Coey, J. M. D.;Stamenov, P.;
2:310:6 Device characteristics of short-channel polymer field-effect transistors
DOI:10.1063/1.3480549 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Hirose, Takeshi;Nagase, Takashi;Kobayashi, Takashi;Ueda, Rieko;Otomo, Akira;Naito, Hiroyoshi;
2:310:7 Dependence of charge carrier injection on the interface energy barrier in short-channel polymeric field effect transistors
DOI:10.1063/1.3701271 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Alborghetti, S.;Coey, J. M. D.;Stamenov, P.;
2:310:8 Pentacene-based organic field-effect transistors with poly(methyl methacrylate) top-gate insulators fabricated by electrostatic spray deposition
DOI:10.1016/j.synthmet.2013.06.008 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Onojima, Norio;Takahashi, Shun;Kato, Takamasa;
2:310:9 Control of pi-pi Interactions in Epitaxial Films of Platinum(II) Octaethyl Porphyrin
DOI:10.1021/cm102139h JN:CHEMISTRY OF MATERIALS PY:2011 TC:11 AU: Campione, Marcello;Fumagalli, Enrico;Raimondo, Luisa;Monguzzi, Angelo;Meinardi, Francesco;Sassella, Adele;
2:310:10 Effects of conjugated polymer on the magnetotransport properties in La0.7Sr0.3MnO3 ferromagnetic electrodes
DOI:10.1063/1.4800907 JN:AIP ADVANCES PY:2013 TC:1 AU: Pesonen, M.;Majumdar, S.;Huhtinen, H.;Paturi, P.;Majumdar, H. S.;Osterbacka, R.;
2:310:11 Pentacene growth on graphite investigated by low-energy electron microscope
DOI:10.1016/j.jcrysgro.2009.12.066 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:4 AU: Liu, H. W.;Al-Mahboob, A.;Fujikawa, Y.;Fukui, N.;Hitosugi, T.;Hashizume, T.;Xue, Q. K.;Sakurai, T.;
2:310:12 Effect of solvents on the dynamic viscoelastic behavior of poly(methyl methacrylate) film prepared by solvent casting
DOI:10.1007/s10853-011-5424-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Patra, Niranjan;Salerno, Marco;Diaspro, Alberto;Athanassiou, Athanassia;
2:311:1 Fast Responsive and Highly Efficient Optical Upconverter Based on Phosphorescent OLED
DOI:10.1021/am504721g JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Chu, Xinbo;Guan, Min;Niu, Litao;Zeng, Yiping;Li, Yiyang;Zhang, Yang;Zhu, Zhanping;Wang, Baoqiang;
2:311:2 Organic Infrared Upconversion Device
DOI:10.1002/adma.200903312 JN:ADVANCED MATERIALS PY:2010 TC:18 AU: Kim, Do Young;Song, Dong Woo;Chopra, Neetu;De Somer, Pieter;So, Franky;
2:311:3 PbSe Nanocrystal-Based Infrared-to-Visible Up-Conversion Device
DOI:10.1021/nl200704h JN:NANO LETTERS PY:2011 TC:20 AU: Kim, Do Young;Choudhury, Kaushik Roy;Lee, Jae Woong;Song, Dong Woo;Sarasqueta, Galileo;So, Franky;
2:311:4 Hybrid Organic/Inorganic Optical Up-Converter for Pixel-Less Near-Infrared Imaging
DOI:10.1002/adma.201200587 JN:ADVANCED MATERIALS PY:2012 TC:4 AU: Chen, Jun;Tao, Jianchen;Ban, Dayan;Helander, Michael G.;Wang, Zhibin;Qiu, Jacky;Lu, Zhenghong;
2:311:5 Improved Efficiency of Organic/Inorganic Hybrid Near-Infrared Light Upconverter by Device Optimization
DOI:10.1021/am301340p JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:7 AU: Chu, Xinbo;Guan, Min;Li, Linsen;Zhang, Yang;Zhang, Feng;Li, Yiyang;Zhu, Zhanping;Wang, Baoqiang;Zeng, Yiping;
2:311:6 Near-Infrared Inorganic/Organic Optical Upconverter with an External Power Efficiency of > 100%
DOI:10.1002/adma.201001946 JN:ADVANCED MATERIALS PY:2010 TC:10 AU: Chen, Jun;Ban, Dayan;Helander, Michael G.;Lu, Zheng-Hong;Poole, Philip;
2:311:7 Thermally Evaporated SiO Thin Films As a Versatile Interlayer for Plasma-Based OLED Passivation
DOI:10.1021/am300600s JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:11 AU: Yun, Won Min;Jang, Jaeyoung;Nam, Sooji;Kim, Lae Ho;Seo, Sang Joon;Park, Chan Eon;
2:311:8 Barrier performance optimization of atomic layer deposited diffusion barriers for organic light emitting diodes using x-ray reflectivity investigations
DOI:10.1063/1.4839455 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Singh, Aarti;Klumbies, Hannes;Schroeder, Uwe;Mueller-Meskamp, Lars;Geidel, Marion;Knaut, Martin;Hossbach, Christoph;Albert, Matthias;Leo, Karl;Mikolajick, Thomas;
2:311:9 Low-Cost Thermo-Optic Imaging Sensors: A Detection Principle Based on Tunable One-Dimensional Photonic Crystals
DOI:10.1021/am301964y JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:7 AU: Exner, Armin T.;Pavlichenko, Ida;Lotsch, Bettina V.;Scarpa, Giuseppe;Lugli, Paolo;
2:312:1 Pattern Transfer Printing of Multiwalled Carbon Nanotube Multilayers and Application in Biosensors
DOI:10.1021/cm101401t JN:CHEMISTRY OF MATERIALS PY:2010 TC:27 AU: Kim, Byeong-Su;Lee, Seung Woo;Yoon, Hyeonseok;Strano, Michael S.;Shao-Horn, Yang;Hammond, Paula T.;
2:312:2 Patterning of Single-Walled Carbon Nanotube Films on Flexible, Transparent Plastic Substrates
DOI:10.1021/la9021273 JN:LANGMUIR PY:2010 TC:22 AU: Han, Kwi Nam;Li, Cheng Ai;Bui, Minh-Phuong Ngoc;Seong, Gi Hun;
2:312:3 Fabrication of Gold Patterns via Multilayer Transfer Printing and Electroless Plating
DOI:10.1021/am201605q JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:8 AU: Basarir, Fevzihan;
2:312:4 Particle lithography-based patterning of polyelectrolyte template films and their application in fabrication of gold/silver nanoparticle assembly
DOI:10.1016/j.jcis.2014.06.058 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:0 AU: Ruan, Weidong;Zhou, Tieli;Hui, Ge;Wang, Yue;Chong, Xiaoli;Wang, Xu;Song, Wei;Han, Xiaoxia;Zhao, Bing;
2:312:5 Multi layer Transfer Printing of Electroactive Thin Film Composites
DOI:10.1021/am506120e JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:3 AU: Cebeci, Fevzi C.;Schmidt, Daniel J.;Hammond, Paula T.;
2:312:6 Chemical mapping and electrical conductivity of carbon nanotube patterned arrays
DOI:10.1039/c1jm11107h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:1 AU: Gross, Matthew L.;Zavadil, Kevin R.;Hickner, Michael A.;
2:312:7 Electrochemical Patterning of Transparent Single-Walled Carbon Nanotube Films on Plastic Substrates
DOI:10.1021/la904642k JN:LANGMUIR PY:2010 TC:9 AU: Han, Kwi Nam;Li, Cheng Ai;Han, Byunghee;Bui, Minh-Phuong Naoc;Pham, Xuan-Hung;Choo, Jaebum;Bachman, Mark;Li, G. P.;Seong, Gi Hun;
2:312:8 A microfluidic chip platform with electrochemical carbon nanotube electrodes for pre-clinical evaluation of antibiotics nanocapsules
DOI:10.1016/j.bios.2011.02.017 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:2 AU: Hong, Chien-Chong;Wang, Chih-Ying;Peng, Kuo-Ti;Chu, I-Ming;
2:312:9 Preparation of gold patterns on polyimide coating via layer-by-layer deposition of gold nanoparticles
DOI:10.1016/j.jcis.2010.08.008 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:6 AU: Basarir, Fevzihan;Yoon, Tae-Ho;
2:312:10 Impedimetric sensor for toxigenic Penicillium sclerotigenum detection in yam based on magnetite-poly(allylamine hydrochloride) composite
DOI:10.1016/j.jcis.2013.01.023 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:1 AU: Silva, Gilcelia J. L.;Andrade, Cesar A. S.;Oliveira, Idjane S.;de Melo, Celso P.;Oliveira, Maria D. L.;
2:313:1 Dielectric properties of polar-phthalocyanine monolayer systems with repulsive dipole interaction
DOI:10.1103/PhysRevB.83.085304 JN:PHYSICAL REVIEW B PY:2011 TC:28 AU: Fukagawa, H.;Hosoumi, S.;Yamane, H.;Kera, S.;Ueno, N.;
2:313:2 Reversible Single-Molecule Switching in an Ordered Monolayer Molecular Dipole Array
DOI:10.1002/smll.201101967 JN:SMALL PY:2012 TC:22 AU: Huang, Yu Li;Lu, Yunhao;Niu, Tian Chao;Huang, Han;Kera, Satoshi;Ueno, Nobuo;Wee, Andrew Thye Shen;Chen, Wei;
2:313:3 Impact of molecule-dipole orientation on energy level alignment at the submolecular scale
DOI:10.1103/PhysRevB.87.085205 JN:PHYSICAL REVIEW B PY:2013 TC:2 AU: Huang, Y. L.;Chen, W.;Bussolotti, F.;Niu, T. C.;Wee, A. T. S.;Ueno, N.;Kera, S.;
2:313:4 Directed Organization of C-70 Kagome Lattice by Titanyl Phthalocyanine Monolayer Template
DOI:10.1021/ja206175c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:10 AU: Wei, Yinying;Reutt-Robey, Janice E.;
2:313:5 Solvent-assisted growth of metal phthalocyanine thin films on Au(111)
DOI:10.1116/1.4705511 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2012 TC:2 AU: Tskipuri, Levan;Shao, Qian;Reutt-Robey, Janice;
2:313:6 Tunable two-dimensional molecular dipole dot arrays on graphite
DOI:10.1063/1.3647563 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Niu, Tian Chao;Huang, Yu Li;Sun, Jia Tao;Kera, Satoshi;Ueno, Nobuo;Wee, Andrew Thye Shen;Chen, Wei;
2:313:7 Potential Steps at C-60-TiOPc-Ag(111) Interfaces: Ultrahigh-Vacuum-Noncontact Scanning Probe Metrology
DOI:10.1021/nl3004607 JN:NANO LETTERS PY:2012 TC:4 AU: Burson, Kristen M.;Wei, Yinying;Cullen, William G.;Fuhrer, Michael S.;Reutt-Robey, Janice E.;
2:314:1 Mixed (porphyrinato)(phthalocyaninato) rare-earth(III) double-decker complexes for broadband light harvesting organic solar cells
DOI:10.1039/c1jm11246e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:26 AU: Li, Yong;Bian, Yongzhong;Yan, Ming;Thapaliya, Prem S.;Johns, Daniel;Yan, Xingzhong;Galipeau, David;Jiang, Jianzhuang;
2:314:2 Identifying effects of TiO2 nanowires inside bulk heterojunction organic photovoltaics on charge diffusion and recombination
DOI:10.1039/c4tc00563e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Yang, P.;Zeigler, D. F.;Bryant, K. C.;Martin, T. R.;Gamelin, D. R.;Luscombe, C. K.;
2:314:3 Improvement of power conversion efficiencies in Cr2O3-nanoparticle-embedded polymer solar cells
DOI:10.1063/1.4822429 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Liu, Zhihai;Seo, Soonmin;Lee, Eun-Cheol;
2:314:4 Unusually high SCLC hole mobility in solution-processed thin films of a polycyclic thiophene-based small-molecule semiconductor
DOI:10.1039/c4tc01181c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Li, Yong;Clevenger, Robert G.;Jin, Lu;Kilway, Kathleen V.;Peng, Zhonghua;
2:314:5 P3HT:PCBM polymer solar cells with TiO2 nanotube aggregates in the active layer
DOI:10.1039/b921758d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:16 AU: Yang, Pinyi;Zhou, Xiaoyuan;Cao, Gongzhong;Luscombe, Christine K.;
2:314:6 Efficient monochromatic red-light-emitting PLEDs based on a series of nonconjugated Eu-polymers containing a neutral terpyridyl ligand
DOI:10.1039/c3tc30681j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Yang, Chaolong;Xu, Jing;Zhang, Yunfei;Li, Yinwen;Zheng, Jian;Liang, Liyan;Lu, Mangeng;
2:314:7 White electroluminescence of lanthanide complexes resulting from exciplex formation
DOI:10.1039/b921740a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:24 AU: Zucchi, Gael;Jeon, Taewoo;Tondelier, Denis;Aldakov, Dmitry;Thuery, Pierre;Ephritikhine, Michel;Geffroy, Bernard;
2:315:1 In Situ Electro-Mechanical Experiments and Mechanics Modeling of Fracture in Indium Tin Oxide-Based Multilayer Electrodes
DOI:10.1002/adem.201200169 JN:ADVANCED ENGINEERING MATERIALS PY:2013 TC:8 AU: Peng, Cheng;Jia, Zheng;Neilson, Henry;Li, Teng;Lou, Jun;
2:315:2 Defect analysis and mechanical performance of plasma-deposited thin films on flexible polycarbonate substrates
DOI:10.1016/j.apsusc.2012.12.112 JN:APPLIED SURFACE SCIENCE PY:2013 TC:1 AU: Patel, Rakhi P.;Wolden, Colin A.;
2:315:3 Failure mechanics of organic-inorganic multilayer permeation barriers in flexible electronics
DOI:10.1016/j.compscitech.2010.12.003 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2011 TC:18 AU: Jia, Zheng;Tucker, Matthew B.;Li, Teng;
2:315:4 Mechanical reliability of transparent conducting IZTO film electrodes for flexible panel displays
DOI:10.1016/j.apsusc.2011.04.123 JN:APPLIED SURFACE SCIENCE PY:2011 TC:8 AU: Kim, Young Sung;Hwang, Woo Jin;Eun, Kyung Tae;Choa, Sung-Hoon;
2:315:5 In situ electro-mechanical experiments and mechanics modeling of tensile cracking in indium tin oxide thin films on polyimide substrates
DOI:10.1063/1.3592341 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:10 AU: Peng, Cheng;Jia, Zheng;Bianculli, Dan;Li, Teng;Lou, Jun;
2:315:6 Tensile strain and water vapor transport testing of flexible, conductive and transparent indium-zinc-oxide/silver/indium-zinc-oxide thin films
DOI:10.1016/j.tsf.2011.01.252 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Dameron, Arrelaine A.;Miller, David C.;George, Nathan;To, Bobby;Ginley, David S.;Simpson, Lin;
2:315:7 Durability study on sputtered indium tin oxide thin film on Poly Ethylene Terephthalate substrate
DOI:10.1016/j.tsf.2011.04.069 JN:THIN SOLID FILMS PY:2011 TC:13 AU: Hamasha, Mohammad M.;Alzoubi, Khalid;Lu, Susan;Desu, Seshu B.;
2:315:8 Optimizing amorphous indium zinc oxide film growth for low residual stress and high electrical conductivity
DOI:10.1016/j.apsusc.2013.06.019 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Kumar, Mukesh;Sigdel, A. K.;Gennett, T.;Berry, J. J.;Perkins, J. D.;Ginley, D. S.;Packard, C. E.;
2:315:9 A map of competing buckling-driven failure modes of substrate-supported thin brittle films
DOI:10.1016/j.tsf.2012.07.011 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Jia, Zheng;Peng, Cheng;Lou, Jun;Li, Teng;
2:315:10 Crack Density and Electrical Resistance in Indium-Tin-Oxide/Polymer Thin Films Under Cyclic Loading
DOI:10.1007/s13391-014-3321-5 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Mora, Angel;Khan, Kamran A.;El Sayed, Tamer;
2:315:11 Effects of annealing temperature on mechanical durability of indium-tin oxide film on polyethylene terephthalate substrate
DOI:10.1016/j.tsf.2013.11.063 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Machinaga, Hironobu;Ueda, Eri;Mizuike, Atsuko;Takeda, Yuuki;Shimokita, Keisuke;Miyazaki, Tsukasa;
2:315:12 Strain dependence electrical resistance and cohesive strength of ITO thin films deposited on electroactive polymer
DOI:10.1016/j.tsf.2009.12.022 JN:THIN SOLID FILMS PY:2010 TC:2 AU: Rebouta, L.;Rubio-Pena, L.;Oliveira, C.;Lanceros-Mendez, S.;Tavares, C. J.;Alves, E.;
2:316:1 Preparation of alpha-Fe2O3 nanotubes via electrospinning and research on their catalytic properties
DOI:10.1007/s00339-012-7005-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:1 AU: Shao, Hao;Zhang, Xuebin;Chen, Fanyan;Liu, Shasha;Ji, Yi;Zhu, Yajun;Feng, Yi;
2:316:2 Single-step scalable conversion of waste natural oils to carbon nanowhiskers and their interaction with mammalian cells
DOI:10.1007/s11051-013-1808-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:2 AU: Datta, Abheek;Dutta, Priyanka;Sadhu, Anustup;Maiti, Sankar;Bhattacharyya, Sayan;
2:316:3 Polymeric nanowires and nanopillars fabricated by template wetting
DOI:10.1007/s11051-013-1552-2 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:4 AU: Kokonou, M.;Ioannou, G.;Rebholz, C.;Doumanidis, C. C.;
2:316:4 Role of template and infiltration technique on resulting morphology of polymer nanostructures
DOI:10.1016/j.matlet.2010.06.029 JN:MATERIALS LETTERS PY:2010 TC:5 AU: Pasquali, Meghan;Liang, Jianyu;Shivkumar, Satya;
2:316:5 Preparation of pure iron nanofibers via electrospinning
DOI:10.1016/j.matlet.2011.03.049 JN:MATERIALS LETTERS PY:2011 TC:5 AU: Shao, Hao;Zhang, Xuebin;Liu, Shasha;Chen, Fanyan;Xu, Jie;Feng, Yi;
2:316:6 Role of AAO template filling process parameters in controlling the structure of one-dimensional polymer nanoparticles
DOI:10.1088/0957-4484/22/37/375605 JN:NANOTECHNOLOGY PY:2011 TC:11 AU: Pasquali, M.;Liang, J.;Shivkumar, S.;
2:316:7 Copper Azide Confined Inside Templated Carbon Nanotubes
DOI:10.1002/adfm.201000858 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:7 AU: Pelletier, Valarie;Bhattacharyya, Sayan;Knoke, Isabel;Forohar, Farhad;Bichay, Magdy;Gogotsi, Yury;
2:316:8 Aligned growth and alignment mechanism of carbon nanotubes by hot filament chemical vapor deposition
DOI:10.1007/s00339-009-5460-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:9 AU: Yi, Wenwen;Yang, Qiaoqin;
2:316:9 Synthesis of ordered ZnO nanowire arrays from aqueous solution using AAO template
DOI:10.1007/s00339-011-6402-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:6 AU: Kumar, Nagesh;Varma, G. D.;Nath, R.;Srivastava, A. K.;
2:316:10 Growth of carbon nanofibers on aligned zinc oxide nanorods and their field emission properties
DOI:10.1016/j.apsusc.2010.03.136 JN:APPLIED SURFACE SCIENCE PY:2010 TC:5 AU: Gayen, R. N.;Pal, A. K.;
2:316:11 Laterally organized carbon nanotube arrays based on hot-filament chemical vapor deposition
DOI:10.1016/j.tsf.2011.01.334 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Kim, Ki-Hwan;Lefeuvre, Emmanuel;Chatelet, Marc;Pribat, Didier;Cojocaru, Costel-Sorin;
2:316:12 High-voltage electric-field-induced growth of aligned "cow-nipple-like" submicro-nano carbon isomeric structure via chemical vapor deposition
DOI:10.1063/1.4768248 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Liao, Chengwei;Zhang, Yupeng;Pan, Chunxu;
2:316:13 Structural Properties of Zn-ZnO Core-Shell Microspheres Grown by Hot-Filament CVD Technique
DOI:10.1155/2012/865321 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:0 AU: Lopez, R.;Diaz, T.;Garcia, G.;Galeazzi, R.;Rosendo, E.;Coyopol, A.;Pacio, M.;Juarez, H.;Oliva, A. I.;
2:316:14 Preparation and characterization of copper azide nanowire array
DOI:10.1016/j.matlet.2012.08.077 JN:MATERIALS LETTERS PY:2012 TC:1 AU: Zhang, Fang;Wang, Yanlan;Bai, Yingwei;Zhang, Rui;
2:316:15 Electrospun PVC/Fe3O4 composite nanofibers for microwave absorption applications
DOI:10.1016/j.matlet.2011.10.084 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Chiscan, Ovidiu;Dumitru, Ioan;Postolache, Petronel;Tura, Vasile;Stancu, Alexandru;
2:317:1 Spherical Assemblies from pi-Conjugated Alternating Copolymers: Toward Optoelectronic Colloidal Crystals
DOI:10.1021/ja3106626 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:17 AU: Adachi, Taeko;Tong, Liang;Kuwabara, Junpei;Kanbara, Takaki;Saeki, Akinon;Seki, Shu;Yamamoto, Yohei;
2:317:2 White-Emitting Conjugated Polymer/Inorganic Hybrid Spheres: Phenylethynyl and 2,6-Bis(pyrazolyl) pyridine Copolymer Coordinated to Eu(tta)(3)
DOI:10.1002/adfm.201301476 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:6 AU: Narayana, Yemineni S. L. V.;Basak, Supratim;Baumgarten, Martin;Muellen, Klaus;Chandrasekar, Rajadurai;
2:317:3 Methods for Controlling Structure and Photophysical Properties in Polyfluorene Solutions and Gels
DOI:10.1002/adma.201204296 JN:ADVANCED MATERIALS PY:2013 TC:21 AU: Knaapila, Matti;Monkman, Andrew P.;
2:317:4 Conjugated Polymer Shells on Colloidal Templates by Seeded Suzuki- Miyaura Dispersion Polymerization
DOI:10.1002/smll.201302039 JN:SMALL PY:2014 TC:2 AU: ten Hove, Jan Bart;Appel, Jeroen;van den Broek, Johanna M.;Kuehne, Alexander J. C.;Sprakel, Joris;
2:317:5 Sub-Micrometer Patterning of Amorphous- and beta-Phase in a Crosslinkable Poly(9,9-dioctylfluorene): Dual-Wavelength Lasing from a Mixed-Morphology Device
DOI:10.1002/adfm.201002553 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:12 AU: Kuehne, Alexander J. C.;Kaiser, Markus;Mackintosh, Allan R.;Wallikewitz, Bodo H.;Hertel, Dirk;Pethrick, Richard A.;Meerholz, Klaus;
2:317:6 beta-phase formation in a crosslinkable poly(9,9-dihexylfluorene)
DOI:10.1016/j.polymer.2011.09.044 JN:POLYMER PY:2011 TC:4 AU: Kuehne, Alexander J. C.;Mackintosh, Allan R.;Pethrick, Richard A.;
2:317:7 Conformational structure and aggregation behavior of poly[2-methoxy-5-(2-ethylhexyloxy)-1,4-phenylenevinylene] in toluene/nonane solutions
DOI:10.1016/j.polymer.2012.08.048 JN:POLYMER PY:2012 TC:3 AU: Chen, Jean-Hong;Chiu, Ching-Wan;Chen, Lung-Chuan;Lai, Shin-Yi;Lee, Chia-Cheng;
2:317:8 The response of collagen molecules in acid solution to temperature
DOI:10.1016/j.polymer.2014.09.011 JN:POLYMER PY:2014 TC:1 AU: Ding, Cuicui;Zhang, Min;Wu, Kun;Li, Guoying;
2:317:9 Self-assembling into interconnected nanoribbons in thin films of hairy rod poly(9,9-di(2-ethylhexyl)fluorene): Effects of concentration, substrate and solvent
DOI:10.1016/j.synthmet.2010.04.008 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Traiphol, Rakchart;Charoenthai, Nipaphat;Srikhirin, Toemsak;Perahia, Dvora;
2:317:10 Rheological Properties of Collagen/Hydroxypropyl Methylcellulose (COL/HPMC) Blended Solutions
DOI:10.1002/app.40042 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:3 AU: Ding, Cuicui;Zhang, Min;Li, Guoying;
2:317:11 Crystallographic structure and morphology of bithiophene-fluorene polymer nanocrystals
DOI:10.1016/j.polymer.2011.04.063 JN:POLYMER PY:2011 TC:6 AU: Werzer, Oliver;Resel, Roland;Chernev, Boril;Plank, Harald;Rothmann, Michael M.;Strohriegl, Peter;Trimmel, Gregor;Rapallo, Arnaldo;Porzio, William;
2:318:1 Dye-Polyelectrolyte Layer-by-Layer Self-Assembled Materials: Molecular Aggregation, Structural Stability, and Singlet Oxygen Photogeneration
DOI:10.1021/am100195v JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:14 AU: Mirenda, Martin;Strassert, Cristian A.;Dicelio, Lelia E.;Roman, Enrique San;
2:318:2 Synthesis, Exfoliation, and Electronic/Protonic Conductivity of the Dion-Jacobson Phase Layer Perovskite HLa2TiTa2O10
DOI:10.1021/cm401803d JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Wang, TsingHai;Henderson, Camden N.;Draskovic, Thomas I.;Mallouk, Thomas E.;
2:318:3 Cyclometalated Platinum Polymers: Synthesis, Photophysical Properties, and Photovoltaic Performance
DOI:10.1021/cm9029038 JN:CHEMISTRY OF MATERIALS PY:2010 TC:29 AU: Clem, Tabitha A.;Kavulak, David F. J.;Westling, Erik J.;Frechet, Jean M. J.;
2:318:4 Synthesis of conjugated polymers bearing indacenodithiophene and cyclometalated platinum(II) units and their application in organic photovoltaics
DOI:10.1016/j.solmat.2012.09.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:5 AU: Liao, Chuang-Yi;Chen, Chih-Ping;Chang, Ching-Chih;Hwang, Gue-Wuu;Chou, Ho-Hsiu;Cheng, Chien-Hong;
2:318:5 Porphodilactones as Synthetic Chlorophylls: Relative Orientation of beta-Substituents on a Pyrrolic Ring Tunes NIR Absorption
DOI:10.1021/ja502729x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Ke, Xian-Sheng;Chang, Yi;Chen, Jia-Zhen;Tian, Jiangwei;Mack, John;Cheng, Xin;Shen, Zhen;Zhang, Jun-Long;
2:318:6 Charge Separation in a Niobate Nanosheet Photocatalyst Studied with Photochemical Labeling
DOI:10.1021/la904377f JN:LANGMUIR PY:2010 TC:15 AU: Sabio, Erwin M.;Chi, Miaofang;Browning, Nigel D.;Osterloh, Frank E.;
2:318:7 Rectangular-Shaped Expanded Phthalocyanines with Two Central Metal Atoms
DOI:10.1021/ja209589x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Matsushita, Osamu;Derkacheva, Valentina M.;Muranaka, Atsuya;Shimizu, Soji;Uchiyama, Masanobu;Luk'yanets, Evgeny A.;Kobayashi, Nagao;
2:318:8 Noninnocent Dithiolene Ligands: A New Oxomolybdenum Complex Possessing a Donor Acceptor Dithiolene Ligand
DOI:10.1021/ja100220x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:13 AU: Matz, Kelly G.;Mtei, Regina P.;Leung, Belinda;Burgmayer, Sharon J. Nieter;Kirk, Martin L.;
2:318:9 Orientation of Diamagnetic Layered Transition Metal Oxide Particles in 1-Tesla Magnetic Fields
DOI:10.1021/ja107090n JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:5 AU: Sklute, Elizabeth C.;Eguchi, Miharu;Henderson, Camden N.;Angelone, Mark S.;Yennawar, Hemant P.;Malloulet, Thomas E.;
2:318:10 Synthesis, Exfoliation, and Electronic/Protonic Conductivity of the Dion-Jacobson Phase Layer Perovskite HLa2Ti2TaO10 (vol 26, pg 898, 2014)
DOI:10.1021/cm500207p JN:CHEMISTRY OF MATERIALS PY:2014 TC:0 AU: Wang, TsingHai;Henderson, Camden N.;Draskovic, Thomas I.;Mallouk, Thomas E.;
2:318:11 Structure and Reversible Pyran Formation in Molybdenum Pyranopterin Dithiolene Models of the Molybdenum Cofactor
DOI:10.1021/ja310018e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:9 AU: Williams, Benjamin R.;Fu, Yichun;Yap, Glenn P. A.;Burgmayer, Sharon J. Nieter;
2:318:12 New solid acids in the triple-layer Dion-Jacobson layered perovskite family
DOI:10.1016/j.materresbull.2010.12.007 JN:MATERIALS RESEARCH BULLETIN PY:2011 TC:4 AU: Geselbracht, Margret J.;White, Helen K.;Blaine, Jeanette M.;Diaz, Miranda J.;Hubbs, Jennifer L.;Adelstein, Nicole;Kurzman, Joshua A.;
2:319:1 Improving the Efficiency of ZnO-Based Organic Solar Cell by Self-Assembled Monolayer Assisted Modulation on the Properties of ZnO Acceptor Layer
DOI:10.1021/am400928n JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Chiu, Jian-Ming;Tai, Yian;
2:319:2 Enhancement in open circuit voltage of organic photovoltaic devices through control of deposition rate of donor material
DOI:10.1016/j.solmat.2012.11.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Liu, Shun-Wei;Su, Wei-Cheng;Lee, Chih-Chien;Lin, Chi-Feng;Cheng, Ching-Wen;Chou, Chia-Chang;Lee, Jiun-Haw;Chen, Chin-Ti;
2:319:3 Electrochemical characterization of Self-assembled Monolayers (SAMs) of silanes on indium tin oxide (ITO) electrodes - Tuning electron transfer behaviour across electrode-electrolyte interface
DOI:10.1016/j.jcis.2012.02.007 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:12 AU: Muthurasu, A.;Ganesh, V.;
2:319:4 Self-assembled monolayers assisted thin film growth of aluminum doped zinc oxide by spray pyrolysis method
DOI:10.1016/j.apsusc.2013.01.107 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Aklilu, Muluken;Tai, Yian;
2:319:5 Deposition of Dense Siloxane Monolayers from Water and Trimethoxyorganosilane Vapor
DOI:10.1021/la201333y JN:LANGMUIR PY:2011 TC:8 AU: Lowe, Randall D.;Pellow, Matthew A.;Stack, T. Daniel P.;Chidsey, Christopher E. D.;
2:319:6 Microscopic Wetting of Self-Assembled Mono layers with Different Surfaces: A Combined Molecular Dynamics and Quantum Mechanics Study
DOI:10.1021/la201328y JN:LANGMUIR PY:2011 TC:15 AU: Xu, Zhen;Song, Ke;Yuan, Shi-Ling;Liu, Cheng-Bu;
2:319:7 4-Hydroxy-8-methyl-1,5-naphthyridine aluminium chelate: a morphologically stable and efficient exciton-blocking material for organic photovoltaics with prolonged lifetime
DOI:10.1039/c0jm01049a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Liu, Shun-Wei;Lee, Chih-Chien;Lin, Chi-Feng;Huang, Jia-Cing;Chen, Chin-Ti;Lee, Jiun-Haw;
2:319:8 Discriminate Crystallinities of Tin Doped Indium Oxide Films on Self-Assembled Monolayers Modified Glass Substrates
DOI:10.1021/la904654d JN:LANGMUIR PY:2010 TC:4 AU: Sharma, Jadab;Chang, Hsuan-chun;Tai, Yian;
2:320:1 Materials chemistry of fullerene C-60 derivatives
DOI:10.1039/c0jm02386h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:54 AU: Lopez, Alejandro Montellano;Mateo-Alonso, Aurelio;Prato, Maurizio;
2:320:2 Electronic Structures and Optical Properties of Phenyl C-71 Butyric Acid Methyl Esters
DOI:10.1155/2013/612153 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:2 AU: Zhang, Cai-Rong;Han, Li-Heng;Zhe, Jian-Wu;Jin, Neng-Zhi;Shen, Yu-Lin;Yuan, Li-Hua;Wu, You-Zhi;Liu, Zi-Jiang;
2:320:3 Assembly of Janus fullerenol: a novel approach to prepare rich carbon structures
DOI:10.1039/c1jm12964c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:6 AU: Liu, Yun;Zhang, Gang;Niu, Lin;Gan, Liangbing;Liang, Dehai;
2:320:4 Donor-pi-acceptor double-cable polythiophenes bearing fullerene pendant with tunable donor/acceptor ratio: A facile postpolymerization
DOI:10.1039/b925398j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Li, Minghua;Xu, Pan;Yang, Jinguo;Yang, Shangfeng;
2:320:5 Surface Functionalization and Electronic Interactions of ZnO Nanorods with a Porphyrin Derivative
DOI:10.1021/am5004552 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Klaumuenzer, Martin;Kahnt, Axel;Burger, Alexandra;Mackovic, Mirza;Muenzel, Corinna;Srikantharajah, Rubitha;Spiecker, Erdmann;Hirsch, Andreas;Peukert, Wolfgang;Guldi, Dirk M.;
2:320:6 Photophysics and transient nonlinear optical response of donor-[60]fullerene hybrids
DOI:10.1039/c0jm03520c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Aloukos, Panagiotis;Iliopoulos, Konstantinos;Couris, Stelios;Guldi, Dirk M.;Sooambar, Chloe;Mateo-Alonso, Aurelio;Nagaswaran, Praveen Ganesh;Bonifazi, Davide;Prato, Maurizio;
2:320:7 Fullerene-proline hybrids: Synthesis, characterization and organocatalytic properties in aldol reactions
DOI:10.1016/j.matlet.2014.09.031 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Chronopoulos, Demetrios D.;Tsakos, Michail;Karousis, Nikolaos;Kokotos, Christoforos G.;Tagmatarchis, Nikos;
2:321:1 Why Triple Bonds Protect Acenes from Oxidation and Decomposition
DOI:10.1021/ja306056x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:24 AU: Fudickar, Werner;Linker, Torsten;
2:321:2 Effect of Oxygen, Moisture and Illumination on the Stability and Reliability of Dinaphtho[2,3-b:2 ',3 '-f]thieno[3,2-b]thiophene (DNTT) OTFTs during Operation and Storage
DOI:10.1021/am503560d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Ding, Ziqian;Abbas, Gamal;Assender, Hazel E.;Morrison, John J.;Yeates, Stephen G.;Patchett, Eifion R.;Taylor, D. Martin;
2:321:3 Effect of Ozone on the Stability of Solution-Processed Anthradithiophene-Based Organic Field-Effect Transistors
DOI:10.1021/cm501397y JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Nasrallah, Iyad;Banger, Kulbinder K.;Vaynzof, Yana;Payne, Marcia M.;Too, Patrick;Jongman, Jan;Anthony, John E.;Sirringhaus, Henning;
2:321:4 Improving the performance of organic thin film transistors formed on a vacuum flash-evaporated acrylate insulator
DOI:10.1063/1.4839275 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Ding, Z.;Abbas, G. A.;Assender, H. E.;Morrison, J. J.;Sanchez-Romaguera, V.;Yeates, S. G.;Taylor, D. M.;
2:321:5 Pentacene Transistors Fabricated on Photocurable Polymer Gate Dielectrics: Tuning Surface Viscoelasticity and Device Response
DOI:10.1002/adma.200902365 JN:ADVANCED MATERIALS PY:2010 TC:13 AU: Kim, Choongik;Quinn, Jordan R.;Facchetti, Antonio;Marks, Tobin J.;
2:321:6 Novel Anthracene Materials for Applications in Lithography and Reversible Photoswitching by Light and Air
DOI:10.1021/la904299n JN:LANGMUIR PY:2010 TC:14 AU: Fudickar, Werner;Linker, Torsten;
2:321:7 Organic thin-film transistors with electron-beam cured and flash vacuum deposited polymeric gate dielectric
DOI:10.1116/1.3628635 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:7 AU: Abbas, Gamal;Assender, Hazel;Ibrahim, Mervat;Taylor, D. Martin;
2:321:8 Spatially Controlled Oxygen Inhibition of Acrylate Photopolymerization as a New Lithography Method for High-Performance Organic Thin-Film Transistors
DOI:10.1021/cm9034769 JN:CHEMISTRY OF MATERIALS PY:2010 TC:5 AU: Shi, Jingsheng;Chan-Park, Mary B.;Gong, Cheng;Yang, Hongbin;Gan, Ye;Li, Chang Ming;
2:321:9 In Situ STM Imaging of Fused Thienothiopene Molecules Adsorbed on Au(111) Electrode
DOI:10.1021/la102058e JN:LANGMUIR PY:2010 TC:5 AU: Hsu, YaHua;Yau, ShuehLin;Lin, Yu-Jou;Huang, Peng-Yi;Chen, Ming-Chou;Lo, Po-Yuan;
2:322:1:1 Combinatorial Design of Copolymer Donor Materials for Bulk Heterojunction Solar Cells
DOI:10.1021/nn5014066 JN:ACS NANO PY:2014 TC:4 AU: Shin, Yongwoo;Liu, Jaikai;Quigley, Joseph J.;Luo, Heng;Lin, Xi;
2:322:1:2 Adapted Su-Schrieffer-Heeger Hamiltonian for polypyrrole
DOI:10.1103/PhysRevB.82.155141 JN:PHYSICAL REVIEW B PY:2010 TC:9 AU: Li, Minghai;Lin, Xi;
2:322:1:3 Twin distortions of the Peierls instability
DOI:10.1103/PhysRevB.81.153102 JN:PHYSICAL REVIEW B PY:2010 TC:8 AU: Li, Minghai;Lin, Xi;
2:322:1:4 Escape mechanism of a self-trapped topological soliton
DOI:10.1103/PhysRevB.82.193101 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Shin, Yongwoo;Li, Minghai;Botelho, Andre L.;Lin, Xi;
2:322:2:1 Scaling and universality of ac conductivity and dielectric response in disordered materials under pressure
DOI:10.1063/1.3466904 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Sakellis, I.;Papathanassiou, A. N.;Grammatikakis, J.;
2:322:2:2 On the origin of time-temperature superposition in disordered solids
DOI:10.1063/1.3543634 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Sakellis, I.;
2:322:2:3 Long aging time thermal degradation of the ac conductivity and complex permittivity of conducting polypyrrole
DOI:10.1016/j.synthmet.2011.04.020 JN:SYNTHETIC METALS PY:2011 TC:0 AU: Sakellis, I.;Papathanassiou, A. N.;Grammatikakis, J.;
2:322:2:4 Ion dynamics behavior in solid polymer electrolyte
DOI:10.1016/j.ssi.2013.10.026 JN:SOLID STATE IONICS PY:2014 TC:1 AU: Srivastava, Neelam;Kumar, Manindra;
2:322:3:1 Non-monotonic dependence of the conductivity of carbon nanotube-filled elastomers subjected to uniaxial compression/decompression
DOI:10.1063/1.4794835 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Semeriyanov, F. F.;Chervanyov, A. I.;Jurk, R.;Subramaniam, K.;Koenig, S.;Roscher, M.;Das, A.;Stoeckelhuber, K. W.;Heinrich, G.;
2:322:3:2 Non-monotonic dependence of the conductivity of carbon nanotube-filled elastomers subjected to uniaxial compression/decompression (vol 113, 103706, 2013)
DOI:10.1063/1.4801835 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Semeriyanov, F. F.;Chervanyov, A. I.;Jurk, R.;Subramaniam, K.;Koenig, S.;Roscher, M.;Das, A.;Stoeckelhuber, K. W.;Heinrich, G.;
2:322:4:1 Pressure dependence of the dielectric loss in semi-conducting polypyrrole aged at room temperature
DOI:10.1016/j.synthmet.2010.07.038 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Sakellis, I.;Papathanassiou, A. N.;Grammatikakis, J.;
2:322:4:2 Determining the activation volumes in ZnO
DOI:10.1063/1.4729486 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Sakellis, I.;
2:322:4:3 Calculation of the activation volume in semi-conducting polypyrrole
DOI:10.1016/j.synthmet.2011.10.010 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Sakellis, I.;Papathanassiou, A. N.;Grammatikakis, J.;
2:322:5:1 Low frequency alternating current conduction and dielectric relaxation in polypyrrole irradiated with 100 MeV swift heavy ions of silver (Ag8+)
DOI:10.1016/j.matchemphys.2013.03.039 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Kaur, Amarjeet;Dhillon, Anju;Avasthi, D. K.;
2:322:5:2 Modifications induced in poly (3-hexylthiophene) due to swift heavy ion beam of 100 MeV silver (Ag8+)
DOI:10.1016/j.matchemphys.2011.10.001 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:10 AU: Kaur, Amarjeet;Dhillon, Anju;Lakshmi, G. B. V. S.;Mishra, Yogendra;Avasthi, D. K.;
2:323:1 Unique multiple soluble-insoluble phase transitions in aqueous two-phase copolymerization of acrylamide and a weakly charged comonomer
DOI:10.1039/c4sm01866d JN:SOFT MATTER PY:2014 TC:1 AU: Shang, Kuanxiang;Shan, Guorong;Pan, Pengju;
2:323:2 Synthesis of cationic polyacrylamide by aqueous two-phase polymerization in poly(ethylene glycol) chloride solution
DOI:10.1002/app.37839 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Liu, Zaiman;Wei, Yaling;Li, Baiyu;He, Naipu;
2:323:3 Removal of Cu(II) ions from aqueous streams using poly(acrylic acid-co-acrylamide) hydrogels
DOI:10.1016/j.jcis.2010.05.048 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:25 AU: Orozco-Guareno, Eulogio;Santiago-Gutierrez, Fernanda;Luis Moran-Quiroz, Jose;Hernandez-Olmos, Saira L.;Soto, Victor;de la Cruz, Wencel;Manriquez, Ricardo;Gomez-Salazar, Sergio;
2:323:4 Synthesis and characterization of highly stable and water dispersible hydrogel-copper nanocomposite
DOI:10.1016/j.jnoncrysol.2014.05.020 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2014 TC:2 AU: Pourbeyram, Sima;Mohammadi, Sina;
2:323:5 Stability of Two-Phase Polymerization of Acrylamide in Aqueous Poly(ethylene glycol) Solution
DOI:10.1002/app.34243 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:9 AU: Lue, Ting;Shan, Guorong;Shang, Songmin;
2:323:6 Polymeric Hydrogels Obtained Using a Redox Initiator: Application in Cu(II) Ions Removal from Aqueous Solutions
DOI:10.1002/app.39933 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Luis Moran-Quiroz, Jose;Orozco-Guareno, Eulogio;Manriquez, Ricardo;Carbajal-Arizaga, Gregorio G.;de la Cruz, Wencel;Gomez-Salazar, Sergio;
2:323:7 Copper nanoparticles incorporated with conducting polymer: Effects of copper concentration and surfactants on the stability and conductivity
DOI:10.1016/j.jcis.2011.09.041 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:25 AU: Long Quoc Pham;Sohn, Jong Hwa;Kim, Chang Woo;Park, Ji Hyun;Kang, Hyun Suk;Lee, Byung Cheol;Kang, Young Soo;
2:323:8 Intermolecular Interaction in Aqueous Solution of Binary Blends of Poly(acrylamide) and Poly(ethylene glycol)
DOI:10.1002/app.32556 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:9 AU: Lue, Ting;Shan, Guorong;Shang, Songmin;
2:323:9 Sintering of nanoscale silver coated textiles, a new approach to attain conductive fabrics for electromagnetic shielding
DOI:10.1016/j.matchemphys.2014.06.025 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:2 AU: Kardarian, Kasra;Busani, Tito;Osorio, Ines;Domingos, Helena;Igreja, Rui;Franco, Ricardo;Cortez, Joao;
2:323:10 Droplet Size and Morphology for the Aqueous Two-Phase Polymerization of Acrylamide in an Aqueous Poly(ethylene glycol) Solution
DOI:10.1002/app.31628 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:5 AU: Lue, Ting;Shan, Guo-Rong;
2:323:11 Incorporation of silver nanoparticles on textile materials by an aqueous procedure
DOI:10.1016/j.matlet.2012.02.024 JN:MATERIALS LETTERS PY:2012 TC:12 AU: Osorio, Ines;Igreja, Rui;Franco, Ricardo;Cortez, Joao;
2:323:12 Reactivity Ratios and Copolymer Composition Evolution During Styrene/Dimethacrylate Free-Radical Crosslinking Copolymerization
DOI:10.1002/app.31137 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Schroeder, Walter F.;Aranguren, Mirta I.;Borrajo, Julio;
2:323:13 Dispersion Copolymerization of Acrylamide and Dimethyl Diallyl Ammonium Chloride in Ethanol-Water Solution
DOI:10.1002/app.33288 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:9 AU: Wang, Xiaona;Yue, Qinyan;Gao, Baoyu;Si, Xiaohui;Sun, Xun;Zhang, Shengxiao;
2:324:1 Studies of UV crosslinked poly(N-vinylpyrrolidone) hydrogels by FTIR, Raman and solid-state NMR spectroscopies
DOI:10.1016/j.polymer.2010.05.006 JN:POLYMER PY:2010 TC:22 AU: Zhu, Xingfeng;Lu, Ping;Chen, Wei;Dong, Jian;
2:324:2 Highly transparent ITO thin films on photosensitive glass: sol-gel synthesis, structure, morphology and optical properties
DOI:10.1007/s00339-012-6765-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:4 AU: Koroesi, Laszlo;Papp, Szilvia;Beke, Szabolcs;Pecz, Bela;Horvath, Robert;Petrik, Peter;Agocs, Emil;Dekany, Imre;
2:324:3 Sol-gel synthesis of nano structured indium tin oxide with controlled morphology and porosity
DOI:10.1016/j.apsusc.2014.09.178 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Koeroesi, Laszlo;Scarpellini, Alice;Petrik, Peter;Papp, Szilvia;Dekany, Imre;
2:324:4 Structure of e-beam sculptured poly(N-vinylpyrrolidone) networks across different length-scales, from macro to nano
DOI:10.1016/j.polymer.2012.11.031 JN:POLYMER PY:2013 TC:9 AU: Sabatino, Maria Antonietta;Bulone, Donatella;Veres, Miklos;Spinella, Alberto;Spadaro, Giuseppe;Dispenza, Clelia;
2:324:5 Preparation of transparent conductive indium tin oxide thin films from nanocrystalline indium tin hydroxide by dip-coating method
DOI:10.1016/j.tsf.2010.12.160 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Koroesi, Laszlo;Papp, Szilvia;Dekany, Imre;
2:324:6 Three-dimensionally embedded indium tin oxide (ITO) films in photosensitive glass: a transparent and conductive platform for microdevices
DOI:10.1007/s00339-010-6173-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:5 AU: Beke, S.;Koroesi, L.;Sugioka, K.;Midorikawa, K.;Dekany, I.;
2:324:7 Ethanol amine-assisted solvothermal growth of wurtzite-structured ZnS thin nanorods
DOI:10.1016/j.jallcom.2012.05.005 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:11 AU: Jiang, Nannan;Wu, R.;Li, J.;Sun, Y. F.;Jian, J. K.;
2:324:8 Low-temperature sintering behavior of nanocrystalline indium tin oxide prepared from polymer-containing sols
DOI:10.1016/j.materresbull.2012.01.020 JN:MATERIALS RESEARCH BULLETIN PY:2012 TC:2 AU: Koroesi, Laszlo;Papp, Szilvia;Oszko, Albert;Dekany, Imre;
2:324:9 Preparation of Aqueous Soluble Polyamides from Renewable Succinic Acid and Citric Acid as a New Approach to Design Bio-inspired Polymers
DOI:10.1002/app.39807 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Jiang, Man;Chen, Guangsong;Lu, Ping;Dong, Jian;
2:324:10 Radiation-induced synthesis of poly(vinylpyrrolidone) nanogel
DOI:10.1016/j.polymer.2011.09.056 JN:POLYMER PY:2011 TC:9 AU: An, Jung-Chul;Weaver, Alia;Kim, Byungnam;Barkatt, Aaron;Poster, Dianne;Vreeland, Wyatt N.;Silverman, Joseph;Al-Sheikhly, Mohamad;
2:324:11 Synthesis of tailored nanogels by means of two-stage irradiation
DOI:10.1016/j.polymer.2012.03.018 JN:POLYMER PY:2012 TC:6 AU: Kadlubowski, Slawomir;Ulanski, Piotr;Rosiak, Janusz M.;
2:324:12 Oligonucleotides-Decorated-Poly(N-vinyl pyrrolidone) Nanogels for Gene Delivery
DOI:10.1002/app.39774 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:3 AU: Dispenza, Clelia;Adamo, Giorgia;Sabatino, Maria Antonietta;Grimaldi, Natascia;Bulone, Donatella;Bondi, Maria Luisa;Rigogliuso, Salvatrice;Ghersi, Giulio;
2:325:1 Manipulating charge transport in a pi-stacked polymer through silicon incorporation
DOI:10.1039/c4tc00486h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Li, Huanhuan;Wang, Zhixiang;Song, Chao;Wang, Yang;Lin, Zhaomin;Xiao, Jianjian;Chen, Runfeng;Zheng, Chao;Huang, Wei;
2:325:2 Air-stable pi-conjugated amorphous copolymer field-effect transistors with high mobility of 0.3 cm(2)/Vs
DOI:10.1063/1.4767921 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Georgakopoulos, S.;Sparrowe, D.;Gu, Y.;Nielsen, M. M.;Meyer, F.;Shkunov, M.;
2:325:3 Synthesis and characterization of indeno[1,2-b]fluorene-based low bandgap copolymers for photovoltaic cells
DOI:10.1039/b919033c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:33 AU: Kim, Jinseck;Kim, Sun Hee;Jung, In Hwan;Jeong, Eunjae;Xia, Yangjun;Cho, Shinuk;Hwang, In-Wook;Lee, Kwanghee;Suh, Hongsuk;Shim, Hong-Ku;Woo, Han Young;
2:325:4 The tuning of the energy levels of dibenzosilole copolymers and applications in organic electronics
DOI:10.1039/c1jm11242b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Keyworth, Colin W.;Chan, Khai Leok;Labram, John G.;Anthopoulos, Thomas D.;Watkins, Scott E.;McKiernan, Mary;White, Andrew J. P.;Holmes, Andrew B.;Williams, Charlotte K.;
2:325:5 Extended conjugation in poly(triarylamine)s: synthesis, structure and impact on field-effect mobility
DOI:10.1039/c4tc00871e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Sprick, Reiner Sebastian;Hoyos, Mario;Wrackmeyer, Marion Sofia;Parry, Adam Valentine Sheridan;Grace, Iain Mark;Lambert, Colin;Navarro, Oscar;Turner, Michael Lewis;
2:325:6 Stability of top- and bottom-gate amorphous polymer field-effect transistors
DOI:10.1063/1.3525933 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Georgakopoulos, S.;Sparrowe, D.;Meyer, F.;Shkunov, M.;
2:325:7 Triarylamine polymers of bridged phenylenes by (N-heterocyclic carbene)-palladium catalysed C-N coupling
DOI:10.1039/c3tc30368c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Sprick, Reiner Sebastian;Hoyos, Mario;Morrison, John James;Grace, Iain Mark;Lambert, Colin;Navarro, Oscar;Turner, Michael Lewis;
2:325:8 Effect of side chain position on solar cell performance in cyclopentadithiophene-based copolymers
DOI:10.1016/j.tsf.2012.04.009 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Lee, Sang Kyu;Seo, Jung Hwa;Cho, Nam Sung;Cho, Shinuk;
2:326:1 Conducting polymer nanofiber mats via combination of electrospinning and oxidative polymerization
DOI:10.1016/j.polymer.2013.05.072 JN:POLYMER PY:2013 TC:7 AU: Park, Hongkwan;Lee, Sun Jong;Kim, Seyul;Ryu, Hyun Woog;Lee, Seung Hwan;Choi, Hyang Hee;Cheong, In Woo;Kim, Jung-Hyun;
2:326:2 Fabrication and characterization of conducting polyvinyl alcohol nanofibers
DOI:10.1016/j.matlet.2011.10.109 JN:MATERIALS LETTERS PY:2012 TC:6 AU: Cho, Daehwan;Hoepker, Nikolas;Frey, Margaret W.;
2:326:3 Electrospun PEDOT:PSS/PVP nanofibers as the chemiresistor in chemical vapour sensing
DOI:10.1016/j.synthmet.2010.04.021 JN:SYNTHETIC METALS PY:2010 TC:19 AU: Choi, Jaewon;Lee, Jeongwoo;Choi, Jinsub;Jung, Dongsoo;Shim, Sang Eun;
2:326:4 Electrospun poly(lithium 2-acrylamido-2-methylpropanesulfonic acid) fiber-based polymer electrolytes for lithium-ion batteries
DOI:10.1002/app.36804 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:5 AU: Cui, Wei-Wei;Tang, Dong-Yan;
2:326:5 Novel polythiophene based nanofibers obtained by simultaneous electrospinning and UV
DOI:10.1016/j.synthmet.2013.09.017 JN:SYNTHETIC METALS PY:2013 TC:2 AU: Eminoglu, Elif Merve;Kahraman, Memet Vezir;
2:326:6 Electrospun Composite Nanofibers of Poly (Vinylidene Fluoride-Trifluoroethylene)/Polyaniline-Polystyrene Sulfonic Acid
DOI:10.1002/app.33061 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Abreu, Maria;Montanez, Stephan;Pinto, Nicholas J.;
2:326:7 Phase Separation to Create Hydrophilic Yet Non-Water Soluble PLA/PLA-b-PEG Fibers via Electrospinning
DOI:10.1002/app.41030 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Buttaro, Larissa M.;Drufva, Erin;Frey, Margaret W.;
2:326:8 Selective Nanofiber Deposition Using a Microfluidic Confinement Approach
DOI:10.1021/la903988w JN:LANGMUIR PY:2010 TC:7 AU: Yang, Haifeng;Dong, Liang;
2:326:9 Electrospun nanofibers for microfluidic analytical systems
DOI:10.1016/j.polymer.2011.05.026 JN:POLYMER PY:2011 TC:9 AU: Cho, Daehwan;Matlock-Colangelo, Lauren;Xiang, Chunhui;Asiello, Peter J.;Baeumner, Antje J.;Frey, Margaret W.;
2:326:10 Chemical cross-linking of conducting poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) using poly(ethylene oxide) (PEO)
DOI:10.1016/j.polymer.2013.09.046 JN:POLYMER PY:2013 TC:4 AU: Huang, Tsang-Min;Batra, Saurabh;Hu, Jiahuan;Miyoshi, Toshikazu;Cakmak, Mukerrem;
2:326:11 Electrospun Fibers of Poly(Vinylidene Fluoride-Trifluoroethylene)/Poly(3-Hexylthiophene) Blends from Tetrahydrofuran
DOI:10.1080/00150193.2012.707830 JN:FERROELECTRICS PY:2012 TC:0 AU: Serrano, William;Pinto, Nicholas J.;
2:326:12 Characterizing zeta potential of functional nanofibers in a microfluidic device
DOI:10.1016/j.jcis.2012.01.007 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:12 AU: Cho, Daehwan;Lee, SangGap;Frey, Margaret W.;
2:327:1 Synthesis and optical properties of metal (M) atom-doped polycarbosilane (PCS) with extended conjugation (M = Al, Dy, Er and Eu)
DOI:10.1016/j.optmat.2013.07.033 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Yao, Rongqian;Zhao, Haoran;Feng, Zude;Chen, Lifu;Zhang, Ying;
2:327:2 Effect of doping of 8-hydroxyquinolinatolithium on electron transport in tris(8-hydroxyquinolinato)aluminum
DOI:10.1063/1.3596523 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:11 AU: Kumar, Arunandan;Srivastava, Ritu;Tyagi, Priyanka;Mehta, D. S.;Kamalasanan, M. N.;
2:327:3 A single-heterojunction electrophosphorescence device with high efficiency, long lifetime and suppressive roll-off
DOI:10.1016/j.synthmet.2012.11.024 JN:SYNTHETIC METALS PY:2013 TC:7 AU: Li, Yunfei;Hao, Yuying;Yan, Zhengfu;Liu, Huihui;Wang, Hua;Xu, Bingshe;
2:327:4 Effect of the thermal evaporation rate of Al cathodes on organic light emitting diodes
DOI:10.1016/j.mseb.2014.05.013 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2014 TC:1 AU: Shin, Hee Young;Suh, Min Chul;
2:327:5 Double-emission-layer green phosphorescent OLED based on LiF-doped TPBi as electron transport layer for improving efficiency and operational lifetime
DOI:10.1016/j.synthmet.2011.12.027 JN:SYNTHETIC METALS PY:2012 TC:16 AU: Yang, Qian;Hao, Yuying;Wang, Zhenguo;Li, Yunfei;Wang, Hua;Xu, Bingshe;
2:327:6 On the origin of exciton formation in dye doped Alq(3) OLEDs
DOI:10.1007/s00339-012-6957-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:3 AU: Gomez, J. A.;Castro, F. A.;Nueesch, F.;Zuppiroli, L.;Graeff, C. F. O.;
2:327:7 Preparation and luminescence properties of spin-coated PMMA films containing Si nanocrystallites
DOI:10.1016/j.matlet.2010.02.015 JN:MATERIALS LETTERS PY:2010 TC:8 AU: Lu, Wanbing;Bian, Yalan;Liu, Hongfei;Han, Li;Yu, Wei;Fu, Guangsheng;
2:327:8 Luminescent guest-host composite films based on an azomethine dye in different matrix polymers
DOI:10.1016/j.optmat.2014.10.056 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Marin, Luminita;Zabulica, Andrei;Moleavin, Ioana-Andreea;
2:327:9 Low voltage organic light emitting diode using p-i-n structure
DOI:10.1016/j.synthmet.2010.02.017 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Tyagi, Priyanka;Srivastava, Ritu;Kumar, Arunandan;Chauhan, Gayatri;Kumar, Amit;Bawa, S. S.;Kamalasanan, M. N.;
2:327:10 Elucidation on Joule heating and its consequences on the performance of organic light emitting diodes
DOI:10.1063/1.4861412 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Tyagi, Priyanka;Giri, Lalat Indu;Tuli, Suneet;Srivastava, Ritu;
2:327:11 Blue photoluminescence from continuous freestanding beta-SiC/SiOxCy/C-free nanocomposite films with polycarbosilane (PCS) precursor
DOI:10.1016/j.optmat.2010.11.018 JN:OPTICAL MATERIALS PY:2011 TC:5 AU: Yao, Rongqian;Feng, Zude;Zhang, Bingjie;Zhao, Haoran;Yu, Yuxi;Chen, Lifu;Zhang, Ying;
2:327:12 Red-luminescence enhancement of ZrO2-based phosphor by codoping Eu3+ and M5+ (M = Nb, Ta)
DOI:10.1016/j.optmat.2012.02.012 JN:OPTICAL MATERIALS PY:2012 TC:6 AU: Yin, Xin;Wang, Yaoming;Wan, Dongyun;Huang, Fuqiang;Yao, Jiyong;
2:327:13 Polysilane based ultraviolet light-emitting diodes with improved turn-on voltage, stability and color purity
DOI:10.1016/j.synthmet.2010.07.005 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Singh, Ranbir;Katiyar, Monica;
2:327:14 Field, temperature and thickness dependent electron transport in 5,5 '-(2,6-di-tert-butylanthracene-9,10-diy1)bis(2-p-tolyl-1,3,4-oxadiazole)
DOI:10.1016/j.synthmet.2010.01.019 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Kumar, Arunandan;Srivastava, Ritu;Tyagi, Priyanka;Mehta, D. S.;Kamalasanan, M. N.;Reddy, M. Ananth;Bhanuprakash, K.;
2:328:1 Nano-floating gate organic memory devices utilizing Ag-Cu nanoparticles embedded in PVA-PAA-glycerol polymer
DOI:10.1016/j.synthmet.2013.09.018 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Ayesh, A. I.;Qadri, S.;Baboo, V. J.;Haik, M. Y.;Haik, Y.;
2:328:2 Surface modification of a ferroelectric polymer insulator for low-voltage readable nonvolatile memory in an organic field-effect transistor
DOI:10.1063/1.3544308 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:16 AU: Kim, Won-Ho;Bae, Jin-Hyuk;Kim, Min-Hoi;Keum, Chang-Min;Park, Jaehoon;Lee, Sin-Doo;
2:328:3 Copper nanoparticles embedded in a polyimide film for non-volatile memory applications
DOI:10.1016/j.matlet.2011.10.099 JN:MATERIALS LETTERS PY:2012 TC:9 AU: Gupta, Raju Kumar;Kusuma, Damar Yoga;Lee, P. S.;Srinivasan, M. P.;
2:328:4 Novel organic memory devices using Au-Pt-Ag nanoparticles as charge storage elements
DOI:10.1016/j.matlet.2014.03.070 JN:MATERIALS LETTERS PY:2014 TC:2 AU: Haik, Mohammad Y.;Ayesh, Ahmad I.;Abdulrehman, Tahir;Haik, Yousef;
2:328:5 Pentacene-based metal-insulator-semiconductor memory structures utilizing single walled carbon nanotubes as a nanofloating gate
DOI:10.1063/1.3675856 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Sleiman, A.;Rosamond, M. C.;Martin, M. Alba;Ayesh, A.;Al Ghaferi, A.;Gallant, A. J.;Mabrook, M. F.;Zeze, D. A.;
2:328:6 Organic bistable devices utilizing carbon nanotubes embedded in poly(methyl methacrylate)
DOI:10.1063/1.4737599 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:10 AU: Sleiman, A.;Mabrook, M. F.;Nejm, R. R.;Ayesh, A.;Al Ghaferi, A.;Petty, M. C.;Zeze, D. A.;
2:328:7 Subthreshold characteristics of pentacene field-effect transistors influenced by grain boundaries
DOI:10.1063/1.4721676 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Park, Jaehoon;Jeong, Ye-Sul;Park, Kun-Sik;Do, Lee-Mi;Bae, Jin-Hyuk;Choi, Jong Sun;Pearson, Christopher;Petty, Michael;
2:328:8 Thermal and Mechanical Properties of Poly(vinyl alcohol) Plasticized with Glycerol
DOI:10.1002/app.34229 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:6 AU: Mohsin, Mahmood;Hossin, Asiful;Haik, Yousef;
2:328:9 Effects of the Surface Wettability of a Polymeric Insulator in a Solution-Processed Organic Transistor
DOI:10.1080/15421406.2012.702380 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Kim, Dong-Wook;Bae, Jin-Hyuk;Choi, Jong Sun;Park, Jaehoon;
2:329:1 Understanding Organic Film Behavior on Alloy and Metal Oxides
DOI:10.1021/la904120s JN:LANGMUIR PY:2010 TC:31 AU: Raman, Aparna;Quinones, Rosalynn;Barriger, Lisa;Eastman, Rachel;Parsi, Arash;Gawalt, Ellen S.;
2:329:2 Induction Heating Vs Conventional Heating for the Hydrothermal Treatment of Nitinol and Its Subsequent 2-(Methacryloyloxy)ethyl 2-(trimethylammonio)ethyl Phosphate Coating by Surface-Initiated Atom Transfer Radical Polymerization
DOI:10.1021/am200912k JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:12 AU: Devillers, S.;Barthelemy, B.;Delhalle, J.;Mekhalif, Z.;
2:329:3 Synergistic Effect on Corrosion Resistance of Phynox Substrates Grafted with Surface-Initiated ATRP (Co)polymerization of 2-Methacryloyloxyethyl Phosphorylcholine (MPC) and 2-Hydroxyethyl Methacrylate (HEMA)
DOI:10.1021/am500725d JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:5 AU: Barthelemy, Bastien;Maheux, Simon;Devillers, Sebastien;Kanoufi, Frederic;Combellas, Catherine;Delhalle, Joseph;Mekhalif, Zineb;
2:329:4 Grafting of bifunctional phosphonic and carboxylic acids on Phynox: Impact of induction heating
DOI:10.1016/j.apsusc.2011.02.020 JN:APPLIED SURFACE SCIENCE PY:2011 TC:7 AU: Devillers, S.;Lanners, L.;Delhalle, J.;Mekhalif, Z.;
2:329:5 Induction heating for surface triggering styrene polymerization on titanium modified with ATRP initiator
DOI:10.1016/j.jcis.2010.11.057 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:18 AU: Barthelemy, Bastien;Devillers, Sebastien;Minet, Isabelle;Delhalle, Joseph;Mekhalif, Zineb;
2:329:6 Influence of the Wettability on the Boiling Onset
DOI:10.1021/la203636a JN:LANGMUIR PY:2012 TC:14 AU: Bourdon, B.;Rioboo, R.;Marengo, M.;Gosselin, E.;De Coninck, J.;
2:329:7 Surface-initiated ATRP of 2-(methacryloyloxy)ethyl 2-(trimethylammonio)ethyl phosphate on Phynox
DOI:10.1016/j.apsusc.2011.08.091 JN:APPLIED SURFACE SCIENCE PY:2011 TC:7 AU: Barthelemy, Bastien;Devillers, Sebastien;Minet, Isabelle;Delhalle, Joseph;Mekhalif, Zineb;
2:329:8 Self-assembly of organic acid molecules on the metal oxide surface of a cupronickel alloy
DOI:10.1016/j.tsf.2012.02.064 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Kruszewski, Kristen M.;Renk, Emilee R.;Gawalt, Ellen S.;
2:329:9 Inductive heating hydrothermal synthesis of titanium dioxide nanostructures
DOI:10.1016/j.matlet.2012.12.083 JN:MATERIALS LETTERS PY:2013 TC:1 AU: Novaconi, S.;Vaszilcsin, N.;
2:330:1 Efficient Charge Transfer Mechanism in Polyfluorene/ZnO Nanocomposite Thin Films
DOI:10.1155/2014/608572 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Al-Asbahi, Bandar Ali;Jumali, Mohammad Hafizuddin Haji;Al-Gaashani, Rashad;
2:330:2 Charge transport and microstructure in PFO:MEH-PPV polymer blend thin films
DOI:10.1016/j.synthmet.2010.06.010 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Bajpai, Manisha;Srivastava, Ritu;Kamalasanan, M. N.;Tiwari, R. S.;Chand, Suresh;
2:330:3 Optoelectronic property enhancement of conjugated polymer in poly(9,9 '-di-n-octylfluorenyl-2.7-diyl)/titania nanocomposites
DOI:10.1016/j.tsf.2012.09.067 JN:THIN SOLID FILMS PY:2012 TC:5 AU: Jumali, Mohammad Hafizuddin Haji;Al-Asbahi, Bandar Ali;Yap, Chi Chin;Salleh, Muhamad Mat;Alsalhi, Mohamad Saleh;
2:330:4 Electronic energy transfer between poly(9,9 '-dihexylfluorene-2,2-dyil) and MEH-PPV: A photophysical study in solutions and in the solid state
DOI:10.1016/j.synthmet.2011.08.019 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Nome, Rene A.;de Oliveira, Hueder P. M.;Akcelrud, Leni;Atvars, Teresa D. Z.;
2:330:5 Effects of surface modification on the fluorescence properties of conjugated polymer/ZnO nanocomposites
DOI:10.1016/j.matchemphys.2010.06.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:16 AU: Jetson, Rachael;Yin, Kezhen;Donovan, Katrina;Zhu, Zhengtao;
2:330:6 Influence of TiO2 Nanoparticles on Enhancement of Optoelectronic Properties of PFO-Based Light Emitting Diode
DOI:10.1155/2013/561534 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:0 AU: Al-Asbahi, Bandar Ali;Jumali, Mohammad Hafizuddin Haji;Yap, Chi Chin;Salleh, Muhamad Mat;
2:330:7 Polyindole-Au nanocomposite produced at the liquid/liquid interface
DOI:10.1016/j.matlet.2011.08.087 JN:MATERIALS LETTERS PY:2012 TC:8 AU: Joshi, Leela;Prakash, Rajiv;
2:330:8 Investigations of optical properties of MEH-PPV/ZnO nanocomposites by photoluminescence spectroscopy
DOI:10.1016/j.synthmet.2012.01.011 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Musa, Ishaq;Massuyeau, Florian;Faulques, Eric;Thien-Phap Nguyen;
2:330:9 Microfabrication of electroluminescent polymer for devices construction
DOI:10.1016/j.apsusc.2014.07.074 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Estevam-Alves, R.;Ferreira, P. H. D.;Almeida, G. F. B.;Sousa, W. S.;Mendonca, C. R.;
2:330:10 Composite microspheres of poly(o-anisidine)/TiO2
DOI:10.1016/j.matlet.2011.10.025 JN:MATERIALS LETTERS PY:2012 TC:10 AU: Mahajan, Lalit H.;Mhaske, S. T.;
2:330:11 Comparison of photostability, optical and structural properties of TiO2/conjugated polymer hybrid composites prepared via different methods
DOI:10.1016/j.tsf.2010.08.051 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Vats, Tanvi;Sharma, Shailesh N.;Kumar, Mahesh;Kar, M.;Jain, Kiran;Singh, V. N.;Mehta, B. R.;Narula, A. K.;
2:331:1 Importance of Crosslinking and Disulfide Bridge Reduction for the Mechanical Properties of Rigid Wheat Gluten Bioplastics Compression Molded with Thiol and/or Disulfide Functionalized Additives
DOI:10.1002/app.41160 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Jansens, Koen J. A.;Bruyninckx, Kevin;Redant, Lore;Lagrain, Bert;Brijs, Kristof;Goderis, Bart;Smet, Mario;Delcour, Jan A.;
2:331:2 Improved electroluminescence efficiency of polyfluorenes by simultaneously incorporating dibenzothiophene-S,S-dioxide unit in main chain and oxadiazole moiety in side chain
DOI:10.1016/j.polymer.2014.02.032 JN:POLYMER PY:2014 TC:2 AU: Yang, Yong;Yu, Lei;Xue, Yong;Zou, Qinghua;Zhang, Bin;Ying, Lei;Yang, Wei;Peng, Junbiao;Cao, Yong;
2:331:3 Investigations on the electrochemical properties of new conjugated polymers containing benzo[c]cinnoline and oxadiazole moieties
DOI:10.1016/j.polymer.2011.10.059 JN:POLYMER PY:2011 TC:6 AU: Chen, Jyh-Chien;Wu, Hsin-Chung;Chiang, Chi-Jui;Peng, Li-Chia;Chen, Tuo;Xing, Li;Liu, Shun-Wei;
2:331:4 Synthesis and characterization of fluorene-derived PU as a thermo cross-linked hole-transporting layer for PLED
DOI:10.1016/j.polymer.2012.03.023 JN:POLYMER PY:2012 TC:6 AU: Chuang, Ching-Nan;Kuo, Chao-Hui;Cheng, Yu-Shan;Huang, Chih-Kai;Leung, Man-kit;Hsieh, Kuo-Huang;
2:331:5 Synthesis and characterization of polyimides from triphenylamine-based diamine monomers with thiophene or trifluoromethyl side group
DOI:10.1016/j.synthmet.2010.07.013 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Choi, Jun Keol;Cho, Kun;Yoon, Tae-Ho;
2:331:6 Synthesis and characterization of poly(triphenylamine)s with electron-withdrawing trifluoromethyl side groups for emissive and hole-transporting layer
DOI:10.1016/j.synthmet.2011.07.026 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Kim, Guntae;Basarir, Fevzihan;Yoon, Tae-Ho;
2:331:7 Synthesis and optoelectronic properties of thermally cross-linkable hole-transporting poly(fluorene-co-triphenylamine)
DOI:10.1016/j.polymer.2010.10.065 JN:POLYMER PY:2011 TC:10 AU: Su, Wen-Fen;Chen, Yun;
2:331:8 A new processable donor-acceptor polymer displaying neutral state yellow electrochromism
DOI:10.1016/j.polymer.2013.09.033 JN:POLYMER PY:2013 TC:4 AU: Oguzhan, Eda;Bilgili, Hakan;Koyuncu, Fatma Baycan;Ozdemir, Eyup;Koyuncu, Sermet;
2:331:9 Synthesis, optical and electrochemical properties of novel hole-blocking poly(biphenylene-1,3,4-oxadiazole) containing electron-withdrawing trifluoromethyl groups
DOI:10.1016/j.synthmet.2010.07.015 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Chen, Jyh-Chien;Chiang, Chi-Jui;Liu, Yen-Chun;
2:331:10 Influence of electrical fatigue on hole transport in poly(p-phenylenevinylene)-based organic light-emitting diodes
DOI:10.1063/1.3610381 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Stegmaier, Katja;Fleissner, Arne;Janning, Helga;Yampolskii, Sergey;Melzer, Christian;von Seggern, Heinz;
2:331:11 Synthesis and properties of novel alicyclic-functionalized polyimides prepared from natural -(D)-camphor
DOI:10.1002/app.39053 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Zhang, Hengsheng;Li, Juan;Tian, Zhilin;Liu, Feng;
2:331:12 Synthesis and optoelectronic properties of thermally cross-linkable fluorene derivative containing hole-transporting triphenylamine terminals
DOI:10.1016/j.polymer.2011.05.036 JN:POLYMER PY:2011 TC:4 AU: Su, Wen-Fen;Chen, Yun;
2:331:13 Synthesis, Characterization, and Photophysical Properties of Novel Poly(p-phenylene vinylene) Derivatives with Conjugated Thiophene as Side Chains
DOI:10.1002/app.33294 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:5 AU: Ding, Tianpeng;Zhao, Bin;Shen, Ping;Lu, Junjian;Li, Hui;Tan, Songting;
2:331:14 A new donor-acceptor carbazole derivative: Electrochemical polymerization and photo-induced charge transfer properties
DOI:10.1016/j.synthmet.2011.03.008 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Koyuncu, Fatma Baycan;Koyuncu, Sermet;Ozdemir, Eyup;
2:332:1 Resolving the Nanoscale Morphology and Crystallographic Structure of Molecular Thin Films: F16CuPc on Graphene Oxide
DOI:10.1021/cm300073v JN:CHEMISTRY OF MATERIALS PY:2012 TC:9 AU: Pandey, Priyanka A.;Rochford, Luke A.;Keeble, Dean S.;Rourke, Jonathan P.;Jones, Tim S.;Beanland, Richard;Wilson, Neil R.;
2:332:2 Ordered nanocolumn-array organic semiconductor thin films with controllable molecular orientation
DOI:10.1016/j.apsusc.2013.09.028 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Yang, Bingchu;Duan, Haichao;Zhou, Conghua;Gao, Yongli;Yang, Junliang;
2:332:3 Magnetic properties of copper hexadecaphthalocyanine (F16CuPc) thin films and powders
DOI:10.1063/1.4773456 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Wu, Wei;Rochford, L. A.;Felton, S.;Wu, Zhenlin;Yang, J. L.;Heutz, S.;Aeppli, G.;Jones, T. S.;Harrison, N. M.;Fisher, A. J.;
2:332:4 Growth of n-type organic semiconductor for low-voltage transistors based on an ALD grown Al2O3 gate dielectric
DOI:10.1016/j.synthmet.2013.09.033 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Na, Hanah;Shin, Tae Joo;Sim, Kyoseung;Chirawatkul, Prae;Kim, Sangwook;Heo, Kwan-Jun;Kim, Sung-Jin;Pyo, Seungmoon;
2:332:5 Nanowire-array films of copper hexadecafluorophthalocyanine (F16CuPc) fabricated by templated growth
DOI:10.1039/c0jm03411h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Yang, J. L.;Schumann, S.;Jones, T. S.;
2:332:6 Theoretical modeling of the electronic structure and exchange interactions in a Cu(II)Pc one-dimensional chain
DOI:10.1103/PhysRevB.84.024427 JN:PHYSICAL REVIEW B PY:2011 TC:10 AU: Wu, Wei;Fisher, A. J.;Harrison, N. M.;
2:332:7 Ultra long Copper Phthalocyanine Nanowires with New Crystal Structure and Broad Optical Absorption
DOI:10.1021/nn100782w JN:ACS NANO PY:2010 TC:19 AU: Wang, Hai;Mauthoor, Soumaya;Din, Salahud;Gardener, Jules A.;Chang, Rio;Warner, Marc;Aeppli, Gabriel;McComb, David W.;Ryan, Mary P.;Wu, Wei;Fisher, Andrew J.;Stoneham, Marshall;Heutz, Sandrine;
2:332:8 Electronic structure and exchange interactions in cobalt-phthalocyanine chains
DOI:10.1103/PhysRevB.88.024426 JN:PHYSICAL REVIEW B PY:2013 TC:7 AU: Wu, Wei;Harrison, N. M.;Fisher, A. J.;
2:332:9 Molecular organization in the thin films of chloroaluminium hexadecafluorophthalocyanine revealed by polarized Raman spectroscopy
DOI:10.1016/j.tsf.2013.09.006 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Basova, Tamara V.;Kiselev, Vitaly G.;Sheludyakova, Liliya A.;Yushina, Irina V.;
2:333:1 Role of ITO and PEDOT:PSS in stability/degradation of polymer: fullerene bulk heterojunctions solar cells
DOI:10.1016/j.solmat.2009.10.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:63 AU: Girtan, M.;Rusu, M.;
2:333:2 Electron transport properties of some newly synthesized nonsymmetrical bisindolizines in thin films
DOI:10.1016/j.synthmet.2010.09.039 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Leontie, L.;Danac, R.;Druta, I.;Carlescu, A.;Rusu, G. I.;
2:333:3 Electron transport properties of some new 4-tert-butylcalix[4]arene derivatives in thin films
DOI:10.1016/j.matchemphys.2012.04.034 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:2 AU: Leontie, Liviu;Danac, Ramona;Girtan, Mihaela;Carlescu, Aurelian;Rambu, Alicia Petronela;Rusu, Gheorghe I.;
2:333:4 Study of electronic transport properties of some new N-(p-R-phenacyl)-1,7-phenanthrolinium bromides in thin films
DOI:10.1016/j.matchemphys.2011.02.040 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:5 AU: Leontie, L.;Danac, R.;Apetroaei, N.;Rusu, G. I.;
2:333:5 d.c. electric conduction mechanism of some newly synthesized indolizine derivatives in thin films
DOI:10.1016/j.matchemphys.2012.03.110 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Danac, R.;Leontie, L.;Carlescu, A.;Rusu, G. I.;
2:333:6 On the direct current electric conductivity and conduction mechanism of some stable disubstituted 4-(4-pyridyl) pyridinium ylides in thin films
DOI:10.1016/j.tsf.2014.01.076 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Danac, R.;Leontie, L.;Girtan, M.;Prelipceanu, M.;Graur, A.;Carlescu, A.;Rusu, G. I.;
2:333:7 Newly synthesized fused heterocyclic compounds in thin films with semiconductor properties
DOI:10.1016/j.synthmet.2010.03.022 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Leontie, L.;Danac, R.;Druta, I.;Carlescu, A.;Rusu, G. I.;
2:334:1 All-organic self-contact transistors
DOI:10.1063/1.4890237 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Tamura, Sumika;Kadoya, Tomofumi;Mori, Takehiko;
2:334:2 Charge injection from organic charge-transfer salts to organic semiconductors
DOI:10.1039/c1jm12783g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Kadoya, Tomofumi;de Caro, Dominique;Jacob, Kane;Faulmann, Christophe;Valade, Lydie;Mori, Takehiko;
2:334:3 Ionic liquid-stabilized nanoparticles of charge transfer-based conductors
DOI:10.1016/j.synthmet.2010.03.013 JN:SYNTHETIC METALS PY:2010 TC:12 AU: de Caro, Dominique;Jacob, Kane;Faulmann, Christophe;Legros, Jean-Pierre;Senocq, Francois;Fraxedas, Jordi;Valade, Lydie;
2:334:4 Self-contact thin-film organic transistors based on tetramethyltetrathiafulvalene
DOI:10.1063/1.4792704 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Tamura, Sumika;Kadoya, Tomofumi;Kawamoto, Tadashi;Mori, Takehiko;
2:334:5 Colloidal Solutions of Organic Conductive Nanoparticles
DOI:10.1021/la401371c JN:LANGMUIR PY:2013 TC:4 AU: de Caro, Dominique;Souque, Matthieu;Faulmann, Christophe;Coppel, Yannick;Valade, Lydie;Fraxedas, Jordi;Vendier, Olivier;Courtade, Frederic;
2:334:6 First TTF-based conductor nanoparticles by electrocrystallization
DOI:10.1016/j.synthmet.2012.03.002 JN:SYNTHETIC METALS PY:2012 TC:4 AU: de Caro, Dominique;Jacob, Kane;Mazzi, Soumia;Carayon, Marie-Therese;Faulmann, Christophe;Valade, Lydie;
2:334:7 Tetrathiafulvalenium-bromide systems as nanosticks and nanoparticles stabilized by PEDOT
DOI:10.1016/j.synthmet.2011.03.007 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Souque, Matthieu;de Caro, Dominique;Valade, Lydie;
2:334:8 A General Electrochemical Strategy for Synthesizing Charge-Transfer Complex Micro/Nanowires
DOI:10.1002/adfm.200902187 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:10 AU: Ren, Liang;Xian, Xiaojun;Yan, Kai;Fu, Lei;Liu, Yuwen;Chen, Shengli;Liu, Zhongfan;
2:334:9 Carrier doping to the organic Mott insulator by conjugating with tetrathiafulvalene
DOI:10.1063/1.4750066 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Takahashi, Y.;Nakagawa, Y.;Hayakawa, K.;Inabe, T.;Naito, T.;
2:334:10 Nickel ethylene tetrathiolate polymers as nanoparticles: a new synthesis for future applications?
DOI:10.1007/s11051-013-1586-5 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:2 AU: Faulmann, Christophe;Chahine, Joe;Jacob, Kane;Coppel, Yannick;Valade, Lydie;de Caro, Dominique;
2:334:11 Double-shot inkjet printing of donor-acceptor-type organic charge-transfer complexes: Wet/nonwet definition and its use for contact engineering
DOI:10.1016/j.tsf.2009.11.024 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Hasegawa, Tatsuo;Hiraoka, Maki;Yamada, Toshikazu;
2:335:1 Nonlinear Absorbing Cationic Iridium(III) Complexes Bearing Benzothiazolylfluorene Motif on the Bipyridine (N boolean AND N) Ligand: Synthesis, Photophysics and Reverse Saturable Absorption
DOI:10.1021/am401133p JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:9 AU: Li, Yuhao;Dandu, Naveen;Liu, Rui;Hu, Lei;Kilina, Svetlana;Sun, Wenfang;
2:335:2 Synthesis and enhanced two-photon absorption properties of tetradonor-containing anthracene-centered 2-D cross-conjugated polymers
DOI:10.1039/c0jm04067c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Li, Xiaojing;Zhang, Xueheng;Li, Wen;Wang, Yalong;Liu, Tongliang;Zhang, Baoliang;Yang, Wenjun;
2:335:3 Broadband Nonlinear Absorbing Platinum 2,2 '-Bipyridine Complex Bearing 2-(Benzothiazol-2 '-yl)-9,9-diethyl-7-ethynylfluorene Ligands
DOI:10.1021/cm102494j JN:CHEMISTRY OF MATERIALS PY:2010 TC:46 AU: Sun, Wenfang;Zhang, Bingguang;Li, Yunjing;Pritchett, Timothy M.;Li, Zhongjing;Haley, Joy E.;
2:335:4 Iron-iron hydrogenase active subunit covalently linking to organic chromophore for light-driven hydrogen evolution
DOI:10.1016/j.ijhydene.2014.05.003 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:5 AU: Gao, Shang;Huang, Shuai;Duan, Qian;Hou, Jianhua;Jiang, Dayong;Liang, Qingcheng;Zhao, Jianxun;
2:335:5 Photocatalytic Hydrogen Evolution from Rhenium(I) Complexes to [FeFe] Hydrogenase Mimics in Aqueous SDS Micellar Systems: A Biomimetic Pathway
DOI:10.1021/la101322s JN:LANGMUIR PY:2010 TC:52 AU: Wang, Hong-Yan;Wang, Wen-Guang;Si, Gang;Wang, Feng;Tung, Chen-Ho;Wu, Li-Zhu;
2:335:6 Synthesis, crystal structure and photophysical properties of a series of metal complexes MI2L2 (M = Zn, Cd, Hg) from an imidazole derivative
DOI:10.1016/j.matchemphys.2012.12.031 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:0 AU: Fei, Wen-wen;Hu, Gui-ju;Li, Rui;Yang, Long-mei;Li, Sheng-li;Tian, Lei;Yang, Jia-xiang;Wu, Jie-ying;Tian, Yu-peng;
2:335:7 9,10-Bis(phenylethynyl)anthracene-based organic semiconducting molecules for annealing-free thin film transistors
DOI:10.1016/j.synthmet.2010.02.020 JN:SYNTHETIC METALS PY:2010 TC:12 AU: Bae, Suk Young;Jung, Ki Hwa;Hoang, Mai Ha;Kim, Kyung Hwan;Lee, Tae Wan;Cho, Min Ju;Jin, Jung-Il;Lee, Dong Hoon;Chung, Dae Sung;Park, Chan Eon;Choi, Dong Hoon;
2:335:8 Extending the Bandwidth of Reverse Saturable Absorption in Platinum Complexes Using Two-Photon-Initiated Excited-State Absorption
DOI:10.1021/am3018724 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:11 AU: Zhang, Bingguang;Li, Yunjing;Liu, Rui;Pritchett, Timothy M.;Haley, Joy E.;Sun, Wenfang;
2:335:9 2,6,9,10-Tetra(p-dibutylaminostyryl)anthracene as a multifunctional fluorescent cruciform dye
DOI:10.1039/c4tc01680g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Liu, Wei;Wang, Jianfeng;Gao, Yangyang;Sun, Qikun;Xue, Shanfeng;Yang, Wenjun;
2:335:10 Production of hydrogenases as biocatalysts
DOI:10.1016/j.ijhydene.2012.03.033 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2012 TC:5 AU: Kim, Seohyoung;Lu, Dongping;Park, Sunghoon;Wang, Guangyi;
2:335:11 The effects of micellar media on the photocatalytic H-2 production from water
DOI:10.1016/j.ijhydene.2011.06.007 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2011 TC:1 AU: He, Liqing;Luo, Chao;Hou, Yuanjun;Li, Chao;Zhou, Qianxiong;Sun, Yi;Wang, Weibo;Zhang, Baowen;Wang, Xuesong;
2:336:1 Degree of chain branching-dependent assemblies and conducting behavior in ionic liquid crystalline Janus dendrimers
DOI:10.1039/c0sm01435d JN:SOFT MATTER PY:2011 TC:22 AU: Choi, Jin-Woo;Cho, Byoung-Ki;
2:336:2 Liquid crystalline and ion-conducting properties of mesogenic dendron-coil-dendron copolymers: characterization of LC phases using normalized conductivity
DOI:10.1039/c3sm27959f JN:SOFT MATTER PY:2013 TC:9 AU: Choi, Sujin;Cho, Byoung-Ki;
2:336:3 Smectic assemblies in C-3-symmetric hexa-alkylated liquid crystals: transformation from smectogen to discogen via hydrogen bonding
DOI:10.1039/c4sm00919c JN:SOFT MATTER PY:2014 TC:6 AU: Park, Soyoung;Ryu, Mi-Hee;Shin, Tae Joo;Cho, Byoung-Ki;
2:336:4 Monoclinic to two-dimensional hexagonal transformation in hexacatenar molecules with a 1,2,3-triazole-based conjugated rod: morphology-dependent thermochromic behavior
DOI:10.1039/c4sm01051e JN:SOFT MATTER PY:2014 TC:2 AU: Han, Kyuwon;Cho, Byoung-Ki;
2:336:5 Design, synthesis, and self-assembly behavior of C-3-symmetry discotic molecules via click chemistry
DOI:10.1039/b921685e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Ryu, Mi-Hee;Choi, Jin-Woo;Cho, Byoung-Ki;
2:336:6 Supramolecular transformation from ordered columnar to disordered columnar to tetragonal micellar structures in clicked dodeca-alkylated discotic triphenylene liquid crystals
DOI:10.1039/c3sm52669k JN:SOFT MATTER PY:2014 TC:6 AU: Cho, Byoung-Ki;Kim, Seung-Hyun;
2:336:7 Cross-linking of discotic tetraazaporphyrin dyes in 2 and 3 dimensions by "click" chemistry
DOI:10.1039/c3tc31588f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:0 AU: Kayal, Himadri;Ahmida, Mohamed M.;Dufour, Scott;Taing, Hi;Eichhorn, S. Holger;
2:336:8 Face- and edge-on orientations of octa-acid and -alcohol substituted tetraazaporphyrins in Langmuir and Langmuir-Blodgett monolayers
DOI:10.1039/c2sm27064a JN:SOFT MATTER PY:2013 TC:2 AU: Ahmida, Mohamed;Dufour, Scott;Li, Hui-Sheng;Kayal, Himadri;Schmidt, Rolf;DeWolf, Christine E.;Eichhorn, S. Holger;
2:336:9 Gyroid nanostructure through manipulation of unique molecular shape, polarity and functionalization of a Janus amphiphilic codendrimer
DOI:10.1039/c2sm25905b JN:SOFT MATTER PY:2012 TC:4 AU: Liu, Bo;Yang, Miao;Xia, Nan;Zheng, Ping;Wang, Wei;Burger, Christian;
2:337:1 Photovoltaic and impedance spectroscopy analysis of p-n like junction for dye sensitized solar cell
DOI:10.1016/j.synthmet.2011.04.027 JN:SYNTHETIC METALS PY:2011 TC:10 AU: Yahia, I. S.;Hafez, Hoda S.;Yakuphanoglu, F.;Senkal, B. Filiz;Mottaleb, M. S. A. Abdel;
2:337:2 Optoelectronic devices based on ultra-violet light sensitive PVK:PCBM layers
DOI:10.1016/j.synthmet.2012.01.024 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Lange, Alexander;Fluegge, Harald;Fischer, Bert;Schmidt, Hans;Boeffel, Christine;Wegener, Michael;Riedl, Thomas;Kowalsky, Wolfgang;
2:337:3 Hydrothermal synthesis of Cu2S nanocrystalline thin film on indium tin oxide substrate: Morphology, optical and electrical properties
DOI:10.1016/j.tsf.2012.03.085 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Chen, Lin;Zou, Yunlong;Qiu, Weiming;Chen, Fei;Xu, Mingsheng;Shi, Minmin;Chen, Hongzheng;
2:337:4 Phase controlled all-polymer bulk-heterojunction photovoltaic cells with high open-circuit voltage
DOI:10.1016/j.solmat.2010.07.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:11 AU: Chen, Lin;Yang, Ligong;Shi, Minmin;Chen, Hongzheng;
2:337:5 The study of defect state of 2,7-dipyrenyl-9-phenyl-9-pyrenyl fluorene through admittance spectroscopy
DOI:10.1016/j.synthmet.2014.10.028 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Xu, Hui;Tang, Chao;Zhai, Wen-Juan;Liu, Rui-Lan;Rong, Zhou;Fan, Qu-Li;Huang, Wei;
2:337:6 Kinetics of occupancy of defect states in poly(3-hexylthiophene):fullerene solar cells
DOI:10.1016/j.tsf.2011.09.044 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Boix, Pablo P.;Ajuria, Jon;Etxebarria, Ikerne;Pacios, Roberto;Garcia-Belmonte, Germa;
2:337:7 Application of capacitance spectrum and the imaginary part of impedance spectrum to study carrier dynamics of N, N '-diphenyl-N,N ' bis(1,1 '-biphenyl)-4,4 '-diamine
DOI:10.1016/j.tsf.2014.01.063 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Xu, Hui;Tang, Chao;Wang, Xu-Liang;Liu, Wei;Liu, Rui-Lan;Rong, Zhou;Fan, Qu-Li;Huang, Wei;
2:337:8 Preparation and characterization of epitaxial growth of ZnO nanotip arrays by hydrothermal method
DOI:10.1016/j.jcis.2012.12.031 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2013 TC:2 AU: Venkatachalam, S.;Hayashi, H.;Ebina, T.;Nakamura, T.;Wakui, Y.;Nanjo, H.;
2:337:9 Excess current/capacitance observation on polymer-fullerene bulk heterojunction, studied through I-V and C/G-V measurements
DOI:10.1016/j.solmat.2012.03.026 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:2 AU: Kavak, Pelin;Menda, U. Deneb;Parlak, Elif Alturk;Ozdemir, Orhan;Kutlu, Kubilay;
2:337:10 Characterization of nanocrystalline indium tin oxide thin films prepared by ion beam sputter deposition method
DOI:10.1016/j.tsf.2010.07.034 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Venkatachalam, S.;Nanjo, Hiroshi;Hassan, Fathy M. B.;Kawasaki, Kazunori;Kanakubo, Mitsuhiro;Aizawa, Takafumi;Aida, Tsutomu;Ebina, Takeo;
2:337:11 Study of carrier mobility of N,N '-diphenyl-N,N ' bis(1,1 '-biphenyl)-4,4 '-diamine (NPB) by transmission line model of impedance spectroscopy
DOI:10.1016/j.tsf.2013.06.075 JN:THIN SOLID FILMS PY:2013 TC:4 AU: Tang, Chao;Xu, Hui;Wang, Xu-Liang;Liu, Wei;Liu, Rui-Lan;Rong, Zhou;Fan, Qu-Li;Huang, Wei;
2:338:1 Surface morphology of fluorene thin film fabricated by electrospray deposition technique using two organic solvents: Application for organic light-emitting diodes
DOI:10.1016/j.tsf.2011.07.048 JN:THIN SOLID FILMS PY:2011 TC:20 AU: Fukuda, Takeshi;Asaki, Hirotaka;Asano, Takashi;Takagi, Kenji;Honda, Zentaro;Kamata, Norihiko;Ju, Jungmyoung;Yamagata, Yutaka;
2:338:2 Enhancing spectral contrast in organic red-light photodetectors based on a light-absorbing and exciton-blocking layered system
DOI:10.1063/1.3466766 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:16 AU: Higashi, Yusuke;Kim, Kyu-Sik;Jeon, Hyeon-Gu;Ichikawa, Musubu;
2:338:3 Improved Photoconductive Characteristics of Solution-Processed Organic Device by Doping Silole Derivative
DOI:10.1080/15421401003594719 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:8 AU: Kobayashi, Ryohei;Fukuda, Takeshi;Suzuki, Yuu;Hatano, Ken;Kamata, Norihiko;Aihara, Satoshi;Seo, Hokuto;Terunuma, Daiyo;
2:338:4 Improved Signal-to-Noise Ratio of Green-Sensitive Organic Photoconductive Device by Doping Silole Derivative
DOI:10.1080/15421406.2013.804784 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Fukuda, Takeshi;Kimura, Sho;Kamata, Norihiko;Mori, Keita;Hatano, Ken;
2:338:5 Fabrication of planar organic nanotransistors using low temperature thermal nanoimprint lithography for chemical sensor applications
DOI:10.1088/0957-4484/21/7/075301 JN:NANOTECHNOLOGY PY:2010 TC:12 AU: Kettle, J.;Whitelegg, S.;Song, A. M.;Wedge, D. C.;Kotacka, L.;Kolarik, V.;Madec, M. B.;Yeates, S. G.;Turner, M. L.;
2:338:6 Impact of molecular size on resist filling process in nanoimprint lithography: Molecular dynamics study
DOI:10.1116/1.3511434 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:4 AU: Taga, Akihiro;Yasuda, Masaaki;Kawata, Hiroaki;Hirai, Yoshihiko;
2:338:7 High aspect ratio fine pattern transfer using a novel mold by nanoimprint lithography
DOI:10.1116/1.3662080 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:1 AU: Sakamoto, J.;Fujikawa, N.;Nishikura, N.;Kawata, H.;Yasuda, M.;Hirai, Y.;
2:338:8 Solution-Processed Green-Sensitive Organic Photoconductive Device Using Rhodamine 6G
DOI:10.1080/15421406.2012.701830 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Fukuda, Takeshi;Kimura, Sho;Honda, Zentaro;Kamata, Norihiko;
2:338:9 Impact of substrate deformation on demolding force for thermal imprint process
DOI:10.1116/1.3517537 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:2 AU: Kawata, H.;Watanabe, Y.;Fujikawa, N.;Yasuda, M.;Hirai, Y.;
2:338:10 Blue-Sensitive Organic Photoconductive Device with MDMO-PPV Doped F8BT Layer
DOI:10.1080/15421406.2011.566128 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Fukuda, Takeshi;Kimura, Sho;Honda, Zentaro;Kamata, Norihiko;
2:338:11 Doping Effect of Silole Derivative in Coumarin 30 Photoconductive Film
DOI:10.1080/15421406.2012.710188 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Sakai, Toshikatsu;Seo, Hokuto;Aihara, Satoshi;Kubota, Misao;Egami, Norifumi;Mori, Keita;Fukuda, Takeshi;Hatano, Ken;Kamata, Norihiko;
2:338:12 Doping Effect of Ethylcarbazole-Contained-Silole in Blue-Sensitive Organic Photoconductive Device
DOI:10.1080/15421406.2012.701120 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Kimura, Sho;Fukuda, Takeshi;Honda, Zentaro;Kamata, Norihiko;Mori, Keita;Hatano, Ken;
2:339:1 Transport in organic semiconductors in large electric fields: From thermal activation to field emission
DOI:10.1063/1.3309704 JN:APPLIED PHYSICS LETTERS PY:2010 TC:20 AU: Worne, J. H.;Anthony, J. E.;Natelson, D.;
2:339:2 Apparent Power-Law Behavior of Conductance in Disordered Quasi-One-Dimensional Systems
DOI:10.1103/PhysRevLett.105.106801 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:22 AU: Rodin, A. S.;Fogler, M. M.;
2:339:3 Hopping transport in systems of finite thickness or length
DOI:10.1103/PhysRevB.84.125447 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Rodin, A. S.;Fogler, M. M.;
2:339:4 Transport mechanism in ambipolar pentacene organic thin film transistors with lithium fluoride gate dielectric
DOI:10.1063/1.3597323 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Rahimi, R.;Korakakis, D.;
2:339:5 Physical origin of nonlinear transport in organic semiconductor at high carrier densities
DOI:10.1063/1.4897916 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Li, Ling;Lu, Nianduan;Liu, Ming;
2:339:6 Transport in organic semiconductors in large electric fields: From thermal activation to field emission (vol 96, 053308, 2010)
DOI:10.1063/1.3374456 JN:APPLIED PHYSICS LETTERS PY:2010 TC:0 AU: Worne, J. H.;Anthony, J. E.;Natelson, D.;
2:339:7 Effect of dielectric/organic interface properties on charge transport in organic thin film transistors
DOI:10.1063/1.4798927 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Rahimi, Ronak;Kuchibhatla, S.;Korakakis, D.;
2:339:8 Insulator-superconductor transition in bi-layers of Co clusters and Bi
DOI:10.1007/s11051-013-1782-3 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Dinola, I. S.;Herrera, W. T.;Continentino, M. A.;Micklitz, H.;Baggio-Saitovitch, E.;Xing, Y. T.;
2:339:9 ORGANIC SEMICONDUCTORS Carrier characteristics
DOI:10.1038/nmat2845 JN:NATURE MATERIALS PY:2010 TC:1 AU: Natelson, Douglas;
2:339:10 Band-like temperature dependence of mobility in a solution-processed organic semiconductor
DOI:10.1038/NMAT2825 JN:NATURE MATERIALS PY:2010 TC:144 AU: Sakanoue, Tomo;Sirringhaus, Henning;
2:340:1 Investigation of the Interfaces in Schottky Diodes Using Equivalent Circuit Models
DOI:10.1021/am400963x JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:3 AU: Yim, Chanyoung;McEvoy, Niall;Kim, Hye-Young;Rezvani, Ehsan;Duesberg, Georg S.;
2:340:2 Carbon-Silicon Schottky Barrier Diodes
DOI:10.1002/smll.201101996 JN:SMALL PY:2012 TC:8 AU: Yim, Chanyoung;McEvoy, Niall;Rezvani, Ehsan;Kumar, Shishir;Duesberg, Georg S.;
2:340:3 Transparent ultrathin conducting carbon films
DOI:10.1016/j.apsusc.2010.03.138 JN:APPLIED SURFACE SCIENCE PY:2010 TC:14 AU: Schreiber, Martin;Lutz, Tarek;Keeley, Gareth P.;Kumar, Shishir;Boese, Markus;Krishnamurthy, Satheesh;Duesberg, Georg S.;
2:340:4 Asymmetric Contacts on a Single SnO2 Nanowire Device: An Investigation Using an Equivalent Circuit Model
DOI:10.1021/am2006096 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:4 AU: Huh, Junghwan;Na, Junhong;Ha, Jeong Sook;Kim, Sangtae;Kim, Gyu Tae;
2:340:5 An investigation of the electrical properties of the interface between pyrolytic carbon and silicon for Schottky diode applications
DOI:10.1063/1.4725429 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Graham, A. P.;Jay, T.;Jakschik, S.;Knebel, S.;Weber, W.;Schroeder, U.;Mikolajick, T.;
2:340:6 Carbon Optically Transparent Electrodes for Electrogenerated Chemiluminescence
DOI:10.1021/la2042394 JN:LANGMUIR PY:2012 TC:6 AU: Walker, E. Kate;Vanden Bout, David A.;Stevenson, Keith J.;
2:340:7 Electrogenerated Chemiluminescence of Conjugated Polymer Films from Patterned Electrodes
DOI:10.1021/ja200123b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:8 AU: Guo, Song;Fabian, Omar;Chang, Ya-Lan;Chen, Jiun-Tai;Lackowski, William M.;Barbara, Paul F.;
2:340:8 Tunable Charge-Transport Properties of I-h-C-80 Endohedral Metallofullerenes: Investigation of La-2@C-80, Sc3N@C-80, and Sc3C2@C-80
DOI:10.1021/ja303660g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:10 AU: Sato, Satoru;Seki, Shu;Luo, Guangfu;Suzuki, Mitsuaki;Lu, Jing;Nagase, Shigeru;Akasaka, Takeshi;
2:340:9 An investigation of the electrical properties of metal-insulator-silicon capacitors with pyrolytic carbon electrodes
DOI:10.1063/1.3511750 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Graham, A. P.;Richter, K.;Jay, T.;Weber, W.;Knebel, S.;Schroeder, U.;Mikolajick, T.;
2:340:10 An investigation of the electrical properties of pyrolytic carbon in reduced dimensions: Vias and wires
DOI:10.1063/1.3374691 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Graham, A. P.;Schindler, G.;Duesberg, G. S.;Lutz, T.;Weber, W.;
2:340:11 Carrier transport properties of nanocrystalline Er3N@C-80
DOI:10.1063/1.4887796 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Sun, Yong;Maeda, Yuki;Sezaimaru, Hiroki;Sakaino, Masamichi;Kirimoto, Kenta;
2:340:12 Electrical properties of fullerenol C-60(OH)(10)/Au interface
DOI:10.1063/1.4861184 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Sakaino, Masamichi;Sun, Yong;Morimoto, Fumio;
2:341:1 The role of micro-shorts and electrode-film interface in the electrical transport of ultra-thin metallophthalocyanine capacitive devices
DOI:10.1063/1.4755762 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Monton, C.;Valmianski, I.;Schuller, Ivan K.;
2:341:2 Charge injection across a metal-organic interface suppressed by thermal diffusion
DOI:10.1063/1.4863205 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Monton, C.;Saerbeck, T.;Valmianski, I.;Schuller, Ivan K.;
2:341:3 Exponential behavior of the Ohmic transport in organic films
DOI:10.1103/PhysRevB.83.085414 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Colesniuc, Corneliu N.;Biswas, Rudro R.;Hevia, Samuel A.;Balatsky, Alexander V.;Schuller, Ivan K.;
2:341:4 Organic photovoltaic cells with nano-fabric heterojunction structure
DOI:10.1063/1.3679097 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Park, June Hyoung;Carter, Austin R.;Mier, Lynetta M.;Kao, Chi-Yueh;Lewis, Sharlene A. M.;Nandyala, Raju P.;Min, Yong;Epstein, Arthur J.;
2:341:5 Study of Co-phthalocyanine films by surface plasmon resonance spectroscopy
DOI:10.1063/1.4868160 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Serrano, A.;Monton, C.;Valmianski, I.;Galvez, F.;Cortajarena, A. L.;de la Venta, J.;Schuller, Ivan K.;Garcia, M. A.;
2:341:6 Donor-acceptor conjugates-functionalized zinc phthalocyanine: Towards broad absorption and application in organic solar cells
DOI:10.1016/j.solmat.2010.05.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:15 AU: Liang, Fushun;Shi, Fan;Fu, Yingying;Wang, Lifen;Zhang, Xintong;Xie, Zhiyuan;Su, Zhongmin;
2:341:7 Photovoltaic properties of the copper-phthalocyanine and ZnO nanorod array system affected by ethanol
DOI:10.1016/j.apsusc.2010.09.068 JN:APPLIED SURFACE SCIENCE PY:2011 TC:7 AU: Liu, Yiting;Liu, Aimin;Liu, Weifeng;Sang, Yongchang;Hu, Zengquan;Kang, Dawei;
2:341:8 Control of magnetic properties in metallo-organic thin films
DOI:10.1007/s10853-010-4319-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:9 AU: Gredig, Thomas;Gentry, K. Paul;Colesniuc, Corneliu N.;Schuller, Ivan K.;
2:341:9 Orientation study of iron phthalocyanine (FePc) thin films deposited on silicon substrate investigated by atomic force microscopy and micro-Raman spectroscopy
DOI:10.1007/s10853-011-5940-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Szybowicz, M.;Makowiecki, J.;
2:341:10 Mobility saturation in tapered edge bottom contact copper phthalocyanine thin film transistors
DOI:10.1116/1.3464771 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:3 AU: Royer, James E.;Park, Jeongwon;Colesniuc, Corneliu;Lee, Joon Sung;Gredig, Thomas;Lee, Sangyeob;Jin, Sungho;Schuller, Ivan K.;Trogler, William C.;Kummel, Andrew C.;
2:342:1 Welding of gold nanowires with different joining procedures
DOI:10.1007/s11051-011-0666-7 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:2 AU: Guo, J. Y.;Xu, C. X.;Hu, A. M.;Shi, Z. L.;Sheng, F. Y.;Dai, J.;Li, Z. H.;
2:342:2 Nanoscale Metal-Metal Contact Physics from Molecular Dynamics: The Strongest Contact Size
DOI:10.1103/PhysRevLett.104.215504 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:11 AU: Kim, Hojin;Strachan, Alejandro;
2:342:3 Adhesion and the cold welding of gold-silver thin films
DOI:10.1063/1.3305791 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:10 AU: Akande, Wali O.;Cao, Yifang;Yao, Nan;Soboyejo, Wole;
2:342:4 Molecular dynamics study of dynamical contact between a nanoscale tip and substrate for atomic force microscopy experiments
DOI:10.1063/1.4762016 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:5 AU: Kim, Hojin;Venturini, Gabriela;Strachan, Alejandro;
2:342:5 Adhesion and degradation of organic and hybrid organic-inorganic light-emitting devices
DOI:10.1063/1.4867051 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Momodu, D. Y.;Tong, T.;Kana, M. G. Zebaze;Chioh, A. V.;Soboyejo, W. O.;
2:342:6 Molecular dynamics characterization of the contact between clean metallic surfaces with nanoscale asperities
DOI:10.1103/PhysRevB.83.024108 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Kim, Hojin;Strachan, Alejandro;
2:342:7 Size-dependent hardness of nanoscale metallic contacts from molecular dynamics simulations
DOI:10.1103/PhysRevB.86.064101 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Kim, Hojin;Strachan, Alejandro;
2:342:8 Silver oxalate-based solders: New materials for high thermal conductivity microjoining
DOI:10.1016/j.scriptamat.2012.12.018 JN:SCRIPTA MATERIALIA PY:2013 TC:3 AU: Kiryukhina, K.;Le Trong, H.;Tailhades, Ph;Lacaze, J.;Baco, V.;Gougeon, M.;Courtade, F.;Dareys, S.;Vendier, O.;Raynaud, L.;
2:342:9 The study of anisotropic behavior of nano-adhesive contact by multiscale simulation
DOI:10.1016/j.tsf.2014.07.012 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Mei, Jifa;Ni, Yushan;
2:342:10 The characteristics of laser welded magnesium alloy using silver nanoparticles as insert material
DOI:10.1016/j.msea.2011.12.092 JN:MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES PY:2012 TC:3 AU: Ishak, M.;Maekawa, K.;Yamasaki, K.;
2:343:1 Tunable optical gratings based on buckled nanoscale thin films on transparent elastomeric substrates
DOI:10.1063/1.3298744 JN:APPLIED PHYSICS LETTERS PY:2010 TC:21 AU: Yu, Cunjiang;O'Brien, Kevin;Zhang, Yong-Hang;Yu, Hongbin;Jiang, Hanqing;
2:343:2 Highly Deformable Nanostructured Elastomeric Electrodes With Improving Conductivity Upon Cyclical Stretching
DOI:10.1002/adma.201102463 JN:ADVANCED MATERIALS PY:2011 TC:18 AU: Corbelli, Gabriele;Ghisleri, Cristian;Marelli, Mattia;Milani, Paolo;Ravagnan, Luca;
2:343:3 Development of Fe-B Based Bulk Metallic Glasses: Morphology of Residual Phases in Fe50Ni16Mo6B18Zr10 Glass
DOI:10.3390/met3020159 JN:METALS PY:2013 TC:0 AU: Aboki, Tiburce A.;
2:343:4 Forming wrinkled stiff films on polymeric substrates at room temperature for stretchable interconnects applications
DOI:10.1016/j.tsf.2010.08.106 JN:THIN SOLID FILMS PY:2010 TC:20 AU: Yu, Cunjiang;Jiang, Hanqing;
2:343:5 Facile large-area photolithography of periodic sub-micron structures using a self-formed polymer mask
DOI:10.1063/1.4726085 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Chen, Kevin;Azhar, Ebraheem;Ma, Teng;Jiang, Hanqing;Yu, Hongbin;
2:343:6 A simple scanning spectrometer based on a stretchable elastomeric reflective grating
DOI:10.1063/1.4865427 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ghisleri, C.;Potenza, M. A. C.;Ravagnan, L.;Bellacicca, A.;Milani, P.;
2:343:7 Hydrogen production by photocatalytic membranes fabricated by supersonic cluster beam deposition on glass fiber filters
DOI:10.1016/j.ijhydene.2014.06.088 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2014 TC:1 AU: Della Foglia, Flavio;Chiarello, Gian Luca;Dozzi, Maria Vittoria;Piseri, Paolo;Bettini, Luca Giacomo;Vinati, Simone;Ducati, Caterina;Milani, Paolo;Selli, Elena;
2:343:8 Nickel nanoparticles effect on the electrochemical energy storage properties of carbon nanocomposite films
DOI:10.1088/0957-4484/25/43/435401 JN:NANOTECHNOLOGY PY:2014 TC:2 AU: Bettini, Luca Giacomo;Divitini, Giorgio;Ducati, Caterina;Milani, Paolo;Piseri, Paolo;
2:343:9 Electrochemical impedance spectroscopy on nanostructured carbon electrodes grown by supersonic cluster beam deposition
DOI:10.1007/s11051-013-1429-4 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:4 AU: Bettini, Luca Giacomo;Bardizza, Giorgio;Podesta, Alessandro;Milani, Paolo;Piseri, Paolo;
2:343:10 High-rate production of functional nanostructured films and devices by coupling flame spray pyrolysis with supersonic expansion
DOI:10.1088/0957-4484/23/18/185603 JN:NANOTECHNOLOGY PY:2012 TC:5 AU: Wegner, K.;Vinati, S.;Piseri, P.;Antonini, A.;Zelioli, A.;Barborini, E.;Ducati, C.;Milani, P.;
2:343:11 Neutral-cluster implantation in polymers by computer experiments
DOI:10.1063/1.4810933 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:4 AU: Cardia, Roberto;Melis, Claudio;Colombo, Luciano;
2:344:1 Supramolecular Self-Assembly of Amphiphilic Anionic Platinum(II) Complexes: A Correlation between Spectroscopic and Morphological Properties
DOI:10.1021/ja203920w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:45 AU: Po, Charlotte;Tam, Anthony Yiu-Yan;Wong, Keith Man-Chung;Yam, Vivian Wing-Wah;
2:344:2 Ionizing radiation induced degradation of poly (2-methoxy-5-(2 '-ethyl-hexyloxy)-1,4-phenylene vinylene) in solution
DOI:10.1063/1.3644946 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:13 AU: Bronze-Uhle, E. S.;Batagin-Neto, A.;Lavarda, F. C.;Graeff, C. F. O.;
2:344:3 Poly [1,1 '-bis(ethynyl)-4,4 '-biphenyl(bis-tributylphosphine)Pt(II)] solutions used as low dose ionizing radiation dosimeter
DOI:10.1063/1.4812186 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Bronze-Uhle, E. S.;Batagin-Neto, A.;Fernandes, D. M.;Fratoddi, I.;Russo, M. V.;Graeff, C. F. O.;
2:344:4 High-Efficiency Green Organic Light-Emitting Devices Utilizing Phosphorescent Bis-cyclometalated Alkynylgold(III) Complexes
DOI:10.1021/ja106579d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:56 AU: Au, Vonika Ka-Man;Wong, Keith Man-Chung;Tsang, Daniel Ping-Kuen;Chan, Mei-Yee;Zhu, Nianyong;Yam, Vivian Wing-Wah;
2:344:5 Supramolecular Assembly of Metal-Ligand Chromophores for Sensing and Phosphorescent OLED Applications
DOI:10.1002/adma.201306327 JN:ADVANCED MATERIALS PY:2014 TC:9 AU: Wong, Keith Man-Chung;Chan, Maggie Mei-Yee;Yam, Vivian Wing-Wah;
2:344:6 The nature of the styrylindolium dye: transformations among its monomer, aggregates and water adducts
DOI:10.1039/c3tc30768a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Liu, Chang;Lu, Yan;He, Song;Wang, Qing;Zhao, Liancheng;Zeng, Xianshun;
2:344:7 MEH-PPV hypsochromic shifts in halogenated solvents induced by gamma-rays
DOI:10.1016/j.matchemphys.2011.12.022 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:3 AU: Bronze-Uhle, Erika S.;Borin, Joao F.;Batagin-Neto, Augusto;Alves, Marcelo C. O.;Graeff, Carlos F. O.;
2:344:8 Achieving a Stable Time Response in Polymeric Radiation Sensors under Charge Injection by X-rays
DOI:10.1021/am100220y JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:7 AU: Intaniwet, Akarin;Mills, Christopher A.;Sellin, Paul J.;Shkunov, Maxim;Keddie, Joseph L.;
2:344:9 Computational Studies on the Excited States of Luminescent Platinum(II) Alkynyl Systems of Tridentate Pincer Ligands in Radiative and Nonradiative Processes
DOI:10.1021/ja406810a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: Lam, Wai Han;Lam, Elizabeth Suk-Hang;Yam, Vivian Wing-Wah;
2:344:10 Transformable Nanostructures of Platinum-Containing Organosilane Hybrids: Non-covalent Self-Assembly of Polyhedral Oligomeric Silsesquioxanes Assisted by Pt...Pt and pi-pi Stacking Interactions of Alkynylplatinum(II) Terpyridine Moieties
DOI:10.1021/ja510048b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Au-Yeung, Ho-Leung;Leung, Sammual Yu-Lut;Tam, Anthony Yiu-Yan;Yam, Vivian Wing-Wah;
2:344:11 CdWO4-on-MEH-PPV:PS as a candidate for real-time dosimeters
DOI:10.1016/j.matchemphys.2012.08.022 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:0 AU: Silva, M. M.;Novais, S. M. V.;Silva, E. S. S.;Schimitberger, T.;Macedo, Z. S.;Bianchi, R. F.;
2:344:12 Gamma radiation effects on absorbance and emission properties of layer-by-layer PPV/DBS films
DOI:10.1016/j.jnoncrysol.2010.05.099 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:3 AU: Ramos Silva, Marcia Dutra;Gancalves, Antonio Ariza, Jr.;Silva, Raigna A.;Marietta, Alexandre;
2:344:13 Heavy metallic oxide nanoparticles for enhanced sensitivity in semiconducting polymer x-ray detectors
DOI:10.1088/0957-4484/23/23/235502 JN:NANOTECHNOLOGY PY:2012 TC:7 AU: Intaniwet, A.;Mills, C. A.;Shkunov, M.;Sellin, P. J.;Keddie, J. L.;
2:345:1 High-efficiency near-infrared organic light-emitting devices based on an iridium complex with negligible efficiency roll-off
DOI:10.1039/c3tc30866a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Tao, Ran;Qiao, Juan;Zhang, Guoliang;Duan, Lian;Chen, Chao;Wang, Liduo;Qiu, Yong;
2:345:2 Extended Conjugation Platinum(II) Porphyrins for use in Near-Infrared Emitting Organic Light Emitting Diodes
DOI:10.1021/cm202242x JN:CHEMISTRY OF MATERIALS PY:2011 TC:44 AU: Graham, Kenneth R.;Yang, Yixing;Sommer, Jonathan R.;Shelton, Abigail H.;Schanze, Kirk S.;Xue, Jiangeng;Reynolds, John R.;
2:345:3 Energy transfer from exciplexes to dopants and its effect on efficiency of organic light-emitting diodes
DOI:10.1063/1.3672836 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:15 AU: Park, Young-Seo;Jeong, Won-Ik;Kim, Jang-Joo;
2:345:4 Near-infrared electroluminescent lanthanide [Pr(III), Nd(III), Ho(III), Er(III), Tm(III), and Yb(III)] N,O-chelated complexes for organic light-emitting devices
DOI:10.1039/c1jm13023d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:32 AU: Katkova, Marina A.;Pushkarev, Anatoly P.;Balashova, Tatyana V.;Konev, Alexey N.;Fukin, Georgy K.;Ketkov, Sergey Yu.;Bochkarev, Mikhail N.;
2:345:5 Photophysical Properties of Near-Infrared Phosphorescent pi-Extended Platinum Porphyrins
DOI:10.1021/cm202241e JN:CHEMISTRY OF MATERIALS PY:2011 TC:36 AU: Sommer, Jonathan R.;Shelton, Abigail H.;Parthasarathy, Anand;Ghiviriga, Ion;Reynolds, John R.;Schanze, Kirk S.;
2:345:6 Electroluminescent properties of lanthanide pentafluorophenolates
DOI:10.1039/c3tc32054e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Pushkarev, Anatoly P.;Ilichev, Vasily A.;Maleev, Alexander A.;Fagin, Anatoly A.;Konev, Alexey N.;Shestakov, Alexander F.;Rumyantzev, Roman V.;Fukin, Georgy K.;Bochkarev, Mikhail N.;
2:345:7 Blue emitting C-2-symmetrical dibenzothiazolyl substituted pyrrole, furan and thiophene
DOI:10.1039/c3tc00760j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Reid, Brodie L.;Briggs, Steven B.;Karagiannidis, Louise E.;Muzzioli, Sara;Raiteri, Paolo;Light, Mark E.;Stagni, Stefano;Brulatti, Pierpaolo;Gale, Philip A.;Ogden, Mark I.;Massi, Massimiliano;
2:345:8 Synthesis and luminescent properties of 3-(2-benzoxazol-2-yl)- and 3-(2-benzothiazol-2-yl)-2-naphtholates of some non-transition and rare earth metals
DOI:10.1016/j.synthmet.2012.12.034 JN:SYNTHETIC METALS PY:2013 TC:6 AU: Burin, Mikhail E.;Kuzyaev, Dmitry M.;Lopatin, Mikhail A.;Pushkarev, Anatoly P.;Ilichev, Vasilii A.;Vorozhtsov, Dmitry L.;Dmitriev, Artem V.;Lypenko, Dmitry A.;Maltsev, Eugene I.;Bochkarev, Mikhail N.;
2:345:9 The characterization of electroplex generated from the interface between 2-(4-trifluoromethyl-2-hydroxyphenyl)benzothiazole] zinc and N,N'-diphenyl-N,N'- bis(1-naphthyl)-(1,1'-biphenyl)-4,4'-diamine
DOI:10.1007/s00339-011-6677-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:1 AU: Zhang, Ye;Hao, Yuying;Meng, Weixin;Xu, Huixia;Wang, Hua;Xu, Bingshe;
2:346:1 One-dimensional 8-hydroxyquinoline metal complex nanomaterials: synthesis, optoelectronic properties, and applications
DOI:10.1007/s10853-011-5264-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Yin, Zhigang;Wang, Bingxi;Chen, Guihua;Zhan, Mingjian;
2:346:2 New approach to synthesize 8-hydroxyquinoline-based complexes with Zn2+ and their luminescent properties
DOI:10.1016/j.optmat.2013.08.032 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Wang, Ruifang;Cao, Yali;Jia, Dianzeng;Liu, Lang;Li, Fang;
2:346:3 Hopping Magnetotransport via Nonzero Orbital Momentum States and Organic Magnetoresistance
DOI:10.1103/PhysRevLett.108.186601 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:9 AU: Alexandrov, Alexandre S.;Dediu, Valentin A.;Kabanov, Victor V.;
2:346:4 Magnetic susceptibility of Alq(3) powder, pure and Al-doped 8-hydroxyquinoline
DOI:10.1016/j.jmmm.2009.05.053 JN:JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS PY:2010 TC:5 AU: Burke, Franklyn;Abid, Mohamed;Stamenov, Plamen;Coey, J. M. D.;
2:346:5 High photoluminescence and photoswitch of bis(8-hydroxyquinoline) zinc nanoribbons
DOI:10.1016/j.synthmet.2010.01.008 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Wang, Xiuhua;Shao, Mingwang;Liu, Li;
2:346:6 A facile route to ultra-long bis(8-hydroxyquinoline) magnesium nanoribbons and the fabrication of photoswitch
DOI:10.1016/j.tsf.2010.08.010 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Wang, Xiuhua;Shao, Mingwang;Liu, Li;
2:346:7 Tris(8-hydroxyquinoline)aluminum (III) (Alq3) nanowires templated from an eggshell membrane
DOI:10.1016/j.tsf.2010.04.019 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Lee, Tu;Chang, Shih Chia;Peng, Jen Fan;
2:346:8 Magnetic properties of tris(8-hydroxyquinoline)iron: Experimental and theoretical investigation
DOI:10.1063/1.3651750 JN:APPLIED PHYSICS LETTERS PY:2011 TC:0 AU: Pang, Zhiyong;Lin, Liang;Wang, Fenggong;Fang, Shaojie;Dai, Ying;Han, Shenghao;
2:346:9 Influence of 8-hydroxyquinoline on properties of anodic coatings obtained by micro arc oxidation on AZ91 magnesium alloys
DOI:10.1016/j.jallcom.2012.04.120 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2012 TC:5 AU: Zhang, R. F.;Zhang, S. F.;Yang, N.;Yao, L. J.;He, F. X.;Zhou, Y. P.;Xu, X.;Chang, L.;Bai, S. J.;
2:346:10 Hopping Magnetotransport via Nonzero Orbital Momentum States and Organic Magnetoresistance (vol 108, 186601, 2012)
DOI:10.1103/PhysRevLett.108.249903 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:0 AU: Alexandrov, Alexandre S.;
2:346:11 Negative magnetoresistance in a low-k dielectric
DOI:10.1063/1.4904999 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: McGowan, B. T.;Lloyd, J. R.;
2:346:12 Fabrication and electrogenerated chemiluminescence properties of uniform octahedral 8-hydroxyquinoline zinc (Znq(2))
DOI:10.1016/j.materresbull.2013.01.016 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:0 AU: Chen, Xi-Bao;Yang, Xiao-Dong;Hu, Xiao-Wei;Mao, Chang-Jie;Song, Ji-Ming;Niu, He-Lin;Zhang, Sheng-Yi;
2:346:13 Synthesis and luminescence properties of polymeric complexes of Cu(II), Zn(II) and Al(III) with 8-hydroxyquinoline side group-containing polystyrene
DOI:10.1016/j.optmat.2012.10.006 JN:OPTICAL MATERIALS PY:2013 TC:3 AU: Gao, Baojiao;Wei, Xiaopeng;Zhang, Yanyan;
2:347:1 Structure and property development of poly(3-hexylthiophene) organogels probed with combined rheology, conductivity and small angle neutron scattering
DOI:10.1039/c2sm26114f JN:SOFT MATTER PY:2012 TC:10 AU: Newbloom, Gregory M.;Weigandt, Katie M.;Pozzo, Danilo C.;
2:347:2 Controlled gelation of poly(3-alkylthiophene)s in bulk and in thin-films using low volatility solvent/poor-solvent mixtures
DOI:10.1039/c4sm00960f JN:SOFT MATTER PY:2014 TC:1 AU: Newbloom, Gregory M.;de la Iglesia, Pablo;Pozzo, Lilo D.;
2:347:3 Effect of Polymer Aggregation on the Open Circuit Voltage in Organic Photovoltaic Cells: Aggregation-Induced Conjugated Polymer Gel and its Application for Preventing Open Circuit Voltage Drop
DOI:10.1021/am101067x JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:24 AU: Kim, Bong-Gi;Jeong, Eun Jeong;Park, Hui Joon;Bilby, David;Guo, L. Jay;Kim, Jinsang;
2:347:4 Dispersion of P3HT gelation and its influence on the performance of bulk heterojunction organic solar cells based on P3HT:PCBM
DOI:10.1016/j.solmat.2014.03.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Li, Ping;Chen, Li Jia;Pan, Jing;Niu, Guo Xi;Zhang, Ting;Xiang, Jin;Cai, Lun;Hu, Yi;Zhang, Yu Jun;Wan, Ke Ming;Song, Qun Liang;
2:347:5 Preparation of Porous Poly(3-hexylthiophene) by Freeze-Dry Method and Its Application to Organic Photovoltaics
DOI:10.1002/app.34132 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:10 AU: Huang, Ping-Tsung;Chang, Yao-Sheng;Chou, Cheng-Wei;
2:347:6 Effects of supersaturation on the structure and properties of poly(9,9-dioctyl fluorene) organogels
DOI:10.1039/c3sm51753e JN:SOFT MATTER PY:2013 TC:2 AU: de la Iglesia, Pablo;Pozzo, Danilo C.;
2:348:1 Crystal Engineering: From Molecule to Crystal
DOI:10.1021/ja403264c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:123 AU: Desiraju, Gautain R.;
2:348:2 Cucurbit[6]uril-Based Supramolecular Assemblies: Possible Application in Radioactive Cesium Cation Capture
DOI:10.1021/ja5098836 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Chen, Kai;Kong, Yan-Shang;Zhao, Yue;Yang, Ji-Min;Lu, Yi;Sun, Wei-Yin;
2:348:3 On-Surface Solvent-Free Crystal-to-Co-crystal Conversion by Non-Covalent Interactions
DOI:10.1021/ja5066587 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Boterashvili, Meital;Lahav, Michal;Shankar, Sreejith;Facchetti, Antonio;van der Boom, Milko E.;
2:348:4 Microhydration Effects on the Encapsulation of Potassium Ion by Dibenzo-18-Crown-6
DOI:10.1021/ja4086066 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Inokuchi, Yoshiya;Ebata, Takayuki;Rizzo, Thomas R.;Boyarkin, Oleg V.;
2:348:5 The Phenoxyl Radical-Water Complex-A Matrix Isolation and Computational Study
DOI:10.1021/ja301528w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:14 AU: Sander, Wolfram;Roy, Saonli;Polyak, Iakov;Ramirez-Anguita, Juan Manuel;Sanchez-Garcia, Elsa;
2:348:6 Odd-Even Effect in the Elastic Modulii of alpha,omega-Alkanedicarboxylic Acids
DOI:10.1021/ja402290h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:16 AU: Mishra, Manish Kumar;Varughese, Sunil;Ramamurty, Upadrasta;Desiraju, Gautam R.;
2:348:7 Thiourea as a Template for Photodimerization of Azastilbenes
DOI:10.1021/ja105166d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:52 AU: Bhogala, Balakrishna R.;Captain, Burjor;Parthasarathy, Anand;Ramamurthy, V.;
2:348:8 UV and IR Spectroscopic Studies of Cold Alkali Metal Ion-Crown Ether Complexes in the Gas Phase
DOI:10.1021/ja2046205 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:24 AU: Inokuchi, Yoshiya;Boyarkin, Oleg V.;Kusaka, Ryoji;Haino, Takeharu;Ebata, Takayuki;Rizzo, Thomas R.;
2:348:9 Probing Ionophore Selectivity in Argon-Tagged Hydrated Alkali Metal Ion-Crown Ether Systems
DOI:10.1021/ja107383c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:12 AU: Rodriguez, Jason D.;Lisy, James M.;
2:348:10 Assembly of Supramolecular Nanotubes from Molecular Triangles and 1,2-Dihalohydrocarbons
DOI:10.1021/ja509480u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Liu, Zhichang;Liu, Guoliang;Wu, Yilei;Cao, Dennis;Sun, Junling;Schneebeli, Severin T.;Nassar, Majed S.;Mirkin, Chad A.;Stoddart, J. Fraser;
2:348:11 Nonamorphism in Flufenamic Acid and a New Record for a Polymorphic Compound with Solved Structures
DOI:10.1021/ja302601f JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:23 AU: Lopez-Mejias, Vilmali;Kampf, Jeff W.;Matzger, Adam J.;
2:348:12 Physicochemical characterization of a new cocrystal of ketoconazole
DOI:10.1016/j.powtec.2014.04.072 JN:POWDER TECHNOLOGY PY:2014 TC:1 AU: Shayanfar, Ali;Jouyban, Abolghasem;
2:349:1 Hard x-ray photoelectron spectroscopy study on band alignment at poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)/ZnO interface
DOI:10.1063/1.4762834 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Nagata, T.;Oh, S.;Yamashita, Y.;Yoshikawa, H.;Hayakawa, R.;Kobayashi, K.;Chikyow, T.;Wakayama, Y.;
2:349:2 Electronic and interface properties of polyfluorene films on GaN for hybrid optoelectronic applications
DOI:10.1063/1.4792211 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Itskos, G.;Xristodoulou, X.;Iliopoulos, E.;Ladas, S.;Kennou, S.;Neophytou, M.;Choulis, S.;
2:349:3 Cascade energy transfer versus charge separation in ladder-type oligo(p-phenylene)/ZnO hybrid structures for light-emitting applications
DOI:10.1063/1.4903517 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bianchi, F.;Sadofev, S.;Schlesinger, R.;Kobin, B.;Hecht, S.;Koch, N.;Henneberger, F.;Blumstengel, S.;
2:349:4 Fabrication and characterization of transparent MEH-PPV/n-GaN (0001) heterojunction devices
DOI:10.1016/j.optmat.2011.11.030 JN:OPTICAL MATERIALS PY:2012 TC:1 AU: Soylu, Murat;
2:349:5 Surface and interface states of gallium-polar versus nitrogen-polar GaN: Impact of thin organic semiconductor overlayers
DOI:10.1063/1.3372559 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Kim, Hyunjin;Guan, Ze-Lei;Sun, Qian;Kahn, Antoine;Han, Jung;Nurmikko, Arto;
2:349:6 pi-Conjugated polymer/GaN Schottky solar cells
DOI:10.1016/j.solmat.2010.04.063 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Matsuki, Nobuyuki;Irokawa, Yoshihiro;Nakano, Yoshitaka;Sumiya, Masatomo;
2:349:7 Role of anisotropy in the Forster energy transfer from a semiconductor quantum well to an organic crystalline overlayer
DOI:10.1103/PhysRevB.85.115305 JN:PHYSICAL REVIEW B PY:2012 TC:5 AU: Kawka, S.;La Rocca, G. C.;
2:349:8 The effect of ZnO surface conditions on the electronic structure of the ZnO/CuPc interface
DOI:10.1063/1.3555440 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Park, Sang Han;Kim, Hyo Jin;Cho, Mann-Ho;Yi, Yeonjin;Cho, Sang Wan;Yang, Jaehyun;Kim, Hyoungsub;
2:349:9 Self-assembly of halogen substituted phenazines
DOI:10.1039/b917601b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:17 AU: Lee, Dong-Chan;Cao, Bin;Jang, Kyoungmi;Forster, Paul M.;
2:349:10 Dynamics of excitons and free carriers in hybrid organic-inorganic quantum well structures
DOI:10.1103/PhysRevB.84.205312 JN:PHYSICAL REVIEW B PY:2011 TC:3 AU: Gladush, Yu.;Piermarocchi, C.;Agranovich, V.;
2:349:11 Efficient optical pumping of organic-inorganic heterostructures for nonlinear optics
DOI:10.1103/PhysRevB.86.165204 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: Agranovich, V. M.;Basko, D. M.;La Rocca, G. C.;
2:349:12 Schottky barrier height behavior of Pt-Ru alloy contacts on single-crystal n-ZnO
DOI:10.1063/1.3427562 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Nagata, T.;Volk, J.;Haemori, M.;Yamashita, Y.;Yoshikawa, H.;Hayakawa, R.;Yoshitake, M.;Ueda, S.;Kobayashi, K.;Chikyow, T.;
2:349:13 Room-temperature red emission from light-emitting diodes with Eu-doped GaN grown by organometallic vapor phase epitaxy
DOI:10.1016/j.optmat.2010.10.010 JN:OPTICAL MATERIALS PY:2011 TC:2 AU: Nishikawa, A.;Furukawa, N.;Kawasaki, T.;Terai, Y.;Fujiwara, Y.;
2:350:1:1 Synthesis and fluorescence properties of phthalocyanines with dibromo- and tribromo-phenoxy functionalities
DOI:10.1016/j.synthmet.2013.05.031 JN:SYNTHETIC METALS PY:2013 TC:6 AU: Ozcesmeci, Ibrahim;
2:350:1:2 Synthesis, optical and structural studies of tetrakis[4-(2 ',3 ',4 ',5 ',6 '-pentafluorobenzyloxy)benzyloxy]-substituted metallo-phthalocyanines
DOI:10.1016/j.synthmet.2011.11.025 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Ozcesmeci, Mukaddes;Sorar, Idris;Hamuryudan, Esin;
2:350:1:3 Charge and energy transfer processes in ruthenium(II) phthalocyanine based electron donor-acceptor materials-implications for solar cell performance
DOI:10.1039/c0jm00579g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Spaenig, Fabian;Lopez-Duarte, Ismael;Fischer, Markus K. R.;Victoria Martinez-Diaz, M.;Baeuerle, Peter;Torres, Tomas;Guldi, Dirk M.;
2:350:1:4 Synthesis and aggregation behavior of zinc phthalocyanines substituted with bulky naphthoxy and phenylazonaphthoxy groups: An experimental and theoretical study
DOI:10.1016/j.synthmet.2014.01.003 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Ozcesmeci, Ibrahim;Tekin, Adem;Gul, Ahmet;
2:350:1:5 Preparation, electrochemistry and optical properties of unsymmetrical phthalocyanines bearing morpholine and tert-butylphenoxy substituents
DOI:10.1016/j.synthmet.2011.05.010 JN:SYNTHETIC METALS PY:2011 TC:11 AU: Burat, Ayfer Kalkan;Koca, Atif;Lewtak, Jan P.;Gryko, Daniel T.;
2:350:1:6 Investigation of photophysical, photochemical and bovine serum albumin binding properties of novel water-soluble zwitterionic zinc phthalocyanine complexes
DOI:10.1016/j.synthmet.2012.02.017 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Gol, Cem;Durmus, Mahmut;
2:350:2:1 Electrochemical and spectroelectrochemical properties of methylendioxy-phenoxy-substituted novel lutetium (III) mono- and bis-phthalocyanines
DOI:10.1016/j.synthmet.2014.01.023 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Bozoglu, Ceyda;Arici, Mursel;Ugur, Ahmet Lutfi;Erdogmus, Ali;Koca, Atif;
2:350:2:2 Synthesis, photophysics, photochemistry and fluorescence quenching studies on highly soluble substituted oxo-titanium(IV) phthalocyanine complexes
DOI:10.1016/j.synthmet.2010.07.002 JN:SYNTHETIC METALS PY:2010 TC:19 AU: Erdogmus, Ali;Durmus, Mahmut;Ugur, Ahmet Lufti;Avciata, Oguzhan;Avciata, Ulvi;Nyokong, Tebello;
2:350:2:3 Synthesis and electrochemical, electrochromic and electrical properties of novel s-triazine bridged trinuclear Zn(II), Cu(II) and Lu(III) and a tris double-decker Lu(III) phthalocyanines
DOI:10.1016/j.synthmet.2011.04.012 JN:SYNTHETIC METALS PY:2011 TC:17 AU: Sen, Pinar;Dumludag, Fatih;Salih, Bekir;Ozkaya, Ali Riza;Bekaroglu, Ozer;
2:350:2:4 Synthesis and physicochemical behavior of new low symmetry Ge, Ti and Sn phthalocyanines: Effect of central metal
DOI:10.1016/j.synthmet.2012.07.028 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Masilela, Nkosiphile;Nyokong, Tebello;
2:350:2:5 Electrochromic lutetium phthalocyanine films for in situ detection of NADH
DOI:10.1016/j.optmat.2012.10.017 JN:OPTICAL MATERIALS PY:2013 TC:4 AU: Basova, Tamara;Gurek, Ayse Gul;Ahsen, Vefa;Ray, Asim;
2:350:2:6 Synthesis and electrochemical, electrical and gas sensing properties of novel mononuclear metal-free, Zn(II), Ni(II), Co(II), Cu(II), Lu(III) and double-decker Lu(III) phthalocyanines substituted with 2-(2H-1,2,3-benzotriazol-2-yl)-4-(1,1,3,3-tetramethylbutyl) phenoxy
DOI:10.1016/j.synthmet.2010.11.006 JN:SYNTHETIC METALS PY:2011 TC:13 AU: Gumrukcu, Gulsah;Ozgur, Mahmure Ustun;Altindal, Ahmet;Ozkaya, Ali Riza;Salih, Bekir;Bekaroglu, Ozer;
2:350:3:1 Synthesis, characterization and electrical properties of novel metal-free, Co(II), Cu(II), Fe(II), Mn(II), Sn(II) phthalocyanines peripherally tetra-substituted with 2,3-dihydro-1H-inden-5-yloxy moiety
DOI:10.1016/j.synthmet.2011.06.018 JN:SYNTHETIC METALS PY:2011 TC:6 AU: Odabas, Zafer;Altindal, Ahmet;Bulut, Mustafa;
2:350:3:2 Comparison of photophysicochemical properties of hexaphenoxycyclotriphosphazenyl-substituted metal-free, mono- and bis-lutetium phthalocyanines
DOI:10.1016/j.synthmet.2009.11.026 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Durmus, Mahmut;Yesilot, Serkan;Cosut, Buenyemin;Gurek, Ayse Gul;Kilic, Adem;Ahsen, Vefa;
2:350:3:3 Poly(1,3,4-oxadiazole-aryl ether) embedded metalphthalocyanines: Synthesis, characterization and electrical studies
DOI:10.1016/j.synthmet.2013.09.009 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Pradeep, K. M.;Reddy, K. R. Venugopala;Harish, M. N. K.;Chidananda, B.;Madhu, B. J.;Mruthyunjayachari, C. D.;Ganesh, S. D.;
2:350:3:4 Electrochemical, microscopic and spectroscopic characterization of benzene diamine functionalized single walled carbon nanotube-cobalt (II) tetracarboxy-phthalocyanine conjugates
DOI:10.1016/j.jcis.2010.10.057 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:10 AU: Mugadza, Tawanda;Nyokong, Tebello;
2:350:4:1 Synthesis of ytterbium bisphthalocyanines: Photophysicochemical properties and nonlinear absorption behavior
DOI:10.1016/j.optmat.2014.05.013 JN:OPTICAL MATERIALS PY:2014 TC:2 AU: Sekhosana, Kutloano E.;Nyokong, Tebello;
2:350:4:2 Metal ion sensing functional mono and double-decker lanthanide phthalocyanines: Synthesis, characterization and electrical properties
DOI:10.1016/j.synthmet.2009.09.039 JN:SYNTHETIC METALS PY:2010 TC:18 AU: Kandaz, Mehmet;Bilgicli, Ahmet T.;Altindal, Ahmet;
2:350:4:3 Optical nonlinearities and photophysicochemical behaviour of green and blue forms of lutetium bisphthalocyanines
DOI:10.1039/c4tc00505h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Sekhosana, Kutloano Edward;Amuhaya, Edith;Mack, John;Nyokong, Tebello;
2:351:1 Probing nanoscale conductance of monolayer graphene under pressure
DOI:10.1063/1.3609317 JN:APPLIED PHYSICS LETTERS PY:2011 TC:21 AU: Kwon, Sangku;Choi, Sunghyun;Chung, H. J.;Yang, Heejun;Seo, Sunae;Jhi, Seung-Hoon;Park, Jeong Young;
2:351:2 Nanoscale Mapping of Electrical Resistivity and Connectivity in Graphene Strips and Networks
DOI:10.1021/nl101469d JN:NANO LETTERS PY:2011 TC:34 AU: Nirmalraj, Peter N.;Lutz, Tarek;Kumar, Shishir;Duesberg, Georg S.;Boland, John J.;
2:351:3 Graphene for True Ohmic Contact at Metal-Semiconductor Junctions
DOI:10.1021/nl402367y JN:NANO LETTERS PY:2013 TC:10 AU: Byun, Kyung-Eun;Chung, Hyun-Jong;Lee, Jaeho;Yang, Heejun;Song, Hyun Jae;Heo, Jinseong;Seo, David H.;Park, Seongjun;Hwang, Sung Woo;Yoo, InKyeong;Kim, Kinam;
2:351:4 The dynamical conductance of graphene tunnelling structures
DOI:10.1088/0957-4484/22/50/505705 JN:NANOTECHNOLOGY PY:2011 TC:1 AU: Zhang, Huan;Chan, K. S.;Lin, Zijing;
2:351:5 Selective Tuning and Optimization of the Contacts to Metallic and Semiconducting Single-Walled Carbon Nanotubes
DOI:10.1021/nn100432f JN:ACS NANO PY:2010 TC:6 AU: Nirmalraj, Peter N.;Boland, John J.;
2:352:1 Site Isolation of Emitters within Cross-Linked Polymer Nanoparticles for White Electroluminescence
DOI:10.1021/nl100347p JN:NANO LETTERS PY:2010 TC:25 AU: Gao, Haifeng;Poulsen, Daniel A.;Ma, Biwu;Unruh, David A.;Zhao, Xiaoyong;Millstone, Jill E.;Frechet, Jean M. J.;
2:352:2 Molecular Electronic Junction Composed by C-60 as Spacer and Four Terminals Formed by Acceptors Group: Transition-Voltage Spectroscopy
DOI:10.1166/jctn.2014.3406 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2014 TC:0 AU: Aleixo, Vicente F. P.;Brito Silva, Carlos. A., Jr.;Del Nero, Jordan;
2:352:3 Properties of Charged Defects on Unidimensional Polymers
DOI:10.1166/jctn.2011.1720 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2011 TC:3 AU: Leal, Jose Fernando P.;da Silva, Shirsley J. S.;Granhen, Ewerton R.;Silva Junior, Carlos A. B.;Moreira, Marcos Dionizio;Achete, Carlos A.;Capaz, Rodrigo B.;Del Nero, Jordan;
2:352:4 Spectral Tuning of Conjugated Polymer Colloid Light-Emitting Diodes
DOI:10.1021/la9027749 JN:LANGMUIR PY:2010 TC:10 AU: Huebner, Christopher F.;Foulger, Stephen H.;
2:352:5 Studies on morphological and optoelectronic properties of MEH-CN-PPV:TiO2 nanocomposites
DOI:10.1016/j.matchemphys.2012.01.030 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:4 AU: Singh, Punita;Sinha, O. P.;Srivastava, Ritu;Srivastava, A. K.;Bindra, J. Kaur;Singh, R. P.;Kamalasanan, M. N.;
2:352:6 Improvement of photoelectrochemical and optical characteristics of MEH-PPV using titanium dioxide nanoparticles
DOI:10.1016/j.mssp.2012.12.015 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2013 TC:1 AU: Habelhames, Farid;Lamiri, Leila;Zerguine, Wided;Nessark, Belkacem;
2:352:7 Light emission and current rectification in a molecular device: Experiment and theory
DOI:10.1063/1.4767457 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Saraiva-Souza, A.;Souza, F. M.;Baldissera, G.;Silva, W. E.;Roman, L. S.;Mendes Filho, J.;Del Nero, J.;Fazzio, A.;Souza Filho, A. G.;
2:352:8 Self-assembled nanoparticles of p-phenylenediacetonitrile derivatives with fluorescence turn-on
DOI:10.1007/s11051-012-0877-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:5 AU: Kazlauskas, Karolis;Miasojedovas, Arunas;Dobrovolskas, Darius;Arbaciauskien, Egle;Getautis, Vytautas;Sackus, Algirdas;Jursenas, Saulius;
2:352:9 Multifunctional polyconjugated molecules with carbazolyl and pyrazolyl moieties for optoelectronic applications
DOI:10.1016/j.synthmet.2009.11.038 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Arbaciauskiene, E.;Kazlauskas, K.;Miasojedovas, A.;Jursenas, S.;Jankauskas, V.;Holzer, W.;Getautis, V.;Sackus, A.;
2:353:1 Current transients in organic field effect transistors
DOI:10.1063/1.4803054 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Juska, Gytis;Nekrasas, Nerijus;Genevicius, Kristijonas;Pivrikas, Almantas;
2:353:2 Field-modulation spectroscopy of pentacene thin films using field-effect devices: Reconsideration of the excitonic structure
DOI:10.1103/PhysRevB.82.161301 JN:PHYSICAL REVIEW B PY:2010 TC:11 AU: Haas, Simon;Matsui, Hiroyuki;Hasegawa, Tatsuo;
2:353:3 Temperature dependent transient velocity and mobility studies in an organic field effect transistor
DOI:10.1063/1.3415546 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Dunn, Lawrence;Dodabalapur, Ananth;
2:353:4 Transient effects controlling the charge carrier population of organic field effect transistor channels
DOI:10.1063/1.3368662 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Chang, Hsiu-Chuang;Ruden, P. Paul;Liang, Yan;Frisbie, C. Daniel;
2:353:5 Gradual channel approximation models for organic field-effect transistors: The space-charge field effect
DOI:10.1063/1.3691793 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:10 AU: Weis, Martin;
2:353:6 Charge carrier extraction dynamics for organic field effect transistor structures
DOI:10.1063/1.3625945 JN:APPLIED PHYSICS LETTERS PY:2011 TC:1 AU: Chang, Hsiu-Chuang;Ruden, P. Paul;Liang, Yan;Frisbie, C. Daniel;
2:353:7 Alternating current admittance of DNTT-based metal-insulator-semiconductor capacitors
DOI:10.1063/1.4867521 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Hayashi, T.;Take, N.;Tamura, H.;Sekitani, T.;Someya, T.;
2:353:8 Investigation of charge carriers transport from extraction current transients of injected charge carriers
DOI:10.1016/j.jnoncrysol.2011.12.016 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:4 AU: Juska, G.;Nekrasas, N.;Genevicius, K.;
2:353:9 The determination of charge carrier mobility from the current transients in organic field effect transistor
DOI:10.1063/1.4887798 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Juska, G.;Nekrasas, N.;Genevicius, K.;Grigaitis, T.;
2:353:10 Photogenerated charge carriers in double-layer organic field-effect transistor
DOI:10.1016/j.synthmet.2013.04.011 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Jakabovic, Jan;Weis, Martin;Kovac, Jaroslav;Donoval, Daniel;Donoval, Martin;Daricek, Martin;Telek, Peter;Cirak, Julius;Peng, Yingquan;Xie, Jipeng;Lv, Wenli;Yang, Ting;Yao, Bo;Wang, Ying;
2:354:1 Designing Supramolecular Liquid-Crystalline Hybrids from Pyrenyl-Containing Dendrimers and Arene Ruthenium Metallacycles
DOI:10.1021/ja510338r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Pitto-Barry, Anais;Barry, Nicolas P. E.;Russo, Virginie;Heinrich, Benoit;Donnio, Bertrand;Therrien, Bruno;Deschenaux, Robert;
2:354:2 Oxidation of Organoplatinum(II) by Coordinated Dimethylsulfoxide: Metal-Metal Bonded, Dinuclear, Liquid-Crystalline Complexes of Platinum(III)
DOI:10.1021/ja105469a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:17 AU: Santoro, Amedeo;Wegrzyn, Marcin;Whitwood, Adrian C.;Donnio, Bertrand;Bruce, Duncan W.;
2:354:3 Mesomorphic [2]Rotaxanes: Sheltering Ionic Cores with Interlocking Components
DOI:10.1021/ja309558p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:13 AU: Suhan, Natalie D.;Loeb, Stephen J.;Eichhorn, S. Holger;
2:354:4 Self-Assembly and Near Perfect Macroscopic Alignment of Fluorescent Triangulenium Salt in Spin-Cast Thin Films on PTFE
DOI:10.1021/la400797b JN:LANGMUIR PY:2013 TC:2 AU: Westerlund, Fredrik;Lemke, Henrik T.;Hassenkam, Tue;Simonsen, Jens B.;Laursen, Bo W.;
2:354:5 Supramolecular Organization and Magnetic Properties of Mesogen-Hybridized Mixed-Valent Manganese Single Molecule Magnets [(Mn8Mn4O12)-Mn-III-O-IV(L-x,L-y,L-z-CB)(16)(H2O)(4)]
DOI:10.1021/ja311190a JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:13 AU: Terazzi, Emmanuel;Rogez, Guillaume;Gallani, Jean-Louis;Donnio, Bertrand;
2:354:6 Columnar Self-Assembly and Alignment of Planar Carbenium Ions in Langmuir-Blodgett Films
DOI:10.1021/la103785z JN:LANGMUIR PY:2011 TC:14 AU: Simonsen, Jens B.;Westerlund, Fredrik;Breiby, Dag W.;Harrit, Niels;Laursen, Bo W.;
2:354:7 Columnar Liquid Crystallinity and Mechanochromism in Cationic Platinum(II) Complexes
DOI:10.1021/ja4114352 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:11 AU: Krikorian, Markrete;Liu, Shuang;Swager, Timothy M.;
2:354:8 Large area, soft crystalline thin films of N,N ',N ''-trialkyltriazatriangulenium salts with homeotropic alignment of the discotic cores in a lamellar lattice
DOI:10.1039/c2jm15954f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Sorensen, Thomas Just;Hildebrandt, Christoffer B.;Elm, Jonas;Andreasen, Jens W.;Madsen, Anders O.;Westerlund, Fredrik;Laursen, Bo W.;
2:354:9 Thermotropic Organization of Hydrogen-Bond-Bridged Bolaform Amphiphiles
DOI:10.1021/la2000574 JN:LANGMUIR PY:2011 TC:5 AU: Zhang, Jing;Zhou, Mingjun;Wang, Shan;Carr, Jessica;Li, Wen;Wu, Lixin;
2:354:10 Fluorescent and Highly Stable Unimodal DMPC Based Unilamellar Vesicles Formed by Spontaneous Curvature
DOI:10.1021/la301454y JN:LANGMUIR PY:2012 TC:4 AU: Shi, Dong;Sfintes, George;Laursen, Bo W.;Simonsen, Jens B.;
2:354:11 Magneto-optical control of a Mn-12 nano-magnet
DOI:10.1039/c0jm01298j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:3 AU: Riviere, Eric;Donnio, Bertrand;Voirin, Emilie;Rogez, Guillaume;Kappler, Jean-Paul;Gallani, Jean-Louis;
2:355:1 Nonadiabatic molecular dynamics simulation for carrier transport in a pentathiophene butyric acid monolayer
DOI:10.1103/PhysRevB.87.205117 JN:PHYSICAL REVIEW B PY:2013 TC:5 AU: Ren, Junfeng;Vukmirovic, Nenad;Wang, Lin-Wang;
2:355:2 Carrier heating in disordered conjugated polymers in electric field
DOI:10.1103/PhysRevB.81.035210 JN:PHYSICAL REVIEW B PY:2010 TC:11 AU: Vukmirovic, Nenad;Wang, Lin-Wang;
2:355:3 Charge Transport in a Highly Phosphorescent Iridium(III) Complex-Cored Dendrimer with Double Dendrons
DOI:10.1002/adfm.201101727 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:9 AU: Gambino, Salvatore;Lo, Shih-Chun;Liu, Zehua;Burn, Paul L.;Samuel, Ifor D. W.;
2:355:4 Relationship between the random-phase approximation ground-state total energy and GW quasiparticle energy
DOI:10.1103/PhysRevB.82.115111 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Wang, Lin-Wang;
2:355:5 Carrier hopping in disordered semiconducting polymers: How accurate is the Miller-Abrahams model?
DOI:10.1063/1.3474618 JN:APPLIED PHYSICS LETTERS PY:2010 TC:19 AU: Vukmirovic, Nenad;Wang, Lin-Wang;
2:355:6 Shallow Impurity Level Calculations in Semiconductors Using Ab Initio Methods
DOI:10.1103/PhysRevLett.110.166404 JN:PHYSICAL REVIEW LETTERS PY:2013 TC:5 AU: Zhang, Gaigong;Canning, Andrew;Gronbech-Jensen, Niels;Derenzo, Stephen;Wang, Lin-Wang;
2:355:7 Luminescence Gap in Regioregular Poly(3-hexylthiophene) Film
DOI:10.1080/15421406.2014.932659 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Saito, Masatoshi;Mizokawa, Ryo;Yanagi, Yuichiro;Nishioka, Yasushiro;Murayama, Kazuro;
2:355:8 Light-emitting dendrimer film morphology: A neutron reflectivity study
DOI:10.1063/1.3457438 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Vickers, S. V.;Barcena, H.;Knights, K. A.;Thomas, R. K.;Ribierre, J. -C.;Gambino, S.;Samuel, I. D. W.;Burn, P. L.;Fragneto, Giovanna;
2:355:9 First-principles determination of charge carrier mobility in disordered semiconducting polymers
DOI:10.1103/PhysRevB.82.205210 JN:PHYSICAL REVIEW B PY:2010 TC:16 AU: Zhang, Xu;Li, Zi;Lu, Gang;
2:355:10 Bound exciton model for an acceptor in a semiconductor
DOI:10.1103/PhysRevB.90.155201 JN:PHYSICAL REVIEW B PY:2014 TC:0 AU: Zhang, Yong;Wang, Jianwei;
2:355:11 Luminescence gap in hydrogenated amorphous silicon
DOI:10.1016/j.jnoncrysol.2012.01.011 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Murayama, Kazuro;Sagawa, Ryo;Monji, Kunitaka;Tsushima, Kouhei;Deki, Hidenori;
2:355:12 Luminescence decay in hydrogenated amorphous silicon and silicon nanostructures
DOI:10.1016/j.jnoncrysol.2012.01.012 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:1 AU: Tsushima, Kouhei;Nakata, Hitoshi;Monji, Kunitaka;Deki, Hidenori;Murayama, Kazuro;
2:356:1 Positive Magneto-LC Effect in Conjugated Spin-Bearing Hexabenzocoronene
DOI:10.1021/ja507421x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:4 AU: Ravat, Prince;Marszalek, Tomasz;Pisula, Wojciech;Muellen, Klaus;Baumgarten, Martin;
2:356:2 Photoconductive Liquid-Crystalline Derivatives of 6-Oxoverdazyl
DOI:10.1021/ja209467h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:15 AU: Jankowiak, Aleksandra;Pociecha, Damian;Szczytko, Jacek;Monobe, Hirosato;Kaszynski, Piotr;
2:356:3 Tetragonal Phase of 6-Oxoverdazyl Bent-Core Derivatives with Photoinduced Ambipolar Charge Transport and Electrooptical Effects
DOI:10.1021/ja507594h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Jasinski, Marcin;Pociecha, Damian;Monobe, Hirosato;Szczytko, Jacek;Kaszynski, Piotr;
2:356:4 Controlled Fabrication and Photonic Structure of Cholesteric Liquid Crystalline Shells
DOI:10.1002/adma.201300776 JN:ADVANCED MATERIALS PY:2013 TC:13 AU: Uchida, Yoshiaki;Takanishi, Yoichi;Yamamoto, Jun;
2:356:5 Anisotropic and Inhomogeneous Magnetic Interactions Observed in All-Organic Nitroxide Radical Liquid Crystals
DOI:10.1021/ja101930d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:16 AU: Uchida, Yoshiaki;Suzuki, Katsuaki;Tamura, Rui;Ikuma, Naohiko;Shimono, Satoshi;Noda, Yohei;Yamauchi, Jun;
2:356:6 Chemiluminescence emission in cholesteric liquid crystalline core-shell microcapsules
DOI:10.1039/c4tc00699b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Iwai, Y.;Kaji, H.;Uchida, Y.;Nishiyama, N.;
2:356:7 Observation of positive and negative magneto-LC effects in all-organic nitroxide radical liquid crystals by EPR spectroscopy
DOI:10.1039/c2jm16278d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Suzuki, Katsuaki;Uchida, Yoshiaki;Tamura, Rui;Shimono, Satoshi;Yamauchi, Jun;
2:356:8 Magnetically transportable core-shell emulsion droplets with an antioxidative all-organic paramagnetic liquid shell
DOI:10.1039/c4tb00546e JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:0 AU: Uchida, Y.;Iwai, Y.;Akita, T.;Mitome, T.;Suzuki, K.;Tamura, R.;Nishiyama, N.;
2:356:9 Tuning the sensitivity of fluorophore-nitroxide radicals
DOI:10.1039/c2jm31390a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Borozdina, Yulia B.;Kamm, Valentin;Laquai, Frederic;Baumgarten, Martin;
2:356:10 Influence of applied electric fields on the positive magneto-LC effects observed in the ferroelectric liquid crystalline phase of a chiral nitroxide radical compound
DOI:10.1039/c3sm27295h JN:SOFT MATTER PY:2013 TC:3 AU: Suzuki, Katsuaki;Uchida, Yoshiaki;Tamura, Rui;Noda, Yohei;Ikuma, Naohiko;Shimono, Satoshi;Yamauchi, Jun;
2:356:11 Controlled Fabrication and Photonic Structure of Cholesteric Liquid Crystalline Shells (vol 25, pg 3234, 2013)
DOI:10.1002/adma.201402787 JN:ADVANCED MATERIALS PY:2014 TC:0 AU: Uchida, Yoshiaki;Takanishi, Yoichi;Yamamoto, Jun;
2:356:12 Liquid crystalline radicals: discotic behavior of unsymmetrical derivatives of 1,3,5-triphenyl-6-oxoverdazyl
DOI:10.1039/c3tc31984a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Jankowiak, Aleksandra;Pociecha, Damian;Szczytko, Jacek;Monobe, Hirosato;Kaszynski, Piotr;
2:357:1 Fluorene-based conjugated poly(arylene ethynylene)s containing heteroaromatic bicycles: preparation and electro-optical properties
DOI:10.1007/s10853-014-8438-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:0 AU: Palai, Akshaya K.;Kumar, Amit;Mishra, Sarada P.;Patri, M.;
2:357:2 Alkoxy-substituted poly(arylene-ethynylene)-alt-poly(arylene-vinylene)s: synthesis, electroluminescence and photovoltaic applications
DOI:10.1039/c0jm02429e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Egbe, Daniel A. M.;Neugebauer, Helmut;Sariciftci, N. Serdar;
2:357:3 Deep blue light-emitting polymers with fluorinated backbone for enhanced color purity and efficiency
DOI:10.1016/j.polymer.2012.02.010 JN:POLYMER PY:2012 TC:11 AU: Zhang, Ting;Wang, Renjie;Ren, Huicai;Chen, Zhiguang;Li, Jiuyan;
2:357:4 An Alternative Approach to Constructing Solution Processable Multifunctional Materials: Their Structure, Properties, and Application in High-Performance Organic Light-Emitting Diodes
DOI:10.1002/adfm.201000474 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:19 AU: Ye, Shanghui;Liu, Yunqi;Lu, Kun;Wu, Weiping;Du, Chunyan;Liu, Ying;Liu, Hongtao;Wu, Ti;Yu, Gui;
2:357:5 Synthesis and luminescent properties of perylene bisimide-cored dendrimers with carbazole surface groups
DOI:10.1016/j.polymer.2011.06.019 JN:POLYMER PY:2011 TC:10 AU: Ren, Huicai;Li, Jiuyan;Wang, Renjie;Zhang, Ting;Gao, Zhanxian;Liu, Di;
2:357:6 Solution processed white light photodetector based N, N '-di(2-ethylhexyl)-3,4,9,10-perylene diimide thin film phototransistor
DOI:10.1016/j.tsf.2014.07.055 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Tozlu, Cem;Kus, Mahmut;Can, Mustafa;Ersoz, Mustafa;
2:357:7 New electroluminescent carbazole-containing conjugated polymer: Synthesis, photophysics, and electroluminescence
DOI:10.1016/j.polymer.2014.10.015 JN:POLYMER PY:2014 TC:0 AU: Cimrova, Vera;Ulbricht, Christoph;Dzhabarov, Vagif;Vyprachticky, Drahomir;Egbe, Daniel Ayuk Mbi;
2:358:1 A new electron transporting material for effective hole-blocking and improved charge balance in highly efficient phosphorescent organic light emitting diodes
DOI:10.1039/c3tc00801k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:12 AU: Yoo, Seung-Jin;Yun, Hui-Jun;Kang, Il;Thangaraju, Kuppusamy;Kwon, Soon-Ki;Kim, Yun-Hi;
2:358:2 Synthesis and characterization of new blue light emitting iridium complexes containing a trimethylsilyl group
DOI:10.1039/c2jm33084a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:8 AU: Kim, Chul Young;Ha, Dong-Gwang;Kang, Hyun Hee;Yun, Hui-Jun;Kwon, Soon-Ki;Kim, Jang-Joo;Kim, Yun-Hi;
2:358:3 Synthesis and Characterization of Poly(silole-pyridine)
DOI:10.1080/15421406.2014.935974 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Cheon, Ye Rim;Lee, Yun-Ji;Park, Jeong Cheol;Hwang, Jaeyoung;Shin, Sung-Chul;Kim, Yun-Hi;
2:358:4 A new bulky trymethylsilylxylene substituted iridium(III) complex with picolinic acid as ancillary ligand: Synthesis; characterization and applications for efficient yellow-green emitting phosphorescent organic light emitting diodes
DOI:10.1016/j.synthmet.2011.12.026 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Hwang, Moon Chan;Thangaraju, K.;So, Ki Ho;Shin, Sung-Chul;Kwon, Soon-Ki;Kim, Yun-Hi;
2:358:5 4,4 ',4 ''-Tris(N-carbazolyl)-triphenylamine interlayer in highly efficient phosphorescent organic light emitting diodes based on tris[4-methyl-2-2(4 '-trimethylsilylphenyl)pyridine]iridium complex
DOI:10.1016/j.tsf.2011.03.115 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Thangaraju, K.;Lee, Jonghee;Lee, Jeong-Ik;Chu, Hye Yong;Kim, Seul-Ong;Shin, Min-Gi;Kim, Yun-Hi;Soon-Ki, Kwon;
2:358:6 Charge-Transporting Polymers based on Phenylbenzoimidazole Moieties
DOI:10.1002/adfm.200901590 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:13 AU: Debeaux, Marc;Thesen, Manuel W.;Schneidenbach, Daniel;Hopf, Henning;Janietz, Silvia;Krueger, Hartmut;Wedel, Armin;Kowalsky, Wolfgang;Johannes, Hans-Hermann;
2:358:7 Efficient green electrophosphorescence based on ambipolar nonconjugated polymers: Evaluation of transport and emission properties
DOI:10.1063/1.3618681 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Bagnich, S. A.;Unger, Th.;Jaiser, F.;Neher, D.;Thesen, M. W.;Krueger, H.;
2:358:8 Bis(1-phenyl-1H-benzo[d]imidazole)phenylphosphine oxide interlayer for effective hole blocking in efficient phosphorescent organic light emitting diodes based on widely used charge transporting layers
DOI:10.1016/j.synthmet.2014.01.018 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Cheon, Ye Rim;Yun, Hui-Jun;Thangaraju, Kuppusamy;Kim, Yun-Hi;
2:358:9 Organic semiconductor based on phenylethynyl end-capped anthracene
DOI:10.1016/j.tsf.2011.05.060 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Kim, Seul-Ong;Lee, Myung Won;Jang, Sang Hun;Park, So Min;Park, Jong Won;Park, Moon-Hak;Kang, So Hee;Kim, Yun-Hi;Song, Chung Kun;Kwon, Soon-Ki;
2:358:10 Flexible Encapsulation of Organic Light-Emitting Diode Using the LiF/polymer/LiF Buffer and Metal Foil
DOI:10.1080/15421406.2014.940806 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kim, Hyun;Kim, Jae Min;Lee, Jun Ho;Jang, Ji Geun;
2:359:1 Self-Assembly, Dynamics, and Phase Transformation Kinetics of Donor-Acceptor Substituted Perylene Derivatives
DOI:10.1021/ja102150g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:31 AU: Tasios, Nikos;Grigoriadis, Christos;Hansen, Michael Ryan;Wonneberger, Henrike;Li, Chen;Spiess, Hans W.;Muellen, Klaus;Floudas, George;
2:359:2 Negative thermal expansion structures constructed from positive thermal expansion trusses
DOI:10.1007/s10853-011-5806-z JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:2 AU: Lim, Teik-Cheng;
2:359:3 Negative Thermal Expansion in Discotic Liquid Crystals of Nanographenes
DOI:10.1002/adma.200903264 JN:ADVANCED MATERIALS PY:2010 TC:22 AU: Grigoriadis, C.;Haase, N.;Butt, H. -J.;Muellen, K.;Floudas, G.;
2:359:4 Low-temperature crystal structure, specific heat, and dielectric properties of lithium tetraborate Li2B4O7
DOI:10.1063/1.3504244 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Senyshyn, A.;Schwarz, B.;Lorenz, T.;Adamiv, V. T.;Burak, Ya. V.;Banys, J.;Grigalaitis, R.;Vasylechko, L.;Ehrenberg, H.;Fuess, H.;
2:359:5 Molecular dynamics of a discotic liquid crystal investigated by a combination of dielectric relaxation and specific heat spectroscopy
DOI:10.1039/c2sm25610j JN:SOFT MATTER PY:2012 TC:12 AU: Krause, Christina;Yin, Huajie;Cerclier, Carole;Morineau, Denis;Wurm, Andreas;Schick, Christoph;Emmerling, Franziska;Schoenhals, Andreas;
2:359:6 Novel optical anisotropy of a liquid crystalline "cubic" phase in a discotic crown ether derivative
DOI:10.1039/c4tc00382a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Zhang, Ben;Wang, Jun;Yu, Zhen-Qiang;Yang, Shuang;Shi, An-Chang;Chen, Er-Qiang;
2:359:7 Reduced thermal stress in composites via negative thermal expansion particulate fillers
DOI:10.1016/j.compscitech.2009.11.003 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2010 TC:4 AU: Miller, W.;Smith, C. W.;Dooling, P.;Burgess, A. N.;Evans, K. E.;
2:360:1:1 All optical nonlinear and switching characteristics of a novel ruthenium complex
DOI:10.1016/j.optmat.2014.01.029 JN:OPTICAL MATERIALS PY:2014 TC:4 AU: Manjunatha, K. B.;Dileep, R.;Umesh, G.;Satyanarayan, M. N.;Bhat, B. Ramachandra;
2:360:1:2 Study of third-order nonlinear optical and all-optical switching properties of palladium metal-organic complex
DOI:10.1016/j.optmat.2013.02.002 JN:OPTICAL MATERIALS PY:2013 TC:10 AU: Manjunatha, K. B.;Dileep, R.;Umesh, G.;Bhat, B. Ramachandra;
2:360:1:3 Third order optical nonlinearity and optical limiting studies of propane hydrazides
DOI:10.1016/j.optmat.2012.04.011 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Naseema, K.;Manjunatha, K. B.;Sujith, K. V.;Umesh, G.;Kalluraya, Balakrishna;Rao, Vijayalakshmi;
2:360:2:1 Azo-azulene based compounds-nonlinear optical and photorefractive properties
DOI:10.1016/j.optmat.2011.02.039 JN:OPTICAL MATERIALS PY:2011 TC:8 AU: Essaidi, Z.;Niziol, J.;Sahraoui, B.;
2:360:2:2 Design and photoinduced surface relief grating formation of photoresponsive azobenzene based molecular materials with ruthenium acetylides
DOI:10.1039/b921450j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:21 AU: Gherab, Kichou N.;Gatri, Rafik;Hank, Zakia;Dick, Bernhard;Kutta, Roger-Jan;Winter, Rainer;Luc, Jerome;Sahraoui, Bouchta;Fillaut, Jean-Luc;
2:360:2:3 Methodologies for computing UV-VIS spectra and nonlinear properties of azo-azulene derivatives
DOI:10.1016/j.optmat.2012.03.021 JN:OPTICAL MATERIALS PY:2012 TC:1 AU: Migalska-Zalas, A.;El Kouari, Y.;Touhtouh, S.;
2:360:2:4 Alkynyl-ruthenium based azo-organometallics: Thermal evolution of thin films microstructure
DOI:10.1016/j.optmat.2012.02.048 JN:OPTICAL MATERIALS PY:2012 TC:2 AU: Niziol, Jacek;Fillaut, Jean-Luc;Sniechowski, Maciek;Kharnmar, Farida;Sahraoui, Bouchta;
2:360:3:1 Geometrical structure and optical properties of antipyrine Schiff base derivatives
DOI:10.1016/j.mssp.2014.07.022 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:7 AU: El-Ghamaz, N. A.;Diab, M. A.;El-Bindary, A. A.;El-Sonbati, A. Z.;Seyam, H. A.;
2:360:3:2 Two-photon absorption, nonlinear optical and UV-vis spectral properties of 2-furanylmethyleneaminoantipyrine, benzylideneaminoantipyrine and cinnamilideneaminoantipyrine
DOI:10.1016/j.matchemphys.2011.03.082 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:12 AU: Sun, Yuxi;Hao, Qingli;Tang, Weihua;Wang, Yufeng;Yang, Xujie;Lu, Lude;Wang, Xin;
2:360:3:3 Dielectrical, conduction mechanism and thermal properties of rhodanine azodyes
DOI:10.1016/j.mssp.2013.12.005 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:17 AU: El-Ghamaz, N. A.;El-Sonbati, A. Z.;Diab, M. A.;El-Bindary, A. A.;Awad, M. K.;Morgan, Sh. M.;
2:360:3:4 Polymer complexes. XLXI. Supramolecular spectral studies on metal-ligand bonding of novel rhodanine sulphadrugs hydrazone
DOI:10.1016/j.matchemphys.2010.04.038 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:25 AU: El-Sonbati, Adel Z.;Diab, Mostafa A.;El-Halawany, Mohamed M.;Salam, Naglaa E.;
2:360:4:1 Synthesis, structure, vibrational spectral, nonlinear optical and electron-behavioral studies of N-(5-chloro-2-hydroxyphenyl)-(3-hydroxyphenyl)-methalimine
DOI:10.1016/j.optmat.2013.07.013 JN:OPTICAL MATERIALS PY:2013 TC:0 AU: Sun, Yuxi;Liu, Zengwei;Song, Ruojing;Yu, Cheng;Hao, Qingli;Xu, Laixiang;
2:360:4:2 Spectral dependence of nonlinear absorption and refraction in terthiophene-based organic semiconductors
DOI:10.1016/j.optmat.2012.02.041 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Mazur, Leszek;Kolkowski, Radoslaw;Matczyszyn, Katarzyna;Mathevet, Fabrice;Rannou, Patrice;Attias, Andre-Jean;Samoc, Marek;
2:360:4:3 Synthesis, characterization, linear and non-linear optical (NLO) properties of some Schiff's bases
DOI:10.1016/j.optmat.2009.07.002 JN:OPTICAL MATERIALS PY:2010 TC:4 AU: Bhuiyan, M. Delower H.;Teshome, Ayele;Gainsford, Graeme J.;Ashraf, Mohamed;Clays, Koen;Asselberghs, Inge;Kay, Andrew J.;
2:360:5:1 Nonlinear optical and all-optical switching studies of palladium (II) complex
DOI:10.1016/j.matlet.2013.03.076 JN:MATERIALS LETTERS PY:2013 TC:3 AU: Manjunatha, K. B.;Dileep, R.;Umesh, G.;Bhat, B. Ramachandra;
2:360:5:2 Design and synthesis of a new thiophene based donor-acceptor type conjugated polymer with large third order nonlinear optical activity
DOI:10.1016/j.synthmet.2011.06.007 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Vishnumurthy, K. A.;Adhikari, A. Vasudeva;Sunitha, M. S.;Mary, K. A. Ann;Philip, Reji;
2:360:5:3 Z-scan measurement for the nonlinear absorption of Bi2.55La0.45TiNbO9 thin films
DOI:10.1016/j.matlet.2009.12.010 JN:MATERIALS LETTERS PY:2010 TC:2 AU: Chen, Hengzhi;Yang, Bin;Zhang, Mingfu;Wang, Feiyan;Cheah, Kokwai;Cao, Wenwu;
2:361:1:1 Peripheral and non-peripheral long-chain tetrasubstituted phthalocyanines: Synthesis, spectroscopic characterization and aggregation properties
DOI:10.1016/j.synthmet.2012.04.032 JN:SYNTHETIC METALS PY:2012 TC:14 AU: Biyiklioglu, Zekeriya;Acar, Irfan;
2:361:1:2 Highly selective oxidation of benzyl alcohol catalyzed by new peripherally tetra-substituted Fe(II) and Co(II) phthalocyanines
DOI:10.1016/j.synthmet.2014.09.022 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Cakir, Volkan;Saka, Ece Tugba;Biyiklioglu, Zekeriya;Kantekin, Halit;
2:361:1:3 Synthesis, electrochemistry of metal-free, copper, titanium phthalocyanines and investigation of catalytic activity of cobalt, iron phthalocyanines on benzyl alcohol oxidation bearing 4-{2-[3-trifluoromethyl)phenoxy]ethoxy} groups
DOI:10.1016/j.synthmet.2014.10.022 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Aktas, Ayse;Acar, Irfan;Biyikhoglu, Zekeriya;Saka, Ece Tugba;Kantekin, Halit;
2:361:1:4 Synthesis, characterization of metal-free, metallophthalocyanines and catalytic activity of cobalt phthalocyanine in cyclohexene oxidation
DOI:10.1016/j.synthmet.2013.05.028 JN:SYNTHETIC METALS PY:2013 TC:8 AU: Gokce, Serpil;Saka, Ece Tugba;Biyiklioglu, Zekeriya;Kantekin, Halit;
2:361:1:5 Synthesis and characterization of peripheral and non-peripheral substituted Co(II) phthalocyanines and their catalytic activity in styrene oxidation
DOI:10.1016/j.synthmet.2013.02.029 JN:SYNTHETIC METALS PY:2013 TC:9 AU: Saka, Ece Tugba;Acar, Irfan;Biyiklioglu, Zekeriya;Kantekin, Halit;Kani, Ibrahim;
2:361:2:1 Synthesis, electrochemical and spectroelectrochemical properties of highly soluble tetra substituted phthalocyanines with [4-(thiophen-3-yl)-phenoxy]
DOI:10.1016/j.synthmet.2011.04.030 JN:SYNTHETIC METALS PY:2011 TC:22 AU: Erdogmus, Ali;Koca, Atif;Ugur, Ahmet Lutfi;Erden, Ibrahim;
2:361:2:2 Novel water soluble and amphiphilic titanium(IV) phthalocyanines and their electrochemical studies
DOI:10.1016/j.synthmet.2014.07.013 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Biyiklioglu, Zekeriya;
2:361:2:3 Preparation, characterization, electrochemistry and in situ spectroelectrochemistry of novel alpha-tetra[7-oxo-3-(2-chloro-4-fluorophenyl)coumarin]-substituted metal-free, cobalt and zinc phthalocyanines
DOI:10.1016/j.synthmet.2010.05.025 JN:SYNTHETIC METALS PY:2010 TC:20 AU: Alemdar, Aydin;Ozkaya, Ali Riza;Bulut, Mustafa;
2:361:2:4 Synthesis and electrochemical, in situ spectroelectrochemical, electrical and gas sensing properties of ball-type homo- and hetero-dinuclear phthalocyanines with four [1a,8b-dihydronaphtho[b]naphthofuro[3,2-d]furan-7,10-diyl] bridges
DOI:10.1016/j.synthmet.2010.02.011 JN:SYNTHETIC METALS PY:2010 TC:26 AU: Odabas, Zafer;Koc, Imran;Altindal, Ahmet;Ozkaya, Ali Riza;Salih, Bekir;Bekaroglu, Oezer;
2:361:2:5 Electrochromism of the Langmuir-Blodgett films based on monophthalocyanines carrying redox active metal centers
DOI:10.1016/j.tsf.2013.10.177 JN:THIN SOLID FILMS PY:2014 TC:5 AU: Arican, Duygu;Erdogmus, Ali;Koca, Atif;
2:361:3:1 Synthesis and spectroscopic properties of a series of octacationic water-soluble phthalocyanines
DOI:10.1016/j.synthmet.2011.02.027 JN:SYNTHETIC METALS PY:2011 TC:20 AU: Biyiklioglu, Zekeriya;Kantekin, Halit;
2:361:3:2 Novel water-soluble metal-free and metallophthalocyanines: Synthesis, spectroscopic characterization and aggregation properties
DOI:10.1016/j.synthmet.2010.12.035 JN:SYNTHETIC METALS PY:2011 TC:20 AU: Biyiklioglu, Zekeriya;
2:361:3:3 Novel peripherally tetra-substituted octacationic metal-free and metallophthalocyanines: Synthesis, spectroscopic characterization and aggregation behaviours
DOI:10.1016/j.synthmet.2012.06.026 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Acar, Irfan;Cakir, Volkan;Biyiklioglu, Zekeriya;Kantekin, Halit;
2:361:3:4 Synthesis, characterization and aggregation properties of water-soluble metal-free and metallophthalocyanines peripherally tetra-substituted with 2-[2-(dimethylamino)ethoxy]ethoxy moiety
DOI:10.1016/j.synthmet.2011.11.004 JN:SYNTHETIC METALS PY:2012 TC:20 AU: Biyiklioglu, Zekeriya;
2:362:1 Loss Mechanisms in Thick-Film Low-Bandgap Polymer Solar Cells
DOI:10.1002/aenm.201201114 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:9 AU: Small, Cephas E.;Tsang, Sai-Wing;Chen, Song;Baek, Sujin;Amb, Chad M.;Subbiah, Jegadesan;Reynolds, John R.;So, Franky;
2:362:2 Understanding the performance and loss-mechanisms in donor-acceptor polymer based solar cells: Photocurrent generation, charge separation and carrier transport
DOI:10.1016/j.solmat.2011.04.042 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:13 AU: Choudhury, Kaushik Roy;Subbiah, Jegadesan;Chen, Song;Beaujuge, Pierre M.;Amb, Chad M.;Reynolds, John R.;So, Franky;
2:362:3 Photo-Carrier Recombination in Polymer Solar Cells Based on P3HT and Silole-Based Copolymer
DOI:10.1002/aenm.201100300 JN:ADVANCED ENERGY MATERIALS PY:2011 TC:20 AU: Chen, Song;Choudhury, Kaushik Roy;Subbiah, Jegadesan;Amb, Chad M.;Reynolds, John R.;So, Franky;
2:362:4 Defect-Induced Loss Mechanisms in Polymer-Inorganic Planar Heterojunction Solar Cells
DOI:10.1021/am4015605 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:6 AU: Hartel, Michael;Chen, Song;Swerdlow, Benjamin;Hsu, Hsien-Yi;Manders, Jesse;Schanze, Kirk;So, Franky;
2:363:1 Trap- Limited Exciton Diffusion in Organic Semiconductors
DOI:10.1002/adma.201304162 JN:ADVANCED MATERIALS PY:2014 TC:15 AU: Mikhnenko, Oleksandr V.;Kuik, Martijn;Lin, Jason;van der Kaap, Niels;Thuc-Quyen Nguyen;Blom, Paul W. M.;
2:363:2 Exciton Generation and Diffusion in Multilayered Organic Solar Cells Designed by Layer-by-Layer Assembly of Poly(p-phenylenevinylene)
DOI:10.1021/am900660n JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:15 AU: Masuda, Kohji;Ikeda, Yoshifumi;Ogawa, Michihiro;Benten, Hiroaki;Ohkita, Hideo;Ito, Shinzaburo;
2:363:3 Measurement of Exciton Diffusion in a Well-Defined Donor/Acceptor Heterojunction based on a Conjugated Polymer and Cross-Linked Fullerene Derivative
DOI:10.1021/am503434p JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Wang, Yanbin;Benten, Hiroaki;Ohara, Shunji;Kawamura, Daichi;Ohkita, Hideo;Ito, Shinzaburo;
2:363:4 Three Color Random Fluorene-Based Oligomers for Fast Micrometer-Scale Photopatterning
DOI:10.1021/cm902254f JN:CHEMISTRY OF MATERIALS PY:2010 TC:17 AU: Scheler, Esther;Strohriegl, Peter;
2:363:5 Measuring Reduced C-60 Diffusion in Crosslinked Polymer Films by Optical Spectroscopy
DOI:10.1002/adfm.201401153 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Fischer, Florian;Hahn, Tobias;Baessler, Heinz;Bauer, Irene;Strohriegl, Peter;Koehler, Anna;
2:363:6 Laser irradiation effects on the optical properties of layer-by-layer PPV/Congo Red thin films
DOI:10.1016/j.synthmet.2010.11.002 JN:SYNTHETIC METALS PY:2011 TC:1 AU: Laureto, Edson;Toledo da Silva, Marco Aurelio;Fernandes, Ricardo Vignoto;Duarte, Jose Leonil;Lupiano Dias, Ivan Frederico;de Santana, Henrique;Marletta, Alexandre;
2:363:7 Macro-counterions in a precursor to poly(phenylene vinylene): Toward defect-free luminescent films
DOI:10.1016/j.polymer.2010.05.016 JN:POLYMER PY:2010 TC:2 AU: Al-Hariri, Lara A.;Schlenoff, Joseph B.;
2:364:1 An electrochemiluminescence aptasensor for thrombin using graphene oxide to immobilize the aptamer and the intercalated Ru(phen)(3)(2+) probe
DOI:10.1016/j.bios.2013.04.003 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:23 AU: Wang, Xiao-Yan;Gao, Ai;Lu, Cong-Cong;He, Xi-Wen;Yin, Xue-Bo;
2:364:2 Electrogenerated Chemiluminescence of Metal-Organic Complex Nanowires: Reduced Graphene Oxide Enhancement and Biosensing Application
DOI:10.1002/adma.201201931 JN:ADVANCED MATERIALS PY:2012 TC:14 AU: Li, Qing;Zheng, Jian Yao;Yan, Yongli;Zhao, Yong Sheng;Yao, Jiannian;
2:364:3 Electrochemiluminescent biosensor of ATP using tetrahedron structured DNA and a functional oligonucleotide for Ru(phen)(3)(2+) intercalation and target identification
DOI:10.1016/j.bios.2012.11.027 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:11 AU: Bu, Nan-Nan;Gao, Ai;He, Xi-Wen;Yin, Xue-Bo;
2:364:4 Synthesis of Multi-Fullerenes Encapsulated Palladium Nanocage, and Its Application in Electrochemiluminescence Immunosensors for the Detection of Streptococcus suis Serotype 2
DOI:10.1002/smll.201303594 JN:SMALL PY:2014 TC:12 AU: Wang, Haijun;Bai, Lijuan;Chai, Yaqin;Yuan, Ruo;
2:364:5 A novel electrochemiluminescence sensor based on bis(2,2 '-bipyridine)-5-amino-1,10-phenanthroline ruthenium(II) covalently combined with graphite oxide
DOI:10.1016/j.bios.2010.07.083 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:19 AU: Chen, Xiao-Mei;Wu, Geng-Huang;Chen, Jin-Mei;Jiang, Ya-Qi;Chen, Guo-Nan;Oyama, Munetaka;Chen, Xi;Wang, Xiao-Ru;
2:364:6 The electrochemiluminescence of ruthenium complex/tripropylamine systems at DNA-modified gold electrodes
DOI:10.1016/j.bios.2010.08.074 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:15 AU: Liu, Dong-Yuan;Xin, You-Ying;He, Xi-Wen;Yin, Xue-Bo;
2:364:7 Electrochemical aptasensor using the tripropylamine oxidation to probe intramolecular displacement between target and complementary nucleotide for protein array
DOI:10.1016/j.bios.2010.11.035 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:11 AU: Liu, Dong-Yuan;Zhao, Yue;He, Xi-Wen;Yin, Xue-Bo;
2:365:1 High mobility top-gate and dual-gate polymer thin-film transistors based on diketopyrrolopyrrole-naphthalene copolymer
DOI:10.1063/1.3601928 JN:APPLIED PHYSICS LETTERS PY:2011 TC:17 AU: Ha, Tae-Jun;Sonar, Prashant;Dodabalapur, Ananth;
2:365:2 Charge carrier velocity distributions in high mobility polymer field-effect transistors
DOI:10.1063/1.3697994 JN:APPLIED PHYSICS LETTERS PY:2012 TC:6 AU: Ha, Tae-Jun;Sonar, Prashant;Dodabalapur, Ananth;
2:365:3 Enhancing crystallinity of C-60 layer by thickness-control of underneath pentacene layer for high mobility C-60/pentacene ambipolar transistors
DOI:10.1063/1.4789873 JN:APPLIED PHYSICS LETTERS PY:2013 TC:9 AU: Ahn, Kwangseok;Kim, Jong Beom;Park, Hyunjun;Kim, Hyunjung;Lee, Moo Hyung;Kim, Beom Joon;Cho, Jeong Ho;Kang, Moon Sung;Lee, Dong Ryeol;
2:365:4 Ambipolar-Type Organic Field-Effect Transistor with Two Stacked Active Layers in Dual-Gate Configuration
DOI:10.1080/15421406.2014.931773 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Lee, Gyujeong;Kim, Min-Hoi;Noh, Seung-Peom;Keum, Chang-Min;Lee, Sin-Doo;
2:365:5 Influence of device geometry in the electrical behavior of all organic ambipolar field effect transistors
DOI:10.1063/1.3515297 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Cosseddu, P.;Bonfiglio, A.;
2:365:6 Bias Voltage Effect on Electrical Properties of N-type Polymeric Field Effect Transistors with Dual Gate Electrodes
DOI:10.1080/15421406.2012.702377 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Kim, Min-Hoi;Noh, Seung-Peom;Keum, Chang-Min;Lee, Sin-Doo;
2:365:7 Low-voltage and hysteresis-free organic thin-film transistors employing solution-processed hybrid bilayer gate dielectrics
DOI:10.1063/1.4892005 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Ha, Tae-Jun;
2:366:1 Structural-Property Relationship in Pyrazino[2,3-g]quinoxaline Derivatives: Morphology, Photophysical, and Waveguide Properties
DOI:10.1021/cm100798q JN:CHEMISTRY OF MATERIALS PY:2010 TC:24 AU: Wang, Xiao;Zhou, Yan;Lei, Ting;Hu, Nan;Chen, Er-Qiang;Pei, Jian;
2:366:2 From benzobisthiadiazole, thiadiazoloquinoxaline to pyrazinoquinoxaline based polymers: effects of aromatic substituents on the performance of organic photovoltaics
DOI:10.1039/c2jm33317a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:17 AU: Tam, Teck Lip Dexter;Salim, Teddy;Li, Hairong;Zhou, Feng;Mhaisalkar, Subodh G.;Su, Haibin;Lam, Yeng Ming;Grimsdale, Andrew C.;
2:366:3 Comparative studies on the electrochemical and optical properties of representative benzo[1,2-c;4,5-c ']bis[1,2,5]thiadiazole, [1,2,5]-thiadiazolo[3,4-g]quinoxaline and pyrazino[2,3-g]quinoxaline derivatives
DOI:10.1039/c2tc00212d JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:7 AU: Li, Hairong;Zhou, Feng;Tam, Teck Lip Dexter;Lam, Yeng Ming;Mhaisalkar, Subodh G.;Su, Haibin;Grimsdale, Andrew C.;
2:366:4 Substituent effect on the electronic properties of pyrazino[2,3-g] quinoxaline molecules
DOI:10.1039/c1jm12347e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:5 AU: Tam, Teck Lip;Zhou, Feng;Li, Hairong;Pang, Jane Chieh Yu;Lam, Yeng Ming;Mhaisalkar, Subodh G.;Su, Haibin;Grimsdale, Andrew C.;
2:367:1 Molecular Accordion: Vapoluminescence and Molecular Flexibility in the Orange and Green Luminescent Crystals of the Dimer, Au-2(mu-bis-(diphenylphosphino)ethane)(2)Br-2
DOI:10.1021/ja2026807 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:43 AU: Lim, Sang Ho;Olmstead, Marilyn M.;Balch, Alan L.;
2:367:2 Photoluminescent properties of liquid crystalline gold(I) isocyanide complexes with a rod-like molecular structure
DOI:10.1039/c3tc31105h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Fujisawa, Kaori;Kawakami, Naoya;Onishi, Yusuke;Izumi, Yuichi;Tamai, Sho;Sugimoto, Nana;Tsutsumi, Osamu;
2:367:3 Reversible thermal-mode control of luminescence from liquid-crystalline gold(I) complexes
DOI:10.1039/c3tc31973c JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Fujisawa, Kaori;Okuda, Yuki;Izumi, Yuichi;Nagamatsu, Akira;Rokusha, Yuki;Sadaike, Yusuke;Tsutsumi, Osamu;
2:367:4 Liquid-Crystalline Self-Organization of Isocyanide-Containing Dendrimers Induced by Coordination to Gold(I) Fragments
DOI:10.1021/ja909435e JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:19 AU: Cordovilla, Carlos;Coco, Silverio;Espinet, Pablo;Donnio, Bertrand;
2:367:5 Highly Photoluminescent Nanocrystals Based on a Gold(I) Complex and Their Electrophoretic Patterning
DOI:10.1021/la200963g JN:LANGMUIR PY:2011 TC:5 AU: Saitoh, Masashi;Balch, Alan L.;Yuasa, Junpei;Tada, Kazuya;Onoda, Mitsuyoshi;Nakashima, Takuya;Kawai, Tsuyoshi;
2:367:6 Photoluminescent Gold(I) Complex with Biphenyl Acetylene Ligand Showing Stable Nematic Liquid-Crystalline Phase
DOI:10.1080/15421406.2014.940510 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Sugimoto, Nana;Tamai, Sho;Fujisawa, Kaori;Tsutsumi, Osamu;
2:367:7 Liquid-Crystalline Behavior and Photoluminescence Properties of Gold(I) Complex: Relationship between Aggregation Structure and Properties
DOI:10.1080/15421406.2012.688615 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:5 AU: Fujisawa, Kaori;Izumi, Yuichi;Nagamatsu, Akira;Uno, Kenjiro;Tsutsumi, Osamu;
2:368:1 Well-defined, high molecular weight poly(3-alkylthiophene)s in thin-film transistors: side chain invariance in field-effect mobility
DOI:10.1039/c000172d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:27 AU: Sauve, Genevieve;Javier, Anna E.;Zhang, Rui;Liu, Junying;Sydlik, Stefanie A.;Kowalewski, Tomasz;McCullough, Richard D.;
2:368:2 Enhancement in crystallinity of poly(3-hexylthiophene) thin films prepared by low-temperature drop casting
DOI:10.1002/app.36447 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:13 AU: Shabi, Thankaraj Salammal;Grigorian, Souren;Brinkmann, Martin;Pietsch, Ullrich;Koenen, Nils;Kayunkid, Navaphun;Scherf, Ullrich;
2:368:3 Electronic Properties-Morphology Correlation of a Rod-Rod Semiconducting Liquid Crystalline Block Copolymer Containing Poly(3-hexylthiophene)
DOI:10.1021/la301731w JN:LANGMUIR PY:2012 TC:18 AU: Bhatt, Mahesh P.;Sista, Prakash;Hao, Jing;Hundt, Nadia;Biewer, Michael C.;Stefan, Mihaela C.;
2:368:4 Interplay of liquid crystalline ordering in double side-chain liquid crystalline diblock copolymer
DOI:10.1016/j.polymer.2013.10.041 JN:POLYMER PY:2013 TC:4 AU: Wei, Wei;Liu, Yu;Xiong, Huiming;
2:368:5 Optical and electrical characteristics of poly(3-alkylthiophene) and polydiphenylamine copolymers: Applications in light-emitting devices
DOI:10.1016/j.synthmet.2012.12.006 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Bento, D. C.;Maia, E. C. R.;Cervantes, T. N. M.;Fernandes, R. V.;Di Mauro, E.;Laureto, E.;da Silva, M. A. T.;Duarte, J. L.;Dias, I. F. L.;de Santana, H.;
2:368:6 Order-order transition induced by mesophase formation in a novel type of diblock copolymers based on poly(isobutyl methacrylate) and poly[2,5-di( isopropyloxycarbonyl)styrene]
DOI:10.1039/b915519h JN:SOFT MATTER PY:2010 TC:7 AU: Guan, Yan;Chen, Xiaofang;Ma, Hongyang;Shen, Zhihao;Wan, Xinhua;
2:368:7 Analysis of optical properties of poly(3-methylthiophene) (P3MT) electrochemically synthesized
DOI:10.1016/j.synthmet.2010.11.052 JN:SYNTHETIC METALS PY:2011 TC:8 AU: dos Reis, G. A.;Dias, I. F. L.;de Santana, H.;Duarte, J. L.;Laureto, E.;Di Mauro, E.;da Silva, M. A. T.;
2:368:8 Poly(4-hexyloxythiazole): A new low band gap semiconductor for polymer electronics
DOI:10.1016/j.synthmet.2014.07.028 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Wei, Qingshuo;Miyanishi, Shoji;Zhou, Erjun;Hashimoto, Kazuhito;Tajima, Keisuke;
2:368:9 Effects of volatile additives in solutions used to prepare polythiophene-based thin-film transistors
DOI:10.1063/1.3553878 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Ichikawa, Musubu;Yamamura, Kenta;Jeon, Hyeon-Gu;Nakajima, Miyako;Taniguchi, Yoshio;
2:369:1 Cyclometalated iridium(III) complexes with 5-acetyl-2-phenypyridine derived ligands for red phosphorescent OLEDs
DOI:10.1016/j.synthmet.2011.03.030 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Lee, Kum Hee;Kang, Hyun Ju;Lee, Seok Jae;Seo, Ji Hyun;Kim, Young Kwan;Yoon, Seung Soo;
2:369:2 Synthesis and Electroluminescent Properties of Ir(III) Complexes Containing Alkenyl Pyridine Ligands
DOI:10.1080/15421406.2012.708839 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Lee, Kum Hee;Chae, Dong Hoon;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:369:3 Synthesis and electrophosphorescent properties of iridium complexes based on 2-fluorenylquinoline derivatives
DOI:10.1016/j.tsf.2009.11.019 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Lee, Kum Hee;Lee, Woochul;Kim, Min Kyu;Seo, Ji Hyun;Kim, Young Kwan;Yoon, Seung Soo;
2:369:4 Red-phosphorescent OLEDs employing iridium (III) complexes based on 5-benzoyl-2-phenylpyridine derivatives
DOI:10.1016/j.tsf.2010.03.146 JN:THIN SOLID FILMS PY:2010 TC:12 AU: Lee, Kum Hee;Kang, Hyun Ju;Park, Jeong Keun;Seo, Ji Hyun;Kim, Young Kwan;Yoon, Seung Soo;
2:369:5 Acetylated Phenylpyridine Derived Iridium (III) Complexes for Orange-Red Electrophosphorescent Light-Emitting Diodes
DOI:10.1080/15421406.2011.590369 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:1 AU: Lee, Kum Hee;Kang, Hyun Ju;Jaelee, Seok;Seo, Ji Hyun;Kim, Young Kwan;Yoon, Seung Soo;
2:369:6 Efficient red phosphorescent iridium complexes for organic light-emitting diodes based on 5-benzoyl-2-phenylpyridine ligands with fluorine and methyl moieties
DOI:10.1016/j.synthmet.2012.02.008 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Lee, Kum Hee;Kang, Hyun Ju;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:369:7 Highly efficient red phosphorescent Ir(III) complexes for organic light- emitting diodes based on aryl(6-arylpyridin-3-yl)methanone ligands
DOI:10.1016/j.tsf.2011.04.121 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Kang, Hyun Ju;Lee, Kum Hee;Lee, Seok Jae;Seo, Ji Hyun;Kim, Young Kwan;Yoon, Seung Soo;
2:369:8 Red Phosphorescent Iridium(III) Complexes Containing 5-Benzoyl-2-phenylpyridine Derived Ligands with Electron-Donating/-Withdrawing Moieties for Organic Light-Emitting Diodes
DOI:10.1080/15421406.2010.495891 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:5 AU: Lee, Kum Hee;Kang, Hyun Ju;Kim, Seul Ong;Lee, Suk Jae;Seo, Ji Hyun;Kim, Young Kwan;Yoon, Seung Soo;
2:369:9 Synthesis of Ir(III) Complexes Containing Meta-Carbonylated Phenylpyridine Ligand for Phosphorescent Organic Light-Emitting Diodes
DOI:10.1080/15421406.2012.689165 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Lee, Kum Hee;Hwang, Jin Soo;Chae, Dong Hoon;Lee, Seok Jae;Kim, Young Kwan;Yoon, Seung Soo;
2:370:1 Amyloid fibrils as dispersing agents for oligothiophenes: control of photophysical properties through nanoscale templating and flow induced fibril alignment
DOI:10.1039/c4tc00692e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Backlund, Fredrik G.;Wigenius, Jens;Westerlund, Fredrik;Inganas, Olle;Solin, Niclas;
2:370:2 White Light with Phosphorescent Protein Fibrils in OLEDs
DOI:10.1021/nl1012008 JN:NANO LETTERS PY:2010 TC:25 AU: Rizzo, Aurora;Solin, Niclas;Lindgren, Lars J.;Andersson, Mats R.;Inganas, Olle;
2:370:3 Electronic Polymers and DNA Self-Assembled in Nanowire Transistors
DOI:10.1002/smll.201201771 JN:SMALL PY:2013 TC:7 AU: Hamedi, Mahiar;Elfwing, Anders;Gabrielsson, Roger;Inganas, Olle;
2:370:4 Multiple Self-Assembly Functional Structures Based on Versatile Binding Sites of beta-Lactoglobulin
DOI:10.1002/adfm.201102463 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:7 AU: Hendler, Netta;Belgorodsky, Bogdan;Mentovich, Elad D.;Richter, Shachar;Fadeev, Ludmila;Gozin, Michael;
2:370:5 Biomolecular nanowires decorated by organic electronic polymers
DOI:10.1039/b910639a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Bjork, Per;Herland, Anna;Hamedi, Mahiar;Inganas, Olle;
2:370:6 Chiral poly(L-lactic acid) driven helical self-assembly of oligo(p-phenylenevinylene)
DOI:10.1039/c3tc32241f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Nisha, S. Kumari;Asha, S. K.;
2:370:7 Facile chemical synthesis of DNA-doped PEDOT
DOI:10.1016/j.synthmet.2009.11.003 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Ner, Yogesh;Invernale, Michael A.;Grote, James G.;Stuart, Jeffrey A.;Sotzing, Gregory A.;
2:371:1 Direct Writing of Polymer Lasers Using Interference Ablation
DOI:10.1002/adma.201100250 JN:ADVANCED MATERIALS PY:2011 TC:24 AU: Zhai, Tianrui;Zhang, Xinping;Pang, Zhaoguang;Dou, Fei;
2:371:2 Flexible lasers based on the microstructured single-crystalline ultrathin films
DOI:10.1039/c2jm35394f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Fang, Hong-Hua;Ding, Ran;Lu, Shi-Yang;Zhang, Xu-Lin;Feng, Jing;Chen, Qi-Dai;Sun, Hong-Bo;
2:371:3 Theoretical study on the possible use of SiC microparticles as photothermal agents for the heating of bacteria
DOI:10.1088/0957-4484/23/5/055103 JN:NANOTECHNOLOGY PY:2012 TC:3 AU: Rosenberg, M.;Petrie, T. A.;
2:371:4 A flexible organic random laser based on poly(9,9-dioctylfluorene) deposited on a surface corrugated poly-phthalate-carbonate substrate
DOI:10.1063/1.3601854 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Anni, M.;
2:371:5 Intrinsic optical gain in thin films of a conjugated polymer under picosecond excitation
DOI:10.1063/1.4816040 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Lampert, Zach E.;Lappi, Simon E.;Papanikolas, John M.;Reynolds, C. Lewis, Jr.;
2:371:6 Gain- and feedback-channel matching in lasers based on radiative-waveguide gratings
DOI:10.1063/1.4757871 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Zhai, Tianrui;Zhang, Xinping;
2:371:7 Gold nanosphere propulsion by using femtosecond laser-excited enhanced near field
DOI:10.1007/s00339-014-8328-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Shinohara, Takuya;Terakawa, Mitsuhiro;
2:371:8 Amplified spontaneous emission in the cyano-substituted oligo(p-phenylenevinylene) organic crystals: Effect of excitation wavelength
DOI:10.1063/1.3359848 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Fang, Hong-Hua;Chen, Qi-Dai;Yang, Jie;Wang, Lei;Jiang, Ying;Xia, Hong;Feng, Jing;Ma, Yu-Guang;Wang, Hai-Yu;Sun, Hong-Bo;
2:371:9 Interaction between ultrashort laser pulses and gold nanoparticles: nanoheater and nanolens effect
DOI:10.1007/s11051-010-9976-4 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:10 AU: Nedyalkov, N. N.;Imamova, S.;Atanasov, P. A.;Tanaka, Y.;Obara, M.;
2:372:1 Enhancing outcoupling efficiency of indium-tin-oxide-free organic light-emitting diodes via nanostructured high index layers
DOI:10.1063/1.3455098 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Riedel, Boris;Hauss, Julian;Geyer, Ulf;Guetlein, Johanna;Lemmer, Uli;Gerken, Martina;
2:372:2 Green, near-infrared electroluminescence of novel yttrium tetrazole complexes
DOI:10.1039/c2tc00411a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:21 AU: Shahroosvand, Hashem;Najafi, Leyla;Mohajerani, Ezeddin;Khabbazi, Amir;Nasrollahzadeh, Mahmoud;
2:372:3 Evidence of Light Guiding in Ion-Implanted Diamond
DOI:10.1103/PhysRevLett.105.233903 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:17 AU: Lagomarsino, S.;Olivero, P.;Bosia, F.;Vannoni, M.;Calusi, S.;Giuntini, L.;Massi, M.;
2:372:4 Proton or helium ion beam written channel waveguides in Nd:YAG ceramics
DOI:10.1016/j.optmat.2013.06.011 JN:OPTICAL MATERIALS PY:2013 TC:0 AU: Yao, Yicun;Zhang, Chao;Vanga, Sudheer Kumar;Bettiol, A. A.;Chen, Feng;
2:372:5 Laser printing of polythiophene for organic electronics
DOI:10.1016/j.apsusc.2010.10.145 JN:APPLIED SURFACE SCIENCE PY:2011 TC:7 AU: Zergioti, I.;Makrygianni, M.;Dimitrakis, P.;Normand, P.;Chatzandroulis, S.;
2:372:6 Proton beam writing on PMMA and SU-8 films as a tool for development of micro-structures for organic electronics
DOI:10.1016/j.apsusc.2011.07.004 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Sarkar, Mihir;Shukla, Neeraj;Banerji, Nobin;Mohapatra, Y. N.;
2:372:7 Optical polymers with tunable refractive index for nanoimprint technologies
DOI:10.1088/0957-4484/25/50/505301 JN:NANOTECHNOLOGY PY:2014 TC:0 AU: Landwehr, J.;Fader, R.;Rumler, M.;Rommel, M.;Bauer, A. J.;Frey, L.;Simon, B.;Fodor, B.;Petrik, P.;Schiener, A.;Winter, B.;Spiecker, E.;
2:372:8 Synthesis, characterization and optical properties of novel N donor ligands-chelated zirconium(IV) complexes
DOI:10.1016/j.optmat.2012.07.006 JN:OPTICAL MATERIALS PY:2012 TC:6 AU: Shahroosvand, Hashem;Nasouti, Fahimeh;Mohajerani, Ezeddin;Khabbazi, Amir;
2:372:9 Going from green to red electroluminescence through ancillary ligand substitution in ruthenium(II) tetrazole benzoic acid emitters
DOI:10.1039/c3tc31350f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Shahroosvand, Hashem;Najafi, Leyla;Sousaraei, Ahmad;Mohajerani, Ezeddin;Janghouri, Mohammad;
2:372:10 Tailoring the refractive index of nanoimprint resist by blending with TiO2 nanoparticles
DOI:10.1364/OME.4.000329 JN:OPTICAL MATERIALS EXPRESS PY:2014 TC:3 AU: Pradana, Arfat;Kluge, Christian;Gerken, Martina;
2:372:11 Buried channel waveguides in KTiOPO4 nonlinear crystal fabricated by focused He+ beam writing
DOI:10.1016/j.optmat.2012.07.007 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Dong, Ningning;Yao, Yicun;Jia, Yuechen;Chen, Feng;Vanga, Sudheer Kumar;Bettiol, Andrew Anthony;Lu, Qingming;
2:372:12 Improving the contrast ratio of OLED displays: An analysis of various techniques
DOI:10.1016/j.optmat.2011.10.005 JN:OPTICAL MATERIALS PY:2012 TC:14 AU: Singh, Ranbir;Unni, K. N. Narayanan;Solanki, Ankur;Deepak;
2:373:1 An electronic structure reinterpretation of the organic semiconductor/electrode interface based on argon gas cluster ion beam sputtering investigations
DOI:10.1063/1.4812582 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Yun, Dong-Jin;Chung, JaeGwan;Jung, Changhoon;Kim, Ki-Hong;Baek, WoonJoong;Han, Hyouksoo;Anass, Benayad;Park, Gyeong-Su;Park, Sung-Hoon;
2:373:2 Direct comparative study on the energy level alignments in unoccupied/occupied states of organic semiconductor/electrode interface by constructing in-situ photoemission spectroscopy and Ar gas cluster ion beam sputtering integrated analysis system
DOI:10.1063/1.4897517 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Yun, Dong-Jin;Chung, JaeGwan;Kim, Yongsu;Park, Sung-Hoon;Kim, Seong-Heon;Heo, Sung;
2:373:3 Effect of self assembled monolayer on the energy structure of pentacene and Ru/Ti semiconductor-metal contact measured with in situ ultraviolet photoemission spectroscopy
DOI:10.1039/c0jm01710h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:9 AU: Yun, Dong-Jin;Rhee, Shi-Woo;
2:373:4 A novel approach for the characterization of a bilayer of phenyl-c71-butyric-acid-methyl ester and pentacene using ultraviolet photoemission spectroscopy and argon gas cluster ion beam sputtering process
DOI:10.1063/1.4820393 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Yun, Dong-Jin;Chung, JaeGwan;Jung, Changhoon;Chung, Yeonji;Kim, SeongHeon;Lee, Seunghyup;Kim, Ki-Hong;Han, Hyouksoo;Park, Gyeong-Su;Park, SungHoon;
2:373:5 Auger electron nanoscale mapping and x-ray photoelectron spectroscopy combined with gas cluster ion beam sputtering to study an organic bulk heterojunction
DOI:10.1063/1.4885115 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Seong Heon;Heo, Sung;Ihn, Soo-Ghang;Yun, Sungyoung;Park, Jong Hwan;Chung, Yeonji;Lee, Eunha;Park, Gyeongsu;Yun, Dong-Jin;
2:373:6 Accurate argon cluster-ion sputter yields: Measured yields and effect of the sputter threshold in practical depth-profiling by x-ray photoelectron spectroscopy and secondary ion mass spectrometry
DOI:10.1063/1.4823815 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:6 AU: Cumpson, Peter J.;Portoles, Jose F.;Barlow, Anders J.;Sano, Naoko;
2:373:7 Observed damage during Argon gas cluster depth profiles of compound semiconductors
DOI:10.1063/1.4892097 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Barlow, Anders J.;Portoles, Jose F.;Cumpson, Peter J.;
2:373:8 X-ray photoelectron spectroscopy study of polyimide thin films with Ar cluster ion depth profiling
DOI:10.1116/1.3336242 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2010 TC:16 AU: Miyayama, T.;Sanada, N.;Suzuki, M.;Hammond, J. S.;Si, S. -Q. D.;Takahara, A.;
2:373:9 Material dependence of argon cluster ion sputter yield in polymers: Method and measurements of relative sputter yields for 19 polymers
DOI:10.1116/1.4791669 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:7 AU: Cumpson, Peter J.;Portoles, Jose F.;Sano, Naoko;
2:373:10 XPS study of effects of water vapor during Ar-GCIB irradiations on PMMA
DOI:10.1016/j.apsusc.2014.03.046 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Toyoda, Noriaki;Yamada, Isao;
2:373:11 X-ray enhanced sputter rates in argon cluster ion sputter-depth profiling of polymers(a))
DOI:10.1116/1.4793284 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:5 AU: Cumpson, Peter J.;Portoles, Jose F.;Sano, Naoko;Barlow, Anders J.;
2:374:1 Photoexcitation Dynamics in Films of C-60 and Zn Phthalocyanine with a Layered Nanostructure
DOI:10.1103/PhysRevLett.108.077402 JN:PHYSICAL REVIEW LETTERS PY:2012 TC:8 AU: Lane, Paul A.;Cunningham, Paul D.;Melinger, Joseph S.;Kushto, Gary P.;Esenturk, Okan;Heilweil, Edwin J.;
2:374:2 Tuning the interfacial hole injection barrier between p-type organic materials and Co using a MoO3 buffer layer
DOI:10.1063/1.4740455 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Wang, Yu-Zhan;Cao, Liang;Qi, Dong-Chen;Chen, Wei;Wee, Andrew T. S.;Gao, Xing-Yu;
2:374:3 Ultrafast charge-transfer processes at an oriented phthalocyanine/C-60 interface
DOI:10.1103/PhysRevB.82.073407 JN:PHYSICAL REVIEW B PY:2010 TC:14 AU: Dutton, G. J.;Jin, W.;Reutt-Robey, J. E.;Robey, S. W.;
2:374:4 Improvement of power conversion efficiency of phthalocyanine/C-60 heterojunction solar cells by inserting a lithium phthalocyanine layer at the indium-tin oxide/phthalocyanine interface
DOI:10.1063/1.3529452 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Tanaka, Senku;Hanada, Toshiyuki;Ono, Koji;Watanabe, Kazuya;Yoshino, Katsumi;Hiromitsu, Ichiro;
2:374:5 Electroabsorption under white light illumination to investigate the internal electric field of the organic thin-film solar cells under operation
DOI:10.1063/1.4835096 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Nishimura, Takuya;Furuyama, Tomotaka;Miyazaki, Masaru;Tanaka, Senku;Hiromitsu, Ichiro;
2:374:6 Morphology effects on charge generation and recombination dynamics at ZnPc:C-60 bulk hetero-junctions using time-resolved terahertz spectroscopy
DOI:10.1063/1.3644129 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Bartelt, Andreas F.;Strothkaemper, Christian;Schindler, Wolfram;Fostiropoulos, Konstantinos;Eichberger, Rainer;
2:374:7 Photocarrier relaxation through the manifold of localized states in a polymer-fullerene bulk heterojunction material
DOI:10.1063/1.3562371 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Coates, Nelson E.;Moses, Daniel;Heeger, Alan J.;
2:374:8 Thin-film field-effect transistors of copper phthalocyanine on a rubbed polyethersulfone
DOI:10.1016/j.tsf.2010.09.044 JN:THIN SOLID FILMS PY:2011 TC:20 AU: Kim, Hyun Gi;Jang, Jung Soo;Hur, Sung-Taek;Choi, Suk-Won;Kim, Sung Soo;Tada, Hiroyuki;Takezoe, Hideo;Ishikawa, Ken;
2:374:9 Effect of iodine doping of phthalocyanine on the photocurrent generation in a phthalocyanine/C-60 heterojunction
DOI:10.1016/j.tsf.2012.05.001 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Mizuta, Shinsei;Iyota, Masatoshi;Tanaka, Senku;Hiromitsu, Ichiro;
2:374:10 Anomalous photoelectric emission from Ag on zinc-phthalocyanine film
DOI:10.1063/1.4876956 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Tanaka, Senku;Otani, Tomohiro;Fukuzawa, Ken;Ogawa, Koji;Azuma, Junpei;Yamamoto, Isamu;Takahashi, Kazutoshi;Kamada, Masao;Hiromitsu, Ichiro;
2:375:1 Decohesion Kinetics in Polymer Organic Solar Cells
DOI:10.1021/am506482q JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:2 AU: Bruner, Christopher;Novoa, Fernando;Dupont, Stephanie;Dauskardt, Reinhold;
2:375:2 Decohesion Kinetics of PEDOT: PSS Conducting Polymer Films
DOI:10.1002/adfm.201302174 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Dupont, Stephanie R.;Novoa, Fernando;Voroshazi, Eszter;Dauskardt, Reinhold H.;
2:375:3 Environmental mechanisms of debonding in photovoltaic backsheets
DOI:10.1016/j.solmat.2013.08.020 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:5 AU: Novoa, Fernando D.;Miller, David C.;Dauskardt, Reinhold H.;
2:375:4 Environmentally assisted debonding of copper/barrier interfaces
DOI:10.1016/j.actamat.2012.01.007 JN:ACTA MATERIALIA PY:2012 TC:12 AU: Birringer, Ryan P.;Shaviv, Roey;Besser, Paul R.;Dauskardt, Reinhold H.;
2:375:5 Mechanical Properties of Conjugated Polymers and Polymer-Fullerene Composites as a Function of Molecular Structure (vol 24, pg 1169-1181, 2013)
DOI:10.1002/adfm.201400595 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Savagatrup, Suchol;Makaram, Aditya S.;Burke, Daniel J.;Lipomi, Darren J.;
2:375:6 Mechanical Fatigue of Hybrid Glasses
DOI:10.1002/smll.201000667 JN:SMALL PY:2010 TC:3 AU: Oliver, Mark S.;Dauskardt, Reinhold H.;
2:375:7 Effects of barrier composition and electroplating chemistry on adhesion and voiding in copper/dielectric diffusion barrier films
DOI:10.1063/1.3624659 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Birringer, Ryan P.;Shaviv, Roey;Geiss, Roy H.;Read, David T.;Dauskardt, Reinhold H.;
2:375:8 Hybrid coupling layers for bulk metallic glass adhesion
DOI:10.1557/jmr.2013.331 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:1 AU: Yang, Jeffrey;Dauskardt, Reinhold H.;
2:375:9 Film stresses and electrode buckling in organic solar cells
DOI:10.1016/j.solmat.2012.04.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Brand, Vitali;Levi, Kemal;McGehee, Michae D.;Dauskardt, Reinhold H.;
2:376:1 Electrical Insulation Characteristics of Alumina, Titania, and Organoclay Nanoparticles Filled PP/EPDM Nanocomposites
DOI:10.1002/app.41184 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Hamzah, Muhammad Safwan;Jaafar, Mariatti;Jamil, Mohamad Kamarol Mohd;
2:376:2 Development of butyl rubber-rutile composites for flexible microwave substrate applications
DOI:10.1016/j.ceramint.2013.12.091 JN:CERAMICS INTERNATIONAL PY:2014 TC:1 AU: Chameswary, Janardhanan;Sebastian, Mailadil T.;
2:376:3 Polypropylene Nanocomposite Film: A Critical Evaluation on the Effect of Nanoclay on the Mechanical, Thermal, and Morphological Behavior
DOI:10.1002/app.30883 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:12 AU: Sharma, S. K.;Nema, Ajay K.;Nayak, S. K.;
2:376:4 Butyl rubber-Ba0.7Sr0.3TiO3 composites for flexible microwave electronic applications
DOI:10.1016/j.ceramint.2012.09.047 JN:CERAMICS INTERNATIONAL PY:2013 TC:4 AU: Chameswary, Janardhanan;Sebastian, Mailadil Thomas;
2:376:5 Microwave dielectric properties of flexible butyl rubber-strontium cerium titanate composites
DOI:10.1002/app.35364 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:6 AU: Janardhanan, Chameswary;Thomas, Dhanesh;Subodh, Ganesanpotti;Harshan, Soumya;Philip, Jacob;Sebastian, Mailadil T.;
2:376:6 Effects of SiO2 and Al2O3 Nanofillers on Polyethylene Properties
DOI:10.1002/app.34297 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:6 AU: Panaitescu, Denis;Ciuprina, Florin;Iorga, Michaela;Frone, Adriana;Radovici, Constantin;Ghiurea, Marius;Sever, Serban;Plesa, Ilona;
2:376:7 Mechanical Properties, Morphology, and Crystal Structure of Polypropylene/Chemically Modified Attapulgite Nanocomposites
DOI:10.1002/app.33611 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:8 AU: Chen, Jianjun;Chen, Jinyao;Zhu, Shipeng;Cao, Ya;Li, Huilin;
2:376:8 Ternary elastomer nanocomposites based on NR/BR/SBR: Effect of nanoclay composition
DOI:10.1002/app.37687 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:6 AU: Zarei, M.;Naderi, G.;Bakhshandeh, G. R.;Shokoohi, S.;
2:376:9 From natural attapulgite to phosphor materials: Characterization, photoluminescence and structure
DOI:10.1016/j.materresbull.2014.04.022 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Wang, Wenjie;Gu, Zheng;Gao, Xiuping;Jiang, Huie;Liu, Weisheng;
2:376:10 Dielectric properties of silicone rubber-titanium dioxide composites prepared by dielectrophoretic assembly of filler particles
DOI:10.1088/0964-1726/19/3/035019 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:7 AU: Kashani, M. Razzaghi;Javadi, S.;Gharavi, N.;
2:376:11 Preparation, Characterization, and Application of NR/SBR/Organoclay Nanocomposites in the Tire Industry
DOI:10.1002/app.32773 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:12 AU: Shan, Chunpeng;Gu, Zheng;Wang, Li;Li, Peiyao;Song, Guojun;Gao, Zhenbin;Yang, Xiaoyu;
2:376:12 High-velocity impact behavior of glass fiber-reinforced polyester filled with nanoclay
DOI:10.1002/app.36605 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:1 AU: Esfahani, Javad Moftakharian;Esfandeh, Masoud;Sabet, Ali Reza;
2:376:13 Effect of clay type and polymer matrix on microstructure and tensile properties of PLA/LLDPE/clay nanocomposites
DOI:10.1002/app.39209 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:5 AU: As'habi, Ladan;Jafari, Seyed Hassan;Khonakdar, Hossein Ali;Kretzschmar, Bernd;Wagenknecht, Udo;Heinrich, Gert;
2:377:1 Bias and temperature dependent charge transport in high mobility cobalt-phthalocyanine thin films
DOI:10.1063/1.3284652 JN:APPLIED PHYSICS LETTERS PY:2010 TC:17 AU: Samanta, S.;Aswal, D. K.;Singh, A.;Debnath, A. K.;Kumar, M. Senthil;Hayakawa, Y.;Gupta, S. K.;Yakhmi, J. V.;
2:377:2 Bending stress induced improved chemiresistive gas sensing characteristics of flexible cobalt-phthalocyanine thin films
DOI:10.1063/1.4800446 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Singh, Ajay;Kumar, Ashwini;Kumar, Arvind;Samanta, S.;Joshi, Nirav;Balouria, Vishal;Debnath, A. K.;Prasad, R.;Salmi, Z.;Chehimi, M. M.;Aswal, D. K.;Gupta, S. K.;
2:377:3 Metal-semiconductor transition in ultrathin cobalt-phthalocyanine films grown on SrTiO3 single crystal substrates
DOI:10.1063/1.4704141 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Samanta, S.;Kumar, Arvind;Singh, A.;Debnath, A. K.;Veerender, P.;Basu, S.;Prasad, R.;Aswal, D. K.;Gupta, S. K.;
2:377:4 Metallic-like conduction in Co-phthalocyanine/Fe-phthalocyanine composite films grown on sapphire substrates
DOI:10.1063/1.3637050 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Kumar, Arvind;Singh, Ajay;Samanta, S.;Debnath, A. K.;Aswal, D. K.;Gupta, S. K.;
2:377:5 Improved charge conduction in cobalt-phthalocyanine thin films grown along 36.8 degrees boundary of SrTiO3 bicrystals
DOI:10.1063/1.3574776 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Samanta, S.;Singh, A.;Kumar, Arvind;Debnath, A. K.;Aswal, D. K.;Gupta, S. K.;Yakhmi, J. V.;
2:377:6 Flexible cobalt-phthalocyanine thin films with high charge carrier mobility
DOI:10.1063/1.4767990 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Singh, Ajay;Kumar, Arvind;Kumar, Ashwini;Samanta, Soumen;Debnath, Anil K.;Jha, Purushottam;Prasad, Rajeshwar;Salmi, Zakaria;Nowak, Sophie;Chehimi, Mohamed M.;Aswal, Dinesh K.;Gupta, Shiv K.;
2:377:7 Enhancement of photovoltaic efficiency of phosphor doped organic solar cell by energy and electron transfer from the phosphor to C-60 acceptor
DOI:10.1063/1.3658875 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Yang, Dongfang;Li, Wenlian;Chu, Bei;Su, Zisheng;Wang, Junbo;Zhang, Guang;Zhang, Feng;
2:377:8 Fluorinated copper-phthalocyanine/cobalt-phthalocyaine organic heterojunctions: Charge transport and Kelvin probe studies
DOI:10.1063/1.3699272 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Debnath, A. K.;Kumar, Arvind;Samanta, S.;Prasad, R.;Singh, A.;Chauhan, A. K.;Veerender, P.;Singh, S.;Basu, S.;Aswal, D. K.;Gupta, S. K.;
2:377:9 Synthesis and characterization of 1-phenyl-3-(4-phenyl-[1,2,3]triazol-1-yl)-4-styryl-azetidin-2-one films for light-emitting applications
DOI:10.1016/j.tsf.2010.09.041 JN:THIN SOLID FILMS PY:2010 TC:0 AU: Mahajan, Aman;Bedi, R. K.;Singh, Pardeep;Kumar, Vipan;
2:378:1 The role of the double peaked absorption spectrum in the efficiency of solar cells based on donor-acceptor-donor copolymers
DOI:10.1016/j.solmat.2011.03.043 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:17 AU: Canestraro, Carla D.;Rodrigues, Paula C.;Marchiori, Cleber F. N.;Schneider, Camila B.;Akcelrud, Leni;Koehler, Marlus;Roman, Lucimara S.;
2:378:2 Dipole assisted exciton dissociation at conjugated polymer/fullerene photovoltaic interfaces: A molecular study using density functional theory calculations
DOI:10.1016/j.synthmet.2009.12.026 JN:SYNTHETIC METALS PY:2010 TC:33 AU: Marchiori, C. F. N.;Koehler, M.;
2:378:3 Hole mobility effect in the efficiency of bilayer heterojunction polymer/C-60 photovoltaic cells
DOI:10.1063/1.3601476 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Macedo, Andreia G.;Marchiori, Cleber F. N.;Grova, Isabel R.;Akcelrud, Leni;Koehler, Marlus;Roman, Lucimara S.;
2:378:4 The current-voltage characteristics of polymer/C-60 diodes in the dark: A direct way to assess photovoltaic devices efficiency parameters
DOI:10.1063/1.4813759 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Koehler, M.;Yamamoto, N. A. D.;Macedo, A. G.;Grodniski, D. Z.;Roman, L. S.;da Luz, M. G. E.;
2:378:5 Electronic structure, molecular orientation, charge transfer dynamics and solar cells performance in donor/acceptor copolymers and fullerene: Experimental and theoretical approaches
DOI:10.1063/1.4870470 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Garcia-Basabe, Y.;Marchiori, C. F. N.;Borges, B. G. A. L.;Yamamoto, N. A. D.;Macedo, A. G.;Koehler, M.;Roman, L. S.;Rocco, M. L. M.;
2:378:6 Interplay between solid-state organization and optical properties of thin films of poly-arylene-vinylene and -difluorinated vinylene: Fullerene blends
DOI:10.1016/j.synthmet.2011.07.012 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Dilonardo, Elena;Cardone, Antonio;Martinelli, Carmela;Giangregorio, Maria M.;Losurdo, Maria;Capezzuto, Pio;Farinola, Gianluca M.;Babudri, Francesco;Naso, Francesco;Bruno, Giovanni;
2:378:7 PEDOTs-PCnBMs polymer-fullerene BHJ solar cells: Quantum mechanical calculations of photovoltaic and photophysical properties
DOI:10.1016/j.nanoen.2012.04.002 JN:NANO ENERGY PY:2012 TC:2 AU: Shalabi, A. S.;Aal, S. Abdel;Assem, M. M.;
2:379:1 Ferroelectric Polarization Induces Electric Double Layer Bistability in Electrolyte-Gated Field-Effect Transistors
DOI:10.1021/am404494h JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: Fabiano, Simone;Crispin, Xavier;Berggren, Magnus;
2:379:2 Stability of polarization in organic ferroelectric metal-insulator-semiconductor structures
DOI:10.1063/1.3543632 JN:APPLIED PHYSICS LETTERS PY:2011 TC:13 AU: Kalbitz, R.;Fruebing, P.;Gerhard, R.;Taylor, D. M.;
2:379:3 Ionic-liquid-induced ferroelectric polarization in poly(vinylidene fluoride) thin films
DOI:10.1063/1.3683526 JN:APPLIED PHYSICS LETTERS PY:2012 TC:11 AU: Wang, Feipeng;Lack, Alexander;Xie, Zailai;Fruebing, Peter;Taubert, Andreas;Gerhard, Reimund;
2:379:4 Revisiting the delta-phase of poly(vinylidene fluoride) for solution-processed ferroelectric thin films
DOI:10.1038/NMAT3577 JN:NATURE MATERIALS PY:2013 TC:35 AU: Li, Mengyuan;Wondergem, Harry J.;Spijkman, Mark-Jan;Asadi, Kamal;Katsouras, Ilias;Blom, Paul W. M.;de Leeuw, Dago M.;
2:379:5 Electric Double Layer Formed by Polarized Ferroelectric Thin Films
DOI:10.1021/am3031954 JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:1 AU: Ferris, Robert J.;Lin, Shihong;Therezien, Mathieu;Yellen, Benjamin B.;Zauscher, Stefan;
2:379:6 Influence of the Solvent Evaporation Rate on the Crystalline Phases of Solution-Cast Poly(Vinylidene Fluoride) Films
DOI:10.1002/app.31488 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:20 AU: Chinaglia, Dante Luis;Gregorio, Rinaldo, Jr.;Stefanello, Josiani Cristina;Pisani Altafim, Ruy Alberto;Wirges, Werner;Wang, Feipeng;Gerhard, Reimund;
2:379:7 Ferroelectric Thin Films in Fluidic Environments: A New Interface for Sensing and Manipulation of Matter
DOI:10.1002/smll.201101173 JN:SMALL PY:2012 TC:11 AU: Ferris, Robert;Yellen, Benjamin;Zauscher, Stefan;
2:380:1 Effect of drying temperature on structural and electrical properties of PANI:PVDF composite thin films and their application as buffer layer for organic solar cells
DOI:10.1016/j.mssp.2013.12.002 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:0 AU: Saidi, Sami;Mannai, Aymen;Derouiche, Hassen;Mohamed, Abdelatif Belhadj;
2:380:2 Novel thiophene derivative hybrid composite solar cells
DOI:10.1016/j.solmat.2011.09.021 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:9 AU: Swathi, S. K.;Ranjith, K.;Kumar, Prajwal;Ramamurthy, Praveen C.;
2:380:3 Nanostructured barbed wire architecturing of organic conducting material blends by electrospinning
DOI:10.1063/1.3673620 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Mishra, Sumeet R.;Ranjith, K.;Swathi, S. K.;Ramamurthy, Praveen C.;
2:380:4 Biomimetic sensing layer based on electrospun conductive polymer webs
DOI:10.1016/j.bios.2010.10.032 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:16 AU: Zampetti, E.;Pantalei, S.;Scalese, S.;Bearzotti, A.;De Cesare, F.;Spinella, C.;Macagnano, A.;
2:380:5 Effects of temperature and humidity on electrospun conductive nanofibers based on polyaniline blends
DOI:10.1007/s11051-011-0310-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:5 AU: Zampetti, E.;Muzyczuk, A.;Macagnano, A.;Pantalei, S.;Scalese, S.;Spinella, C.;Bearzotti, A.;
2:380:6 Structural and microwave dielectric properties of ferroelectric poly(vinylidene difluoride)-polyaniline composite thin films
DOI:10.1016/j.tsf.2012.10.117 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Derouiche, H.;Mohamed, A. B.;
2:380:7 Pulsed laser deposition film of a donor-acceptor-donor polymer as possible active layer in devices
DOI:10.1007/s10853-010-5065-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Ranjith, K.;Swathi, S. K.;Kumar, Prajwal;Ramamurthy, Praveen C.;
2:380:8 Gas sensor based on photoconductive electrospun titania nanofibres operating at room temperature
DOI:10.1007/s11051-013-1566-9 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:3 AU: Zampetti, E.;Macagnano, A.;Bearzotti, A.;
2:380:9 Effect of alpha- to beta-transformation on the dc and ac conductivity mechanism in polyaniline: Polyvinylidene fluoride composites films
DOI:10.1016/j.mssp.2014.04.012 JN:MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING PY:2014 TC:1 AU: Saidi, Sami;Aymen, Mannai;Bouzitoun, Mouna;Mohamed, Abdelatif Belhadj;
2:380:10 Photoresponsive ambipolar transport characteristics of organic thin film transistors using soluble HB-ant-THT and PCBM composites
DOI:10.1016/j.synthmet.2011.12.014 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Yang, Seung Ho;Cho, Mi Yeon;Jo, Seong Gi;Jung, Jin Sun;Jung, Ki Hwa;Bae, Suk Young;Choi, Dong Hoon;Kim, Sangsig;Joo, Jinsoo;
2:380:11 Nanofibrous PANI-based conductive polymers for trace gas analysis
DOI:10.1016/j.tsf.2011.04.175 JN:THIN SOLID FILMS PY:2011 TC:11 AU: Macagnano, A.;Zampetti, E.;Pantalei, S.;De Cesare, F.;Bearzotti, A.;Persaud, K. C.;
2:380:12 Organic field effect transistors fabricated using a composite of poly(9-vinylcarbazole) and pentacene precursor
DOI:10.1016/j.synthmet.2011.09.019 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Kim, Dong-Su;Kwon, Jae Ho;Cho, Song Yun;Lee, Changjin;Lee, Kwang-Sup;Kim, Tae-Dong;
2:381:1 Thermo- and pH-sensitive polyethylene-based diblock and triblock copolymers: synthesis and self-assembly in aqueous solution
DOI:10.1039/c2jm16197d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:31 AU: Zhao, Ye;Shi, Xinbo;Gao, Haiyang;Zhang, Ling;Zhu, Fangming;Wu, Qing;
2:381:2 Nonpolymeric Thermosensitive Benzenetricarboxamides
DOI:10.1021/la104568c JN:LANGMUIR PY:2011 TC:15 AU: Lee, Sumi;Lee, Ji-Seok;Lee, Cheol Hee;Jung, Young-Sik;Kim, Jong-Man;
2:381:3 Amphiphilic Polyethylenes Leading to Surfactant-Free Thermoresponsive Nanoparticles
DOI:10.1021/ja104182w JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:24 AU: Kryuchkov, Vladimir A.;Daigle, Jean-Christophe;Skupov, Kirill M.;Claverie, Jerome P.;Winnik, Francoise M.;
2:381:4 Synthesis and self-assembly of amphiphilic star-block copolymers consisting of polyethylene and poly(ethylene glycol) segments
DOI:10.1002/app.38935 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Liu, Ran;Li, Zhi Yun;Wang, Wan Juan;Yuan, Dan;Meng, Chun Feng;Wu, Qing;Zhu, Fang Ming;
2:381:5 Synthesis and self-assembly of miktoarm star copolymers of (polyethylene)(2)-(polystyrene)(2)
DOI:10.1016/j.polymer.2010.12.013 JN:POLYMER PY:2011 TC:20 AU: Liu, Ran;Li, Zhiyun;Yuan, Dan;Meng, Chunfeng;Wu, Qing;Zhu, Fangming;
2:381:6 Synthesis and thermoreversible gelation of coil-helical polyethylene-block-poly(gamma-benzyl-L-glutamate) diblock copolymer
DOI:10.1016/j.polymer.2013.06.055 JN:POLYMER PY:2013 TC:8 AU: Gao, Haiyang;Hu, Zhilong;Guan, Qirui;Liu, Yong;Zhu, Fangming;Wu, Qing;
2:381:7 Synthesis of amphiphilic polyethylene-b-poly(L-glutamate) block copolymers with vastly different solubilities and their stimuli-responsive polymeric micelles in aqueous solution
DOI:10.1016/j.polymer.2014.07.019 JN:POLYMER PY:2014 TC:2 AU: Gao, Haiyang;Li, Guiliang;Hu, Zhilong;Xiao, Zefan;Liang, Guodong;Wu, Qing;
2:381:8 Assemblies of Functional Small-Sized Molecules Having 4-Amino-2,2,6,6-tetramethylpiperidine-1-oxyl Responsive to Heat and pH in Water and Their Water Proton Relaxivities
DOI:10.1021/la2029565 JN:LANGMUIR PY:2011 TC:6 AU: Hayashi, Hiroyuki;Ohkubo, Kengo;Karasawa, Satoru;Koga, Noboru;
2:381:9 Polymerization of 4-methyl-1-pentene catalyzed by alpha-diimine nickel catalysts: Living/controlled behavior, branch structure, and mechanism
DOI:10.1016/j.polymer.2010.11.008 JN:POLYMER PY:2011 TC:20 AU: Gao, Haiyang;Pan, Jin;Guo, Lihua;Xiao, Dongjie;Wu, Qing;
2:381:10 The first report on the atom transfer radical polymerization of an optically active acidic monomer based on L-phenylalanine
DOI:10.1002/app.35474 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:1 AU: Mallakpour, Shadpour;Rafiee, Zahra;
2:382:1 YVO4:Eu3+,Bi3+ UV to visible conversion nano-films used for organic photovoltaic solar cells
DOI:10.1039/c1jm11761k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Xu, Wen;Song, Hongwei;Yan, Duanting;Zhu, Hancheng;Wang, Yu;Xu, Sai;Bai, Xue;Dong, Biao;Liu, Yuxue;
2:382:2 Improvement of operation lifetime for conjugated polymer: fullerene organic solar cells by introducing a UV absorbing film
DOI:10.1016/j.solmat.2009.08.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:14 AU: Ryu, Mi Sun;Cha, Hyuk Jin;Jang, Jin;
2:382:3 Flexible Organic Solar Cells Based on Spin-Coated Blend Films of a Phenylene-Thiophene Oligomer Derivative and PCBM
DOI:10.1080/15421406.2013.804384 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:6 AU: Duan, Zongfan;Fujii, Shunjiro;Liu, Zheng;Okukawa, Takanori;Yoshida, Akira;Yanagi, Yuichiro;Kataura, Hiromichi;Zhao, Gaoyang;Nishioka, Yasushiro;
2:382:4 Thermal inkjet printing of polyaniline on paper
DOI:10.1016/j.tsf.2012.07.119 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Gomes, T. C.;Constantino, C. J. L.;Lopes, E. M.;Job, A. E.;Alves, N.;
2:382:5 Remarkable Improvement of Organic Solar Cells Lifetime with Zn-doped In2O3 Electrode as UV-blocking TCO
DOI:10.1080/15421406.2014.944759 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Bae, Jinju;Han, Dong Cheul;Shin, Han Jae;Kim, Yong Bae;
2:382:6 Flexible solar cells based on copper phthalocyanine and buckminsterfullerene
DOI:10.1016/j.solmat.2010.02.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:11 AU: Luong, Thu Thuy T.;Chen, Zhenxing;Zhu, Hongwei;
2:382:7 Passivation films with SU-8 polymers for organic solar cell protection from ultraviolet ray
DOI:10.1016/j.solmat.2010.12.050 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Kim, Kyu-Jin;Kima, Yeong-Seon;Bae, Jin-Ju;Kang, Byoung-Ho;Yeom, Se-Hyuk;Yuan, Heng;Kang, Shin-Won;
2:382:8 Printed electronic switch on flexible substrates using printed microcapsules
DOI:10.1007/s10853-014-8271-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2014 TC:1 AU: ten Cate, A. Tessa;Gaspar, Cristina H.;Virtanen, Heini L. K.;Stevens, Ralph S. A.;Koldeweij, Robin B. J.;Olkkonen, Juuso T.;Rentrop, Corne H. A.;Smolander, Maria H.;
2:382:9 Photon recycling across a ultraviolet-blocking layer by luminescence in polymer solar cells
DOI:10.1063/1.4745016 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:2 AU: Engmann, Sebastian;Machalett, Marie;Turkovic, Vida;Roesch, Roland;Raedlein, Edda;Gobsch, Gerhard;Hoppe, Harald;
2:382:10 Investigation of Optical and Humidity-Sensing Properties of Vanadyl Phthalocyanine-Derivative Thin Films
DOI:10.1080/15421406.2012.703817 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Aziz, F.;Sulaiman, K.;Karimov, K. S.;Muhammad, M. R.;Sayyad, M. H.;Majlis, B. Y.;
2:383:1 Dewetting-Induced Formation of Periodic Dot Arrays of Polymer/Au Composites by Capillary Force Lithography
DOI:10.1021/cm100614e JN:CHEMISTRY OF MATERIALS PY:2010 TC:8 AU: Park, Minwoo;Hyun, Dong Choon;Kim, Joohee;Kim, Youn Sang;Jeong, Unyong;
2:383:2 Fabrication of conductive metal lines by plate-to-roll pattern transfer utilizing edge dewetting and flexographic printing
DOI:10.1016/j.jcis.2009.11.003 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:16 AU: Kwak, Moon Kyu;Shin, Kyu Ho;Yoon, Eung Yeoul;Suh, Kahp Y.;
2:383:3 Reliability of gravure offset printing under various printing conditions
DOI:10.1063/1.3510466 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:16 AU: Lee, Taik-Min;Noh, Jae-Ho;Kim, Inyoung;Kim, Dong-Soo;Chun, Sangki;
2:383:4 Roll offset printing process based on interface separation for fine and smooth patterning
DOI:10.1016/j.tsf.2013.09.023 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Lee, Taik-Min;Han, Hyun-Suk;Kim, Bongmin;Kwak, Sun-Woo;Noh, Jae-Ho;Kim, Inyoung;
2:383:5 Thermal Expansion and Contraction of an Elastomer Stamp Causes Position-Dependent Polymer Patterns in Capillary Force Lithography
DOI:10.1021/am201118u JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:1 AU: Kim, Bongsoo;Park, Minwoo;Kim, Youn Sang;Jeong, Unyong;
2:383:6 Investigation on synchronization of the offset printing process for fine patterning and precision overlay
DOI:10.1063/1.4882020 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Kang, Dongwoo;Lee, Eonseok;Kim, Hyunchang;Choi, Young-Man;Lee, Seunghyun;Kim, Inyoung;Yoon, Dukkyun;Jo, Jeongdai;Kim, Bongmin;Lee, Taik-Min;
2:383:7 Self-modulating polymer resist patterns in pressure-assisted capillary force lithography
DOI:10.1016/j.jcis.2010.03.023 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:6 AU: Yoon, Hyunsik;Choi, Moon Kee;Suh, Kahp Y.;Char, Kookheon;
2:383:8 Mold Design Rules for Residual Layer-Free Patterning in Thermal Imprint Lithography
DOI:10.1021/la201425v JN:LANGMUIR PY:2011 TC:4 AU: Yoon, Hyunsik;Lee, Sung Hoon;Sung, Seung Hyun;Suh, Kahp Y.;Char, Kookheon;
2:383:9 Nanopatterning by an Integrated Process Combining Capillary Force Lithography and Microcontact Printing
DOI:10.1002/adfm.200901700 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:7 AU: Duan, Xuexin;Zhao, Yiping;Perl, Andras;Berenschot, Erwin;Reinhoudt, David N.;Huskens, Jurriaan;
2:383:10 Transfer of thin, patterned gold layers from poly(methyl methacrylate) stamp onto photoresist surface
DOI:10.1016/j.tsf.2013.10.056 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Lyutakov, O.;Tuma, J.;Janousek, M.;Huttel, I.;Svorcik, V.;
2:384:1 A Lasing Organic Light-Emitting Diode
DOI:10.1002/adma.200902451 JN:ADVANCED MATERIALS PY:2010 TC:25 AU: Wallikewitz, Bodo H.;de la Rosa, Matthias;Kremer, Jonas H. -W. M.;Hertel, Dirk;Meerholz, Klaus;
2:384:2 Monolithic Integration of Multi-Color Organic LEDs by Grayscale Lithography
DOI:10.1002/adma.201002033 JN:ADVANCED MATERIALS PY:2010 TC:14 AU: Gather, Malte C.;Kronenberg, Nils M.;Meerholz, Klaus;
2:384:3 Synthesis and Application of Photolithographically Patternable Deep Blue Emitting Poly(3,6-Dimethoxy-9,9-dialkylsilafluorene)s
DOI:10.1021/am4025406 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:4 AU: McDowell, Jeffrey;Maier-Flaig, Florian;Wolf, Thomas J. A.;Unterreiner, Andreas-Neil;Lemmer, Uli;Ozin, Geoffrey;
2:384:4 Two dimensional directed pi-pi interactions in a linear shaped bi-1,3,4-oxadiazole derivative to achieve organic single crystal with highly polarized fluorescence and amplified spontaneous emissions
DOI:10.1039/c2jm35002e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Qu, Songnan;Lu, Qipeng;Wu, Shaohang;Wang, Lijun;Liu, Xingyuan;
2:384:5 MOS photodetectors based on Au-nanorod doped graphene electrodes
DOI:10.1088/0957-4484/22/30/305201 JN:NANOTECHNOLOGY PY:2011 TC:0 AU: Chen, Yung-Ting;Hsieh, Ya-Ping;Shih, Fu-Yu;Chang, Chih-Yung;Hofmann, Mario;Chen, Yang-Fang;
2:384:6 Toward highly fluorescence and ultralow-threshold amplified spontaneous emission in ordered solid state from twin-tapered bi-1,3,4-oxadiazole derivatives
DOI:10.1039/c2jm14916h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Qu, Songnan;Wang, Haitao;Zhu, Wanbin;Luo, Jinsong;Fan, Yi;Song, Liwei;Zhang, Hong-Xing;Liu, Xingyuan;
2:384:7 Nanoshuttered OLEDs: Unveiled Invisible Auxiliary Electrode
DOI:10.1002/adfm.201401253 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:1 AU: Shim, Yong Sub;Hwang, Ju Hyun;Lee, Hyun Jun;Choi, Kyung Bok;Kim, Kyu Nyun;Park, Cheol Hwee;Jung, Sun-Gyu;Park, Young Wook;Ju, Byeong-Kwon;
2:385:1 Electrical Contact Properties between the Accumulation Layer and Metal Electrodes in Ultrathin Poly(3-hexylthiophene)(P3HT) Field Effect Transistors
DOI:10.1021/am200143g JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:14 AU: Park, Byoungnam;Aiyar, Avishek;Hong, Jung-il;Reichmanis, Elsa;
2:385:2 Exciton dissociation and charge trapping at poly(3-hexylthiophene)/phenyl-C61-butyric acid methyl ester bulk heterojunction interfaces: Photo-induced threshold voltage shifts in organic field-effect transistors and solar cells
DOI:10.1063/1.4705277 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Park, Byoungnam;You, Nam-Ho;Reichmanis, Elsa;
2:385:3 All-organic coaxial nanocables with interfacial charge-transfer layers: electrical conductivity and light-emitting-transistor behavior
DOI:10.1039/b917394c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:20 AU: Kim, Jong H.;Watanabe, Akira;Chung, Jong Won;Jung, Yunoh;An, Byeong-Kwan;Tada, Hirokazu;Park, Soo Young;
2:385:4 Enhanced photoresponsive mobility of rubrene nanosheet-based organic field effect transistors through hybridization with CdSe/ZnS quantum dots
DOI:10.1016/j.synthmet.2014.01.013 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Kim, Tae Hyuk;Han, Yoon Deok;Kim, Jeongyong;Jeon, Sumin;Lee, Kwang-Sup;Joo, Jinsoo;
2:385:5 Using soft lithography to fabricate gold nanoparticle patterns for bottom-gate field effect transistors
DOI:10.1016/j.tsf.2012.09.078 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Huang, Hui Ling;Chen, Jem-Kun;Houng, Mau Phon;
2:385:6 Change in Electronic States in the Accumulation Layer at Interfaces in a Poly(3-hexylthiophene) Field-Effect Transistor and the Impact of Encapsulation
DOI:10.1021/am200760m JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:7 AU: Park, Byoungnam;Kim, Y. J.;Graham, Samuel;Reichmanis, Elsa;
2:385:7 Nanoscale luminescence and optical waveguiding characteristics of organic CN-TFMBE nanowires and hybrid coaxial nanowires
DOI:10.1016/j.synthmet.2012.05.020 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Han, Yoon Deok;Kim, Jong H.;Lee, Jin Woo;Lee, Hyunsoo;Kim, Ji Hyun;Kim, Jeongyong;Park, Soo Young;Joo, Jinsoo;
2:385:8 Fabrication of polymer-based transistors with source-drain electrodes made of carbon nanotubes and silver nanoparticles by soft lithography techniques
DOI:10.1016/j.tsf.2013.08.107 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Kanai, Ryo;Itoh, Eiji;
2:386:1 H-Aggregation Strategy in the Design of Molecular Semiconductors for Highly Reliable Organic Thin Film Transistors
DOI:10.1002/adfm.201002367 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:54 AU: Kim, Seul-ong;An, Tae Kyu;Chen, Jun;Kang, Il;Kang, So Hee;Chung, Dae Sung;Park, Chan Eon;Kim, Yun-Hi;Kwon, Soon-Ki;
2:386:2 Synthesis and characterization of quinquethiophene end capped anthracene for solution processed OTFT
DOI:10.1016/j.synthmet.2013.07.012 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Ha, Jong-Jin;Jeon, Chan Woo;Kang, Pengtao;Kang, Il;Nam, Sang Young;Kim, Yun-Hi;
2:386:3 Synthesis of [1]benzothieno[3,2-b][1]benzothiophene pendant and norbornene random co-polymers via ring opening metathesis
DOI:10.1039/c3tc32058h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Combe, Craig M. S.;Biniek, Laure;Schroeder, Bob C.;McCulloch, Iain;
2:386:4 A New Amorphous Semiconducting Polythiophene for High-Performance Organic Thin-Film Transistors
DOI:10.1021/am9008852 JN:ACS APPLIED MATERIALS & INTERFACES PY:2010 TC:8 AU: Kong, Hoyoul;Lee, Dong Hoon;Seo, Jung-In;Oh, Ji-Young;Chung, Dae Sung;Park, Jong-Won;Kwon, Soon-Ki;Lee, Yoon Sup;Park, Chan Eon;Shim, Hong-Ku;
2:386:5 New Deep Blue Light Emitting Copolymer Containing Fluorene, Carbazole, and Dialkoxynaphthalene
DOI:10.1002/app.33599 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:2 AU: Kang, Hyun Hee;Kang, Moon Seong;Oh, Dae Hwan;Lee, Dong Hee;Shin, Dong-Cheol;Kwon, Soon-Ki;Kim, Yun-Hi;
2:386:6 Improvement of efficiency of polymer solar cell by incorporation of the planar shaped monomer in low band gap polymer
DOI:10.1016/j.synthmet.2012.02.004 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Shin, Woong;Jo, Mi Young;You, Dae Sung;Jeong, Yeon Sook;Yoon, Do Y.;Kang, Jae-Wook;Cho, Jeong Ho;Lee, Gun Dae;Hong, Seong-Soo;Kim, Joo Hyun;
2:386:7 Synthesis and characterization of poly(dialkylterthiophene-bithiophene) and poly(dialkylterthiophene-thienothiophene) for organic thin film transistors and organic photovoltaic cells
DOI:10.1016/j.synthmet.2013.10.007 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Jeon, Chan Woo;Kang, So-Hee;Yun, Hui-Jun;An, Tae Kyu;Cha, Hyojung;Park, Chan-Eon;Kim, Yun-Hi;
2:387:1 A Novel Solution-Stamping Process for Preparation of a Highly Conductive Aluminum Thin Film
DOI:10.1002/adma.201102805 JN:ADVANCED MATERIALS PY:2011 TC:16 AU: Lee, Hye Moon;Choi, Si-Young;Kim, Kyung Tae;Yun, Jung-Yeul;Jung, Dae Soo;Park, Seung Bin;Park, Jongwook;
2:387:2 Direct Deposition of Highly Conductive Aluminum Thin Film on Substrate by Solution-Dipping Process
DOI:10.1021/am400812e JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:2 AU: Lee, Hye Moon;Choi, Si-Young;Jung, Areum;
2:387:3 Long-Term Sustainable Aluminum Precursor Solution for Highly Conductive Thin Films on Rigid and Flexible Substrates
DOI:10.1021/am504134f JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:1 AU: Lee, Hye Moon;Seo, Jung Yoon;Jung, Areum;Choi, Si-Young;Ko, Seung Hwan;Jo, Jeongdai;Park, Seung Bin;Park, Duckshin;
2:387:4 Solution Processed Aluminum Paper for Flexible Electronics
DOI:10.1021/la302479x JN:LANGMUIR PY:2012 TC:10 AU: Lee, Hye Moon;Lee, Ha Beom;Jung, Dae Soo;Yun, Jung-Yeul;Ko, Seung Hwan;Park, Seung Bin;
2:387:5 Well-Ordered and High Density Coordination-Type Bonding to Strengthen Contact of Silver Nanowires on Highly Stretchable Polydimethylsiloxane
DOI:10.1002/adfm.201303276 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:10 AU: Lee, Hanleem;Lee, Keunsik;Park, Jin Taek;Kim, Woon Chun;Lee, Hyoyoung;
2:387:6 Selected Deposition of High-Quality Aluminum Film by Liquid Process
DOI:10.1021/ja301956s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:7 AU: Shen, Zhongrong;Matsuki, Yasuo;Shimoda, Tatsuya;
2:388:1 Flexible High-Performance All-Inkjet-Printed Inverters: Organo-Compatible and Stable Interface Engineering
DOI:10.1002/adma.201301040 JN:ADVANCED MATERIALS PY:2013 TC:15 AU: Chung, Seungjun;Jang, Mi;Ji, Seon-Beom;Im, Hwarim;Seong, Narkhyeon;Ha, Jewook;Kwon, Soon-Ki;Kim, Yun-Hi;Yang, Hoichang;Hong, Yongtaek;
2:388:2 High-Performance Inkjet-Printed Four-Terminal Microelectromechanical Relays and Inverters
DOI:10.1021/acs.nanolett.5b00477 JN:NANO LETTERS PY:2015 TC:0 AU: Chung, Seungjun;Karim, Muhammed Ahosan Ul;Kwon, Hyuk-Jun;Subramanian, Vivek;
2:388:3 Exploitation of the coffee-ring effect to realize mechanically enhanced inkjet-printed microelectromechanical relays with U-bar-shaped cantilevers
DOI:10.1063/1.4904953 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Chung, Seungjun;Ul Karim, Muhammed Ahosan;Spencer, Matthew;Kwon, Hyuk-Jun;Grigoropoulos, Costas P.;Alon, Elad;Subramanian, Vivek;
2:388:4 A New Switching Device for Printed Electronics: Inkjet-Printed Microelectromechanical Relay
DOI:10.1021/nl4028632 JN:NANO LETTERS PY:2013 TC:5 AU: Park, Eung Seok;Chen, Yenhao;Liu, Tsu-Jae King;Subramanian, Vivek;
2:388:5 Thermal characterization of screen printed conductive pastes for RFID antennas
DOI:10.1016/j.mseb.2012.01.014 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:7 AU: Janeczek, Kamil;Jakubowska, Malgorzata;Mlozniak, Anna;Koziol, Grazyna;
2:388:6 Drift in the resistance of poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) printed films during thermal cycling
DOI:10.1016/j.tsf.2011.04.225 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Meier, Barbara;Egermann, Luise;Voigt, Sven;Stanel, Michael;Kempa, Heiko;Huebler, Arved C.;
2:388:7 An insulating liquid environment for reducing adhesion in a microelectromechanical system
DOI:10.1063/1.3640228 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Ko, Seung-Deok;Lee, Jeong Oen;Yang, Hyun-Ho;Kim, Min-Wu;Song, Yong-Ha;Yoon, Jun-Bo;
2:389:1 Optimised pulsed laser deposition of ZnO thin films on transparent conducting substrates
DOI:10.1039/c1jm10658a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:28 AU: Franklin, J. B.;Zou, B.;Petrov, P.;McComb, D. W.;Ryan, M. P.;McLachlan, M. A.;
2:389:2 Building on Soft Foundations: New Possibilities for Controlling Hybrid Photovoltaic Architectures
DOI:10.1002/aenm.201100719 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:2 AU: Franklin, Joseph B.;Downing, Jonathan M.;Giuliani, Finn;Ryan, Mary P.;McLachlan, Martyn A.;
2:389:3 Transparent conducting oxide top contacts for organic electronics
DOI:10.1039/c3tc31296h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Franklin, Joseph B.;Gilchrist, James B.;Downing, Jonathan M.;Roy, Kirsty A.;McLachlan, Martyn A.;
2:389:4 Deposition of low sheet resistance indium tin oxide directly onto functional small molecules
DOI:10.1016/j.tsf.2014.09.043 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Franklin, Joseph B.;Fleet, Luke R.;Burgess, Claire H.;McLachlan, Martyn A.;
2:389:5 Spin-Based Diagnostic of Nanostructure in Copper Phthalocyanine-C-60 Solar Cell Blends
DOI:10.1021/nn304156e JN:ACS NANO PY:2012 TC:6 AU: Warner, Marc;Mauthoor, Soumaya;Felton, Solveig;Wu, Wei;Gardener, Jules A.;Din, Salahud;Klose, Daniel;Morley, Gavin W.;Stoneham, A. Marshall;Fisher, Andrew J.;Aeppli, Gabriel;Kay, Christopher W. M.;Heutz, Sandrine;
2:390:1 Improvement of dispersion state and charge separation efficiency of hybrid films of ZnO nanoparticle/conjugated polymers by utilizing methanol as a volatile dispersant
DOI:10.1016/j.synthmet.2011.11.006 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Hirunprateep, Tanita;Traiphol, Nisanart;Potai, Ruttayapon;Traiphol, Rakchart;
2:390:2 Effect of electrode resistance on admittance spectra of planar organic device carrying SCLC and on charge carrier mobility extracted from susceptance
DOI:10.1016/j.synthmet.2013.07.004 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Jarosz, G.;Signerski, R.;
2:390:3 Investigation of annealing effects on microstructure of hybrid nanocrystal-polymer solar cells by impedance spectroscopy
DOI:10.1016/j.synthmet.2009.11.028 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Huang, WenBo;Peng, JunBiao;Wang, Li;
2:390:4 Study of the series resistance evolution in organic solar cells by use of the Lambert W function
DOI:10.1016/j.synthmet.2011.02.028 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Lattante, Sandro;Perulli, Andrea;Anni, Marco;
2:390:5 Temperature and electric field dependent hole mobility in a polyfluorene copolymer
DOI:10.1016/j.synthmet.2011.01.032 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Tinti, Francesca;Debebe, Siraye E.;Mammo, Wendimagegn;Yohannes, Teketel;Camaioni, Nadia;
2:390:6 Effect of CsF buffer layer on charge-carrier mobility in organic light-emitting diodes based on a polyfluorene copolymers by admittance spectroscopy
DOI:10.1016/j.synthmet.2012.08.008 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Zheng, Rui;Huang, Wenbo;Xu, Wei;Cao, Yong;
2:390:7 Study of electric characteristics and diffusion effects of 2-methyl-9,10-di(2-naphthyl)anthracene doped with cesium fluoride by admittance spectroscopy
DOI:10.1063/1.3377921 JN:APPLIED PHYSICS LETTERS PY:2010 TC:8 AU: Hsieh, Ming-Ta;Ho, Meng-Huan;Lin, Kuan-Heng;Chen, Jenn-Fang;Chen, Teng-Ming;Chen, Chin H.;
2:390:8 Hole transport characteristics in phosphorescent dye-doped NPB films by admittance spectroscopy
DOI:10.1007/s00339-014-8478-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Wang, Ying;Chen, Jiangshan;Huang, Jinying;Dai, Yanfeng;Zhang, Zhiqiang;Liu, Su;Ma, Dongge;
2:390:9 Investigation of hole-mobility in a polyfluorene copolymer by admittance spectroscopy
DOI:10.1063/1.3332481 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Debebe, Siraye E.;Mammo, Wendimagegn;Yohannes, Teketel;Tinti, Francesca;Zanelli, Alberto;Camaioni, Nadia;
2:390:10 Hole-transport properties of a low-band gap alternating polyfluorene
DOI:10.1063/1.3466769 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:1 AU: Debebe, Siraye E.;Mammo, Wendimagegn;Yohannes, Teketel;Tinti, Francesca;Martelli, Alessandro;Camaioni, Nadia;
2:390:11 A study on the incorporation of ZnO nanoparticles into MEH-PPV based organic-inorganic hybrid solar cells
DOI:10.1016/j.ceramint.2011.05.068 JN:CERAMICS INTERNATIONAL PY:2012 TC:1 AU: Choi, Yong-June;Park, Hyung-Ho;Golledge, Stephen;Johnson, David C.;
2:391:1 Charge modulated reflectance topography for probing in-plane carrier distribution in pentacene field-effect transistors
DOI:10.1063/1.3490716 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Manaka, Takaaki;Kawashima, Satoshi;Iwamoto, Mitsumasa;
2:391:2 Mapping of Charge Distribution in Organic Field-Effect Transistors by Confocal Photoluminescence Electromodulation Microscopy
DOI:10.1021/nl402603c JN:NANO LETTERS PY:2014 TC:0 AU: Koopman, Wouter W. A.;Toffanin, Stefano;Natali, Marco;Troisi, Stefano;Capelli, Raffaella;Biondo, Viviana;Stefani, Andrea;Muccini, Michele;
2:391:3 The Maxwell-Wagner model for charge transport in ambipolar organic field-effect transistors: The role of zero-potential position
DOI:10.1063/1.4771989 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Mashiko, Yasuhiro;Taguchi, Dai;Weis, Martin;Manaka, Takaaki;Iwamoto, Mitsumasa;
2:391:4 Observation of electron behavior in ambipolar polymer-based light-emitting transistor by optical second harmonic generation
DOI:10.1063/1.3606423 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:8 AU: Ohshima, Yuki;Lim, Eunju;Manaka, Takaaki;Iwamoto, Mitsumasa;Sirringhaus, Henning;
2:391:5 Electro-optic measurement of carrier mobility in an organic thin-film transistor
DOI:10.1063/1.3460526 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Bittle, E. G.;Brill, J. W.;Anthony, J. E.;
2:391:6 Dynamics of charge flow in the channel of a thin-film field-effect transistor
DOI:10.1063/1.4764896 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Bittle, E. G.;Brill, J. W.;Straley, J. P.;
2:391:7 Direct visualization and modeling of carrier distribution in organic light emitting transistor
DOI:10.1016/j.tsf.2013.05.061 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Mashiko, Yasuhiro;Taguchi, Dai;Manaka, Takaaki;Iwamoto, Mitsumasa;Weis, Martin;
2:391:8 Analysis of carrier transport and carrier trapping in organic diodes with polyimide-6,13-Bis(triisopropylsilylethynyl) pentacene double-layer by charge modulation spectroscopy and optical second harmonic generation measurement
DOI:10.1063/1.4893760 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Lim, Eunju;Taguchi, Dai;Iwamoto, Mitsumasa;
2:391:9 Fluorescence quenching by trapped charge carriers in N,N-dimethylaminobenzylidene 1,3-indandione films
DOI:10.1016/j.tsf.2009.09.081 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Gulbinas, V.;Karpicz, R.;Muzikante, I.;Valkunas, L.;
2:392:1 Effects of the buffer layer inserted between the transparent conductive oxide anode and the organic electron donor
DOI:10.1016/j.solmat.2009.11.003 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:35 AU: Godoy, A.;Cattin, L.;Toumi, L.;Diaz, F. R.;del Valle, M. A.;Soto, G. M.;Kouskoussa, B.;Morsli, M.;Benchouk, K.;Khelil, A.;Bernede, J. C.;
2:392:2 Sb2O3 anode buffer induced morphology improvement in small molecule organic solar cells
DOI:10.1063/1.3635386 JN:APPLIED PHYSICS LETTERS PY:2011 TC:11 AU: Zuo, Lijian;Jiang, Xiaoxia;Yang, Ligong;Xu, Mingsheng;Nan, Yaxiong;Yan, Quanxiang;Chen, Hongzheng;
2:392:3 Analysis of ITO cleaning protocol on surface properties and polymer: Fullerene bulk heterojunction solar cell performance
DOI:10.1016/j.solmat.2013.05.010 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Clark, Michael D.;Leever, Benjamin J.;
2:392:4 Synthesis of two benzo[1,2-b:3,4-b ']dithiophene-based conjugated polymers with different side chains and their applications in photovoltaic devices
DOI:10.1016/j.synthmet.2012.09.009 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Qu, Bo;Yang, Hongsheng;Tian, Di;Liu, Hongli;Cong, Zhiyuan;Gao, Chao;Chen, Zhijian;Xiao, Lixin;Gao, Zhi;Wei, Wei;Gong, Qihuang;
2:392:5 New polymer acceptor for solar cells application
DOI:10.1016/j.synthmet.2012.02.001 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Chatterjee, Shyambo;Banerjee, Susanta;Banerji, Pallab;
2:393:1 Influence of poly(2-methoxy-5-(2 '-ethyl)-hexyloxy-p-phenylene vinylene):(6,6)-phenyl C61 butyric acid methyl ester blend ratio on the performance of inverted type organic solar cells based on Eosin-Y-coated ZnO nanorod arrays
DOI:10.1016/j.tsf.2013.03.133 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Ginting, Riski Titian;Yap, Chi Chin;Yahaya, Muhammad;Salleh, Muhamad Mat;
2:393:2 Effect of blend ratio on poly(p-phenylene-ethynylene)-alt-poly (p-phenylene-vinylene) polymer solar cell
DOI:10.1016/j.solmat.2012.04.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:8 AU: Tore, Nesrin;Parlak, Elif Alturk;Usluer, Ozlem;Egbe, Daniel A. M.;San, Sait E.;Aydogan, Pelin;
2:393:3 The blend ratio effect on the photovoltaic performance and stability of poly (3-hexylthiophene):[6,6]-phenyl-C-61 butyric acid methyl ester (PCBM) and poly(3-octylthiophene):PCBM solar cells
DOI:10.1016/j.solmat.2012.01.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:13 AU: Parlak, Elif Alturk;
2:393:4 The formation of interfacial wrinkles at the metal contacts on organic thin films
DOI:10.1016/j.tsf.2014.01.038 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Fang, Jian-Jhih;Tsai, Huai-Wen;Ni, I-Chi;Tzeng, Shien-Der;Chen, Mei-Hsin;
2:393:5 Nano-scale mechanical properties of polymer/fullerene bulk hetero-junction films and their influence on photovoltaic cells
DOI:10.1016/j.solmat.2011.05.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:10 AU: Li, Hung-Chang;Rao, K. Koteswara;Jeng, Jun-Yuan;Hsiao, Yu-Jer;Guo, Tzung-Fang;Jeng, Yean-Ren;Wen, Ten-Chin;
2:393:6 Investigation of photophysical, morphological and photovoltaic behavior of poly(p-phenylene vinylene) based polymer/oligomer blends
DOI:10.1016/j.tsf.2010.04.115 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Oo, T. Z.;Mathews, N.;Tam, T. L.;Xing, G. C.;Sum, T. C.;Sellinger, A.;Wong, L. H.;Mhaisalkar, S. G.;
2:394:1 Effect of absorption to nanopore on optical properties of conjugated polymers in porous anode alumina
DOI:10.1063/1.3552934 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Kong, Fan;Yang, Yimin;Zhang, Xueqin;Lin, Baoping;Qi, Zhengjian;Qiu, Teng;
2:394:2 Thermal conductivity of anodized aluminum oxide layer: The effect of electrolyte and temperature
DOI:10.1016/j.matchemphys.2013.05.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:4 AU: Lee, Junghoon;Kim, Yonghwan;Jung, Uoochang;Chung, Wonsub;
2:394:3 Observation of ferroelectric response in conjugated polymer nanotubes
DOI:10.1063/1.3425894 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Majumdar, D.;Saha, S. K.;
2:394:4 Anodized aluminum oxide-based capacitance sensors for the direct detection of DNA hybridization
DOI:10.1016/j.bios.2009.11.017 JN:BIOSENSORS & BIOELECTRONICS PY:2010 TC:10 AU: Kang, Bongkeun;Yeo, Unjin;Yoo, Kyung-Hwa;
2:394:5 Detection of IFN-gamma for latent tuberculosis diagnosis using an anodized aluminum oxide-based capacitive sensor
DOI:10.1016/j.bios.2013.08.013 JN:BIOSENSORS & BIOELECTRONICS PY:2014 TC:2 AU: Kim, Joo Hyoung;Chang, Young Wook;Bok, Eun;Kim, Hyun-Jeong;Lee, Hyejon;Cho, Sang-Nae;Shin, Jeon-Soo;Yoo, Kyung-Hwa;
2:394:6 Fabrication of Monodisperse Polymer Nanoparticles by Membrane Emulsification Using Ordered Anodic Porous Alumina
DOI:10.1021/la903913h JN:LANGMUIR PY:2010 TC:16 AU: Yanagishita, Takashi;Fujimura, Ryoko;Nishio, Kazuyuki;Masuda, Hideki;
2:394:7 Capacitive Monitoring of Morpholino-DNA Surface Hybridization: Experimental and Theoretical Analysis
DOI:10.1021/la1014384 JN:LANGMUIR PY:2010 TC:11 AU: Tercero, Napoleon;Wang, Kang;Levicky, Rastislav;
2:394:8 Aptamer-modified anodized aluminum oxide-based capacitive sensor for the detection of bisphenol A
DOI:10.1063/1.3555345 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Kang, Bongkeun;Kim, Joo Hyoung;Kim, Soyoun;Yoo, Kyung-Hwa;
2:394:9 Effect of anodizing voltage on the sorption of water molecules on porous alumina
DOI:10.1016/j.apsusc.2012.02.020 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Vrublevsky, I.;Chernyakova, K.;Bund, A.;Ispas, A.;Schmidt, U.;
2:394:10 Capacitive immunoaffinity biosensor based on vertically paired ring-electrodes
DOI:10.1016/j.bios.2012.07.028 JN:BIOSENSORS & BIOELECTRONICS PY:2013 TC:7 AU: Lee, Ga-Yeon;Choi, Yong-Hwan;Chung, Ha-Wook;Ko, Hyuk;Cho, Sungbo;Pyun, Jae-Chul;
2:394:11 Enhanced emission from the acceptor in all-conjugated diblock copolymers due to spatial effect of nanopores
DOI:10.1063/1.3662201 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:0 AU: Kong, Fan;Zhang, Xueqin;Lin, Baoping;Yang, Yimin;Qiu, Teng;
2:394:12 Quantitative investigation in the influence of oxalic impurities on photoluminescence properties of porous AAOs
DOI:10.1016/j.matchemphys.2011.06.008 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:4 AU: Han, Yuyan;Cao, Liang;Xu, Faqiang;Chen, Tiexin;Zheng, Zhiyuan;Qian, Kun;Huang, Weixin;
2:394:13 Electrical immunosensor based on a submicron-gap interdigitated electrode and gold enhancement
DOI:10.1016/j.bios.2011.05.027 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:4 AU: Ahn, Junhyoung;Lee, Tae Han;Li, Taihua;Heo, Kwang;Hong, Seunghun;Ko, Jeongheon;Kim, Yongsam;Shin, Yong-Beom;Kim, Min-Gon;
2:395:1 BODIPY-based conjugated polymers for broadband light sensing and harvesting applications
DOI:10.1039/c2jm32374e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:20 AU: Cortizo-Lacalle, Diego;Howells, Calvyn T.;Gambino, Salvatore;Vilela, Filipe;Vobecka, Zuzana;Findlay, Neil J.;Inigo, Anto R.;Thomson, Stuart A. J.;Skabara, Peter J.;Samuel, Ifor D. W.;
2:395:2 Charge transport in a two-dimensional molecular organic semiconductor
DOI:10.1039/c3tc31670j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Arumugam, Sasikumar;Wright, Iain A.;Inigo, Anto R.;Gambino, Salvatore;Howells, Calvyn T.;Kanibolotsky, Alexander L.;Skabara, Peter J.;Samuel, Ifor D. W.;
2:395:3 Synthesis and Electropolymerization of Hexadecyl Functionalized Bithiophene and Thieno[3,2-b]thiophene End-Capped with EDOT and EDTT Units
DOI:10.1021/cm100514r JN:CHEMISTRY OF MATERIALS PY:2010 TC:19 AU: McEntee, Greg J.;Skabara, Peter J.;Vilela, Filipe;Tierney, Steven;Samuel, Ifor D. W.;Gambino, Salvatore;Coles, Simon J.;Hursthouse, Michael B.;Harrington, Ross W.;Clegg, William;
2:395:4 Preparation and characterization of aqueous dispersions of poly(3,4-ethylenedithiathiophene-co-3,4-ethylenedioxythiophene)/ poly(styrene sulfonate) and their conducting films
DOI:10.1002/app.38571 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:3 AU: Chen, Shuai;Lu, Baoyang;Xu, Jingkun;Qin, Leiqiang;Wang, Zhipeng;Duan, Xuemin;
2:395:5 Electronic, redox and charge transport properties of an unusual hybrid structure: a bis(septithiophene) bridged by a fused tetrathiafulvalene (TTF)
DOI:10.1039/c0jm02293d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Wright, Iain A.;Skabara, Peter J.;Forgie, John C.;Kanibolotsky, Alexander L.;Gonzalez, Blanca;Coles, Simon J.;Gambino, Salvatore;Samuel, Ifor D. W.;
2:395:6 Redox doping behaviour of poly(3,4-ethylenedithiothiophene) - The counterion effect
DOI:10.1016/j.optmat.2011.02.030 JN:OPTICAL MATERIALS PY:2011 TC:9 AU: Domagala, Wojciech;Palutkiewicz, Dawid;Cortizo-Lacalle, Diego;Kanibolotsky, Alexander L.;Skabara, Peter J.;
2:395:7 Cross-linked polymers based on 2,3,5,6-tetra-substituted pyrrolo[3,4-c]pyrrole-1,4(2H,5H)-dione (DPP): Synthesis, optical and electronic properties
DOI:10.1016/j.polymer.2010.10.054 JN:POLYMER PY:2010 TC:19 AU: Zhang, Kai;Tieke, Bernd;Forgie, John C.;Vilela, Filipe;Parkinson, John A.;Skabara, Peter J.;
2:395:8 Syntheses and characterization of amplified fluorescence poly(aryleneethynylene)s based on 3,4-propylenedioxythiophenes and their application in TNT sensing
DOI:10.1016/j.synthmet.2010.08.018 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Sinha, Jasmine;Kumar, Anil;
2:396:1 Location, Location, Location - Strategic Positioning of 2,1,3-Benzothiadiazole Units within Trigonal Quaterfluorene-Truxene Star-Shaped Structures
DOI:10.1002/adfm.201202644 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:19 AU: Belton, Colin R.;Kanibolotsky, Alexander L.;Kirkpatrick, James;Orofino, Clara;Elmasly, Saadeldin E. T.;Stavrinou, Paul N.;Skabara, Peter J.;Bradley, Donal D. C.;
2:396:2 Transparent indium zinc oxide thin films used in photovoltaic cells based on polymer blends
DOI:10.1016/j.tsf.2012.07.030 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Besleaga, Cristina;Ion, L.;Ghenescu, Veta;Socol, G.;Radu, A.;Arghir, Iulia;Florica, Camelia;Antohe, S.;
2:396:3 On the spatial inhomogeneity of charge generation and collection in inverted all polymer solar cells
DOI:10.1063/1.4817506 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Perulli, A.;Lattante, S.;Persano, A.;Cola, A.;Di Giulio, M.;Anni, M.;
2:396:4 Probing thin-film morphology of conjugated polymers by Raman spectroscopy
DOI:10.1063/1.3276257 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:8 AU: Winfield, Jessica M.;Donley, Carrie L.;Friend, Richard H.;Kim, Ji-Seon;
2:396:5 Efficient optical gain media comprising binary blends of poly(3-hexylthiophene) and poly(9,9-dioctylfluorene-co-benzothiadiazole)
DOI:10.1063/1.4730041 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Xia, R.;Stavrinou, P. N.;Bradley, D. D. C.;Kim, Y.;
2:396:6 Effect of film and device annealing in polymer:polymer solar cells with a LiF nanolayer
DOI:10.1016/j.mseb.2010.12.002 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:10 AU: Shin, Minjung;Kim, Hwajeong;Kim, Youngkyoo;
2:396:7 Pulsed laser annealing of P3HT/PCBM organic solar cells
DOI:10.1016/j.solmat.2010.06.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:9 AU: Okraku, E. W.;Gupta, M. C.;Wright, K. D.;
2:396:8 On the spatial inhomogeneity of charge generation and collection in inverted all polymer solar cells (vol 103, 053305, 2013)
DOI:10.1063/1.4892483 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Perulli, A.;Lattante, S.;Persano, A.;Cola, A.;Di Giulio, M.;Anni, M.;
2:397:1 Behavior of polymer-based electroactive actuator incorporated with mild hydrothermally treated CNTs
DOI:10.1007/s00339-014-8616-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Melvin, Gan Jet Hong;Ni, Qing-Qing;Natsuki, Toshiaki;
2:397:2 Characteristics of the creep-induced bending deformation of a PVC gel actuator by an electric field
DOI:10.1007/s10853-011-5746-7 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Ali, Mohammad;Hirai, Toshihiro;
2:397:3 Relationship between electrode polarization and electrical actuation of dielectric PVC gel actuators
DOI:10.1039/c2sm07273d JN:SOFT MATTER PY:2012 TC:0 AU: Ali, Mohammad;Hirai, Toshihiro;
2:397:4 Effect of plasticizer on the electric-field-induced adhesion of dielectric PVC gels
DOI:10.1007/s10853-011-6229-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Ali, Mohammad;Hirai, Toshihiro;
2:397:5 Direct Observation by Laser Scanning Confocal Microscopy of Microstructure and Phase Migration of PVC Gels in an Applied Electric Field
DOI:10.1021/la104031b JN:LANGMUIR PY:2011 TC:6 AU: Xia, Hong;Ueki, Takamitsu;Hirai, Toshihiro;
2:397:6 Influence of Plasticizer Content on the Transition of Electromechanical Behavior of PVC Gel Actuator
DOI:10.1021/la2009489 JN:LANGMUIR PY:2011 TC:7 AU: Ali, Mohammad;Ueki, Takamitsu;Tsurumi, Daijiro;Hirai, Toshihiro;
2:397:7 Microstructure changes of polyurethane by inclusion of chemically modified carbon nanotubes at low filler contents
DOI:10.1016/j.compscitech.2012.02.008 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2012 TC:10 AU: Karabanova, Lyudmyla V.;Whitby, Raymond L. D.;Korobeinyk, Alina;Bondaruk, Oksana;Salvage, Jonathan P.;Lloyd, Andrew W.;Mikhalovsky, Sergey V.;
2:397:8 Dry and Durable Electro-Active Paper Actuator Based on Natural Biodegradable Polymer
DOI:10.1002/app.31261 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:6 AU: Cai, Zhijiang;Kim, Jaehwan;
2:398:1:1 Synthesis and characterization of iminothiazole bearing polyphenol with adjustable white-yellow photoluminescence color
DOI:10.1016/j.synthmet.2012.11.019 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Yildirim, Mehmet;Kaya, Ismet;
2:398:1:2 A comparative study of aminothiazole-based polymers synthesized by chemical oxidative polymerization
DOI:10.1016/j.synthmet.2012.01.010 JN:SYNTHETIC METALS PY:2012 TC:14 AU: Yildirim, Mehmet;Kaya, Ismet;
2:398:1:3 Electrochemical syntheses and characterizations of poly(2-aminobenzothiazole)s
DOI:10.1016/j.synthmet.2012.03.011 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Yildirim, Mehmet;Kaya, Ismet;
2:398:1:4 Electropolymerization Kinetics of a Binary Mixture of o-Phenylenediamine and 2-Aminobenzothiazole and Characterization of the Obtained Polymer Films
DOI:10.1002/app.32534 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Sayyah, S. M.;El-Rehim, S. S. Abd;Kamal, S. M.;El-Deeb, M. M.;Azooz, R. E.;
2:398:2:1 New Poly(azomethine-urethane)s Including Melamine Derivatives in the Main Chain: Synthesis and Thermal Characterization
DOI:10.1002/app.33441 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:13 AU: Kaya, Ismet;Yildirim, Mehmet;Kamaci, Musa;Avci, Ali;
2:398:2:2 Novel poly(azomethine-urethane)s and their polyphenol derivatives derived from aliphatic diisocyanate compound: Synthesis and thermal characterization
DOI:10.1002/app.36251 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:8 AU: Kaya, Ismet;Kamaci, Musa;
2:398:2:3 Preparation, property characterization and UV-converting application of poly(conjugated azomethine-urethane)/hydroxyl polyacrylate resin
DOI:10.1002/app.39111 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:0 AU: Liu, Can-Pei;Wang, Man-Kai;Xiao, Quan;
2:398:2:4 A new kind of optical Mn(II) sensor with high selectivity: Melamine based poly(azomethine-urethane)
DOI:10.1016/j.synthmet.2011.06.029 JN:SYNTHETIC METALS PY:2011 TC:10 AU: Kaya, Ismet;Yildirim, Mehmet;Kamaci, Musa;
2:398:3:1 Synthesis and characterization of fluorescent polyphenol species derived from methyl substituted aminopyridine based Schiff bases: The effect of substituent position on optical, electrical, electrochemical, and fluorescence properties
DOI:10.1016/j.synthmet.2010.01.044 JN:SYNTHETIC METALS PY:2010 TC:34 AU: Kaya, Ismet;Yildirim, Mehmet;Avci, Ali;
2:398:3:2 Synthesis and characterization of polyphenols derived from 4-fluorobenzaldeyde: The effect of electron-donating group on some physical properties
DOI:10.1002/app.36273 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:8 AU: Kaya, Ismet;Kamaci, Musa;Arican, Fatih;
2:398:3:3 Synthesis, characterization, and thermal stability of novel poly(azomethine-urethane)s and polyphenol derivatives derived from 2,4-dihydroxy benzaldehyde and toluene-2,4-diisocyanate
DOI:10.1016/j.matchemphys.2012.01.021 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:6 AU: Kaya, Ismet;Avci, Ali;
2:398:4:1 Preparation and characterization of uniform molecularly imprinted polymer beads for separation of triazine herbicides
DOI:10.1002/app.36882 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:4 AU: Ara, Behisht;Chen, Zhiyong;Shah, Jasmin;Jan, M. Rasul;Ye, Lei;
2:398:4:2 Preparation of a novel chloromethylated polystyrene-2-amino-1,3,4-thiadiazole chelating resin and its adsorption properties and mechanism for separation and recovery of Pt(IV) from aqueous solutions
DOI:10.1039/c3ta14923d JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:6 AU: Xiong, Chunhua;Zheng, Yuqiang;Feng, Yujie;Yao, Caiping;Ma, Chunan;Zheng, Xuming;Jiang, Jianxiong;
2:399:1 Transient electroluminescence spikes in small molecular organic light-emitting diodes
DOI:10.1103/PhysRevB.83.245302 JN:PHYSICAL REVIEW B PY:2011 TC:15 AU: Liu, Rui;Gan, Zhengqing;Shinar, Ruth;Shinar, Joseph;
2:399:2 Fluorescent polymer guest:small molecule host solution-processed OLEDs
DOI:10.1039/c3tc31019a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Hellerich, Emily S.;Intemann, Jeremy J.;Cai, Min;Liu, Rui;Ewan, Monique D.;Tlach, Brian C.;Jeffries-EL, Malika;Shinar, Ruth;Shinar, Joseph;
2:399:3 Transient electroluminescence dynamics in small molecular organic light-emitting diodes
DOI:10.1063/1.3481687 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Gan, Zhengqing;Liu, Rui;Shinar, Ruth;Shinar, Joseph;
2:399:4 Effect of molecular weight on the efficiency of poly(N-vinylcarbazole)-based polymer light-emitting diodes
DOI:10.1063/1.3659467 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Cai, Min;Xiao, Teng;Chen, Ying;Hellerich, Emily;Liu, Rui;Shinar, Ruth;Shinar, Joseph;
2:399:5 Organic Light-Emitting Diode Sensing Platform: Challenges and Solutions
DOI:10.1002/adfm.201101536 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:12 AU: Liu, Rui;Cai, Yuankun;Park, Joong-Mok;Ho, Kai-Ming;Shinar, Joseph;Shinar, Ruth;
2:399:6 Solution-processed small molecule thin films and their light-emitting devices
DOI:10.1016/j.tsf.2009.11.002 JN:THIN SOLID FILMS PY:2010 TC:5 AU: He, Lin;Liu, Junfeng;Wu, Zhaoxin;Wang, Dongdong;Liang, Shixiong;Zhang, Xinwen;Jiao, Bo;Wang, Dawei;Hou, Xun;
2:399:7 The effects of energetic disorder and polydispersity in conjugation length on the efficiency of polymer-based light-emitting diodes
DOI:10.1063/1.3497282 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Konezny, S. J.;Rothberg, L. J.;Galvin, M. E.;Smith, D. L.;
2:400:1 Multicomponent protein patterning of material surfaces
DOI:10.1039/b926690a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:24 AU: Ganesan, Ramakrishnan;Kratz, Karl;Lendlein, Andreas;
2:400:2 Biorecognition by DNA Oligonucleotides after Exposure to Photoresists and Resist Removers
DOI:10.1021/la402362u JN:LANGMUIR PY:2013 TC:0 AU: Dean, Stacey L.;Morrow, Thomas J.;Patrick, Susan;Li, Mingwei;Clawson, Gary A.;Mayer, Theresa S.;Keating, Christine D.;
2:400:3 Multiplexed Protein Patterns on a Photosensitive Hydrophilic Polymer Matrix
DOI:10.1002/adma.200903255 JN:ADVANCED MATERIALS PY:2010 TC:11 AU: Bhatnagar, Parijat;Malliaras, George G.;Kim, Il;Batt, Carl A.;
2:400:4 Photo-switchable polyelectrolyte brush for dual protein patterning
DOI:10.1039/c1jm12062j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Xu, Youyong;Hoshi, Yosuke;Ober, Christopher K.;
2:400:5 Wavelength selective refractive index modulation in a ROMP derived polymer bearing phenyl- and ortho-nitrobenzyl ester groups
DOI:10.1039/c3tc00006k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Edler, Matthias;Mayrbrugger, Stefan;Fian, Alexander;Trimmel, Gregor;Radl, Simone;Kern, Wolfgang;Griesser, Thomas;
2:400:6 Arrays of nanoelectromechanical biosensors functionalized by microcontact printing
DOI:10.1088/0957-4484/23/49/495501 JN:NANOTECHNOLOGY PY:2012 TC:4 AU: Salomon, S.;Leichle, T.;Dezest, D.;Seichepine, F.;Guillon, S.;Thibault, C.;Vieu, C.;Nicu, L.;
2:400:7 Photo-cleavable anti-fouling polymer brushes: A simple and versatile platform for multicomponent protein patterning
DOI:10.1016/j.polymer.2013.02.027 JN:POLYMER PY:2013 TC:4 AU: Hoshi, Yosuke;Xu, Youyong;Ober, Christopher K.;
2:401:1 Study of charge transport in P3HT:SiNW-based photovoltaic devices
DOI:10.1007/s00339-012-6991-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:6 AU: Azizi, Samir;Braik, Mourad;Dridi, Cherif;Ben Ouada, Hafedh;Ryback, Andrzej;Davenas, Joel;
2:401:2 Charge transport properties of an organic solar cell
DOI:10.1016/j.synthmet.2010.08.015 JN:SYNTHETIC METALS PY:2010 TC:12 AU: Yakuphanoglu, F.;Anand, R. S.;
2:401:3 Thermal stability, AC electrical conductivity and dielectric properties of N-(5-{[antipyrinyl-hydrazono]-cyanomethyl}-[1,3,4] thiadiazol-2-yl)-benzamide
DOI:10.1016/j.jallcom.2014.05.120 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:0 AU: El-Menyawy, E. M.;Zedan, I. T.;Mansour, A. M.;Nawar, H. H.;
2:401:4 Thermal and dielectric investigations on the blends of kappa-carrageenan and nano-structured polyaniline
DOI:10.1016/j.synthmet.2013.11.003 JN:SYNTHETIC METALS PY:2014 TC:3 AU: Zhu, Dan;Guo, Qiaoli;Zheng, Zhaoyu;Matsuo, Masaru;
2:401:5 The frequency-dependence conduction of polyaniline based on their para-crystalline structures
DOI:10.1016/j.synthmet.2011.06.008 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Zhu, Dan;Zhang, Juan;Xu, Chunye;Matsuo, Masaru;
2:401:6 Hybrid films based on silicon nanowires dispersed in a semiconducting polymer for thin film solar cells: Opportunities and new challenges
DOI:10.1016/j.synthmet.2011.08.017 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Davenas, Joel;Boiteux, Gisele;Cornu, David;Rybak, Andrzej;
2:401:7 Frequency and gate voltage effects on the dielectric properties and electrical conductivity of Al/SiO2/p-Si metal-insulator-semiconductor Schottky diodes
DOI:10.1063/1.3602090 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Yildiz, D. E.;Dokme, I.;
2:401:8 The study of new p-n mixed semiconductors: 6,13-Bis(4-propylphenyl)pentacene-ZnO nano-sized composites films
DOI:10.1016/j.synthmet.2010.10.019 JN:SYNTHETIC METALS PY:2010 TC:0 AU: Huang, Zhong;Zhang, Jingchang;Yang, Xiuying;Cao, Weiliang;
2:401:9 Charge transport across bulk heterojunction organic thin film
DOI:10.1007/s00339-011-6676-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:6 AU: Tessema, Genene;
2:401:10 Synthesis and characterization of pentacene derivative by Wittig-Hornet reagent and its composite with nano-sized TiO2
DOI:10.1016/j.synthmet.2009.10.030 JN:SYNTHETIC METALS PY:2010 TC:1 AU: Huang, Zhong;Zhang, Jingchang;Yang, Xiuying;Cao, Weiliang;
2:402:1 Relationships between main-chain chirality and photophysical properties in chiral conjugated polymers
DOI:10.1039/c4tc01160k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Zheng, Chao;An, Zhongfu;Nakai, Yosuke;Tsuboi, Taiju;Wang, Yang;Shi, Huifang;Chen, Runfeng;Li, Huanhuan;Ji, Yimu;Li, Junfeng;Huang, Wei;
2:402:2 Interchromophoric Interactions in Chiral X-type pi-Conjugated Oligomers: A Linear and Nonlinear Optical Study
DOI:10.1021/ja104978t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:30 AU: Cornelis, David;Franz, Edith;Asselberghs, Inge;Clays, Koen;Verbiest, Thierry;Koeckelberghs, Guy;
2:402:3 Study of Photovoltaic Performance of Host-Guest System Comprising Photoluminescent Polyurethane and Rhodamine B Dye
DOI:10.1002/app.34430 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Pokhrel, B.;Konwer, S.;Dutta, A.;Huda, M. K.;Ghosh, B.;Dolui, S. K.;
2:402:4 Main chain polymeric metal complexes based on linkage fluorenevinylene or phenylenevinylene with thienyl(8-hydro xyquinoline)-cadmium (II) complexes as dye sensitizer for dye-sensitized solar cells
DOI:10.1002/app.38929 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Jin, Xueliang;Yu, Xiaoguang;Zhang, Wei;Zhou, Jun;Tang, Guipeng;Zhong, ChaoFan;
2:402:5 Synthesis and optical properties of 1,1-binaphthyl-thiophene alternating copolymers with main chain chirality
DOI:10.1039/c2jm35594a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Kawabata, Kohsuke;Goto, Hiromasa;
2:402:6 Rapid Intramolecular Hole Hopping in meso-meso and meta-Phenylene Linked Linear and Cyclic Multiporphyrin Arrays
DOI:10.1021/ja908605s JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:14 AU: Wilson, Thea M.;Hori, Takaaki;Yooo, Min-Chul;Aratani, Naoki;Osuka, Atsuhiro;Kim, Dongho;Wasielewski, Michael R.;
2:402:7 Synthesis and properties of a low-bandgap liquid crystalline pi-conjugated polymer
DOI:10.1007/s10853-013-7567-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:1 AU: Goto, Hiromasa;Wang, Aohan;Kawabata, Kohsuke;Yang, Fan;
2:402:8 Constructing a mixed pi-conjugated bridge: a simple and effective approach to realize a large first hyperpolarizability in carbon nanotube-based systems
DOI:10.1039/c3tc00022b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:10 AU: Yu, Guangtao;Zhao, Xingang;Niu, Min;Huang, Xuri;Zhang, Hui;Chen, Wei;
2:402:9 Theoretical investigation on nonlinear optical properties of carbon nanotubes with Stone-Wales defect rings
DOI:10.1039/c3tc31904k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Zhou, Zhong-Jun;Yu, Guang-Tao;Ma, Fang;Huang, Xu-Ri;Wu, Zhi-Jian;Li, Zhi-Ru;
2:402:10 Probing the Rate of Hole Transfer in Oxidized Porphyrin Dyads Using Thallium Hyperfine Clocks
DOI:10.1021/ja105082d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:4 AU: Diers, James R.;Taniguchi, Masahiko;Holten, Dewey;Lindsey, Jonathan S.;Bocian, David F.;
2:402:11 Fluorescence upconversion properties of a chiral polybinaphthyl induced by two-photon absorption
DOI:10.1002/app.35312 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Zeng, Yi;Wang, Changshun;Huang, Xiaobo;Cheng, Yixiang;
2:403:1 Unlocking the Functional Properties in One-Dimensional MoSI Cluster Polymers by Doping and Photoinduced Charge Transfer
DOI:10.1021/nl503038p JN:NANO LETTERS PY:2015 TC:0 AU: Topolovsek, Peter;Gadermaier, Christoph;Vengust, Damjan;Strojnik, Martin;Strle, Jure;Mihailovic, Dragan;
2:403:2 Mo6S9-xIx nanowires as additives for enhanced organic solar cell performance
DOI:10.1016/j.solmat.2014.04.011 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:3 AU: Majkic, Aleksej;Gadermaier, Christoph;Celic, Nevena;Topolovsek, Peter;Bratina, Gvido;Mihailovic, Dragan;
2:403:3 Aptamer conjugated Mo(6)S(9-x)I(x) nanowires for direct and highly sensitive electrochemical sensing of thrombin
DOI:10.1016/j.bios.2010.01.030 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:16 AU: McMullan, Martin;Sun, Nijuan;Papakonstantinou, Pagona;Li, Meixian;Zhou, Wuzong;Mihailovic, Dragan;
2:403:4 Ionization Energy and Energy Gap Structure of MoSI Molecular Wires: Kelvin Probe, Ultraviolet Photoelectron Spectroscopy, and Cyclic Voltammetry Measurements
DOI:10.1021/la1050767 JN:LANGMUIR PY:2011 TC:5 AU: Strojnik, Martin;Omerzu, Ales;Majkic, Aleksej;Mihailovic, Peter M.;Lukan, Junos;Bavdek, Gregor;Bratina, Gvido;Cvetko, Dean;Topolovsek, Peter;Mihailovic, Dragan;
2:403:5 Effect of bundling on the stability, equilibrium geometry, and electronic structure of Mo6S9-xIx nanowires
DOI:10.1103/PhysRevB.82.205427 JN:PHYSICAL REVIEW B PY:2010 TC:2 AU: Kang, Seoung-Hun;Kwon, Young-Kyun;Tomanek, David;
2:403:6 Two-terminal nanoelectromechanical bistable switches based on molybdenum-sulfur-iodine molecular wire bundles
DOI:10.1088/0957-4484/21/12/125706 JN:NANOTECHNOLOGY PY:2010 TC:8 AU: Andzane, J.;Prikulis, J.;Dvorsek, D.;Mihailovic, D.;Erts, D.;
2:403:7 Large spectral shifts of electronic transitions in MoSI molecular wire dispersions as a function of bundle diameter
DOI:10.1016/j.synthmet.2010.09.006 JN:SYNTHETIC METALS PY:2010 TC:2 AU: Vengust, Damjan;Gadermaier, Christoph;Mihailovic, Dragan;
2:403:8 Low pressure, low temperature synthesis of Mo6S3I6 molecular wires suitable for upscaling
DOI:10.1016/j.synthmet.2012.07.010 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Davydova, Marina;Kovic, Andrej;Topolovsek, Peter;Mihailovic, Dragan;
2:403:9 Thionin attached to a gold electrode modified with self-assembly of Mo(6)S(9-X)I(X) nanowires for amplified electrochemical detection of natural DNA
DOI:10.1016/j.bios.2010.01.035 JN:BIOSENSORS & BIOELECTRONICS PY:2011 TC:9 AU: Lin, Hong;Cheng, Huiming;Liu, Lu;Zhu, Zhiwei;Shao, Yuanhua;Papakonstantinou, Pagona;Mihailovic, Dragan;Li, Meixian;
2:403:10 An AC-assisted single-nanowire electromechanical switch
DOI:10.1039/c3tc31240b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Andzane, Jana;Meija, Raimonds;Livshits, Alexander I.;Prikulis, Juris;Biswas, Subhajit;Holmes, Justin D.;Erts, Donats;
2:403:11 Diffraction from transition metal chalcogenide nanotubes
DOI:10.1016/j.mseb.2011.04.004 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:0 AU: Milosevic, Ivanka;Vukovic, Tatjana;Damnjanovic, Milan;
2:404:1 RF power dependence of refractive index of room temperature sputtered ZnO:Al thin films
DOI:10.1007/s00339-013-7831-z JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:0 AU: Mohanty, Bhaskar Chandra;Yeon, Deuk Ho;Yun, Jae Ho;Cho, Jun Sik;Cho, Yong Soo;
2:404:2 Transport and surface conductivity in ZnO
DOI:10.1557/jmr.2012.133 JN:JOURNAL OF MATERIALS RESEARCH PY:2012 TC:5 AU: Swartz, Craig H.;
2:404:3 Optimization of pulsed laser deposited ZnO thin-film growth parameters for thin-film transistors (TFT) application
DOI:10.1007/s00339-012-7154-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:6 AU: Gupta, Manisha;Chowdhury, Fatema Rezwana;Barlage, Douglas;Tsui, Ying Yin;
2:404:4 Optimal growth and thermal stability of crystalline Be0.25Zn0.75O alloy films on Al2O3(0001)
DOI:10.1063/1.4870533 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Park, Dae-Sung;Krupski, A.;Sanchez, A. M.;Choi, Chel-Jong;Yi, Min-Su;Lee, Hyun-Hwi;McMitchell, S. R. C.;McConville, C. F.;
2:404:5 Interaction of light with the ZnO surface: Photon induced oxygen "breathing," oxygen vacancies, persistent photoconductivity, and persistent photovoltage
DOI:10.1063/1.4861413 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:8 AU: Gurwitz, Ron;Cohen, Rotem;Shalish, Ilan;
2:404:6 UV-induced improvement in ZnO thin film conductivity: a new in situ approach
DOI:10.1039/c4tc01749h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Vai, Alex T.;Kuznetsov, Vladimir L.;Dilworth, Jonathan R.;Edwards, Peter P.;
2:404:7 A comparative study of photoluminescence of Zn-polar and O-polar faces in single crystal ZnO using moment analysis
DOI:10.1063/1.3554722 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Yamamoto, Aishi;Moriwaki, Yuta;Hattori, Ken;Yanagi, Hisao;
2:404:8 Interpretation of transport measurements in ZnO-thin films
DOI:10.1007/s00339-010-5945-0 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:3 AU: Petukhov, Vladimir;Stoemenos, John;Rothman, Johan;Bakin, Andrey;Waag, Andreas;
2:405:1 Synthesis and characterization of graft polystyrenes with para-substituted pi-conjugated oligo(carbazole) and oligo(carbazole-thiophene) moieties for organic field-effect transistors
DOI:10.1016/j.polymer.2013.04.002 JN:POLYMER PY:2013 TC:3 AU: Chang, Gung-Pei;Chuang, Ching-Nan;Lee, Jong-Yih;Chang, Yung-Shen;Leung, Man-kit;Hsieh, Kuo-Huang;
2:405:2 First disubstituted dibenzothiophene-5,5-dioxide monodispersed molecular materials for efficient blue-electroluminescence
DOI:10.1039/b913628b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:18 AU: Grisorio, R.;Melcarne, G.;Suranna, G. P.;Mastrorilli, P.;Nobile, C. F.;Cosma, P.;Fini, P.;Colella, S.;Fabiano, E.;Piacenza, M.;Della Sala, F.;Ciccarella, G.;Mazzeo, M.;Gigli, G.;
2:405:3 Bipolar blue-emitting poly(N-9 '-heptadecanyl-carbazole-2,7-diyl-co-dibenzothiophene-S,S-dioxide-3,7-di yl)s
DOI:10.1039/c2jm14926e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: He, Ruifeng;Hu, Sujun;Liu, Jie;Yu, Lei;Zhang, Bin;Li, Na;Yang, Wei;Wu, Hongbin;Peng, Junbiao;
2:405:4 Polymers with alkyl main chain pendent biphenyl carbazole or triphenylamine unit as host for polymer light emitting diodes
DOI:10.1016/j.polymer.2012.08.042 JN:POLYMER PY:2012 TC:11 AU: Chuang, Ching-Nan;Chuang, Hsin-Jou;Wang, Yu-Xun;Chen, Szu-Hsien;Huang, Jau-Jiun;Leung, Man-kit;Hsieh, Kuo-Huang;
2:405:5 High-performance semiconductors based on oligocarbazole-thiophene derivatives for solution-fabricated organic field-effect transistors
DOI:10.1016/j.tsf.2012.12.047 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Chang, Gung-Pei;Hsieh, Kuo-Huang;
2:405:6 Synthesis and photoluminescent property of star polymers with carbzole pendent and a zinc porphyrin core by ATRP
DOI:10.1016/j.polymer.2011.07.025 JN:POLYMER PY:2011 TC:7 AU: Tao, Yongxin;Xu, Qingfeng;Li, Najun;Lu, Jianmei;Wang, Lihua;Xia, Xuewei;
2:405:7 Balanced charge transport and enhanced white electroluminescence from a single white emissive polymer via thermal annealing
DOI:10.1063/1.3323099 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Niu, Xiaodi;Zhang, Baohua;Xie, Zhiyuan;Cheng, Yanxiang;Wang, Lixiang;
2:405:8 Bulk mobility of polycrystalline thin films of quaterthiophene derivatives
DOI:10.1063/1.3555435 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Nakano, Kyohei;Iino, Hiroaki;Usui, Takayuki;Hanna, Jun-ichi;
2:405:9 Carbazole/fluorene copolymers with dimesitylboron pendants for blue light-emitting diodes
DOI:10.1016/j.polymer.2010.12.060 JN:POLYMER PY:2011 TC:14 AU: Chen, Ying-Hsiao;Lin, Yu-Ying;Chen, Yung-Chung;Lin, Jiann T.;Lee, Rong-Ho;Kuo, Wen-Jang;Jeng, Ru-Jong;
2:405:10 Water-soluble poly(N-vinyl-1,2,4-triazole) star and amphiphilic star block copolymers by RAFT polymerization
DOI:10.1016/j.polymer.2012.12.033 JN:POLYMER PY:2013 TC:4 AU: Mori, Hideharu;Ishikawa, Kazunori;Abiko, Yohei;Nakabayashi, Kazuhiro;Onuma, Atsuhiko;Morishima, Makoto;
2:406:1 Pump-Probe Spectroscopy in Organic Semiconductors: Monitoring Fundamental Processes of Relevance in Optoelectronics
DOI:10.1002/adma.201102015 JN:ADVANCED MATERIALS PY:2011 TC:34 AU: Cabanillas-Gonzalez, Juan;Grancini, Giulia;Lanzani, Guglielmo;
2:406:2 Role of amorphous and aggregate phases on field-induced exciton dissociation in a conjugated polymer
DOI:10.1103/PhysRevB.87.035201 JN:PHYSICAL REVIEW B PY:2013 TC:1 AU: Mroz, Marta M.;Lueer, Larry;Houarner-Rassin, Coralie;Anderson, Harry L.;Cabanillas-Gonzalez, Juan;
2:406:3 Ultrafast optical gain switch in organic photonic devices
DOI:10.1039/b915117f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Virgili, T.;Clark, J.;Cabanillas-Gonzalez, J.;Bazzana, L.;Vishnubhatla, K. C.;Osellame, R.;Ramponi, R.;Lanzani, G.;
2:406:4 Dual-sensor technique for characterization of carrier lifetime decay transients in semiconductors
DOI:10.1063/1.4903213 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Ahrenkie, R. K.;Johnston, S. W.;Kuciauskas, D.;Tynan, Jerry;
2:406:5 Transient mobility in silicon as seen by a combination of free-carrier absorption and resonance-coupled photoconductive decay
DOI:10.1063/1.4794168 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Feldman, Ari;Ahrenkiel, Richard;Lehman, John;
2:406:6 Dynamics of photoexcitation and stimulated optical emission in conjugated polymers: A multiscale quantum-chemistry and Maxwell-Bloch-equations approach
DOI:10.1103/PhysRevB.81.245407 JN:PHYSICAL REVIEW B PY:2010 TC:4 AU: Schumacher, Stefan;Galbraith, Ian;Ruseckas, Arvydas;Turnbull, Graham A.;Samuel, Ifor D. W.;
2:406:7 A new lifetime diagnostic system for photovoltaic materials
DOI:10.1016/j.solmat.2010.02.037 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:2 AU: Ahrenkiel, Richard K.;Dunlavy, Donald J.;
2:406:8 Degradation of photovoltaic devices at high concentration by space charge limited currents
DOI:10.1016/j.solmat.2013.07.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:1 AU: Feldman, Ari;Ahrenkiel, Richard;Lehman, John;
2:407:1 Investigation of structural, optical, and electrical properties of regioregular poly(3-hexylthiophene)/fullerene blend nanocomposites for organic solar cells
DOI:10.1016/j.tsf.2009.11.065 JN:THIN SOLID FILMS PY:2010 TC:27 AU: Boland, Patrick;Sunkavalli, Sri Sabarinadh;Chennuri, Sampath;Foe, Kurniawan;Abdel-Fattah, Tarek;Namkoong, Gon;
2:407:2 Comprehensive study of the influence of different environments on degradation processes in F8BT: Correlating optoelectronic properties with Raman measurements
DOI:10.1063/1.4826904 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Linde, Sivan;Shikler, Rafi;
2:407:3 Improved solubility, conductivity, thermal stability and corrosion protection properties of poly(o-toluidine) synthesized via chemical polymerization
DOI:10.1016/j.synthmet.2014.09.003 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Bilal, Salma;Farooq, Shehna;Shah, Anwar-ul-Haq Ali;Holze, Rudolf;
2:407:4 Electrochemical sensor based on polyaniline nanofibers/single wall carbon nanotubes composite for detection of malathion
DOI:10.1016/j.synthmet.2014.01.021 JN:SYNTHETIC METALS PY:2014 TC:4 AU: Ebrahim, Shaker;El-Raey, Radwa;Hefnawy, Ahmed;Ibrahim, Hesham;Soliman, Moataz;Abdel-Fattah, Tarek M.;
2:407:5 Engineered doped and codoped polyaniline gas sensors synthesized in N,N,dimethylformamide media
DOI:10.1007/s00339-011-6704-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:5 AU: Arenas, M. C.;Sanchez, Gabriela;Nicho, M. E.;Elizalde-Torres, Josefina;Castano, V. M.;
2:407:6 Remarkable increase in the efficiency of N,N-'-dimethylquinacridone dye heavily doped organic light emitting diodes under high current density
DOI:10.1063/1.3332478 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Liu, Huihui;Yan, Fei;Li, Wenlian;Chu, Bei;Su, Wenming;Su, Zisheng;Wang, Junbo;Hu, Zhizhi;Zhang, Zhiqiang;
2:407:7 Highly crystalline and soluble dodecylbenzene sulfonic acid doped poly(o-toluidine)
DOI:10.1016/j.synthmet.2010.10.021 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Ebrahim, Sh. M.;Gad, A.;Morsy, A.;
2:407:8 Hybrid Inorganic-Organic Heterojunction Solar Cell
DOI:10.1007/s11664-011-1671-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2011 TC:10 AU: Ebrahim, Shaker;Soliman, Moataz;Abdel-Fattah, Tarek M.;
2:407:9 Performance of organic field effect transistors with high-k gate oxide after application of consecutive bias stress
DOI:10.1016/j.tsf.2012.03.078 JN:THIN SOLID FILMS PY:2012 TC:1 AU: Lee, Sunwoo;Choi, Changhwan;Lee, Kilbock;Cho, Joong Hwee;Ko, Ki-Young;Ahn, Jinho;
2:408:1:1 Fluorescent detection of heparin by a cationic conjugated polyfluorene probe containing aggregation-induced emission units
DOI:10.1016/j.polymer.2011.11.058 JN:POLYMER PY:2012 TC:22 AU: Xu, Bowei;Wu, Xiaofu;Li, Haibo;Tong, Hui;Wang, Lixiang;
2:408:1:2 Water-soluble conjugated polyelectrolyte with pendant glycocluster: Synthesis and its interaction with heparin
DOI:10.1016/j.polymer.2010.11.048 JN:POLYMER PY:2011 TC:17 AU: Chen, Qi;Cui, Yi;Cao, Jie;Han, Bao-Hang;
2:408:1:3 Conjugated Poly(pyridinium salt)s as Fluorescence Light-Up Probes for Heparin Sensing
DOI:10.1002/APP.40933 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:2 AU: Wang, Lei;Li, Yandong;Sun, Jingfen;Lu, Yan;Sun, Yujiao;Cheng, Dandan;Li, Chenxi;
2:408:2:1 Effect of thermal stability on performance of beta-phase poly(9,9-di-n-octylfluorene) in deep blue electroluminescence
DOI:10.1016/j.polymer.2012.10.014 JN:POLYMER PY:2012 TC:5 AU: Jen, Tzu-Hao;Wang, Kuo-Kai;Chen, Show-An;
2:408:2:2 Efficient and stable deep blue polymer light-emitting devices based on beta-phase poly(9,9-dioctylfluorene)
DOI:10.1063/1.4824766 JN:APPLIED PHYSICS LETTERS PY:2013 TC:2 AU: Zhang, Xinwen;Hu, Qi;Lin, Jinyi;Lei, Zhenfeng;Guo, Xin;Xie, Linghai;Lai, Wenyong;Huang, Wei;
2:408:2:3 Stabilizing the optical properties of PFO through addition of a non-volatile low molecular weight aromatic ether
DOI:10.1039/c0jm01615b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:6 AU: Sirtonski, Matthew R.;McFarlane, Shaune L.;Veinot, Jonathan G. C.;
2:408:2:4 Synthesis and characterization of fluorene-carbazole and fluorene-phenothiazine copolymers with carbazole and oxadiazole pendants for organic light emitting diodes
DOI:10.1016/j.polymer.2010.10.061 JN:POLYMER PY:2010 TC:9 AU: Yamada, Shuhei;Park, Seijung;Song, Suhee;Heo, Mihee;Shim, Joo Young;Jin, Youngeup;Kim, Il;Lee, Heesoo;Lee, Kyungmee;Yoshinaga, Kohji;Kim, Jin Young;Suh, Hongsuk;
2:408:3:1 Synthesis, electrochemical and optical studies of new cyanopyridine based conjugated polymers as potential fluorescent materials
DOI:10.1016/j.polymer.2011.07.012 JN:POLYMER PY:2011 TC:10 AU: Vishnumurthy, K. A.;Sunitha, M. S.;Safakath, K.;Philip, Reji;Adhikari, Airody Vasudeva;
2:408:3:2 Phenyltrialkylborates as co-initiators with cyanine dyes in visible light polymerization of acrylates
DOI:10.1016/j.polymer.2011.03.035 JN:POLYMER PY:2011 TC:8 AU: Jedrzejewska, Beata;Pietrzak, Marek;Rafinski, Zbigniew;
2:408:3:3 Studies on an Argon Laser-Induced Photopolymerization Employing Both Mono- and Bischromophoric Hemicyanine Dye-Borate Complex as a Photoinitiator. Part III
DOI:10.1002/app.32348 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:5 AU: Jedrzejewska, Beata;Urbanski, Slawomir;
2:408:4:1 Homogeneous and sensitive DNA detection based on polyelectrolyte complexes of cationic conjugated poly(pyridinium salt)s and DNA
DOI:10.1039/c2jm15491a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:13 AU: Han, Fengli;Lu, Yan;Zhang, Qiang;Sun, Jingfen;Zeng, Xianshun;Li, Chenxi;
2:408:4:2 Poly(pyridinium salt)s with Organic Counterions Derived from an Aromatic Diamine Containing Tetraoxyethylene Units Exhibiting Amphotropic Liquid-Crystalline and Photoluminescence Properties
DOI:10.1002/app.31674 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:9 AU: Bhowmik, Pradip K.;Han, Haesook;Nedeltchev, Alexi K.;Mandal, Hari D.;Jimenez-Hernanadez, Jose A.;Mcgannon, Patrick M.;
2:409:1 Polymer space-charge-limited transistor as a solid-state vacuum tube triode
DOI:10.1063/1.3513334 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Chao, Yu-Chiang;Ku, Ming-Che;Tsai, Wu-Wei;Zan, Hsiao-Wen;Meng, Hsin-Fei;Tsai, Hung-Kuo;Horng, Sheng-Fu;
2:409:2 High output current in vertical polymer space-charge-limited transistor induced by self-assembled monolayer
DOI:10.1063/1.4748284 JN:APPLIED PHYSICS LETTERS PY:2012 TC:7 AU: Zan, Hsiao-Wen;Hsu, Yuan-Hsuan;Meng, Hsin-Fei;Huang, Chian-Hao;Tao, Yu-Tai;Tsai, Wu-Wei;
2:409:3 Temperature and electric field dependent mobility in poly(3-hexylthiophene) diodes
DOI:10.1063/1.3460111 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Giulianini, Michele;Waclawik, Eric R.;Bell, John M.;Motta, Nunzio;
2:409:4 Modeling of nanoscale devices with carriers obeying a three-dimensional density of states
DOI:10.1063/1.4800869 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Giusi, Gino;Iannaccone, Giuseppe;
2:409:5 High-performance vertical polymer nanorod transistors based on air-stable conjugated polymer
DOI:10.1063/1.3668086 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Chao, Yu-Chiang;Chung, Chin-Ho;Zan, Hsiao-Wen;Meng, Hsin-Fei;Ku, Ming-Che;
2:409:6 Achieving saturation in vertical organic transistors for organic light-emitting diode driving by nanorod channel geometric control
DOI:10.1063/1.4802999 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Li, Chang-Hung;Stehlin, Fabrice;Wang, Kai-Ruei;Lin, Yu-Hsin;Wieder, Fernand;Soppera, Olivier;Zan, Hsiao-Wen;Meng, Hsin-Fei;
2:409:7 High-performance space-charge-limited transistors with well-ordered nanoporous aluminum base electrode
DOI:10.1063/1.3632045 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Wu, Kun-Yang;Tao, Yu-Tai;Ho, Chi-Chih;Lee, Wei-Li;Perng, Tsong-Pyng;
2:409:8 Static Induction Transistor Using TaN Thin Film as Gate Electrode for High-Performance Application
DOI:10.1007/s13391-013-3154-7 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Zheng, Z. W.;Chen, Y. C.;
2:409:9 Impact of carrier heating on backscattering in inversion layers
DOI:10.1063/1.3660769 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Clerc, R.;Palestri, P.;Selmi, L.;Ghibaudo, G.;
2:409:10 A solution state diode using semiconductor polymer nanorods with nanogap electrodes
DOI:10.1088/0957-4484/23/24/245203 JN:NANOTECHNOLOGY PY:2012 TC:2 AU: Mutlu, Senol;Sonmez, Bedri Gurkan;
2:410:1 Embossing of organic thin films using a surfactant assisted lift-off technique
DOI:10.1016/j.jcis.2012.08.006 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:6 AU: Zhang, Xin;Zhang, Gengxin;Liao, Yen-Chih;Weeks, Brandon L.;Zhang, Zhao;
2:410:2 Tip Induced Crystallization Lithography
DOI:10.1021/ja412346b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:2 AU: Zhang, Xin;Weeks, Brandon L.;
2:410:3 Effects on the surface structure of organic energetic materials using spin coating
DOI:10.1016/j.tsf.2013.10.144 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Zhang, Xin;Weeks, Brandon L.;
2:410:4 SiO2/TiO2 composite aerogels: Preparation via ambient pressure drying and photocatalytic performance
DOI:10.1016/j.ceramint.2014.05.093 JN:CERAMICS INTERNATIONAL PY:2014 TC:3 AU: Cheng, Shengjun;Liu, Xinling;Yun, Shan;Luo, Hongjie;Gao, Yanfeng;
2:410:5 Synthesis and micro structural investigations of titania-silica nano composite aerogels
DOI:10.1016/j.matchemphys.2012.05.014 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2012 TC:8 AU: Ingale, S. V.;Sastry, P. U.;Wagh, P. B.;Tripathi, A. K.;Rao, R.;Tewari, R.;Rao, P. T.;Patel, R. P.;Tyagi, A. K.;Gupta, Satish C.;
2:410:6 A Substrate-Independent Lift-Off Approach for Patterning Functional Surfaces
DOI:10.1021/am2000278 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:5 AU: Brown, P. S.;Wood, T. J.;Schofield, W. C. E.;Badyal, J. P. S.;
2:410:7 Nanocrystalline trinitrotoluene (TNT) using sol-gel process
DOI:10.1016/j.jnoncrysol.2010.07.038 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2010 TC:6 AU: Ingale, S. V.;Wagh, P. B.;Tewari, R.;Gupta, Satish C.;
2:410:8 Micropatterning and transferring of polymeric semiconductor thin films by hot lift-off and polymer bonding lithography in fabrication of organic field effect transistors (OFETs) on flexible substrate
DOI:10.1016/j.apsusc.2011.05.006 JN:APPLIED SURFACE SCIENCE PY:2011 TC:2 AU: Yu, Xinhong;Wang, Zhe;Yu, Sunyang;Ma, Dongge;Han, Yanchun;
2:410:9 UV-resistant hydrophobic rutile titania aerogels synthesized through a nonalkoxide ambient pressure drying process
DOI:10.1557/jmr.2012.272 JN:JOURNAL OF MATERIALS RESEARCH PY:2013 TC:2 AU: Wei, Wei;Xie, Jimin;Wu, Yinyin;Zhu, Jianjun;Lu, Xiaomeng;Yan, Zaoxue;
2:410:10 Patterned Removal of Molecular Organic Films by Diffusion
DOI:10.1021/la2016929 JN:LANGMUIR PY:2011 TC:4 AU: Packard, Corinne E.;Aidala, Katherine E.;Ramanan, Sulinya;Bulovic, Vladimir;
2:411:1 X-ray Photoemission Spectroscopy Investigation of the Interaction between 4-Mercaptopyridine and the Anatase TiO2 Surface
DOI:10.1021/la400998r JN:LANGMUIR PY:2013 TC:5 AU: Calloni, A.;Brambilla, A.;Berti, G.;Bussetti, G.;Canesi, E. V.;Binda, M.;Petrozza, A.;Finazzi, M.;Ciccacci, F.;Duo, L.;
2:411:2 Charge Generation at Polymer/Metal Oxide Interface: from Molecular Scale Dynamics to Mesoscopic Effects
DOI:10.1002/adfm.201303689 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Kandada, Ajay Ram Srimath;Guarnera, Simone;Tassone, Francesco;Lanzani, Guglielmo;Petrozza, Annamaria;
2:411:3 The significance of Debye length in disordered doped organic devices
DOI:10.1063/1.3666063 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Raja, Munira;Eccleston, Bill;
2:411:4 Photoemission study of the Poly(3-hexylthiophene)/TiO2 interface and the role of 4-Mercaptopyridine
DOI:10.1016/j.tsf.2013.11.045 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Calloni, A.;Berti, G.;Ferrari, A.;Brambilla, A.;Bussetti, G.;Canesi, E. V.;Petrozza, A.;Duo, L.;
2:411:5 Effect of reduction of trap charge carrier density in organic field effect transistors by surface treatment of dielectric layer
DOI:10.1063/1.4842856 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Dagar, Janardan;Yadav, Vandana;Tyagi, Priyanka;Singh, Rajiv Kumar;Suman, C. K.;Srivastava, Ritu;
2:411:6 Growth of stoichiometric TiO2 thin films on Au(100) substrates by molecular beam epitaxy
DOI:10.1016/j.tsf.2012.01.045 JN:THIN SOLID FILMS PY:2012 TC:6 AU: Calloni, A.;Ferrari, A.;Brambilla, A.;Ciccacci, F.;Duo, L.;
2:411:7 Rotational and Core Level Spectroscopies As Complementary Techniques in Tautomeric/Conformational Studies: The Case of 2-Mercaptopyridine
DOI:10.1021/ja104484b JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:10 AU: Melandri, Sonia;Evangelisti, Luca;Maris, Assimo;Caminati, Walther;Giuliano, Barbara M.;Feyer, Vitaliy;Prince, Kevin C.;Coreno, Marcello;
2:411:8 Impact of universal mobility law on polycrystalline organic thin-film transistors
DOI:10.1063/1.4758182 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:0 AU: Raja, Munira;Donaghy, David;Myers, Robert;Eccleston, Bill;
2:412:1 Aligned SWNT Films from Low-Yield Stress Gels and Their Transparent Electrode Performance
DOI:10.1021/am401592v JN:ACS APPLIED MATERIALS & INTERFACES PY:2013 TC:8 AU: Allen, Ranulfo;Fuller, Gerald G.;Bao, Zhenan;
2:412:2 Using in-Situ Polymerization of Conductive Polymers to Enhance the Electrical Properties of Solution-Processed Carbon Nanotube Films and Fibers
DOI:10.1021/am5019995 JN:ACS APPLIED MATERIALS & INTERFACES PY:2014 TC:6 AU: Allen, Ranulfo;Pan, Lijia;Fuller, Gerald G.;Bao, Zhenan;
2:412:3 Oriented, polymer-stabilized carbon nanotube films: influence of dispersion rheology
DOI:10.1088/0957-4484/24/1/015709 JN:NANOTECHNOLOGY PY:2013 TC:6 AU: Allen, Ranulfo;Bao, Zhenan;Fuller, Gerald G.;
2:412:4 Fabrication of aligned ultra-thin transparent conductive films of single-walled carbon nanotubes by a compression/sliding method
DOI:10.1016/j.scriptamat.2010.09.024 JN:SCRIPTA MATERIALIA PY:2011 TC:3 AU: Najeeb, C. K.;Chang, Jingbo;Lee, Jae-Hyeok;Kim, Jae-Ho;
2:413:1 Preface to Special Topic: Selected Papers from the International Conference on Flexible and Printed Electronics, Jeju Island, Korea, 2009
DOI:10.1063/1.3510244 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Daniel, Jurgen;Cho, Gyoujin;Burke, Peter;Javey, Ali;
2:413:2 Rheological properties of Ag suspended fluid for inkjet printing
DOI:10.1063/1.3511682 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Park, B. J.;Park, B. O.;Ryu, B. H.;Choi, Y. M.;Kwon, K. S.;Choi, H. J.;
2:413:3 Influences of infiltrated resin on properties of printed electrodes on non-sintered ceramic films
DOI:10.1016/j.ceramint.2012.11.092 JN:CERAMICS INTERNATIONAL PY:2013 TC:0 AU: Kim, Youngwoo;Woo, Kyoohee;Kim, Jihoon;Moon, Jooho;
2:413:4 Rheological properties of magnetic and electro-active nanoparticles in non-polar liquids
DOI:10.1007/s10853-011-5477-9 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:5 AU: Libor, Z.;Wilson, S. A.;Zhang, Q.;
2:413:5 A simulation and experimental study on packing of nanoinks to attain better conductivity
DOI:10.1063/1.3511687 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Amert, Anthony K.;Oh, Dong-Hoon;Kim, Nam-Soo;
2:413:6 Inkjet-printing of nonsintered alumina-resin hybrid films and their dielectric properties
DOI:10.1063/1.3511692 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Hwang, Myung-sung;Kim, Jihoon;Kim, Hyo-tae;Yoon, Youngjoon;Hyun, Sangil;Kim, Jonghee;Lee, Sung-nam;Moon, Jooho;
2:413:7 Effects of Te nanowire microstructure and Bi3+ reduction rate on Bi2Te3 nanotubes
DOI:10.1063/1.3511689 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Kim, Sook Hyun;Park, Byung Ki;
2:413:8 Onset condition of pulsating cone-jet mode of electrohydrodynamic jetting for plane, hole, and pin type electrodes
DOI:10.1063/1.3511685 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:12 AU: Kim, Hyojun;Song, Junyoung;Chung, Jaewon;Hong, Daehie;
2:413:9 Friction effect on the rotation of bichromal ball in a monolayer rotating ball display
DOI:10.1063/1.3511710 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:2 AU: Lee, Youngwoo;Lee, Sangmoon;Kwak, Jeong-Bok;Kim, Sangjin;Cha, Hye-Yeon;Lee, Choong Hee;Lee, Chong Seo;Lee, Hwan-Soo;
2:414:1 A one pot solution blending method for highly conductive poly (methyl methacrylate)-highly reduced graphene nanocomposites
DOI:10.1007/s13391-013-6025-3 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:4 AU: Balasubramaniyan, R.;Viet Hung Pham;Jang, Jinhee;Hur, Seung Hyun;Chung, Jin Suk;
2:414:2 Electrical, optical, and structural characteristics of ohmic contacts between p-GaN and ITO deposited by DC- and RF-magnetron sputtering
DOI:10.1007/s13391-013-0023-3 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:8 AU: Choi, Jun-Hyuk;Jang, Seon-Ho;Jang, Ja-Soon;
2:414:3 Agglomeration Effects of Thin Metal Catalyst on Graphene Film Synthesized by Chemical Vapor Deposition
DOI:10.1007/s13391-011-0915-z JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:11 AU: Kim, Eunho;Lee, Wan-Gyu;Jung, Jongwan;
2:414:4 Structural, optical, and electrical properties of E-beam and sputter-deposited ITO films for LED applications
DOI:10.1007/s13391-011-0610-0 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:18 AU: Kim, Kyoung-Kook;Kim, Hyunsoo;Lee, Sung-Nam;Cho, Soohaeng;
2:414:5 Synthesis of Dual Nanoparticles Embedded in Polyimide and Their Optical Properties
DOI:10.1007/s13391-014-4166-7 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:1 AU: Maeng, Ju Sung;Choi, Dong Joo;Ahn, Key-one;Kim, Young-Ho;
2:414:6 A Study on the Percolation Threshold of Polyethylene Matrix Composites Filled Carbon Powder
DOI:10.3365/eml.2010.06.065 JN:ELECTRONIC MATERIALS LETTERS PY:2010 TC:12 AU: Shin, Soon-Gi;
2:414:7 Effect of Carbon Content on the Electrical Conductivity of Carbon Black-Filled PMC with Various Matrices
DOI:10.1007/s13391-011-0911-3 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:4 AU: Shin, Soon-Gi;
2:414:8 Power-dependent structural, morphological and electrical properties of electron beam evaporated tantalum films
DOI:10.1007/s13391-013-6026-2 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:1 AU: Arshi, Nishat;Lu, Junqing;Lee, Chan Gyu;Koo, Bon Heun;Ahmed, Faheem;
2:414:9 Effect of the flow rate of oxygen and hydrogen gases on the characteristics of organic light emitting diodes with Al-doped ZnO anodes
DOI:10.1007/s13391-013-3178-z JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Han, Seong-Ho;Jo, Dam-Bi;Lee, Kyu-Mann;
2:414:10 Effect of Temperature on the Dielectric Properties of Carbon Black-Filled Polyethylene Matrix Composites below the Percolation Threshold
DOI:10.1007/s13391-011-0913-1 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:5 AU: Shin, Soon-Gi;Kwon, In-Kyu;
2:415:1 "Regioselective Deposition" Method to Pattern Silver Electrodes Facilely and Efficiently with High Resolution: Towards All-Solution-Processed, High-Performance, Bottom-Contacted, Flexible, Polymer-Based Electronics
DOI:10.1002/adfm.201304117 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:6 AU: Ji, Deyang;Jiang, Lang;Guo, Yunlong;Dong, Huanli;Wang, Jianpu;Chen, Huajie;Meng, Qing;Fu, Xiaolong;Tian, Guofeng;Wu, Dezhen;Yu, Gui;Liu, Yunqi;Hu, Wenping;
2:415:2 High-Performance Organic Thin-Film Transistor Based on a Dipolar Organic Semiconductor
DOI:10.1002/adma.201202441 JN:ADVANCED MATERIALS PY:2012 TC:17 AU: Huang, Lizhen;Stolte, Matthias;Buerckstuemmer, Hannah;Wuerthner, Frank;
2:415:3 Silver mirror reaction for organic electronics: towards high-performance organic field-effect transistors and circuits
DOI:10.1039/c4tc00119b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:3 AU: Ji, Deyang;Jiang, Lang;Dong, Huanli;Meng, Qing;Zhen, Yonggang;Hu, Wenping;
2:415:4 Fabrication of surface silvered polyimide/iron oxide composite films with both superparamagnetism and electrical conductivity
DOI:10.1016/j.tsf.2010.10.034 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Zhan, Jiayu;Wu, Zhanpeng;Qi, Shengli;Wu, Dezhen;Yang, Wantai;
2:416:1 Surface plasmonic controllable enhanced emission from the intrachain and interchain excitons of a conjugated polymer
DOI:10.1063/1.3508949 JN:APPLIED PHYSICS LETTERS PY:2010 TC:25 AU: Cho, Kwan Hyun;Ahn, Sung Il;Lee, Seong Min;Choi, Chung Sock;Choi, Kyung Cheol;
2:416:2 Nanoplasmon-Enhanced Transparent Plasma Display Devices
DOI:10.1002/smll.201102015 JN:SMALL PY:2012 TC:13 AU: Lee, Seong Min;Kim, Donghyuk;Jeon, Duk Young;Choi, Kyung Cheol;
2:416:3 Enhanced photoluminescence from zinc oxide by plasmonic resonance of reduced graphene oxide
DOI:10.1063/1.4818953 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:3 AU: Kim, Kukjoo;Lee, Seong Min;Do, Yun Seon;Ahn, Sung Il;Choi, Kyung Cheol;
2:416:4 Enhanced single molecule fluorescence of conjugated polymer poly(3-hexylthiophene) on silver-nanocubes
DOI:10.1016/j.synthmet.2014.05.014 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Ou, Jiemei;Yang, Yuzhao;Yuan, Zhongke;Zhang, Yu;Gan, Lin;Chen, Xudong;
2:416:5 Optical tuning of phosphors by plasmonic gold nanoparticles for phosphor-converted white light emitting diodes
DOI:10.1063/1.4898041 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Kim, Myeongcheol;Lee, Seong Min;Choi, Kyung Cheol;
2:416:6 Light extraction beyond total internal reflection using one-dimensional plasmonic crystals
DOI:10.1063/1.3628330 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: McCarron, R.;O'Connor, D.;Bouillard, J. -S.;Dickson, W.;Zayats, A. V.;
2:417:1 Controllable Localized Surface Plasmonic Resonance Phenomena in Reduced Gold Oxide Films
DOI:10.1021/cm403227w JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Liu, Yu-Lun;Fang, Cheng-Yi;Yu, Chen-Chieh;Yang, Tai-Chi;Chen, Hsuen-Li;
2:417:2 Room-Temperature Reaction of Oxygen with Gold: An In situ Ambient-Pressure X-ray Photoelectron Spectroscopy Investigation
DOI:10.1021/ja909987j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:29 AU: Jiang, Peng;Porsgaard, Soeren;Borondics, Ferenc;Koeber, Mariana;Caballero, Alfonso;Bluhm, Hendrik;Besenbacher, Flemming;Salmeron, Miquel;
2:417:3 Platinum Nanoparticles on Gallium Nitride Surfaces: Effect of Semiconductor Doping on Nanoparticle Reactivity
DOI:10.1021/ja3020132 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Schaefer, Susanne;Wyrzgol, Sonja A.;Caterino, Roberta;Jentys, Andreas;Schoell, Sebastian J.;Haevecker, Michael;Knop-Gericke, Axel;Lercher, Johannes A.;Sharp, Ian D.;Stutzmann, Martin;
2:417:4 Oriented silver oxide nanostructures synthesized through a template-free electrochemical route
DOI:10.1039/c0jm02214d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:25 AU: Wei, Weifeng;Mao, Xuhui;Ortiz, Luis A.;Sadoway, Donald R.;
2:417:5 Improved efficiency of P3HT:PCBM solar cells by incorporation of silver oxide interfacial layer
DOI:10.1063/1.4891246 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Das, Sayantan;Alford, T. L.;
2:417:6 Probing the electrode-polymer interface in conjugated polymer devices with surface-enhanced Raman scattering
DOI:10.1063/1.3701278 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Li, Dongbo;Borys, Nicholas J.;Lupton, John M.;
2:417:7 Investigation of the surface properties of gold nanowire arrays
DOI:10.1016/j.apsusc.2011.08.021 JN:APPLIED SURFACE SCIENCE PY:2011 TC:3 AU: Yao, Huijun;Mo, Dan;Duan, Jinglai;Chen, Yonghui;Liu, Jie;Sun, Youmei;Hou, Mingdong;Schaepers, Thomas;
2:418:1 New Prospects in the Conception of IR Electro-Tunable Devices: The Use of Conducting Semi-Interpenetrating Polymer Network Architecture
DOI:10.1021/cm100736y JN:CHEMISTRY OF MATERIALS PY:2010 TC:10 AU: Verge, Pierre;Aubert, Pierre-Henri;Vidal, Frederic;Sauques, Laurent;Tran-Van, Francois;Peralta, Sebastien;Teyssie, Dominique;Chevrot, Claude;
2:418:2 Symmetrical electrochromic device from poly(3,4-(2,2-dimethylpropylenedioxy)thiophene)-based semi-interpenetrating polymer network
DOI:10.1016/j.synthmet.2012.08.006 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Mallouki, Mohamed;Aubert, Pierre-Henri;Beouch, Layla;Vidal, Frederic;Chevrot, Claude;
2:418:3 Feasibility of conducting semi-IPN with variable electro-emissivity: A promising way for spacecraft thermal control
DOI:10.1016/j.solmat.2011.06.017 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:5 AU: Teissier, Anne;Dudon, Jean-Paul;Aubert, Pierre-Henri;Vidal, Frederic;Remaury, Stephanie;Crouzet, Jerome;Chevrot, Claude;
2:418:4 Electroactive Polymers with Semi-IPN Architectures for Electrochromic Devices
DOI:10.1080/15421401003726980 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:5 AU: Verge, P.;Mallouki, M.;Beouch, L.;Aubert, P. H.;Vidal, F.;Tran-Van, F.;Teyssie, D.;Chevrot, C.;
2:418:5 Electropolymerization of 3,4-ethylenedioxythiophene within an insulating nitrile butadiene rubber network: Application to electroreflective surfaces and devices
DOI:10.1016/j.solmat.2011.07.004 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:6 AU: Fabre-Francke, Isabelle;Aubert, Pierre-Henri;Alfonsi, Severine;Vidal, Frederic;Sauques, Laurent;Chevrot, Claude;
2:418:6 Soft and flexible Interpenetrating Polymer Networks hosting electroreflective poly(3,4-ethylenedioxythiophene)
DOI:10.1016/j.solmat.2014.03.036 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Goujon, Laurent J.;Aubert, Pierre-Henri;Sauques, Laurent;Vidal, Frederic;Teyssie, Dominique;Chevrot, Claude;
2:418:7 IR Reflectivity Change from Electroactive IPN
DOI:10.1080/15421406.2012.633800 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Goujon, L. -J.;Tran-Van, F.;Vidal, F.;Aubert, P-H.;Teyssie, D.;Chevrot, C.;
2:419:1 Structure properties relationships of liquid crystal bent core organic semiconductors based on benzo[2,1-b:3,4-b ']dithiophene-4,5-dione
DOI:10.1039/c2jm34803a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Aboubakr, Hecham;Tamba, M. -Gabriela;Diallo, Abdou Karim;Videlot-Ackermann, Christine;Belec, Lenaik;Siri, Olivier;Raimundo, Jean-Manuel;Mehl, Georg H.;Brisset, Hugues;
2:419:2 Ac-conductivity and dielectric relaxations above glass transition temperature for parylene-C thin films
DOI:10.1007/s00339-011-6706-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:7 AU: Kahouli, A.;Sylvestre, A.;Jomni, F.;Yangui, B.;Legrand, J.;
2:419:3 Latticelike Smectic Liquid Crystal Phase in a Rigid-Rod Helical Polyisocyanide with Mesogenic Pendants
DOI:10.1021/ja201133d JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:9 AU: Kajitani, Takashi;Onouchi, Hisanari;Sakurai, Shin-ichiro;Nagai, Kanji;Okoshi, Kento;Onitsuka, Kiyotaka;Yashima, Eiji;
2:419:4 Low-frequency dielectric functions of dense and chevronic thin films of parylene C
DOI:10.1016/j.matlet.2012.12.062 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Kahouli, Abdelkader;Wei, Lai;Lakhtakia, Akhlesh;Sylvestre, Alain;
2:419:5 Parylene nanocomposites using modified magnetic nanoparticles
DOI:10.1016/j.matchemphys.2010.07.060 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2010 TC:7 AU: Garcia, Ignacio;Ruiz de Luzuriaga, A.;Grande, H.;Jeandupeux, L.;Charmet, J.;Laux, E.;Keppner, H.;Mecerreyes, D.;Cabanero, German;
2:419:6 Simulation based performance comparison of transistors designed using standard photolithographic and coarse printing design specifications
DOI:10.1016/j.tsf.2010.10.020 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Wondmagegn, W. T.;Satyala, N. T.;Stiegler, H. J.;Quevedo-Lopez, M. A.;Forsythe, E. W.;Pieper, R. J.;Gnade, B. E.;
2:419:7 Synthesis and characterization of Parylene C/nanosilica composite film
DOI:10.1016/j.apsusc.2011.07.095 JN:APPLIED SURFACE SCIENCE PY:2011 TC:3 AU: Chai, Xin;Liu, Jingquan;He, Qing;Peng, Guangbin;Yang, Chunsheng;
2:419:8 Comparison of p-channel transistors based on alpha,omega-hexyl-distyryl-bithiophene prepared using various film deposition methods
DOI:10.1016/j.tsf.2010.03.079 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Didane, Y.;Martini, C.;Barret, M.;Sanaur, S.;Collot, P.;Ackermann, J.;Fages, F.;Suzuki, A.;Yoshimoto, N.;Brisset, H.;Videlot-Ackermann, C.;
2:419:9 Frequency- and temperature-dependent storage and loss moduli of microfibrous thin films of Parylene C
DOI:10.1016/j.matlet.2013.11.054 JN:MATERIALS LETTERS PY:2014 TC:3 AU: Chindam, Chandraprakash;Lakhtakia, Akhlesh;Brown, Nicole R.;Orfali, Wasim;Awadelkarim, Osama O.;
2:419:10 Design and stabilization of block copolymer micelles via phenol-pyridine hydrogen-bonding interactions
DOI:10.1016/j.polymer.2010.01.032 JN:POLYMER PY:2010 TC:7 AU: Ruiz de Luzuriaga, Alaitz;Garcia, Inaki;Mecerreyes, David;Etxeberria, Agustin;Pomposo, Jose A.;
2:419:11 Core-cyanated distyryl-bithiophene Synthesis and impact on charge transport in field-effect transistors
DOI:10.1016/j.tsf.2010.07.005 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Didane, Yahia;Marsal, Philippe;Fages, Frederic;Kumagai, Atsufumi;Yoshimoto, Noriyuki;Brisset, Hugues;Videlot-Ackermann, Christine;
2:419:12 Development of a hybrid inverter through integration of organic and inorganic thin film transistors
DOI:10.1016/j.tsf.2010.03.141 JN:THIN SOLID FILMS PY:2010 TC:2 AU: Park, Jung-Ho;Kwon, Jae-Hong;Chang, Seongpil;Seo, Han;Choi, Byung-Hyun;Ji, Mi-Jung;Choi, Jinnil;Pak, James Jungho;Ju, Byeong-Kwon;
2:420:1 Electrical characteristics and operating mechanisms of nonvolatile memory devices fabricated utilizing core-shell CuInS2-ZnS quantum dots embedded in a poly(methyl methacrylate) layer
DOI:10.1063/1.3659473 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Han, Kyu Wan;Lee, Min Ho;Kim, Tae Whan;Yun, Dong Yeol;Kim, Sung Woo;Kim, Sang Wook;
2:420:2 Particle size dependence of resonant-tunneling effect induced by CdS nanoparticles in a poly(N-vinylcarbazole) polymer matrix
DOI:10.1063/1.4746783 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Nenna, Giuseppe;Masala, Silvia;Bizzarro, Valentina;Re, Marilena;Pesce, Emanuela;Minarini, Carla;Di Luccio, Tiziana;
2:420:3 Optical properties and electrical bistability of CdS nanoparticles synthesized in dodecanethiol
DOI:10.1063/1.3402770 JN:APPLIED PHYSICS LETTERS PY:2010 TC:14 AU: Tang, Aiwei;Teng, Feng;Hou, Yanbing;Wang, Yongsheng;Tan, Furui;Qu, Shengchun;Wang, Zhanguo;
2:420:4 Effects of CdSe shell layer on the electrical properties of nonvolatile memory devices fabricated utilizing core-shell CdTe-CdSe nanoparticles embedded in a poly(9-vinylcarbazole) layer
DOI:10.1063/1.3360215 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Yun, Dong Yeol;Jung, Jae Hun;Lee, Dea Uk;Kim, Tae Whan;Ryu, E. D.;Kim, S. W.;
2:420:5 Electrical bistability and negative differential resistance in diodes based on silver nanoparticle-poly(N-vinylcarbazole) composites
DOI:10.1063/1.3506708 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Tang, Aiwei;Qu, Shengchun;Hou, Yanbing;Teng, Feng;Tan, Hairen;Liu, Jie;Zhang, Xingwang;Wang, Yongsheng;Wang, Zhanguo;
2:420:6 Admittance electrical model of polyfluorene based organic light emitting diodes
DOI:10.1063/1.3634121 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:0 AU: Petrosino, Mario;Rubino, Alfredo;
2:420:7 Admittance spectroscopy of poly(3,4-ethylenedioxythiophene): poly(styrenesulfonate) based organic light emitting diodes
DOI:10.1063/1.3587166 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Petrosino, Mario;Rubino, Alfredo;
2:420:8 Negative differential resistance phenomena in colloidal quantum dots-based organic light-emitting diodes
DOI:10.1063/1.4862889 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Yang, Shengyi;Liu, Peng;Guo, Sanwei;Zhang, Li;Yang, Dan;Jiang, Yurong;Zou, Bingsuo;
2:421:1 Preferential Adsorption of Amino-Terminated Silane in a Binary Mixed Self-Assembled Monolayer
DOI:10.1021/la200497u JN:LANGMUIR PY:2011 TC:26 AU: Tong, Yujin;Tyrode, Eric;Osawa, Masatoshi;Yoshida, Naoya;Watanabe, Toshiya;Nakajima, Akira;Ye, Shen;
2:421:2 Mixed Si lane Mono layers for Controlling the Surface Areal Density of Click-Reactive Alkyne Groups: A Method to Assess Preferential Surface Adsorption on Flat Substrates and a Method to Verify Compositional Homogeneity on Nanoparticles
DOI:10.1021/la402517m JN:LANGMUIR PY:2013 TC:3 AU: Maidenberg, Yanir;Zhang, Shuo;Luo, Kai;Akhavein, Nima;Koberstein, Jeffrey T.;
2:421:3 Azide Functional Monolayers Grafted to a Germanium Surface: Model Substrates for ATR-IR Studies of Interfacial Click Reactions
DOI:10.1021/la203844v JN:LANGMUIR PY:2012 TC:12 AU: Zhang, Shuo;Koberstem, Jeffrey T.;
2:421:4 Controlling the turn-on-voltage in low-voltage Al2O3 organic transistors with mixed self-assembled monolayers
DOI:10.1016/j.synthmet.2011.01.024 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Bjorklund, Niklas;Pettersson, Fredrik S.;Tobjork, Daniel;Osterbacka, Ronald;
2:421:5 Adjusting the Surface Areal Density of Click-Reactive Azide Groups by Kinetic Control of the Azide Substitution Reaction on Bromine-Functional SAMs
DOI:10.1021/la501233w JN:LANGMUIR PY:2014 TC:2 AU: Zhang, Shuo;Maidenberg, Yanir;Luo, Kai;Koberstein, Jeffrey T.;
2:421:6 Investigation on growth process and tribological behavior of mixed alkylsilane self-assembled molecular films in aqueous solution
DOI:10.1016/j.apsusc.2012.05.039 JN:APPLIED SURFACE SCIENCE PY:2012 TC:3 AU: Liu, Yuhong;Liu, Pengxiao;Xiao, Yuqi;Luo, Jianbin;
2:422:1 Growth of silver on ZnO and SnO2 thin films intended for low emissivity applications
DOI:10.1016/j.apsusc.2012.12.156 JN:APPLIED SURFACE SCIENCE PY:2013 TC:6 AU: Alvarez, Rafael;Gonzalez, Juan C.;Espinos, Juan P.;Gonzalez-Elipe, Agustin R.;Cueva, Ana;Villuendas, Francisco;
2:422:2 The preparation of thermally stable TiNx/Ag(Mo)/TiNx ultrathin films by magnetron sputtering
DOI:10.1016/j.tsf.2014.05.029 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Loka, Chadrasekhar;Yu, Ho Tak;Lee, Kee-Sun;
2:422:3 Visible and near infrared light absorbance of Ag thin films deposited on ZnO under layers by magnetron sputtering
DOI:10.1016/j.solmat.2011.04.005 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:8 AU: Kato, Kazuhiro;Omoto, Hideo;Tomioka, Takao;Takamatsu, Atsushi;
2:422:4 Investigations of diffusion behaviour in Al-doped zinc oxide and zinc stannate coatings
DOI:10.1016/j.tsf.2011.08.076 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Kulczyk-Malecka, J.;Kelly, P. J.;West, G.;Clarke, G. C. B.;Ridealgh, J. A.;
2:422:5 Growth of Ultrathin Ag Films on TaNx Layer and Their Optical Properties
DOI:10.1007/s13391-013-2138-y JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Akepati, Sivasankar Reddy;Cho, Hyun-chul;Lee, Kee-Sun;
2:422:6 Low emissivity Ag/Ta/glass multilayer thin films deposited by sputtering
DOI:10.1063/1.3636107 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Park, Sun Ho;Lee, Kee Sun;Reddy, A. Sivasankar;
2:422:7 Structure and growth morphology of Gd2O3-doped CeO2 thin films
DOI:10.1016/j.jcrysgro.2010.02.040 JN:JOURNAL OF CRYSTAL GROWTH PY:2010 TC:5 AU: Jiang, Xuening;Hao, Binkui;
2:423:1 Investigation of oxidation inhibition properties of vaporized self-assembled multilayers on copper nanopowders
DOI:10.1016/j.apsusc.2011.01.035 JN:APPLIED SURFACE SCIENCE PY:2011 TC:8 AU: Kwon, Jinhyeong;Park, Shinyoung;Lee, Tae Hun;Yang, Jun-Mo;Lee, Caroline Sunyong;
2:423:2 Synthesis of Conductive Nano Ink Using 1-Octanethiol Coated Copper Nano Powders in 1-Octanol for Low Temperature Sintering Process
DOI:10.2320/matertrans.M2012363 JN:MATERIALS TRANSACTIONS PY:2013 TC:3 AU: Her, Jaehak;Cho, Danee;Lee, Caroline Sunyong;
2:423:3 Investigation of sintering behavior of octanethiol-coated copper nano ink under various atmospheres
DOI:10.1016/j.tsf.2013.03.030 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Haque, Md. Mominul;Cho, Danee;Lee, Caroline Sunyong;
2:423:4 Optimization of surface coating condition using vapor form of alkanethiol on Cu nano powders for the application of oxidation prevention
DOI:10.1016/j.apsusc.2009.10.062 JN:APPLIED SURFACE SCIENCE PY:2010 TC:11 AU: Seong, Mi-Ryn;Kwon, Jinhyeong;Lee, Gye-Young;Kim, Dong-Kwon;Kim, Young-Seok;Lee, Caroline Sunyong;
2:423:5 Dispersion stability of 1-octanethiol coated Cu nanoparticles in a 1-octanol solvent for the application of nanoink
DOI:10.1016/j.apsusc.2014.04.203 JN:APPLIED SURFACE SCIENCE PY:2014 TC:0 AU: Cho, Danee;Baik, Jong-Hwan;Choi, Da-Hyun;Lee, Caroline Sunyong;
2:423:6 Invited Paper: Sintering Mechanism of Vapor Self-Assembled Multilayer (VSAM) Coated Cu Nano Particles for Application in Cu Nano Ink
DOI:10.1007/s13391-011-0903-3 JN:ELECTRONIC MATERIALS LETTERS PY:2011 TC:4 AU: Haque, Md. Mominul;Park, ShinYoung;Her, Jaehak;Park, Joong-hak;Lee, Caroline Sunyong;
2:423:7 Preparation of Conductive Nanoink Using Pulsed-Wire-Evaporated Copper Nanoparticles for Inkjet Printing
DOI:10.2320/matertrans.M2012137 JN:MATERIALS TRANSACTIONS PY:2012 TC:2 AU: Park, Shinyoung;Her, Jaehak;Cho, Danee;Haque, Md Mominul;Park, Joong Hak;Lee, Caroline Sunyong;
2:424:1 Poly( 2,6-di( thiophene-2-yl)-3,5bis( 4-( thiophene-2-yl) phenyl) dithieno [ 3,2-b; 2', 3'- d] thiophene)/ Carbon Nanotube Composite for Capacitor Applications
DOI:10.1002/app.40061 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Ates, Murat;Eren, Nuri;Osken, Ipek;Baslilar, Suzan;Ozturk, Turan;
2:424:2 A new low-voltage-driven polymeric electrochromic
DOI:10.1016/j.polymer.2009.11.009 JN:POLYMER PY:2010 TC:21 AU: Pamuk, Melek;Tirkes, Seha;Cihaner, Atilla;Algi, Fatih;
2:424:3 Electrochemical synthesis, characterization and electrochromic properties of a copolymer based on 1,4-bis(2-thienyl)naphthalene and pyrene
DOI:10.1016/j.optmat.2012.01.009 JN:OPTICAL MATERIALS PY:2012 TC:5 AU: Wang, Bin;Zhao, Jinsheng;Cui, Chuansheng;Wang, Min;Wang, Zhong;He, Qingpeng;
2:424:4 Temperature sensing behavior of poly(3,4-ethylenedioxythiophene) thin film
DOI:10.1016/j.synthmet.2013.10.009 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Yu, Seong Hun;Choi, Myong Soo;Yoo, Pil J.;Park, Jong Hyeok;Park, Jae Hyung;Cho, Jeong Ho;Chung, Gi Soo;Lee, Jun Young;
2:424:5 Electrochromic behavior of poly(3,5-bis(4-bromophenyl) dithieno[3,2-b;2 ',3 '-d]thiophene)
DOI:10.1016/j.tsf.2011.05.058 JN:THIN SOLID FILMS PY:2011 TC:10 AU: Osken, Ipek;Bildirir, Hakan;Ozturk, Turan;
2:424:6 Electrochemical impedance of poly(9-tosyl-9H-carbazole-co-pyrrole) electrocoated carbon fiber
DOI:10.1016/j.matchemphys.2011.01.050 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:8 AU: Ates, Murat;Uludag, Nesimi;Sarac, A. Sezai;
2:424:7 Flexible organic light-emitting diode with a conductive polymer electrode
DOI:10.1016/j.synthmet.2011.08.041 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Kim, Mansu;Lee, Yoo Sung;Kim, Young Chul;Choi, Myung Soo;Lee, Jun Young;
2:424:8 Electrical annealing for flexible organic light-emitting diodes having poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) anodes
DOI:10.1063/1.3499286 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Park, Byoungchoo;Park, Chan Hyuk;Yim, Younchan;Park, Jongwoon;
2:424:9 Synthesis of 9-(4-nitrophenylsulfonyl)-9H-carbazole: Comparison of an impedance study of poly[9-(4-nitrophenylsulfonyl)-9H-carbazole] on gold and carbon fiber microelectrodes
DOI:10.1002/app.35380 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Ates, Murat;Uludag, Nesimi;
2:424:10 Investigation of electrochromic properties of poly(3,5-bis(4-methoxyphenyl)dithieno[3,2-b;2 ',3 '-d]thiophene)
DOI:10.1016/j.synthmet.2010.11.020 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Sahin, Onur;Osken, Ipek;Ozturk, Turan;
2:425:1 Effects of Piezoresistivity of Pentacene Channel in Organic Thin Film Transistors under Mechanical Bending
DOI:10.1007/s13391-011-0980-3 JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:9 AU: Kim, Do-Il;Hwang, Byeong-Ung;Nguyen Thanh Tien;Kim, Il-Jin;Lee, Nae-Eung;
2:425:2 PEDOT gate electrodes with PVP/Al2O3 dielectrics for stable high-performance organic TFTs
DOI:10.1007/s13391-013-6004-8 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:7 AU: Lee, Young Kyu;Maniruzzaman, Md;Lee, Chiyoung;Lee, Mi Jung;Lee, Eun-Gu;Lee, Jaegab;
2:425:3 Mobility improvement of P3HT thin film by high-voltage electrostatic field-assisted crystallization
DOI:10.1007/s13391-013-0033-1 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Lee, Soon-Won;Kim, Chul-Hyun;Lee, Sang-Geul;Jeong, Jun-Ho;Choi, Jun-Hyuk;Lee, Eung-Sug;
2:425:4 Effects of iron(III) p-toluenesulfonate hexahydrate oxidant on the growth of conductive poly(3,4-ethylenedioxythiophene) (PEDOT) nanofilms by vapor phase polymerization
DOI:10.1016/j.synthmet.2011.04.036 JN:SYNTHETIC METALS PY:2011 TC:9 AU: Ali, Mohammad Amdad;Kim, Hyunho;Lee, Chiyoung;Nam, Hoseok;Lee, Jaegab;
2:425:5 Field-effect hole mobility of poly(3-hexylthiophene-block-3-(2-ethylhexyl)thiophene)s
DOI:10.1016/j.synthmet.2010.11.023 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Zhang, Yue;Tajima, Keisuke;Hashimoto, Kazuhito;
2:425:6 Optical properties and photo-oxidative degradation of regioregular poly(3-butylthiophene) films by spectroscopic ellipsometry
DOI:10.1016/j.tsf.2013.07.014 JN:THIN SOLID FILMS PY:2013 TC:0 AU: Diware, Mangesh S.;Kim, Tae Jung;Byun, Jun Seok;Hwang, Soon Yong;Barange, Nilesh S.;Kim, Young Dong;
2:425:7 Effects of Solvents on Poly(3,4-Ethylenedioxythiophene) (PEDOT) Thin Films Deposited on a (3-Aminopropyl)Trimethoxysilane (APS) Monolayer by Vapor Phase Polymerization
DOI:10.3365/eml.2010.03.017 JN:ELECTRONIC MATERIALS LETTERS PY:2010 TC:7 AU: Ali, Mohammad Amdad;Kim, Hyunho;Jeong, Kyunghoon;Soh, Hoesup;Lee, Jaegab;
2:425:8 Oxygen Sensitivity of Photoluminescence Intensity of Pt Complex Dispersed in Fluorinated Acrylate for Pressure Sensitive Paint Applications
DOI:10.1007/s13391-014-4100-z JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:0 AU: Kwak, Jae Su;Choi, Yong Gyu;
2:425:9 Aluminum oxide barrier coating on polyethersulfone substrate by atomic layer deposition for barrier property enhancement
DOI:10.1016/j.tsf.2011.06.096 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Kim, Hyun Gi;Kim, Sung Soo;
2:425:10 Ellipsometric study on the optical property of UV exposed MEH-PPV polymer film
DOI:10.1016/j.synthmet.2009.12.021 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Jung, Y. W.;Byun, J. S.;Cha, Y. H.;Kim, Y. D.;
2:426:1 Formation Mechanism of Fullerene Cation in Bulk Heterojunction Polymer Solar Cells
DOI:10.1002/adfm.201200086 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:6 AU: Yamamoto, Shunsuke;Ohkita, Hideo;Benten, Hiroaki;Ito, Shinzaburo;
2:426:2 Carrier formation dynamics of a small-molecular organic photovoltaic
DOI:10.1063/1.4800532 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Akaba, Takahiro;Yonezawa, Kouhei;Kamioka, Hayato;Yasuda, Takeshi;Han, Liyuan;Moritomo, Yutaka;
2:426:3 Bipolar Charge Transport in Fullerene Molecules in a Bilayer and Blend of Polyfluorene Copolymer and Fullerene
DOI:10.1002/adma.200902579 JN:ADVANCED MATERIALS PY:2010 TC:8 AU: Gadisa, Abay;Tvingstedt, Kristofer;Vandewal, Koen;Zhang, Fengling;Manca, Jean V.;Inganas, Olle;
2:426:4 Bi-functional electroluminescent and photovoltaic devices based on rubrene-doped poly(3-hexylthiophene):1-(3-methoxycarbonyl)-propyl-1-phenyl-(6,6)C61 blends
DOI:10.1016/j.synthmet.2011.12.006 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Lou, Yanhui;Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:426:5 Studies on stability of bi-functional P3HT:PCBM:rubrene optoelectronic devices
DOI:10.1007/s00339-012-7303-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:2 AU: Gaur, Ankita;Kumar, Pankaj;
2:426:6 Fabrication and characterization of photo-responsive organic p-type/n-type/piezoelectric tricolor superlattices
DOI:10.1063/1.4822312 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Yanase, Takashi;Nagahama, Taro;Shimada, Toshihiro;
2:427:1 Fac-Alq(3) and Mer-Alq(3) Nano/Microcrystals with Different Emission and Charge-Transporting Properties
DOI:10.1002/adma.200903094 JN:ADVANCED MATERIALS PY:2010 TC:29 AU: Bi, Hai;Zhang, Hongyu;Zhang, Yu;Gao, Hongze;Su, Zhongmin;Wang, Yue;
2:427:2 Re-condensation and decomposition of Tris(8-hydroxyquinoline)-aluminum in a vapor transport ampoule
DOI:10.1016/j.jcrysgro.2012.07.004 JN:JOURNAL OF CRYSTAL GROWTH PY:2012 TC:2 AU: Kao, Fan-Hsuan;Lin, Ku-Yen;Jan, Da-Jeng;Tang, Shiow-Jing;Yang, Chun-Chuen;Lin, Chia-Her;Yeh, Jui-Ming;Chiu, Kuan-Cheng;
2:427:3 Structural and optical properties of epsilon-phase tris(8-hydroxyquinoline) aluminum crystals prepared by using physical vapor deposition method
DOI:10.1016/j.jcrysgro.2014.07.031 JN:JOURNAL OF CRYSTAL GROWTH PY:2014 TC:0 AU: Xie, Wanfeng;Pang, Zhiyong;Zhao, Yu;Jiang, Feng;Yuan, Huimin;Song, Hui;Han, Shenghao;
2:427:4 Surface-bound tris(8-hydroxyquinoline) aluminum nanowires with high electron transportation and strong fluorescence emission
DOI:10.1016/j.matlet.2011.10.024 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Liu, Ying-Dan;Wang, Feng-Xia;Xiao, Yan;Pan, Ge-Bo;
2:427:5 Crystalline phase in Alq(3) films grown by the hot-wall method
DOI:10.1016/j.jcrysgro.2010.11.120 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:2 AU: Seto, Satoru;Yamada, Satoru;Kitazaki, Asami;Sebald, Kathrin;Rueckmann, Ilja;Gutowski, Juergen;
2:427:6 Surface defects impeded excitons in Alq(3) based hetero junction OLEDs
DOI:10.1016/j.apsusc.2012.12.086 JN:APPLIED SURFACE SCIENCE PY:2013 TC:2 AU: Jesuraj, P. Justin;Jeganathan, K.;
2:427:7 Facile and green fabrication of organic single-crystal hollow micro/nanostructures
DOI:10.1088/0957-4484/22/28/285606 JN:NANOTECHNOLOGY PY:2011 TC:1 AU: Yang, Jun;Chen, Yingzhi;Zhang, Xiujuan;Ou, Xuemei;Zhang, Xiaohong;
2:427:8 Performance reproducibility of organic light-emitting devices under exposure to atmospheric water vapor during fabrication: Sensitivity and chaotic-like behaviour of the quantum yield
DOI:10.1016/j.synthmet.2011.02.018 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Ferguson, P. P.;Allogho, G. G.;Pitre, S.;Morrisey, R.;Gauvin, S.;
2:427:9 Growth and characterization of tris(8-hydroxyquinoline)-aluminum molecular films
DOI:10.1016/j.tsf.2011.08.005 JN:THIN SOLID FILMS PY:2011 TC:3 AU: Jan, Da-Jeng;Wang, Sheng-Shin;Tang, Shiow-Jing;Lin, Ku-Yen;Yang, Jiun-Jie;Shen, Ji-Lin;Chiu, Kuan-Cheng;
2:428:1 Polyamide-thallium selenide composite materials via temperature and pH controlled adsorption-diffusion method
DOI:10.1016/j.apsusc.2014.08.192 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Ivanauskas, Remigijus;Samardokas, Linas;Mikolajunas, Marius;Virzonis, Darius;Baltrusaitis, Jonas;
2:428:2 Ag2S deposited on oxidized polypropylene as composite material for solar light absorption
DOI:10.1016/j.apsusc.2014.02.014 JN:APPLIED SURFACE SCIENCE PY:2014 TC:5 AU: Krylova, Valentina;Milbrat, Alexander;Embrechts, Anika;Baltrusaitis, Jonas;
2:428:3 Synthesis and properties of polyamide-Ag2S composite based solar energy absorber surfaces
DOI:10.1016/j.apsusc.2013.06.009 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Krylova, Valentina;Baltrusaitis, Jonas;
2:428:4 Synthesis and surface properties of polyamide-CuxSe composite thin films
DOI:10.1016/j.apsusc.2013.06.116 JN:APPLIED SURFACE SCIENCE PY:2013 TC:5 AU: Ivanauskas, Remingijus;Baltrusaitis, Jonas;
2:428:5 Optical properties of bio-inspired silver sulfide structures
DOI:10.1016/j.jallcom.2012.10.053 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2014 TC:1 AU: Martinez-Ruvalcaba, I.;Hernandez-Paz, J. F.;Farias Mancilla, J. R.;Piza Ruiz, P.;Martinez Perez, C. A.;Garcia-Casillas, P. E.;Rodriguez-Gonzalez, C. A.;
2:429:1 ITO-free low-cost organic solar cells with highly conductive poly(3,4 ethylenedioxythiophene): p-toluene sulfonate anodes
DOI:10.1016/j.solmat.2011.09.019 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Rahman, Mohammad Arifur;Rahim, Abdur;Maniruzzaman, Md.;Yang, Kiyeul;Lee, Chiyoung;Nam, Hoseok;Soh, Hoesup;Lee, Jaegab;
2:429:2 Self-assembly supramolecules to enhance electrical conductivity of polyaniline for a flexible organic solar cells anode
DOI:10.1016/j.solmat.2012.01.040 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Lim, Tae Hwan;Oh, Kyung Wha;Kim, Seong Hun;
2:429:3 Highly conductive, transparent flexible films based on open rings of multi-walled carbon nanotubes
DOI:10.1016/j.tsf.2011.05.064 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Ko, Wen-Yin;Su, Jun-Wei;Guo, Chian-Hua;Fu, Shu-Juan;Hsu, Chuen-Yuan;Lin, Kuan-Jiuh;
2:429:4 Polypyrrole/MWCNT-gr-PSSA Composite for Flexible and Highly Conductive Transparent Film
DOI:10.1002/app.34507 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:6 AU: Lim, Tae Hwan;Oh, Kyung Wha;Kim, Seong Hun;
2:429:5 Fabrication of flexible conductive films derived from poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonic acid) (PEDOT:PSS) on the nonwoven fabrics substrate
DOI:10.1016/j.matchemphys.2013.08.037 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:1 AU: Wu, Chieh-Han;Shen, Hsiu-Ping;Don, Trong-Ming;Chiu, Wen-Yen;
2:429:6 Application of tosylate-doped poly(3,4ethylenedioxythiophene) (PEDOT) films into bottom contact pentacene organic thin film transistors (OTFTs)
DOI:10.1016/j.tsf.2010.03.056 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Ali, M. A.;Kim, H. H.;Jeong, K. H.;Soh, H. S.;Nam, H. S.;Lee, J. G.;Lee, E. G.;
2:430:1 Alkyl chain engineering in the hybrid bithiophene-3,4-ethylenedioxythiophene: Synthesis, electronic properties, and electropolymerization
DOI:10.1016/j.synthmet.2014.10.003 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Mo, Daize;Zhen, Shijie;Xu, Jingkun;Zhou, Weiqiang;Lu, Baoyang;Zhang, Ge;Wang, Zhipeng;Zhang, Shimin;Feng, Zilan;
2:430:2 Electrosynthesis of a new polyindole derivative obtained from 5-formylindole and its electrochromic properties
DOI:10.1039/c1jm11723h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Nie, Guangming;Zhou, Liangjie;Yang, Huijuan;
2:430:3 Electrochromic switching and nanoscale electrical properties of a poly(5-cyano indole)-poly(3,4-ethylenedioxypyrrole) device with a free standing ionic liquid electrolyte
DOI:10.1016/j.polymer.2013.08.016 JN:POLYMER PY:2013 TC:5 AU: Reddy, B. Narsimha;Deepa, Melepurath;
2:430:4 Electrosynthesis and characterization of a polyfluorene derivative with green-light-emitting property
DOI:10.1007/s10853-011-5800-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:5 AU: Lu, Baoyang;Wang, Jiong;Yue, Ruirui;Xu, Jingkun;Pei, Meishan;
2:430:5 Synthesis and electrochemical polymerization of 9,9-bis(carbazolylalkyl)fluorene and characterization of its conducting polymer film with high tensile strength
DOI:10.1007/s10853-009-4188-y JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:3 AU: Wang, Xingcong;Yue, Ruirui;Lu, Baoyang;Wei, Zhenhong;Xu, Jingkun;
2:430:6 Synthesis and characterization of new anthracene-based semi-conducting materials
DOI:10.1007/s10853-012-6699-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:1 AU: Hriz, Khaled;Jaballah, Nejmeddine;Fave, Jean-Louis;Majdoub, Mustapha;
2:430:7 Synthesis and characterization of beta-substituted 3,4-ethylenedioxy terthiophene monomers for conducting polymer applications
DOI:10.1016/j.synthmet.2013.03.012 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Pardieu, Elodie;Saad, Ali;Dallery, Laurence;Garnier, Francis;Vedrine, Christophe;Hauquier, Fanny;Dalko, Peter;Pernelle, Christine;
2:430:8 Preparation and characterization of poly(indole-3-carboxaldehyde) film at the glassy carbon surface
DOI:10.1016/j.tsf.2010.07.125 JN:THIN SOLID FILMS PY:2010 TC:8 AU: Deletioglu, Didem;Hasdemir, Erdogan;Solak, Ali Osman;Ustundag, Zafer;Guzel, Remziye;
2:431:1 Self-assembly of novel lipid-mimicking brush polymers in nanoscale thin films
DOI:10.1039/c3sm52263f JN:SOFT MATTER PY:2014 TC:3 AU: Jung, Jungwoon;Kim, Heesoo;Ree, Moonhor;
2:431:2 Well-Defined Functional Linear Aliphatic Diblock Copolyethers: A Versatile Linear Aliphatic Polyether Platform for Selective Functionalizations and Various Nanostructures
DOI:10.1002/adfm.201201101 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:24 AU: Kwon, Wonsang;Rho, Yecheol;Kamoshida, Kensuke;Kwon, Kyung Ho;Jeong, Youn Cheol;Kim, Jonghyun;Misaka, Hideki;Shin, Tae Joo;Kim, Jehan;Kim, Kwang-Woo;Jin, Kyeong Sik;Chang, Taihyun;Kim, Heesoo;Satoh, Toshifumi;Kakuchi, Toyoji;Ree, Moonhor;
2:431:3 The biocompatibility of self-assembled brush polymers bearing glycine derivatives
DOI:10.1016/j.biomaterials.2010.01.130 JN:BIOMATERIALS PY:2010 TC:11 AU: Kim, Gahee;Rho, Yecheol;Park, Samdae;Kim, Hyunchul;Son, Sejin;Kim, Heesoo;Kim, Ik Jung;Kim, Jung Ran;Kim, Won Jong;Ree, Moonhor;
2:431:4 Characterization and Biocompatibility of Chestnut Shell Fiber-Based Composites with Polyester
DOI:10.1002/app.40730 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Wu, Chin-San;Hsu, Yi-Chiang;Liao, Hsin-Tzu;Yen, Fu-San;Wang, Chen-Yu;Hsu, Chia-Tsc;
2:431:5 Bacterial adherence on self-assembled films of brush polymers bearing zwitterionic sulfobetaine moieties
DOI:10.1039/c2jm15912k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Kim, Mihee;Kim, Jin Chul;Rho, Yecheol;Jung, Jungwoon;Kwon, Wonsang;Kim, Heesoo;Ree, Moonhor;
2:431:6 Molecular Layer-by-Layer Self-Assembly and Mercury Sensing Characteristics of Novel Brush Polymers Bearing Thymine Moieties
DOI:10.1021/am200454x JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:8 AU: Jung, Jungwoon;Kim, Jin Chul;Rho, Yecheol;Kim, Mihee;Kwon, Wonsang;Kim, Heesoo;Ree, Moonhor;
2:431:7 Reversible conformation-driven order-order transition of peptide-mimic poly(n-alkyl isocyanate) in thin films via selective solvent-annealing
DOI:10.1038/am.2012.54 JN:NPG ASIA MATERIALS PY:2012 TC:19 AU: Rho, Yecheol;Min, Joonkeun;Yoon, Jinhwan;Ahn, Byungcheol;Jung, Sungmin;Kim, Kyungtae;Shah, Priyank N.;Lee, Jae-Suk;Ree, Moonhor;
2:431:8 Analysis and modeling of the mechanical properties of novel thermotropic polymer biomaterials
DOI:10.1016/j.polymer.2010.02.047 JN:POLYMER PY:2010 TC:5 AU: Lovell, C. S.;de Oca, H. Montes;Farrar, D.;Ries, M. E.;Ward, I. M.;
2:431:9 Preparation of a collagen/polymer hybrid gel for tissue membranes. Part II: In vitro and in vivo biological properties of the collagen gels
DOI:10.1016/j.actbio.2009.06.022 JN:ACTA BIOMATERIALIA PY:2010 TC:6 AU: Nam, Kwangwoo;Kimura, Tsuyoshi;Funamoto, Seiichi;Kishida, Akio;
2:431:10 Liquid-crystalline aromatic-aliphatic copolyester bioresorbable polymers
DOI:10.1016/j.biomaterials.2010.07.006 JN:BIOMATERIALS PY:2010 TC:6 AU: de Oca, Horacio Montes;Wilson, Joanne E.;Penrose, Andrew;Langton, David M.;Dagger, Anthony C.;Anderson, Melissa;Farrar, David F.;Lovell, Christopher S.;Ries, Michael E.;Ward, Ian M.;Wilson, Andrew D.;Cowling, Stephen J.;Saez, Isabel M.;Goodby, John W.;
2:431:11 The biocompatability of mesoporous inorganic-organic hybrid resin films with ionic and hydrophilic characteristics
DOI:10.1016/j.biomaterials.2009.12.013 JN:BIOMATERIALS PY:2010 TC:17 AU: Kim, Gahee;Hong, Lan Young;Jung, Jungwoon;Kim, Dong-Pyo;Kim, Heesoo;Kim, Ik Jung;Kim, Jung Ran;Ree, Moonhor;
2:432:1 Interfaces and traps in pentacene field-effect transistor
DOI:10.1063/1.3517085 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:15 AU: Sangeeth, C. S. Suchand;Stadler, P.;Schaur, S.;Sariciftci, N. S.;Menon, Reghu;
2:432:2 Impact of pentacene film thickness on the photoresponse spectra: Determination of the photocarrier generation mechanism
DOI:10.1063/1.4730915 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:4 AU: Gorgolis, S.;Giannopoulou, A.;Anastassopoulos, D.;Kounavis, P.;
2:432:3 Charge carriers' trapping states in pentacene films studied by modulated photocurrent
DOI:10.1063/1.4795807 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Gorgolis, S.;Giannopoulou, A.;Kounavis, P.;
2:432:4 Spectroscopic investigation of the semiconductor molecular packing in fully operational organic thin-film transistors
DOI:10.1063/1.3406123 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Fraboni, B.;Scida, A.;Cavallini, A.;Cosseddu, P.;Bonfiglio, A.;Milita, S.;Nastasi, M.;
2:432:5 The role of the recombination centers on the modulated photocurrent: Determination of the gap state parameters of semiconductors
DOI:10.1080/14786435.2010.489031 JN:PHILOSOPHICAL MAGAZINE PY:2010 TC:4 AU: Pomoni, M.;Giannopoulou, A.;Kounavis, P.;
2:432:6 Exciton separation at the interface between pentacene and dipolar chromophore
DOI:10.1063/1.4829454 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Park, Byoungnam;Park, Jonghoo;
2:432:7 Determination of trapping-detrapping events, recombination processes and gap-state parameters by modulated photocurrent measurements on amorphous silicon
DOI:10.1080/14786435.2014.914262 JN:PHILOSOPHICAL MAGAZINE PY:2014 TC:1 AU: Pomoni, M.;Kounavis, P.;
2:432:8 Photocurrent spectroscopy of ion-implanted organic thin film transistors
DOI:10.1016/j.synthmet.2011.09.017 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Fraboni, B.;Scida, A.;Cavallini, A.;Milita, S.;Cosseddu, P.;Bonfiglio, A.;Wang, Y.;Nastasi, M.;
2:433:1:1 New copolymer of poly(N-vinylcarbazole) and poly(p-phenylenevinylene) for optoelectronic devices
DOI:10.1002/app.39496 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:5 AU: Mbarek, Mohamed;Massuyeau, Florian;Duvail, Jean-Luc;Wery, Jany;Faulques, Eric;Alimi, Kamel;
2:433:1:2 Photoluminescence properties of new poly(N-vinylcarbazole)-3-methylthiophene (PVK-3MeT) graft copolymer
DOI:10.1002/app.35074 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Chemek, M.;Massuyeau, F.;Wery, J.;Hlel, A.;Ayachi, S.;Faulques, E.;Lefrant, S.;Alimi, K.;
2:433:1:3 Synthesis and characterization of novel graft copolymers of Poly(N-vinylcarbazole) and Poly(3-methylthiophene) for optoelectronic applications
DOI:10.1016/j.synthmet.2010.09.001 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Chemek, M.;Wery, J.;Bouachrine, M.;Paris, M.;Lefrant, S.;Alimi, K.;
2:433:1:4 A Theoretical Investigation on the Properties of the New Poly(N-vinylcarbazole)-3-Methylthiophene (PVK-3MeT) Synthesized Graft Copolymer
DOI:10.1002/app.34328 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:7 AU: Chemek, Mourad;Ayachi, Sahbi;Hlel, Abdelkader;Wery, Jany;Lefrant, Serge;Alimi, Kamel;
2:433:2:1 A copolymer of PVK and P3HT and its nanocomposite with single-walled carbon nanotubes
DOI:10.1016/j.synthmet.2014.09.004 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Chemek, M.;Khlaifia, D.;Massuyeau, F.;Duvail, J. L.;Faulques, E.;Wery, J.;Alimi, K.;
2:433:2:2 Flexible OLED encapsulated with gas barrier film and adhesive gasket
DOI:10.1016/j.synthmet.2014.03.027 JN:SYNTHETIC METALS PY:2014 TC:5 AU: Cho, A. Ra;Kim, Eun Hye;Park, Soo Young;Park, Lee Soon;
2:433:3:1 ITO/Ag/ITO Multilayer Polymer Films by Roll-to-Roll Process and Performance of Flexible OLED Devices
DOI:10.1080/15421406.2011.600149 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Oh, Chang Seok;Lee, Hyung Jin;Lee, Eun Ji;Park, Lee Soon;
2:433:3:2 Effect of Cathode and Anode Fabrication on Flexible Transparent OLED Based on PEN Film
DOI:10.1080/15421406.2012.703435 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:2 AU: Lee, Hyung Jin;Lee, Eun Ji;Lim, Hyun Bin;Lee, Jong Min;Jang, Jin;Park, Lee Soon;
2:433:3:3 Flexible OLED Fabricated on Glass Fabric Reinforced Film and Performance
DOI:10.1080/15421406.2014.944365 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Cho, A. Ra;Kim, Sung Hoon;Lee, Eun-Woo;Gwak, Giseop;Jang, Jin;Park, Lee Soon;
2:434:1 Recent advances in electrochromic polymers
DOI:10.1016/j.polymer.2014.08.046 JN:POLYMER PY:2014 TC:3 AU: Abidin, Taufik;Zhang, Qiang;Wang, Kun-Li;Liaw, Der-Jang;
2:434:2 Neutrally colourless, transparent and thermally stable polynorbornenes via ring-opening metathesis polymerisation for near-infrared electroactive applications
DOI:10.1039/c1jm10296f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:4 AU: Lian, Wei-Ren;Wang, Kun-Li;Jiang, Jyh-Chiang;Liaw, Der-Jang;Lee, Kueir-Rarn;Lai, Juin-Yih;
2:434:3 Novel rapid switching and bleaching electrochromic polyimides containing triarylamine with 2-phenyl-2-isopropyl groups
DOI:10.1016/j.polymer.2010.07.023 JN:POLYMER PY:2010 TC:18 AU: Chang, Cheng-Hung;Wang, Kun-Li;Jiang, Jyh-Chiang;Liaw, Der-Jang;Lee, Kueir-Rarn;Lai, Juin-Yih;Lai, Kuan-Hua;
2:434:4 Variable-color poly(3,4-propylenedioxythiophene) electrochromics from precursor polymers
DOI:10.1016/j.polymer.2009.12.015 JN:POLYMER PY:2010 TC:13 AU: Invernale, Michael A.;Bokria, Jayesh G.;Ombaba, Matthew;Lee, Ki-Ryong;Mamangun, Donna M. D.;Sotzing, Gregory A.;
2:434:5 Synthesis of novel thermally stable electrochromic polynorbornenes containing symmetrical diarylamine and unsymmetrical triarylamine chromophores via ring-opening metathesis polymerisation
DOI:10.1016/j.polymer.2012.02.045 JN:POLYMER PY:2012 TC:3 AU: Huang, Ying-Chi;Wang, Kun-Li;Lian, Wei-Ren;Liao, Yi-An;Liaw, Der-Jang;Lee, Kueir-Rarn;Lai, Juin-Yih;
2:434:6 Synthesis, characterization and gas transport properties of novel poly(amine-imide)s containing tetraphenylmethane pendant groups
DOI:10.1039/c4ta00429a JN:JOURNAL OF MATERIALS CHEMISTRY A PY:2014 TC:0 AU: Mao, Hongchao;Zhang, Suobo;
2:434:7 Novel soluble polyimides derived from 2,2 '-bis[4-(5-amino-2-pyridinoxy)phenyl]hexafluoropropane: Preparation, characterization, and optical, dielectric properties
DOI:10.1016/j.polymer.2014.06.078 JN:POLYMER PY:2014 TC:7 AU: Guan, Yue;Wang, Daming;Song, Guangliang;Dang, Guodong;Chen, Chunhai;Zhou, Hongwei;Zhao, Xiaogang;
2:435:1 Inkjet printing of transparent, flexible, organic transistors
DOI:10.1016/j.tsf.2011.04.188 JN:THIN SOLID FILMS PY:2011 TC:27 AU: Basirico, Laura;Cosseddu, Piero;Fraboni, Beatrice;Bonfiglio, Annalisa;
2:435:2 Nanoveneers: An Electrochemical Approach to Synthesizing Conductive Layered Nanostructures
DOI:10.1021/nn200566q JN:ACS NANO PY:2011 TC:4 AU: Xian, Xiaojun;Jiao, Liying;Xue, Teng;Wu, Zhongyun;Liu, Zhongfan;
2:435:3 A deeper insight into the operation regime of all-polymeric electrochemical transistors
DOI:10.1063/1.4804423 JN:APPLIED PHYSICS LETTERS PY:2013 TC:3 AU: Demelas, M.;Scavetta, E.;Basirico, L.;Rogani, R.;Bonfiglio, A.;
2:435:4 Adjustable threshold-voltage in all-inkjet-printed organic thin film transistor using double-layer dielectric structures
DOI:10.1016/j.tsf.2013.09.049 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Wu, Wen-Jong;Lee, Chang-Hung;Hsu, Chun-Hao;Yang, Shih-Hsien;Lin, Chih-Ting;
2:435:5 Dopamine amperometric detection at a ferrocene clicked PEDOT: PSS coated electrode
DOI:10.1039/c4tb00169a JN:JOURNAL OF MATERIALS CHEMISTRY B PY:2014 TC:8 AU: Scavetta, E.;Mazzoni, R.;Mariani, F.;Margutta, R. G.;Bonfiglio, A.;Demelas, M.;Fiorilli, S.;Marzocchi, M.;Fraboni, B.;
2:435:6 Enhancement of carrier mobility in all-inkjet-printed organic thin-film transistors using a blend of poly(3-hexylthiophene) and carbon nanoparticles
DOI:10.1016/j.tsf.2011.05.071 JN:THIN SOLID FILMS PY:2011 TC:8 AU: Lin, Chih-Ting;Hsu, Chun-Hao;Chen, Iu-Ren;Lee, Chang-Hung;Wu, Wen-Jung;
2:435:7 Hybrid carbon nanotube/polymer heterointerface organic field effect transistor
DOI:10.1016/j.tsf.2013.12.053 JN:THIN SOLID FILMS PY:2014 TC:1 AU: Chua, C. L.;Yeoh, K. H.;Woon, K. L.;
2:436:1 Anisotropic perylenediimide/polycarbonate composites produced by a single batch solution based method
DOI:10.1016/j.tsf.2014.06.013 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Dobruchowska, Ewa;Marszalek, Tomasz;Ulanski, Jacek;
2:436:2 High-Mobility and Low Turn-On Voltage n-Channel OTFTs Based on a Solution-Processable Derivative of Naphthalene Bisimide
DOI:10.1002/adfm.201200258 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:15 AU: Tszydel, Izabela;Kucinska, Magdalena;Marszalek, Tomasz;Rybakiewicz, Renata;Nosal, Andrzej;Jung, Jaroslaw;Gazicki-Lipman, Maciej;Pitsalidis, Charalabos;Gravalidis, Christoforos;Logothetidis, Stergios;Zagorska, Malgorzata;Ulanski, Jacek;
2:436:3 One-step technique for production of bi-functional low molecular semiconductor-polymer composites for flexible OFET applications
DOI:10.1039/c3tc30163j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Marszalek, Tomasz;Wiatrowski, Michal;Dobruchowska, Ewa;Jung, Jaroslaw;Ulanski, Jacek;
2:436:4 Anisotropy in structural and physical properties in tetrathiafulvalene derivatives-based zone-cast layers as seen by Raman spectroscopy, UV-visible spectroscopy, and field effect measurements
DOI:10.1063/1.3311554 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Kotarba, Sylwia;Jung, Jaroslaw;Kowalska, Aneta;Marszalek, Tomasz;Kozanecki, Marcin;Miskiewicz, Pawel;Mas-Torrent, Marta;Rovira, Concepcio;Veciana, Jaume;Puigmarti-Luis, Josep;Ulanski, Jacek;
2:436:5 Transparent and air stable organic field effect transistors with ordered layers of dibenzo[d,d]thieno[3,2-b;4,5-b ']dithiophene obtained from solution
DOI:10.1016/j.optmat.2012.03.008 JN:OPTICAL MATERIALS PY:2012 TC:3 AU: Marszalek, T.;Kucinska, M.;Tszydel, I.;Gravalidis, C.;Kalfagiannis, N.;Logothetidis, S.;Yassar, A.;Miozzo, L.;Nosal, A.;Gazicki-Lipman, M.;Jung, J.;Ulanski, J.;
2:436:6 Self-assembly of perylenediimide based semiconductor on polymer substrate
DOI:10.1016/j.tsf.2009.08.037 JN:THIN SOLID FILMS PY:2010 TC:10 AU: Wiatrowski, Michal;Dobruchowska, Ewa;Maniukiewicz, Waldemar;Pietsch, Ulrich;Kowalski, Jacek;Szamel, Zbigniew;Ulanski, Jacek;
2:437:1 Molecular doping effect in bottom-gate, bottom-contact pentacene thin-film transistors
DOI:10.1063/1.3627240 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Wakatsuki, Yusuke;Noda, Kei;Wada, Yasuo;Toyabe, Toru;Matsushige, Kazumi;
2:437:2 Theoretical investigation on charge transport parameters of two novel heterotetracenes as ambipolar organic semiconductors
DOI:10.1016/j.synthmet.2013.12.009 JN:SYNTHETIC METALS PY:2014 TC:7 AU: Zhao, Caibin;Guo, Yalu;Guan, Lin;Ge, Hongguang;Yin, Shiwei;Wang, Wenliang;
2:437:3 Investigation of electron trapping behavior in n-channel organic thin-film transistors with ultrathin polymer passivation on SiO2 gate insulator
DOI:10.1016/j.synthmet.2010.05.027 JN:SYNTHETIC METALS PY:2010 TC:5 AU: Tanida, Shinji;Noda, Kei;Kawabata, Hiroshi;Matsushige, Kazumi;
2:437:4 Organic field-effect transistors with molecularly doped polymer gate buffer layer
DOI:10.1016/j.synthmet.2012.08.020 JN:SYNTHETIC METALS PY:2012 TC:0 AU: Yamagishi, Yuji;Noda, Kei;Yamada, Hirofumi;Matsushige, Kazumi;
2:437:5 Origin of characteristics differences between top and bottom contact organic thin film transistors
DOI:10.1063/1.3309935 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Ishikawa, Yoshinori;Wada, Yasuo;Toyabe, Toru;
2:437:6 Modeling of top and bottom contact structure organic field effect transistors
DOI:10.1116/1.4773054 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:3 AU: Kumar, Brijesh;Kaushik, Brajesh Kumar;Negi, Yuvraj Singh;
2:437:7 Theoretical study the trap and carrier-density dependent electron mobility in pentacene ab-plane by the steady master equation
DOI:10.1016/j.synthmet.2010.03.017 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Yin, Shiwei;Yang, Yongmei;Lv, Yanfeng;
2:437:8 SrTiO3 insulator for low-voltage organic field-effect transistors
DOI:10.1016/j.synthmet.2011.06.002 JN:SYNTHETIC METALS PY:2011 TC:1 AU: Yan, Hu;Okuzaki, Hidenori;
2:437:9 Improvement of contact resistance between carbon nanotubes and metal electrodes for high performance electronics
DOI:10.1116/1.3520436 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:1 AU: Song, Yoojin;Kang, Seong Jun;
2:438:1 Correlating optimal electrode buffer layer thickness with the surface roughness of the active layer in organic phototransistors
DOI:10.1016/j.synthmet.2014.03.032 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Yao, Bo;Li, Yanli;Wen, Zhanwei;Zhou, Maoqing;Lv, Wenli;Luo, Xiao;Peng, Yingquan;Li, Wenhao;Gong, Gu;Liu, Xingyuan;
2:438:2 Photoresponsivity enhancement of pentacene organic phototransistors by introducing C60 buffer layer under source/drain electrodes
DOI:10.1063/1.4756937 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Yao, Bo;Lv, Wenli;Chen, Deqiang;Fan, Guoying;Zhou, Maoqing;Peng, Yingquan;
2:438:3 Influence of donor-acceptor layer sequence on photoresponsive organic field-effect transistors based on palladium phthalocyanine and C60
DOI:10.1063/1.4802487 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Chen, Deqiang;Yao, Bo;Fan, Guoying;Lv, Wenli;Gao, Pengjie;Zhou, Maoqing;Peng, Yingquan;
2:438:4 The performance improvement in pentacene organic thin film transistors by inserting C-60/MoO3 ultrathin layers
DOI:10.1016/j.synthmet.2010.08.007 JN:SYNTHETIC METALS PY:2010 TC:9 AU: Sun, Qin-Jun;Xu, Zheng;Zhao, Su-Ling;Zhang, Fu-Jun;Gao, Li-Yan;Wang, Yong-Sheng;
2:438:5 The effect of copper hexadecafluorophthalocyanine (F16CuPc) inter-layer on pentacene thin-film transistors
DOI:10.1016/j.synthmet.2009.10.013 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Park, J. H.;Cho, S. W.;Park, S. H.;Jeong, J. G.;Kim, H. J.;Yi, Y.;Cho, M-H;
2:438:6 The effect of the active layer thickness on the performance of pentacene-based phototransistors
DOI:10.1016/j.synthmet.2011.08.011 JN:SYNTHETIC METALS PY:2012 TC:7 AU: El Amrani, A.;Lucas, B.;Ratier, B.;
2:439:1 Nanoparticle morphology and film-forming behavior of polyacrylate/ZnO nanocomposite
DOI:10.1016/j.compscitech.2014.02.019 JN:COMPOSITES SCIENCE AND TECHNOLOGY PY:2014 TC:5 AU: Liu, Junli;Ma, Jianzhong;Bao, Yan;Wang, John;Zhu, Zhenfeng;Tang, Huiru;Zhang, Limin;
2:439:2 Hyperbranched fluorinated polyimides with tunable refractive indices for optical waveguide applications
DOI:10.1016/j.polymer.2009.10.005 JN:POLYMER PY:2010 TC:19 AU: Gao, Hong;Yan, Changqing;Guan, Shaowei;Jiang, Zhenhua;
2:439:3 In situ preparation of nano ZnO/hyperbranched polyimide hybrid film and their optical properties
DOI:10.1016/j.polymer.2010.05.019 JN:POLYMER PY:2010 TC:27 AU: Gao, Hong;Yorifuji, Daisuke;Wakita, Junji;Jiang, Zhen-Hua;Ando, Shinji;
2:439:4 Synthesis and characterization of novel, soluble sulfur-containing copolyimides with high refractive indices
DOI:10.1007/s10853-011-5399-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:6 AU: Duesselberg, David;Verreault, Dominique;Koelsch, Patrick;Staudt, Claudia;
2:439:5 Synthesis and characterization of organo-soluble thioether-bridged polyphenylquinoxalines with ultra-high refractive indices and low birefringences
DOI:10.1016/j.polymer.2010.06.035 JN:POLYMER PY:2010 TC:7 AU: Li, Cheng;Li, Zhuo;Liu, Jin-gang;Zhao, Xiao-juan;Yang, Hai-xia;Yang, Shi-yong;
2:439:6 Synthesis and characterization of thianthrene-based poly(phenylene sulfide)s with high refractive index over 1.8
DOI:10.1039/c1jm12402a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Suzuki, Yasuo;Murakami, Kimiya;Ando, Shinji;Higashihara, Tomoya;Ueda, Mitsuru;
2:439:7 Graft polymerization of styrene monomer initiated by azobis(4-cyanovaleric acid) anchored on the surface of ZnO nanoparticles and its PVC composite film
DOI:10.1016/j.powtec.2011.11.018 JN:POWDER TECHNOLOGY PY:2012 TC:9 AU: Tang, Erjun;Fu, Cuiyan;Wang, Shan;Dong, Shaoying;Zhao, Fengqing;Zhao, Dishun;
2:440:1 High Delta epsilon nematic liquid crystals: fluxional zwitterions of the [closo-1-CB9H10](-) cluster
DOI:10.1039/c0jm02075c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:17 AU: Ringstrand, Bryan;Kaszynski, Piotr;
2:440:2 How much can an electric dipole stabilize a nematic phase? Polar and non-polar isosteric derivatives of [closo-1-CB9H10](-) and [closo-1,10-C2B8H10]
DOI:10.1039/c0jm02876b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Ringstrand, Bryan;Kaszynski, Piotr;
2:440:3 Zwitterionic pyridinium derivatives of [closo-1-CB9H10](-) and [closo-1-CB11H12](-) as high Delta epsilon additives to a nematic host
DOI:10.1039/c3tc32351j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:4 AU: Pecyna, Jacek;Pociecha, Damian;Kaszynski, Piotr;
2:440:4 Anion-driven mesogenicity: a comparative study of ionic liquid crystals based on the [closo-1-CB9H10](-) and [closo-1-CB11H12](-) clusters
DOI:10.1039/c2jm15448j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Ringstrand, Bryan;Jankowiak, Aleksandra;Johnson, Lillian E.;Kaszynski, Piotr;Pociecha, Damian;Gorecka, Ewa;
2:440:5 Investigation of high Delta epsilon derivatives of the [closo-1-CB9H10](-) anion for liquid crystal display applications
DOI:10.1039/c4tc00230j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:5 AU: Pecyna, Jacek;Kaszynski, Piotr;Ringstrand, Bryan;Bremer, Matthias;
2:440:6 [closo-B10H10](2-) as a structural element for quadrupolar liquid crystals: a new class of liquid crystalline NLO chromophores
DOI:10.1039/c2tc00547f JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:5 AU: Jankowiak, Aleksandra;Balinski, Andrzej;Harvey, James E.;Mason, Kristein;Januszko, Adam;Kaszynski, Piotr;Young, Victor G., Jr.;Persoons, Andre;
2:441:1 Highly photo- and electroluminescent 1,3-diketonate Eu(III) complexes with spiro-fluorene-xantphos dioxide ligands: synthesis and properties
DOI:10.1039/c3tc30783b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:9 AU: Pietraszkiewicz, Marek;Maciejczyk, Michal;Samuel, Ifor D. W.;Zhang, Shuyu;
2:441:2 A high triplet energy phosphine oxide derivative as a host and exciton blocking material for blue phosphorescent organic light-emitting diodes
DOI:10.1016/j.tsf.2009.10.012 JN:THIN SOLID FILMS PY:2010 TC:13 AU: Jeon, Soon Ok;Yook, Kyoung Soo;Joo, Chul Woong;Son, Hyo Suk;Lee, Jun Yeob;
2:441:3 A highly pure red luminescent europium(III) complex with a Schiff base zinc(II) complex as a neutral ligand
DOI:10.1039/c2tc00279e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Wang, Shimin;Zhang, Bin;Hou, Yanhui;Du, Chenxia;Wu, Yangjie;
2:441:4 Pure white phosphorescent organic light-emitting diodes using a phosphine oxide derivative as a high triplet energy host material
DOI:10.1016/j.tsf.2010.05.069 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Yook, Kyoung Soo;Jeon, Soon Ok;Lee, Jun Yeob;
2:441:5 Efficiency optimization of green phosphorescent organic light-emitting device
DOI:10.1016/j.tsf.2010.12.026 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Park, Jung Soo;Jeon, Woo Sik;Yu, Jae Hyung;Pode, Ramchandra;Kwon, Jang Hyuk;
2:441:6 4,5-Diaza-9,9 '-spirobifluorene functionalized europium complex with efficient photo- and electro-luminescent properties
DOI:10.1039/c1jm10480b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Wang, Shimin;Zhang, Jiyuan;Hou, Yanhui;Du, Chenxia;Wu, Yangjie;
2:441:7 Blue PhOLEDs Using the Mixed Host of UGH2 and Carbazole Derivative Doped with FCNIr(pic)
DOI:10.1080/15421406.2012.689720 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Kim, Hyun;Jang, Ji Geun;
2:441:8 Red Phosphorescent Organic Light-Emitting Device Using the Mixed Host of mCP and Bebq(2) in the Emissive Layer
DOI:10.1080/15421406.2013.849450 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Ji, Hyun Jin;Jang, Ji Geun;
2:441:9 Synthesis, photophysical and electroluminescent properties of a novel bright light-emitting Eu3+ complex based on a fluorene-containing bidentate aryl phosphine oxide
DOI:10.1016/j.synthmet.2010.08.009 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Xu, Hui;Yin, Kun;Huang, Wei;
2:442:1 On accurate capacitance characterization of organic photovoltaic cells
DOI:10.1063/1.4720403 JN:APPLIED PHYSICS LETTERS PY:2012 TC:8 AU: Carr, J. A.;Chaudhary, S.;
2:442:2 Molecular dynamics simulations of organic photovoltaic materials: Investigating the formation of pi-stacked thiophene clusters in oligothiophene/fullerene blends
DOI:10.1016/j.synthmet.2012.09.020 JN:SYNTHETIC METALS PY:2012 TC:5 AU: Reddy, S. Y.;Kuppa, Vikram K.;
2:442:3 Real-time in-situ observation of morphological changes in organic bulk-heterojunction solar cells by means of capacitance measurements
DOI:10.1063/1.3549727 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:6 AU: Lungenschmied, Christoph;Bauer, Siegfried;Schwoediauer, Reinhard;Rodman, Sheila;Fournier, Darcy;Dennler, Gilles;Brabec, Christoph J.;
2:442:4 Response to "Comment on 'On accurate capacitance characterization of organic photovoltaic cells'" [Appl. Phys. Lett. 102, 076101 (2013)]
DOI:10.1063/1.4793184 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Carr, John A.;Chaudhary, Sumit;
2:442:5 Comment on "On accurate capacitance characterization of organic photovoltaic cells" [Appl. Phys. Lett. 100, 213902 (2012)]
DOI:10.1063/1.4793133 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Jarosz, G.;
2:442:6 Effect of incident light power on Schottky barriers and I-V characteristics of organic bulk heterojunction photodiodes
DOI:10.1063/1.3374402 JN:APPLIED PHYSICS LETTERS PY:2010 TC:1 AU: Guvenc, Ali Bilge;Yengel, Emre;Wang, Guoping;Ozkan, Cengiz S.;Ozkan, Mihrimah;
2:443:1 The OFF to ON switching time and ON state consolidation in write-once-read-many-times memory devices based on doped and undoped carbon-sphere/polymer composites
DOI:10.1016/j.tsf.2012.02.075 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Machado, Wagner S.;Mamo, Messai A.;Coville, Neil J.;Huemmelgen, Ivo A.;
2:443:2 Modulating resistive switching by diluted additive of poly(vinylpyrrolidone) in poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)
DOI:10.1063/1.3666057 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:9 AU: Yang, J.;Zeng, F.;Wang, Z. S.;Chen, C.;Wang, G. Y.;Lin, Y. S.;Pan, F.;
2:443:3 Nitrogen-doped, boron-doped and undoped multiwalled carbon nanotube/polymer composites in WORM memory devices
DOI:10.1088/0957-4484/24/12/125203 JN:NANOTECHNOLOGY PY:2013 TC:6 AU: Mamo, Messai A.;Sustaita, Alan O.;Tetana, Zikhona N.;Coville, Neil J.;Huemmelgen, Ivo A.;
2:443:4 Carbon nanostructures in organic WORM memory devices
DOI:10.1039/c4tc00816b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Huemmelgen, Ivo A.;Coville, Neil J.;Cruz-Cruz, Isidro;Rodrigues, Rafael;
2:443:5 Nonvolatile write-once-read-many-times memory device with functionalized-nanoshells/PEDOT:PSS nanocomposites
DOI:10.1016/j.mseb.2011.01.006 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2011 TC:11 AU: Avila-Nino, J. A.;Segura-Cardenas, E.;Sustaita, A. O.;Cruz-Cruz, I.;Lopez-Sandoval, R.;Reyes-Reyes, M.;
2:443:6 First contact-charging of gold nanoparticles by electrostatic force microscopy
DOI:10.1063/1.3300731 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Prime, D.;Paul, S.;
2:443:7 Electronic polymer memory devices-Easy to fabricate, difficult to understand
DOI:10.1016/j.tsf.2010.07.004 JN:THIN SOLID FILMS PY:2010 TC:2 AU: Paul, Shashi;Salaoru, Iulia;
2:443:8 An organic thin film transistor based non-volatile memory with zinc oxide nanoparticles
DOI:10.1016/j.tsf.2011.01.161 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Lee, W. K.;Aw, K. C.;Wong, H. Y.;Chan, K. Y.;Leung, M.;Salim, N. Tjitra;
2:444:1:1 Reversal of rectification in fullerene-based devices
DOI:10.1016/j.synthmet.2014.05.006 JN:SYNTHETIC METALS PY:2014 TC:2 AU: Pakhomov, Georgy L.;Drozdov, Mikhail N.;Travkin, Vlad V.;Lopatin, Mikhail A.;Shashkin, Vladimir I.;
2:444:1:2 The Effect of a Substrate on the Current-vs-Voltage Characteristics of Thin-Film Sandwich Structures Based on Buckminsterfullerene
DOI:10.1080/15421406.2013.872436 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:3 AU: Travkin, Vlad V.;Pakhomov, Georgy L.;Terukova, Ekaterina E.;
2:444:1:3 Current-voltage characteristics of organic photovoltaic cells following deposition of cathode electrode
DOI:10.1063/1.3516469 JN:APPLIED PHYSICS LETTERS PY:2010 TC:2 AU: Saeki, Hiroyuki;Hirohara, Kazuto;Koshiba, Yasuko;Horie, Satoshi;Misaki, Masahiro;Takeshita, Kimiya;Ishida, Kenji;Ueda, Yasukiyo;
2:444:2:1 ToF-SIMS study of gold/phthalocyanine interface
DOI:10.1016/j.apsusc.2009.10.042 JN:APPLIED SURFACE SCIENCE PY:2010 TC:5 AU: Pakhomov, Georgij L.;Drozdov, Mikhail N.;Travkin, Vlad V.;
2:444:2:2 Phthalocyanine-based photoelectrical cells: effect of environment on power conversion efficiency
DOI:10.1007/s10853-009-4169-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:9 AU: Pakhomov, Georgij L.;Pakhomov, Lev G.;Travkin, Vlad V.;Abanin, Mikhail V.;Stakhira, Pavlo Y.;Cherpak, Vladyslav V.;
2:444:2:3 Optical properties of metal phthalocyanines
DOI:10.1007/s10853-010-4476-6 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:2 AU: Singh, Priyanka;Ravindra, N. M.;
2:444:2:4 New Optical Properties of Synthetic Opals Infiltrated by DNA
DOI:10.1080/15421406.2011.537888 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Boyko, V.;Dovbeshko, G.;Fesenko, O.;Gorelik, V.;Moiseyenko, V.;Romanyuk, V.;Shvets, T.;Vodolazkyy, P.;
2:444:2:5 Electrical Properties of Phthalocyanine-Based Sandwich Cells with Embedded Ultrathin Metallic Layer
DOI:10.1080/15421406.2011.537894 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:0 AU: Pakhomov, Georgy L.;Travkin, Vlad V.;Stakhira, Pavlo Y.;Cherpak, Vladislav V.;Volynyuk, Dmitro Y.;
2:444:3:1 Engineering of hybrid interfaces in organic photovoltaic devices
DOI:10.1016/j.solmat.2010.12.027 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:5 AU: Fostiropoulos, Konstantinos;Rusu, Marin;
2:444:3:2 Analysis of the surface state of epi-ready Ge wafers
DOI:10.1016/j.apsusc.2012.05.015 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Gabas, M.;Palanco, S.;Bijani, S.;Barrigon, E.;Algora, C.;Rey-Stolle, I.;Garcia, I.;Ramos-Barrado, J. R.;
2:445:1 Interface-engineering additives for inverted BHJ polymer solar cells
DOI:10.1016/j.solmat.2012.11.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:3 AU: Park, Byoungchoo;Shin, Jung Chul;Huh, Yoon Ho;
2:445:2 Surfactant additives for improved photovoltaic effect of polymer solar cells
DOI:10.1039/c0jm02091e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:12 AU: Park, Byoungchoo;Huh, Yoon Ho;Kim, Mina;
2:445:3 Improved photovoltaic effect of polymer solar cells with nanoscale interfacial layers
DOI:10.1016/j.solmat.2010.02.045 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:10 AU: Lee, Young In;Kim, Mina;Huh, Yoon Ho;Lim, J. S.;Yoon, Sung Cheol;Park, Byoungchoo;
2:445:4 In-plane anisotropy of photovoltaic effects in aligned polymer solar cells
DOI:10.1016/j.solmat.2011.08.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:9 AU: Park, Byoungchoo;Huh, Yoon Ho;Shin, Jung Chul;
2:446:1 Textile-Surface Interfacial Asymmetric Polymerization
DOI:10.1002/APP.41118 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Goto, Hiromasa;Jwa, Jinmi;Nakajima, Kuniharu;Wang, Aohan;
2:446:2 Organic photodiodes on the base of cotton fibers/polymer composite
DOI:10.1063/1.3668118 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Zakirov, A. S.;Yuldashev, Sh. U.;Cho, H. D.;Lee, J. C.;Kang, T. W.;Mamadalimov, A. T.;
2:446:3 Extracting Kinetic Parameters of Aniline Polymerization from Thermal Data of a Batch Reactor. Simulation of the Thermal Behavior of a Reactor
DOI:10.1002/app.39409 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:3 AU: Cesar Cavallo, Pablo;Jose Munoz, Diego;Cristina Miras, Maria;Barbero, Cesar;Fernando Acevedo, Diego;
2:446:4 New amphiphilic sulfonic acid dopant-cum-templates for diverse conducting polyaniline nanomaterials
DOI:10.1002/app.37880 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:5 AU: Shinde, Shekhar D.;Jayakannan, M.;
2:446:5 Polyaniline Nanoscaffolds for Colorimetric Sensing of Biomolecules via Electron Transfer Process
DOI:10.1021/la200047t JN:LANGMUIR PY:2011 TC:11 AU: Antony, M. Jinish;Jayakannan, M.;
2:446:6 Polyaniline-maleicacid-dodecylhydrogensulfate Salt as Sensor Material for Toxic Gases
DOI:10.1002/app.32347 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Palaniappan, Srinivasan;Saravanan, Chandrasekaran;
2:446:7 Morphological Effects of Ni Nanostructures on Electropolymerization of Aniline
DOI:10.1002/app.33236 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Eftekhari, Ali;Yazdani, Bahareh;
2:446:8 Polyaniline Synthesis Using Hydrofluoric Acid as Doping Agent: Comparative Evaluation with Polyaniline Doped with Sulfuric Acid
DOI:10.1002/app.38187 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Silveira, F. Z.;Duarte, G. W.;Tachinski, C. G.;Piletti, R.;Fiori, J., Jr.;Peterson, M.;Riella, H. G.;Fiori, M. A.;
2:446:9 Colorimetric Sensing of alpha-Amino Acids and Its Application for the "Label-Free" Detection of Protease
DOI:10.1021/la904138f JN:LANGMUIR PY:2010 TC:37 AU: Lou, Xiaoding;Zhang, Liyao;Qin, Jingui;Li, Zhen;
2:446:10 Photolithography of Polyaniline on Solid Substrates Using Photoassisted Polymerization of Aniline
DOI:10.1080/15421401003722617 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:1 AU: Morales, Gustavo M.;Tuninetti, Jimena;Miras, Maria C.;Barbero, Cesar;
2:446:11 Highly efficient organic ultraviolet photodetectors based on a Cu(I) complex
DOI:10.1016/j.synthmet.2010.08.017 JN:SYNTHETIC METALS PY:2010 TC:8 AU: Xu, Zhanlin;Xu, Chunhui;Wang, Qingwei;Jiang, Wenlong;Liu, Chunbo;Liu, Lihui;Liu, Mei;Li, Wenlian;Che, Guangbo;Shi, Fanian;
2:447:1 Structure engineering of naphthalene diimides for improved charge carrier mobility: self-assembly by hydrogen bonding, good or bad?
DOI:10.1039/c2jm32554c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:15 AU: Kolhe, Nagesh B.;Devi, R. Nandini;Senanayak, Satyaprasad P.;Jancy, B.;Narayan, K. S.;Asha, S. K.;
2:447:2 Oligothiophene-functionalized naphthalimides and perylene imides: design, synthesis and applications
DOI:10.1039/c2jm16690a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:30 AU: Segura, Jose L.;Herrera, Helena;Baeuerle, Peter;
2:447:3 Organic semiconductors for field-effect transistors (FETs): tuning of spectroscopic, electrochemical, electronic and structural properties of naphthalene bisimides via substituents containing alkylthienyl moieties
DOI:10.1039/b915639a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:13 AU: Gawrys, Pawel;Boudinet, Damien;Kornet, Aleksandra;Djurado, David;Pouget, Stephanie;Verilhac, Jean-Marie;Zagorska, Malgorzata;Pron, Adam;
2:447:4 New stable donor-acceptor dyads for molecular electronics
DOI:10.1039/c0jm02545c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:15 AU: Kondratenko, Mykola;Moiseev, Andrey G.;Perepichka, Dmitrii F.;
2:447:5 Carrier Mobility Behavior of Triphenylene Mesogen with a Hydrogen Bonding Amide Group
DOI:10.1080/15421401003796074 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Miyake, Yasuo;Hu, Ping;Zhao, Ke-Qing;Monobe, Hirosato;Fujii, Akihiko;Ozaki, Masanori;Shimizu, Yo;
2:447:6 Donor-Acceptor Naphthylimide: Synthesis and Properties
DOI:10.1080/15421406.2013.803372 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:1 AU: Ge, Haojie;Li, Xinyong;Wu, Di;Huang, Jie;Liu, Sheng Hua;Yin, Jun;
2:448:1 Organic solar cells with submicron-thick polymer:fullerene bulk heterojunction films
DOI:10.1063/1.3488002 JN:APPLIED PHYSICS LETTERS PY:2010 TC:13 AU: Lee, Seungsoo;Nam, Sungho;Kim, Hwajeong;Kim, Youngkyoo;
2:448:2 A Pronounced Dispersion Effect of Crystalline Silicon Nanoparticles on the Performance and Stability of Polymer:Fullerene Solar Cells
DOI:10.1021/am301250s JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:2 AU: Kim, Joonhyeon;Lee, Seungsoo;Nam, Sungho;Lee, Hyena;Kim, Hwajeong;Kim, Youngkyoo;
2:448:3 Absorption enhancement of ZnPc thin films grown on nano-patterned polymer underlayer
DOI:10.1016/j.apsusc.2013.07.099 JN:APPLIED SURFACE SCIENCE PY:2013 TC:0 AU: Han, Jiyeong;Lee, Jinho;Yim, Sanggyu;
2:448:4 Two-dimensional photonic crystal arrays for polymer: fullerene solar cells
DOI:10.1088/0957-4484/22/46/465403 JN:NANOTECHNOLOGY PY:2011 TC:6 AU: Nam, Sungho;Han, Jiyoung;Do, Young Rag;Kim, Hwajeong;Yim, Sanggyu;Kim, Youngkyoo;
2:448:5 Effect of strong base addition to hole-collecting buffer layer in polymer solar cells
DOI:10.1016/j.solmat.2010.04.023 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:7 AU: Kim, Hwajeong;Park, Jiho;Lee, Sungsoo;Ha, Chang-Sik;Kim, Youngkyoo;
2:449:1 A carbon nanotube based ammonia sensor on cotton textile
DOI:10.1063/1.4805025 JN:APPLIED PHYSICS LETTERS PY:2013 TC:6 AU: Han, Jin-Woo;Kim, Beomseok;Li, Jing;Meyyappan, M.;
2:449:2 Copper oxide transistor on copper wire for e-textile
DOI:10.1063/1.3589374 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Han, Jin-Woo;Meyyappan, M.;
2:449:3 Vertical polymer phototransistor featuring photomultiplication due to base-field shielding
DOI:10.1063/1.3552714 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Zan, Hsiao-Wen;Tsai, Wu-Wei;Meng, Hsin-Fei;
2:449:4 Enhanced performance of core-shell structured polyaniline at helical carbon nanotube hybrids for ammonia gas sensor
DOI:10.1063/1.4902242 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Tian, Xin;Wang, Qiang;Chen, Xiangnan;Yang, Weiqing;Wu, Zuquan;Xu, Xiaoling;Jiang, Man;Zhou, Zuowan;
2:449:5 Sensitive gas sensor embedded in a vertical polymer space-charge-limited transistor
DOI:10.1063/1.4734498 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Zan, Hsiao-Wen;Li, Chang-Hung;Yu, Chih-Kuan;Meng, Hsin-Fei;
2:450:1 Photoconductivity enhancement and charge transport properties in a conjugated polyelectrolyte/carbon nanotube hybrid studied by scanning probe microscopy
DOI:10.1039/c4tc00819g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:0 AU: Lo, Kin Cheung;Li, Sheung Yin;Chan, Wai Kin;
2:450:2 Bridging mesoscopic blend structure and property to macroscopic device performance via in situ optoelectronic characterization
DOI:10.1039/c2jm14896j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:6 AU: Yan, Han;Li, Denghua;Li, Chao;Lu, Kun;Zhang, Yajie;Wei, Zhixiang;Yang, Yanlian;Wang, Chen;
2:450:3 Effect of a Nanodimensional Polyethylenimine Layer on Current-Voltage Characteristics of Hybrid Structures Based on Single-Crystal Silicon
DOI:10.1007/s11664-012-2266-4 JN:JOURNAL OF ELECTRONIC MATERIALS PY:2012 TC:6 AU: Malyar, I. V.;Gorin, D. A.;Stetsyura, S. V.;Santer, S.;
2:450:4 Tuning surface properties in photosensitive polyimide. Material design for high performance organic thin-film transistors
DOI:10.1039/c0jm00196a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:9 AU: Chou, Wei-Yang;Kuo, Chia-Wei;Chang, Chia-Wen;Yeh, Bo-Liang;Chang, Ming-Hua;
2:450:5 Realization of uniform large-area pentacene thin film transistor arrays by roller vacuum thermal evaporation
DOI:10.1116/1.3597636 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2011 TC:2 AU: Wang, Liangmin;Li, Dexing;Hu, Yuanyuan;Jiang, Chao;
2:450:6 Feasible organic thin-film deposition architecture for large-area organic electronics by roller vacuum thermal evaporation
DOI:10.1063/1.3657411 JN:APPLIED PHYSICS LETTERS PY:2011 TC:0 AU: Li, Dexing;Wang, Liangmin;Jin, Qiao;Hu, Yuanyuan;Jiang, Chao;
2:451:1 Preparation of fluorescent polyaniline nanoparticles in aqueous solutions
DOI:10.1007/s11051-012-1339-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:2 AU: Alves, Kleber G. B.;de Melo, Etelino F.;Andrade, Cesar A. S.;de Melo, Celso P.;
2:451:2 Irreversible uptake of palladium from aqueous systems using L-cysteine methyl ester physisorbed on carbon black
DOI:10.1039/c0jm04493h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:7 AU: Panchompoo, Janjira;Aldous, Leigh;Compton, Richard G.;
2:451:3 Efficient visible light-induced photoelectrocatalytic degradation of rhodamine B by polyaniline-sensitized TiO2 nanotube arrays
DOI:10.1007/s11051-011-0589-3 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:15 AU: Li, Xinyong;Teng, Wei;Zhao, Qidong;Wang, Lianzhou;
2:451:4 Structural and spectral investigations of anthracene doped polyaniline
DOI:10.1016/j.synthmet.2010.12.002 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Raigaonkar, Bhakti V.;Vijayan, Lajna P.;Chawla, Santa;Dubey, R. N.;Qureshi, M. S.;
2:451:5 Rapid and Efficient Removal of Heavy Metal Ions from Aqueous Media Using Cysteine-Modified Polymer Nanowires
DOI:10.1002/app.31538 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:5 AU: Tolani, Sagar;Mugweru, Amos;Craig, Michael;Wanekaya, Adam K.;
2:451:6 Polyacetylene nanoparticles-based preparation of polyaniline nanofibers
DOI:10.1007/s11051-010-0161-6 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:3 AU: Chang, Guohui;Luo, Yonglan;Liao, Fang;Lu, Wenbo;Sun, Xuping;
2:451:7 Magnetic ionic liquid-assisted synthesis of polyaniline/AgCl nanocomposites by interface polymerization
DOI:10.1007/s11051-010-0070-8 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:9 AU: Zhang, Qiang;Liu, Fangjun;Li, Liang;Pan, Guoliang;Shang, Songmin;
2:451:8 Mixed-surfactant-induced morphology change of polyaniline
DOI:10.1002/app.36393 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Chen, Chia-Fu;Lei, I-Ann;Chiu, Wen-Yen;
2:451:9 Building Block Syntheses of Gallic Acid Monomers and Tris-(O-gallyl)-gallic Acid Dendrimers Chemically Attached to Graphite Powder: A Comparative Study of Their Uptake of Al(III) Ions
DOI:10.1021/la902497s JN:LANGMUIR PY:2010 TC:8 AU: Ye, Junju;Abiman, Poobalasingam;Crossley, Alison;Jones, John H.;Wildgoose, Gregory G.;Compton, Richard G.;
2:452:1 Versatile grafting chemistry for creation of stable molecular layers on oxides
DOI:10.1039/c1jm13293h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Paoprasert, Peerasak;Kandala, Srikanth;Sweat, Daniel P.;Ruther, Rose;Gopalan, Padma;
2:452:2 Formation of Self-Assembled Monolayers of pi-Conjugated Molecules on TiO2 Surfaces by Thermal Grafting of Aryl and Benzyl Halides
DOI:10.1021/la300271h JN:LANGMUIR PY:2012 TC:4 AU: English, Caroline R.;Bishop, Lee M.;Chen, Jixin;Hamers, Robert J.;
2:452:3 Formation of Molecular Monolayers on TiO2 Surfaces: A Surface Analogue of the Williamson Ether Synthesis
DOI:10.1021/la2008528 JN:LANGMUIR PY:2011 TC:10 AU: Chen, Jixin;Franking, Ryan;Ruther, Rose E.;Tan, Yizheng;He, Xueying;Hogendoorn, Stephanie R.;Hamers, Robert J.;
2:452:4 Structured Layer of Rhenium Dye on SiO2 and TiO2 Surfaces by Langmuir-Blodgett Technique
DOI:10.1021/la5006133 JN:LANGMUIR PY:2014 TC:1 AU: Joo, Yongho;Spalenka, Josef W.;McElhinny, Kyle M.;Schmitt, Samantha K.;Evans, Paul G.;Gopalan, Padma;
2:452:5 Versatile Approach to Formation of Light-Harvesting Complexes on Nanostructured Metal Oxide Surfaces via "On-Surface" Assembly
DOI:10.1021/m500511d JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Putans, Becca A.;Bishop, Lee M.;Hamers, Robert J.;
2:452:6 Attachment of Polymer Films to Solid Surfaces via Thermal Activation of Self-assembled Monolayers Containing Sulphonyl Azide Group
DOI:10.1021/la9018019 JN:LANGMUIR PY:2010 TC:6 AU: Raghuraman, G. K.;Schuh, Kerstin;Prucker, Oswald;Ruehe, Juergen;
2:452:7 Tailor-Made Polymer Multilayers
DOI:10.1002/adfm.201300846 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:3 AU: Schuh, Kerstin;Prucker, Oswald;Ruehe, Juergen;
2:453:1 Novel soluble and optically active polyimides containing axially asymmetric 9,9 '-spirobifluorene units: Synthesis, thermal, optical and chiral properties
DOI:10.1016/j.polymer.2012.10.024 JN:POLYMER PY:2012 TC:8 AU: Wu, Zuolin;Han, Baochun;Zhang, Chunhua;Zhu, Danyang;Gao, Lianxun;Ding, Mengxian;Yang, Zhenghua;
2:453:2 Organo-soluble phosphinated polyimides from asymmetric diamines
DOI:10.1016/j.polymer.2010.05.059 JN:POLYMER PY:2010 TC:15 AU: Lin, Ching Hsuan;Chang, Sheng Lung;Peng, Li An;Peng, Siao Ping;Chuang, Yu Hao;
2:453:3 Synthesis of organ-soluble copolyimides by one-step polymerization and fabrication of high performance fibers
DOI:10.1007/s10853-013-7576-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:8 AU: Dong, Jie;Yin, Chaoqing;Luo, Weiqiang;Zhang, Qinghua;
2:453:4 Synthesis and property of 9,9 '-spirobifluorene-containing aromatic polyesters as optical polymers with high refractive index and low birefringence
DOI:10.1016/j.polymer.2010.08.032 JN:POLYMER PY:2010 TC:10 AU: Seto, Ryota;Kojima, Takahiro;Hosokawa, Katsumoto;Koyama, Yasuhito;Konishi, Gen-ichi;Takata, Toshikazu;
2:453:5 Polyimide fibers prepared by dry-spinning process: imidization degree and mechanical properties
DOI:10.1007/s10853-013-7310-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:5 AU: Xu, Yuan;Wang, Shihua;Li, Zhentao;Xu, Qian;Zhang, Qinghua;
2:453:6 Dietheramine from an alkaline-stable phosphinated bisphenol for soluble polyetherimides
DOI:10.1016/j.polymer.2011.01.035 JN:POLYMER PY:2011 TC:5 AU: Lin, Ching Hsuan;Chang, Sheng Lung;Cheng, Po Wen;
2:453:7 A Simple and Efficient Way to Synthesize Optically Active Polyamides by Solution Polycondensation of Di-O-Methyl-L-Tartaryl Chloride with Diamines
DOI:10.1002/app.32264 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Wu, Zuolin;Huang, Yanjiong;Zhang, Chunhua;Zhu, Danyang;Bian, Zheng;Ding, Mengxian;Gao, Lianxun;Yang, Zhenghua;
2:453:8 Design and synthesis of unsymmetric phosphinated diamines for high-T-g, transparent polyimides
DOI:10.1016/j.polymer.2012.02.037 JN:POLYMER PY:2012 TC:3 AU: Chang, Hou Chien;Chang, Sheng Lung;Lin, Ching Hsuan;Chen, Sinn Wen;
2:454:1 Molecular Self-Assembly at Bare Semiconductor Surfaces: Cooperative Substrate Molecule Effects in Octadecanethiolate Mono layer Assemblies on GaAs(111), (110), and (100)
DOI:10.1021/nn1004638 JN:ACS NANO PY:2010 TC:27 AU: McGuiness, Christine L.;Diehl, Gregory A.;Blasini, Daniel;Smilgies, Detlef-M.;Zhu, M.;Samarth, Nitin;Weidner, Tobias;Ballav, Nirmalya;Zharnikov, Michael;Allara, David L.;
2:454:2 Solid-state densification of spun-cast self-assembled monolayers for use in ultra-thin hybrid dielectrics
DOI:10.1016/j.apsusc.2012.09.013 JN:APPLIED SURFACE SCIENCE PY:2012 TC:5 AU: Hutchins, Daniel O.;Acton, Orb;Weidner, Tobias;Cernetic, Nathan;Baio, Joe E.;Castner, David G.;Ma, Hong;Jen, Alex K. -Y.;
2:454:3 Solid surface dependent layering of self-arranged structures with fibril-like assemblies of alpha-synuclein
DOI:10.1016/j.apsusc.2011.12.120 JN:APPLIED SURFACE SCIENCE PY:2012 TC:2 AU: Bukauskas, V.;Setkus, A.;Simkiene, I.;Tumenas, S.;Kasalynas, I.;Reza, A.;Babonas, J.;Casaite, V.;Poviloniene, S.;Meskys, R.;
2:454:4 Amyloid hydrogel derived from curly protein fibrils of alpha-synuclein
DOI:10.1016/j.biomaterials.2010.03.080 JN:BIOMATERIALS PY:2010 TC:17 AU: Bhak, Ghibom;Lee, Soonkoo;Park, Jae Woo;Cho, Sunghyun;Paik, Seung R.;
2:454:5 Anomalous conformational transitions in cytochrome C adsorbing to Langmuir-Blodgett films
DOI:10.1016/j.apsusc.2013.01.183 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Sankaranarayanan, Kamatchi;Nair, B. U.;Dhathathreyan, A.;
2:454:6 Structure-Based Design of Functional Amyloid Materials
DOI:10.1021/ja509648u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Li, Dan;Jones, Eric M.;Sawaya, Michael R.;Furukawa, Hiroyasu;Luo, Fang;Ivanova, Magdalena;Sievers, Stuart A.;Wang, Wenyuan;Yaghi, Omar M.;Liu, Cong;Eisenberg, David S.;
2:455:1 Charge Transport Over Multiple Length Scales in Supramolecular Fiber Transistors: Single Fiber Versus Ensemble Performance
DOI:10.1002/adma.201303419 JN:ADVANCED MATERIALS PY:2014 TC:10 AU: Mativetsky, Jeffrey M.;Orgiu, Emanuele;Lieberwirth, Ingo;Pisula, Wojciech;Samori, Paolo;
2:455:2 Self-assembled organic micro-/nanowires from an air stable n-semiconducting perylenediimide derivative as building blocks for organic electronic devices
DOI:10.1039/c1jm13998c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:9 AU: Lambrecht, Julia;Saragi, Tobat P. I.;Salbeck, Josef;
2:455:3 Integration of self-assembled discotic-based fibres into field-effect transistors: a comparison of preparation approaches
DOI:10.1039/c0jm01754j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Savage, Rebecca C.;Mativetsky, Jeffrey M.;Orgiu, Emanuele;Palma, Matteo;Gbabode, Gabin;Geerts, Yves H.;Samori, P.;
2:455:4 The Importance of Bridging Points for Charge Transport in Webs of Conjugated Polymer Nanofibers (vol 23, pg 862, 2013)
DOI:10.1002/adfm.201390001 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:1 AU: Bolsee, Jean-Christophe;Oosterbaan, Wibren D.;Lutsen, Laurence;Vanderzande, Dirk;Manca, Jean;
2:455:5 Ultralong Single Organic Semiconducting Nano/Microwires Based on Spiro-Substituted Perylenetetracarboxylic Diimide
DOI:10.1021/am2003685 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:8 AU: Lambrecht, Julia;Saragi, Tobat P. I.;Onken, Kristian;Salbeck, Josef;
2:456:1 Majority carrier type conversion in solution-processed organic transistors and flexible complementary logic circuits
DOI:10.1063/1.3310025 JN:APPLIED PHYSICS LETTERS PY:2010 TC:20 AU: Ribierre, J. C.;Watanabe, S.;Matsumoto, M.;Muto, T.;Aoyama, T.;
2:456:2 Flexible organic field-effect transistors and complementary inverters based on a solution-processable quinoidal oligothiophene derivative
DOI:10.1016/j.optmat.2011.03.015 JN:OPTICAL MATERIALS PY:2011 TC:4 AU: Ribierre, J. C.;Takaishi, K.;Muto, T.;Aoyama, T.;
2:456:3 Optical and Charge Transport Properties of an Ambipolar Quinoidal Oligothiophene Derivative
DOI:10.1080/15421406.2012.701107 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Ribierre, J. C.;Takaishi, K.;Mager, L.;Fujihara, T.;Muto, T.;Uchiyama, M.;Aoyama, T.;
2:456:4 Control of the charge transport properties in a solution-processible ambipolar quinoidal oligothiophene derivative by direct laser writing
DOI:10.1063/1.3449121 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Ribierre, J. C.;Fujihara, T.;Muto, T.;Aoyama, T.;
2:457:1 Effects of synthesis conditions on the structural features and methane adsorption properties of single-walled carbon nanohorns prepared by a gas-injected arc-in-water method
DOI:10.1063/1.3600236 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Sano, Noriaki;Akita, Yoshihiro;Tamon, Hajime;
2:457:2 Spin-polarized current generated by carbon chain and finite nanotube
DOI:10.1063/1.3510537 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:3 AU: Guo, Y. D.;Yan, X. H.;Xiao, Y.;
2:457:3 Controlled synthesis of carbon nanotubes and linear C chains by arc discharge in liquid nitrogen
DOI:10.1063/1.3275500 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:13 AU: Scalese, S.;Scuderi, V.;Bagiante, S.;Simone, F.;Russo, P.;D'Urso, L.;Compagnini, G.;Privitera, V.;
2:457:4 Modeling of printed single walled carbon nanotube thin film transistors for attaining optimized clock signals
DOI:10.1063/1.3511698 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Noh, Jinsoo;Jung, Minhun;Jung, Kyunghwan;Lim, Soyeon;Lee, Gwangyong;Subramanian, Vivek;Leonard, Ashley D.;Tour, James;Cho, Gyoujin;
2:457:5 Order and disorder of carbon deposit produced by arc discharge in liquid nitrogen
DOI:10.1063/1.3475726 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Scalese, S.;Scuderi, V.;Bagiante, S.;Gibilisco, S.;Faraci, G.;Privitera, V.;
2:457:6 Current-induced defect formation in multi-walled carbon nanotubes
DOI:10.1007/s11051-014-2287-4 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:1 AU: Scuderi, Viviana;Tripodi, Lisa;Piluso, Nicolo;Bongiorno, Corrado;Di Franco, Salvatore;Scalese, Silvia;
2:457:7 A simple and universal method for fabricating linear carbon chains in multiwalled carbon nanotubes
DOI:10.1016/j.matlet.2012.04.140 JN:MATERIALS LETTERS PY:2012 TC:3 AU: Sheng, Leimei;Jin, Aijin;Yu, Liming;An, Kang;Ando, Yoshinori;Zhao, Xinluo;
2:457:8 A molecular quantum wire of linear carbon chains encapsulated within single-walled carbon nanotube (C-n @ SWNT)
DOI:10.1063/1.3517789 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Lim, San Hua;Lin, Jianyi;Widjaja, Effendi;Poh, Chee Kok;Luo, Zhiqiang;Gao, Ping Qi;Shen, Zexiang;Zhang, Qing;Gong, Hao;Feng, Yuanping;
2:458:1 Effect of chemical environments on palladium phthalocyanine thin film sensors for humidity analysis
DOI:10.1007/s10853-011-5996-4 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:9 AU: Jafari, Mohammad Javad;Azim-Araghi, Mohammad Esmaeil;Barhemat, Samira;
2:458:2 Self-Assembled Nano layers of Conjugated Si lane with pi-pi Interlocking
DOI:10.1021/nn100273m JN:ACS NANO PY:2010 TC:12 AU: Jiang, Jinyue;Lima, Ocelio V.;Pei, Yong;Jiang, Zhang;Chen, Ziguang;Yu, Chichao;Wang, Jin;Zeng, Xiao Cheng;Forsythe, Eric;Tan, Li;
2:458:3 Toward step-by-step nuclear growth of surface two-dimensional porphyrin nanonetworks
DOI:10.1016/j.jcis.2013.09.024 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2014 TC:2 AU: Makiura, Rie;Kitagawa, Hiroshi;Akita, Yasuyuki;Yoshimoto, Mamoru;
2:458:4 Investigation on preparation of nano-size Gd0.2Ce0.8O2-delta material and its humidity sensing properties
DOI:10.1007/s10853-009-4092-5 JN:JOURNAL OF MATERIALS SCIENCE PY:2010 TC:4 AU: Hao, Yu Wen;Wang, Jing;Chen, Zhou Ye;
2:458:5 Synthesis of Zn(II) 5,10,15,20-tetrakis(4'-isopropylphenyl) porphyrin and its use as a thin film sensor
DOI:10.1007/s00339-009-5441-6 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:10 AU: Sayyad, Muhammad H.;Saleem, Muhammad;Karimov, Khasan S.;Yaseen, Muhammad;Ali, Mukhtar;Cheong, Kuan Y.;Noor, Ahmad F. Mohd;
2:458:6 TiO2/LiCl-Based Nanostructured Thin Film for Humidity Sensor Applications
DOI:10.1021/am1011035 JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:26 AU: Buvailo, Andrii I.;Xing, Yangjun;Hines, Jacqueline;Dollahon, Norman;Borguet, Eric;
2:458:7 Controlled self-assembly of hydrophobic quantum dots through silanization
DOI:10.1016/j.jcis.2011.05.056 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2011 TC:2 AU: Yang, Ping;Ando, Masanori;Murase, Norio;
2:458:8 Humidity sensing properties of different single-walled carbon nanotube composite films fabricated by layer-by-layer self-assembly technique
DOI:10.1007/s00339-012-7021-4 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:5 AU: Jing, Hongjun;Jiang, Yadong;Du, Xiaosong;Tai, Huiling;Xie, Guangzhong;
2:458:9 Synthesis and characterization of iron oxide nanoparticles dispersed in mesoporous aluminum oxide or silicon oxide
DOI:10.1007/s10853-010-4811-y JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:2 AU: Pinheiro Braga, Tiago;Narcisio Pinheiro, Antonio;Herrera, W. T.;Xing, Y. T.;Baggio-Saitovitch, E.;Valentini, Antoninho;
2:459:1 Polymeric Coatings on Silver Nanoparticles Hinder Autoaggregation but Enhance Attachment to Uncoated Surfaces
DOI:10.1021/la202884f JN:LANGMUIR PY:2012 TC:44 AU: Lin, Shihong;Cheng, Yingwen;Liu, Jie;Wiesner, Mark R.;
2:459:2 Paradox of Stability of Nanoparticles at Very Low Ionic Strength
DOI:10.1021/la3016589 JN:LANGMUIR PY:2012 TC:3 AU: Lin, Shihong;Wiesner, Mark R.;
2:459:3 Exact Analytical Expressions for the Potential of Electrical Double Layer Interactions for a Sphere-Plate System
DOI:10.1021/la103046w JN:LANGMUIR PY:2010 TC:10 AU: Lin, Shihong;Wiesner, Mark R.;
2:459:4 Influence of pH on the transport of silver nanoparticles in saturated porous media: laboratory experiments and modeling
DOI:10.1007/s11051-013-1484-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:3 AU: Flory, Jason;Kanel, Sushil R.;Racz, LeeAnn;Impellitteri, Christopher A.;Silva, Rendahandi G.;Goltz, Mark N.;
2:459:5 Theoretical Investigation on the Steric Interaction in Colloidal Deposition
DOI:10.1021/la302201g JN:LANGMUIR PY:2012 TC:4 AU: Lin, Shihong;Wiesner, Mark R.;
2:459:6 Influence of amino acids cysteine and serine on aggregation kinetics of zinc and mercury sulfide colloids
DOI:10.1016/j.jcis.2010.03.051 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:19 AU: Gondikas, Andreas P.;Jang, Eileen K.;Hsu-Kim, Heileen;
2:459:7 Influence of pH on the transport of nanoscale zinc oxide in saturated porous media
DOI:10.1007/s11051-011-0345-8 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:28 AU: Kanel, Sushil R.;Al-Abed, Souhail R.;
2:460:1 A simple parallel tandem organic solar cell based on metallophthalocyanines
DOI:10.1063/1.3579250 JN:APPLIED PHYSICS LETTERS PY:2011 TC:10 AU: Yuen, Avery P.;Hor, Ah-Mee;Preston, John S.;Klenkler, Richard;Bamsey, Nathan M.;Loutfy, Rafik O.;
2:460:2 Water-phase synthesis of ordered hierarchical copper tetranitrophthalocyanine bundles with desirable superhydrophobicity
DOI:10.1007/s11051-012-1273-y JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2012 TC:0 AU: Li, Juan;Wang, Shuangqing;Li, Shayu;Tian, Xuelin;Yang, Guoqiang;
2:460:3 Growth mode and self-organization of LuPc2 on Si(001)-2 x 1 vicinal surfaces: An optical investigation
DOI:10.1103/PhysRevB.86.115413 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: Boudet, S.;Bidermane, I.;Lacaze, E.;Gallas, B.;Bouvet, M.;Brunet, J.;Pauly, A.;Borensztein, Y.;Witkowski, N.;
2:460:4 Fluorescent and triplet state photoactive J-type phthalocyanine nano assemblies: controlled formation and photosensitizing properties
DOI:10.1039/c0jm00695e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:48 AU: Zhang, Xian-Fu;Xi, Qian;Zhao, Jing;
2:460:5 Self-Assembling of Zinc Phthalocyanines on ZnO (10(1)over-bar0) Surface through Multiple Time Scales
DOI:10.1021/nn203105w JN:ACS NANO PY:2011 TC:6 AU: Melis, Claudio;Raiteri, Paolo;Colombo, Luciano;Mattoni, Alessandro;
2:460:6 Solvent-Stabilized Photoconductive Metal Phthalocyanine Nanoparticles: Preparation and Application in Single-Layered Photoreceptors
DOI:10.1002/adma.200903120 JN:ADVANCED MATERIALS PY:2010 TC:13 AU: Wang, Yuan;Hang, Dejian;
2:460:7 Solvent-Stabilized Y-Type Oxotitanium Phthalocyanine Photoconductive Nanoparticles: Preparation and Application in Single-Layered Photoreceptors
DOI:10.1002/adma.201201720 JN:ADVANCED MATERIALS PY:2012 TC:1 AU: Liang, Dejian;Peng, Wenlian;Wang, Yuan;
2:461:1 Microdrop generation and deposition of ionic liquids
DOI:10.1557/jmr.2014.162 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Cadarso, Victor J.;Perera-Nunez, Julia;Mendez-Vilas, Antonio;Labajos-Broncano, Luis;Gonzalez-Martin, Maria-Luisa;Brugger, Juergen;
2:461:2 Self-Motion of a Camphor Disk on an Aqueous Phase Depending on the Alkyl Chain Length of Sulfate Surfactants
DOI:10.1021/la903509z JN:LANGMUIR PY:2010 TC:15 AU: Nakata, Satoshi;Murakami, Mai;
2:461:3 Chemical Propulsion Using Ionic Liquids
DOI:10.1021/la3044279 JN:LANGMUIR PY:2013 TC:2 AU: Tsuchitani, Shigeki;Takagi, Nobuhiro;Kikuchi, Kunitomo;Miki, Hirobumi;
2:461:4 Ionic Liquids: Nondestructive, Nonvolatile Imaging Fluids for Submicrometer-Scale Monolayer Patterns
DOI:10.1021/ja102044x JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:7 AU: Hozumi, Atsushi;Bien, Pei;McCarthy, Thomas J.;
2:461:5 Ionic Liquid Microdroplets as Versatile Lithographic Molds for Sculpting Curved Topographies on Soft Materials Surfaces
DOI:10.1021/la102799x JN:LANGMUIR PY:2010 TC:4 AU: Perera-Nunez, J.;Mendez-Vilas, A.;Labajos-Broncano, L.;Gonzalez-Martin, M. L.;
2:461:6 Synchronized motion of the water surfaces around two fixed camphor disks
DOI:10.1016/j.jcis.2010.07.036 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2010 TC:4 AU: Kitahata, Hiroyuki;Kawata, Kouhei;Takahashi, Sachiyo;Nakamura, Motohiko;Sumino, Yutaka;Nakata, Satoshi;
2:461:7 Investigation of Multiphase Liquid Roughness Using an Atomic Force Microscope
DOI:10.1021/la100690q JN:LANGMUIR PY:2010 TC:4 AU: Yang, Chung Yao;Ho, Fu Han;Wang, Pei Jen;Yeh, J. Andrew;
2:461:8 Artificial Motors Peptide-powered boats
DOI:10.1038/nmat3491 JN:NATURE MATERIALS PY:2012 TC:1 AU: Courbin, Laurent;Artzner, Franck;
2:462:1 Facile synthesis of dispersible spherical polythiophene nanoparticles by copper(II) catalyzed oxidative polymerization in aqueous medium
DOI:10.1016/j.synthmet.2010.02.001 JN:SYNTHETIC METALS PY:2010 TC:13 AU: Wang, Zi;Wang, Yanyan;Xu, Dong;Kong, Eric Siu-Wai;Zhang, Yafei;
2:462:2 Facile synthesis of morphology- and size-controllable polythiophene/gold composites in aqueous medium
DOI:10.1007/s11051-014-2702-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:0 AU: Guo, Quanhui;Zou, Shuangshuang;Li, Juan;Li, Dongfeng;Jiao, Hexian;Shi, Jiahua;
2:462:3 Correlation structure-properties of poly(3-methyl-thiophene) (P3MTh) synthesized using TiCl4 as an oxidant
DOI:10.1016/j.synthmet.2011.04.026 JN:SYNTHETIC METALS PY:2012 TC:1 AU: Ben Khalifa, I.;Ayachi, S.;Zaidi, B.;Bouachrine, M.;Mabrouk, A.;Alimi, K.;
2:462:4 Nanoscale photoluminescence of light-emitting poly (3-methylthiophene) nanotubes hybridized with Au nanoparticles
DOI:10.1016/j.synthmet.2009.12.014 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Park, Dong Hyuk;Hong, Young Ki;Kim, Mi Sul;Cho, Eun Hei;Choi, Won Jun;Kim, Kyung Ho;Park, Q. -Han;Kim, Dae-Chul;Song, Hugeun;Kim, Jeongyong;Joo, Jinsoo;
2:462:5 Ferromagnetism of polythiophene-capped Au nanoparticles
DOI:10.1063/1.3562444 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Suzuki, K.;Zhang, H.;Saito, K.;Garitaonandia, J. S.;Goikolea, E.;Insausti, M.;
2:462:6 A fast and facile synthetic route toward the preparation of nanoparticles of polythiophene and its derivatives
DOI:10.1007/s11051-013-1583-8 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2013 TC:0 AU: Bozukova, Dimitriya;Jerome, Robert;Jerome, Christine;
2:463:1 Solution-processable polymer based photovoltaic devices with concentration graded bilayers made via composition control of a poly(3-hexylthiophene)/[6,6]-phenyl C-61-butyric acidmethyl ester
DOI:10.1039/b926105b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:19 AU: Wang, Dong Hwan;Choi, Dae-Geun;Park, O. Ok;Park, Jong Hyeok;
2:463:2 Photoconductive Nile red cyclopalladated metallomesogens
DOI:10.1039/c2jm34946a JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:2 AU: Ionescu, Andreea;Godbert, Nicolas;Crispini, Alessandra;Termine, Roberto;Golemme, Attilio;Ghedini, Mauro;
2:463:3 Enhancement of Exciton Dissociation Efficiency in Bulk Heterojunction Solar Cells by Using an Intrinsic Photoconductor Component
DOI:10.1080/15421406.2011.654183 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Pandey, Upendra K.;Termine, Roberto;Ionescu, Andreea;Godbert, Nicolas;De Santo, Maria P.;Ghedini, Mauro;Golemme, Attilio;
2:463:4 Liaisons between photoconductivity and molecular frame in organometallic Pd(II) and Pt(II) complexes
DOI:10.1039/c1jm11926e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:10 AU: Ghedini, Mauro;Golemme, Attilio;Aiello, Iolinda;Godbert, Nicolas;Termine, Roberto;Crispini, Alessandra;La Deda, Massimo;Lelj, Francesco;Amati, Mario;Belviso, Sandra;
2:463:5 Neutral and Cationic Cyclopalladated Nile Red Metallomesogens: Synthesis and Characterization
DOI:10.1080/15421406.2011.653713 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:1 AU: Ionescu, Andreea;Godbert, Nicolas;Aiello, Iolinda;Crispini, Alessandra;Ghedini, Mauro;
2:463:6 Correlation between computer models of structure of 5-sulfosalicylato Zr(IV) phthalocyanine with results obtained by NMR, ESI-MS and UV-Vis spectra
DOI:10.1016/j.optmat.2010.03.030 JN:OPTICAL MATERIALS PY:2010 TC:5 AU: Gerasymchuk, Y. S.;Chernii, V. Ya.;Tomachynskii, L. A.;Kowalska, M.;Legendziewicz, J.;Radzki, St.;
2:464:1 Structural, Optical, and Electronic Properties of a Series of 3,4-Propylenedioxythiophene Oligomers in Neutral and Various Oxidation States
DOI:10.1021/ja2035442 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:19 AU: Lin, Chuanwen;Endo, Takanori;Takase, Masayoshi;Iyoda, Masahiko;Nishinaga, Tohru;
2:464:2 Electropolymerizable 3D pi-conjugated architectures with ethylenedioxythiophene (EDOT) end-groups as precursors of electroactive conjugated networks
DOI:10.1039/c0jm01873b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:12 AU: Piron, Flavia;Leriche, Philippe;Grosu, Ion;Roncali, Jean;
2:464:3 Long-Chain 3,4-Ethylenedioxythiophene/Thiophene Oligomers and Semiconducting Thin Films Prepared by Their Electropolymerization
DOI:10.1021/am301349g JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:5 AU: de Silva, K. M. Nalin;Hwang, Euiyong;Serem, Wilson K.;Fronczek, Frank R.;Garno, Jayne C.;Nesterov, Evgueni E.;
2:464:4 Electropolymerized Three-Dimensional Randomly Branched EDOT-Containing Copolymers
DOI:10.1021/la403050c JN:LANGMUIR PY:2013 TC:5 AU: Link, Steffen M.;Scheuble, Martin;Goll, Miriam;Muks, Erna;Ruff, Adrian;Hoffmann, Anke;Richter, Thomas V.;Lopez Navarrete, Juan T.;Ruiz Delgado, M. Carmen;Ludwigs, Sabine;
2:464:5 Optical and redox properties of phenyl-capped cyclohexa[c]-oligothiophenes
DOI:10.1016/j.synthmet.2013.08.005 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Zheng, Yijun;Ohto, Tatsuhiko;Liu, Dian;Butt, Hans-Juergen;Ikeda, Taichi;
2:464:6 Electrochemically Durable Thiophene Alkanethiol Self-Assembled Monolayers
DOI:10.1021/la403689e JN:LANGMUIR PY:2014 TC:1 AU: Ikeda, Taichi;Nagata, Yuki;Zheng, Yijun;Liu, Dian;Butt, Hans-Juergen;Shimoda, Masahiko;
2:464:7 Chiral conducting surfaces based on the electropolymerization of 3,4-ethylenedioxythiophene
DOI:10.1016/j.synthmet.2011.05.009 JN:SYNTHETIC METALS PY:2011 TC:4 AU: McTiernan, Christopher D.;Chahma, M'hamed;
2:465:1 Modeling of low-voltage oxide-based electric-double-layer thin-film transistors fabricated at room temperature
DOI:10.1063/1.3555333 JN:APPLIED PHYSICS LETTERS PY:2011 TC:6 AU: Dai, Mingzhi;Wu, Guodong;Yang, Yue;Jiang, Jie;Li, Li;Wan, Qing;
2:465:2 Effects of humidity on performance of electric-double-layer oxide-based thin-film transistors gated by nanogranular SiO2 solid electrolyte
DOI:10.1063/1.4815970 JN:AIP ADVANCES PY:2013 TC:2 AU: Guo, Li-Qiang;Yang, Yuan-Yuan;Zhu, Li-Qiang;Wu, Guo-Dong;Zhou, Ju-Mei;Zhang, Hong-Liang;
2:465:3 Logic Circuit Function Realization by One Transistor
DOI:10.1021/nl303386b JN:NANO LETTERS PY:2012 TC:0 AU: Dai, Mingzhi;Dai, Ning;
2:465:4 Polarization mechanism and quasi-electric-double-layer modeling for indium-tin-oxide electric-double-layer thin-film-transistors
DOI:10.1063/1.3682482 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Dai, Mingzhi;Xu, Wangying;
2:465:5 Modeling Novel Double-in-Plane Gate Electric-Double-Layer Thin-Film and Nanoscale Transistors
DOI:10.1021/nl202368z JN:NANO LETTERS PY:2011 TC:3 AU: Dai, Mingzhi;Wan, Qing;
2:465:6 Modeling of self-assembled inorganic oxide semiconductor based electric-double-layer thin film transistors
DOI:10.1063/1.3575529 JN:APPLIED PHYSICS LETTERS PY:2011 TC:1 AU: Dai, Mingzhi;Wu, Guodong;Yang, Yue;Huang, Jin;Li, Li;Gong, Jun;Wan, Qing;
2:465:7 Proton conduction in ionic liquid-modified P2O5-SiO2 glasses
DOI:10.1016/j.jnoncrysol.2012.04.001 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:3 AU: Nogami, Masayuki;Kato, Akihiro;Nakayama, Masanobu;Lakshminarayana, Gandham;
2:466:1 Influence of Hydrogen-Bonding Interaction Introduced by Filled Oligomer on Bulk Properties of Blended Polyimide Films
DOI:10.1002/app.40498 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Li, Baoyin;Pang, Yuwei;Fan, Cong;Gao, Jie;Wang, Xu;Zhang, Chaoliang;Liu, Xiangyang;
2:466:2 Effects of 3,4 '-oxydianiline on the structures and properties of a novel aromatic polyimide foam
DOI:10.1002/app.35683 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Li, Yin;Liu, Xiao-Yan;Zhan, Mao-Sheng;Wang, Kai;
2:466:3 Novel Acetylene-Terminated Polyisoimides with Excellent Processability and Properties Comparison with Corresponding Polyimides
DOI:10.1002/app.34718 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Zhou, Heng;Liu, Feng;Zhang, Yongsheng;Fan, Weifeng;Liu, Jingfeng;Wang, Zhen;Zhao, Tong;
2:466:4 Preparation and characterization of highly transparent and colorless semi-aromatic polyimide films derived from alicyclic dianhydride and aromatic diamines
DOI:10.1016/j.polymer.2012.05.047 JN:POLYMER PY:2012 TC:18 AU: Zhai, Lei;Yang, Shiyong;Fan, Lin;
2:466:5 Effect of Tetraacid on the Properties of ODPA/4,4 '-ODA Polyimide Foams
DOI:10.1002/app.32899 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:2 AU: Liu, Xiao-Yan;Zhan, Mao-Sheng;Shen, Yan-Xia;Wang, Kai;
2:466:6 Preparation and properties of transparent conductive indium-tin-oxide/polyimide substrates via a sol-gel process
DOI:10.1016/j.tsf.2010.06.026 JN:THIN SOLID FILMS PY:2010 TC:6 AU: Li, Tung-Lin;Hsu, Steve Lien-Chung;
2:466:7 Synthesis, Characterization, Thermal and Optical Properties of Soluble Polyimides Derived from an Unsymmetrical Diamine
DOI:10.1002/app.32668 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:7 AU: Ghaemy, Mousa;Alizadeh, Raouf;Nasr, Farzaneh Hashemi;
2:466:8 Designing of molecular architecture, synthesis and properties of the next generation of state-of-the-art high-performance thermoplastic fluoro-poly(ether amide)s, (6F-PEA), fluoro-poly(ether amide-imide)s (6F-PEAI), and their co-polymers
DOI:10.1016/j.mseb.2009.10.023 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2010 TC:8 AU: Vora, Rohitkumar H.;
2:467:1 GaAs Passivation with Trioctylphosphine Sulfide for Enhanced Solar Cell Efficiency and Durability
DOI:10.1002/aenm.201100666 JN:ADVANCED ENERGY MATERIALS PY:2012 TC:18 AU: Sheldon, Matthew T.;Eisler, Carissa N.;Atwater, Harry A.;
2:467:2 Top-Down Fabrication of High Quality IIIV Nanostructures by Monolayer Controlled Sculpting and Simultaneous Passivation
DOI:10.1002/adfm.201202201 JN:ADVANCED FUNCTIONAL MATERIALS PY:2013 TC:3 AU: Naureen, Shagufta;Shahid, Naeem;Sanatinia, Reza;Anand, Srinivasan;
2:467:3 Self-Tiling Monocrystalline Silicon; a Process to Produce Electrically Connected Domains of Si and Microconcentrator Solar Cell Modules on Plastic Supports
DOI:10.1002/adma.201004533 JN:ADVANCED MATERIALS PY:2011 TC:7 AU: Knuesel, Robert J.;Jacobs, Heiko O.;
2:467:4 Periodically multilayered planar optical concentrator for photovoltaic solar cells
DOI:10.1063/1.4829641 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Solano, Manuel E.;Faryad, Muhammad;Monk, Peter B.;Mallouk, Thomas E.;Lakhtakia, Akhlesh;
2:467:5 Durability of dielectric fluids for concentrating photovoltaic systems
DOI:10.1016/j.solmat.2013.01.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2013 TC:4 AU: Victoria, M.;Askins, S.;Dominguez, C.;Anton, I.;Sala, G.;
2:467:6 3-D modeling of perimeter recombination in GaAs diodes and its influence on concentrator solar cells
DOI:10.1016/j.solmat.2013.08.009 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:1 AU: Ochoa, M.;Algora, C.;Espinet-Gonzalez, P.;Garcia, I.;
2:468:1 It Takes More Than an Imine: The Role of the Central Atom on the Electron-Accepting Ability of Benzotriazole and Benzothiadiazole Oligomers
DOI:10.1021/ja207978v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:27 AU: Patel, Dinesh G. (Dan);Feng, Fude;Ohnishi, Yu-ya;Abboud, Khalil A.;Hirata, So;Schanze, Kirk S.;Reynolds, John R.;
2:468:2 Modification of nonlinear optical dyes for dye sensitized solar cells: a new use for a familiar acceptor
DOI:10.1039/c0jm03774e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:8 AU: Patel, Dinesh G.;Bastianon, Nick M.;Tongwa, Paul;Leger, Janelle M.;Timofeeva, Tatiana V.;Bartholomew, Glenn P.;
2:468:3 Fluorine Substituted Conjugated Polymer of Medium Band Gap Yields 7% Efficiency in Polymer-Fullerene Solar Cells (vol 133, pg 4625, 2011)
DOI:10.1021/ja202672c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:2 AU: Price, Samuel C.;Stuart, Andrew C.;Yang, Liqiang;Zhou, Huaxing;You, Wei;
2:468:4 Solution-processable conjugated polymers containing alternating 1-alkyl-1,2,4-triazole and N=S=N links
DOI:10.1039/c0jm00254b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:2 AU: Wang, Mingfeng;Wudl, Fred;
2:469:1 Equilibrium and metastable phase transitions in silicon nitride at high pressure: A first-principles and experimental study
DOI:10.1103/PhysRevB.84.014113 JN:PHYSICAL REVIEW B PY:2011 TC:16 AU: Xu, Bin;Dong, Jianjun;McMillan, Paul F.;Shebanova, Olga;Salamat, Ashkan;
2:469:2 Atom-by-atom simulations of chemical vapor deposition of nanoporous hydrogenated silicon nitride
DOI:10.1063/1.3371680 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Houska, J.;Klemberg-Sapieha, J. E.;Martinu, L.;
2:469:3 Experimental and molecular dynamics study of the growth of crystalline TiO2
DOI:10.1063/1.4757010 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Houska, J.;Mraz, S.;Schneider, J. M.;
2:469:4 Parametrization of the Stillinger-Weber potential for Si/N/H system and its application to simulations of silicon nitride film deposition with SiH4/NH3
DOI:10.1063/1.4863841 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Deng, Xiaodi;Song, Yixu;Li, JinChun;Pu, Yikang;
2:469:5 Role of nitrogen in optical and electrical band gaps of hydrogenated/hydrogen free carbon nitride film
DOI:10.1016/j.tsf.2012.11.020 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Majumdar, Abhijit;Bogdanowicz, Robert;Mukherjee, Subrata;Hippler, Rainer;
2:469:6 Phase transition character and thermodynamic modeling of the P(6)over-bar and P(6)over-bar ' hexagonal Si-N system supplemented by first-principles calculations
DOI:10.1016/j.jallcom.2013.07.176 JN:JOURNAL OF ALLOYS AND COMPOUNDS PY:2013 TC:1 AU: Yu, Ben-Hai;Chen, Dong;
2:469:7 The structural correlation and mechanical properties in amorphous silicon nitride under densification
DOI:10.1016/j.jnoncrysol.2012.12.011 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2013 TC:1 AU: Van-Vinh Le;Thi-Trang Nguyen;Khac-Hung Pham;
2:469:8 Effect of ion bombarding energies on photocatalytic TiO2 films growing in a pulsed dual magnetron discharge
DOI:10.1116/1.3563612 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2011 TC:2 AU: Novak, Ondrej;Vlcek, Jaroslav;
2:469:9 Vibrational and dielectric properties of alpha-Si3N4 from density functional theory
DOI:10.1016/j.matchemphys.2014.03.058 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Legut, D.;Wdowik, U. D.;Kurtyka, P.;
2:470:1 Efficient organic photovoltaic tandem cells with novel transparent conductive oxide interlayer and poly (3-hexylthiophene): Fullerene active layers
DOI:10.1016/j.solmat.2009.08.008 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:29 AU: Sakai, Jun;Kawano, Kenji;Yamanari, Toshihiro;Taima, Tetsuya;Yoshida, Yuji;Fujii, Akihiko;Ozaki, Masanori;
2:470:2 Bulk heterojunction organic solar cells utilizing 1,4,8,11,15,18,22,25-octahexylphthalocyanine
DOI:10.1016/j.solmat.2011.06.039 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:16 AU: Hori, Tetsuro;Fukuoka, Naoki;Masuda, Tetsuya;Miyake, Yasuo;Yoshida, Hiroyuki;Fujii, Akihiko;Shimizu, Yo;Ozaki, Masanori;
2:470:3 Metal oxide buffer layer for improving performance of polymer solar cells
DOI:10.1016/j.apsusc.2010.03.118 JN:APPLIED SURFACE SCIENCE PY:2010 TC:3 AU: Zhao, Zhouying;Teki, Ranganath;Koratkar, Nikhil;Efstathiadis, Harry;Haldar, Pradeep;
2:470:4 Widening of harvesting layer and area of P3HT/PCBM bulk-heterojunction photovoltaic cells
DOI:10.1016/j.solmat.2010.04.069 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:2 AU: Kitami, Hisashi;Sakai, Takaaki;Hishinuma, Takaaki;Sanda, Atsushi;Kusano, Hiroyuki;Kitagawa, Masahiko;
2:470:5 Peroxidase-mediated synthesis of water-soluble fully sulfonated polyaniline
DOI:10.1016/j.synthmet.2012.02.019 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Roman, Paulina;Cruz-Silva, Rodolfo;Vazquez-Duhalt, Rafael;
2:471:1 Copolyfluorenes containing pendant bipolar groups: Synthesis, optoelectronic properties and applications
DOI:10.1039/c0jm00707b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:28 AU: Wu, Chia-Shing;Chen, Yun;
2:471:2 Synthesis and characterization of triple-azacrown ethers containing fluorene-cored derivatives: application as electron injection layer for significantly enhanced performance of PLEDs
DOI:10.1039/c3tc31301h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:6 AU: Wu, Chia-Shing;Lu, Huai-An;Lin, Ying-Ju;Chen, Yun;
2:471:3 Bipolar material with spiro-fluorenyl terminals: synthesis, characterization and application for enhancement of electrophosphorescence
DOI:10.1039/c2jm35490j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:11 AU: Wu, Chia-Shing;Wu, Juin-Wei;Chen, Yun;
2:471:4 Copolyfluorenes containing partially hydrolyzed phosphonate pendant groups: synthesis, characterization and application as electron injection layers for enhanced electroluminescence of PLEDs
DOI:10.1039/c4tc00758a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Wu, Chia-Shing;Chou, Chen-Yi;Chen, Yun;
2:471:5 Creating a Pseudometallic State of K+ by Intercalation into 18-Crown-6 Grafted on Polyfluorene as Electron Injection Layer for High Performance PLEDs with Oxygen- and Moisture-Stable Al Cathode
DOI:10.1021/ja111521p JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:17 AU: Lu, Hsin-Hung;Ma, Yun-Sheng;Yang, Neng-Jye;Lin, Guan-Hong;Wu, Yun-Chung;Chen, Show-An;
2:472:1 Hybrid polymer-CdS solar cell active layers formed by in situ growth of CdS nanoparticles
DOI:10.1007/s11051-011-0558-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:13 AU: Masala, S.;Del Gobbo, S.;Borriello, C.;Bizzarro, V.;La Ferrara, V.;Re, M.;Pesce, E.;Minarini, C.;De Crescenzi, M.;Di Luccio, T.;
2:472:2 Photovoltage method for the research of CdS and ZnO nanoparticles and hybrid MEH-PPV/nanoparticle structures
DOI:10.1007/s11051-014-2314-5 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2014 TC:0 AU: Touskova, J.;Tousek, J.;Rohovec, J.;Ruzicka, A.;Polonskyi, O.;Urbanek, P.;Kuritka, I.;
2:472:3 Investigation on the Optical and Surface Morphology of Conjugated Polymer MEH-PPV:ZnO Nanocomposite Thin Films
DOI:10.1155/2012/793679 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:4 AU: Yahya, Nurul Zayana;Rusop, Mohamad;
2:472:4 Electroluminescence Properties of Poly(3-hexylthiophene)-Cadmium Sulfide Nanoparticles Grown In Situ
DOI:10.1002/app.34774 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:7 AU: Borriello, C.;Masala, S.;Bizzarro, V.;Nenna, G.;Re, M.;Pesce, E.;Minarini, C.;Di Luccio, T.;
2:472:5 Investigation of the optical properties of polyfluorene/ZnO nanocomposites
DOI:10.1016/j.tsf.2011.01.205 JN:THIN SOLID FILMS PY:2011 TC:16 AU: Zou, J. P.;Le Rendu, P.;Musa, I.;Yang, S. H.;Dan, Y.;Ton-That, Cuong;Nguyen, T. P.;
2:473:1 Impact of regioregularity on thin-film transistor and photovoltaic cell performances of pentacene-containing polymers
DOI:10.1039/c2jm15483h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:10 AU: Jiang, Ying;Hong, Sanghyun;Oh, Joon Hak;Mondal, Rajib;Okamoto, Toshihiro;Verploegen, Eric;Toney, Michael F.;McGehee, Michael D.;Bao, Zhenan;
2:473:2 Synthesis of regioregular pentacene-containing conjugated polymers
DOI:10.1039/c1jm10643k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Okamoto, Toshihiro;Jiang, Ying;Becerril, Hector A.;Hong, Sanghyun;Senatore, Michelle L.;Tang, Ming L.;Toney, Michael F.;Siegrist, Theo;Bao, Zhenan;
2:473:3 Water soluble pentacene
DOI:10.1039/c3tc00278k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:2 AU: Pramanik, Chandrani;Li, Yushu;Singh, Anup;Lin, Weimin;Hodgson, Jennifer L.;Briggs, Jonathan B.;Ellis, Simka;Mueller, Peter;McGruer, Nicol E.;Miller, Glen P.;
2:473:4 2,9-Dibromopentacene: Synthesis and the role of substituent and symmetry on solid-state order
DOI:10.1016/j.synthmet.2010.09.025 JN:SYNTHETIC METALS PY:2010 TC:6 AU: Okamoto, Toshihiro;Reese, Colin;Senatore, Michelle L.;Tang, Ming L.;Jiang, Ying;Parkin, Sean R.;Bao, Zhenan;
2:474:1 Phase separation analysis of bulk heterojunctions in small-molecule organic solar cells using zinc-phthalocyanine and C-60
DOI:10.1103/PhysRevB.85.245314 JN:PHYSICAL REVIEW B PY:2012 TC:11 AU: Schuenemann, Christoph;Wynands, David;Wilde, Lutz;Hein, Moritz Philipp;Pfuetzner, Steffen;Elschner, Chris;Eichhorn, Klaus-Jochen;Leo, Karl;Riede, Moritz;
2:474:2 Dicyanovinyl substituted oligothiophenes: Thermal stability, mobility measurements, and performance in photovoltaic devices
DOI:10.1016/j.solmat.2011.06.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:15 AU: Wrackmeyer, M. S.;Hein, M.;Petrich, A.;Meiss, J.;Hummert, M.;Riede, M. K.;Leo, K.;
2:474:3 Quantum chemical approach toward the electronic, photophysical and charge transfer properties of the materials used in organic field-effect transistors
DOI:10.1016/j.matchemphys.2012.11.075 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2013 TC:10 AU: Chaudhry, Aijaz Rasool;Ahmed, R.;Irfan, Ahmad;Shaari, A.;Al-Sehemi, Abdullah G.;
2:474:4 Electronic properties and morphology of Cu-phthalocyanine-C-60 composite mixtures
DOI:10.1063/1.4861886 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Roth, Friedrich;Lupulescu, Cosmin;Arion, Tiberiu;Darlatt, Erik;Gottwald, Alexander;Eberhardt, Wolfgang;
2:475:1 Synthesis and characterization of low-band-gap poly(thienylenevinylene) derivatives for polymer solar cells
DOI:10.1039/c1jm10593k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Jang, Soo-Young;Lim, Bogyu;Yu, Byung-Kwan;Kim, Juhwan;Baeg, Kang-Jun;Khim, DongYoon;Kim, Dong-Yu;
2:475:2 Highly Emissive and Electrochemically Stable Thienylene Vinylene Oligomers and Copolymers: An Unusual Effect of Alkylsulfanyl Substituents (vol 20, pg 1661, 2010)
DOI:10.1002/adfm.200902300 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:0 AU: Jeeva, Shehzad;Lukoyanova, Olena;Karas, Athan;Dadvand, Afshin;Rosei, Federico;Perepichka, Dmitrii F.;
2:475:3 Theoretical design of polythienylenevinylene derivatives for improvements of light-emitting and photovoltaic performances
DOI:10.1039/c1jm14956c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:18 AU: Jiang, Yuqian;Peng, Qian;Gao, Xing;Shuai, Zhigang;Niu, Yingli;Lin, Sheng Hsien;
2:475:4 Poly(thienylenevinylene) prepared by ring-opening metathesis polymerization: Performance as a donor in bulk heterojunction organic photovoltaic devices
DOI:10.1016/j.polymer.2010.01.049 JN:POLYMER PY:2010 TC:16 AU: Horie, Masaki;Shen, I-Wen;Tuladhar, Sachetan M.;Leventis, Henry;Haque, Saif A.;Nelson, Jenny;Saunders, Brian R.;Turner, Michael L.;
2:476:1 Enhanced conductivity and photoresponse at a rubrene single-crystal-PCBM film interface
DOI:10.1039/c4tc00051j JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:2 AU: Pinto, Rui M.;Macoas, Ermelinda M. S.;Alves, Helena;
2:476:2 Extension of the spectral responsivity of the photocurrent in solution-processed small molecule composite via a charge transfer excitation
DOI:10.1063/1.3655681 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Hernandez-Sosa, Gerardo;Tong, Minghong;Coates, Nelson E.;Valouch, Sebastian;Moses, Daniel;
2:476:3 High Photoconductive Responsivity in Solution-Processed Polycrystalline Organic Composite Films
DOI:10.1002/adfm.201002518 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:13 AU: Hernandez-Sosa, Gerardo;Coates, Nelson. E.;Valouch, Sebastian;Moses, Daniel;
2:477:1 Sol-Gel Processed GZO Thin Film from Low Concentration Solution and Investigating GZO/Cs2CO3 Bilayer
DOI:10.1007/s13391-013-3140-0 JN:ELECTRONIC MATERIALS LETTERS PY:2014 TC:2 AU: Salari, Saeid;Ahmadi, Mehdi;Mirabbaszadeh, Kavoos;
2:477:2 Flexible multilayer inverted polymer light-emitting diodes with a gravure contact printed Cs2CO3 electron injection layer
DOI:10.1063/1.3560484 JN:APPLIED PHYSICS LETTERS PY:2011 TC:7 AU: Chung, Dae-Young;Leem, Dong-Seok;Bradley, Donal D. C.;Campbell, Alasdair J.;
2:477:3 Study of the Cesium Carbonate (Cs2CO3) Inter Layer Fabricated by Solution Process on P3HT:PCBM Solar Cells
DOI:10.1080/15421406.2011.563221 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:8 AU: Park, Yongju;Noh, Seunguk;Lee, Donggu;Kim, Junyoung;Lee, Changhee;
2:477:4 Multi-wall carbon nanotube coating of fluorine-doped tin oxide as an electrode surface modifier for polymer solar cells
DOI:10.1016/j.solmat.2013.10.022 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:6 AU: Capasso, A.;Salamandra, L.;Chou, A.;Di Carlo, A.;Motta, N.;
2:478:1 Fabrication and Conductive Properties of Multilayered Ultrathin Films Designed by Layer-by-Layer Assembly of Water-Soluble Fullerenes
DOI:10.1021/la101157a JN:LANGMUIR PY:2010 TC:9 AU: Masuda, Kohji;Abe, Takefumi;Benten, Hiroaki;Ohkita, Hideo;Ito, Shinzaburo;
2:478:2 Photoelectrochemical cells based on LB films of fullerene-thiophene derived dyads
DOI:10.1016/j.synthmet.2011.05.033 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Lewandowska, Kornelia;Bednarski, Waldemar;Milczarek, Grzegorz;Waplak, Stefan;Graja, Andrzej;Park, Eun Young;Kim, Tae-Dong;Lee, Kwang-Sup;
2:478:3 Spectral studies of molecular orientation in corrole-fullerene thin films
DOI:10.1016/j.synthmet.2013.05.015 JN:SYNTHETIC METALS PY:2013 TC:4 AU: Bursa, B.;Wrobel, D.;Lewandowska, K.;Graja, A.;Grzybowski, M.;Gryko, D. T.;
2:478:4 Optical signal demultiplexing and conversion in the fullerene-oligothiophene-CdS system
DOI:10.1016/j.apsusc.2014.07.005 JN:APPLIED SURFACE SCIENCE PY:2014 TC:1 AU: Lewandowska, Kornelia;Podborska, Agnieszka;Kwolek, Przemyslaw;Kim, Tae-Dong;Lee, Kwang-Sup;Szacilowski, Konrad;
2:478:5 Designed Magnetic Multilayer Thin Films Fabricated via the Layer-by-Layer Assembly of Polycyanofullerenes
DOI:10.1002/app.40681 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:1 AU: Luo, Jin;Wang, Yanhua;Ren, Rong;Sun, Weilin;Shen, Zhiquan;
2:478:6 Spectroscopic characterization of selected fullerene-organic chromophore Langmuir-Blodgett films
DOI:10.1016/j.optmat.2012.01.040 JN:OPTICAL MATERIALS PY:2012 TC:2 AU: Lewandowska, Kornelia;Wrobel, Danuta;Graja, Andrzej;
2:478:7 Absorption and emission properties of the corrole-fullerene dyad
DOI:10.1016/j.synthmet.2013.01.014 JN:SYNTHETIC METALS PY:2013 TC:5 AU: Lewandowska, Kornelia;Barszcz, Boleslaw;Graja, Andrzej;Bursa, Bartosz;Biadasz, Andrzej;Wrobel, Danuta;Bednarski, Waldemar;Waplak, Stefan;Grzybowski, Marek;Gryko, Daniel T.;
2:478:8 Electronic excitations of the fullerene-thiophene-derived dyads
DOI:10.1016/j.synthmet.2010.11.024 JN:SYNTHETIC METALS PY:2011 TC:7 AU: Barszcz, Bolestaw;Laskowska, Barbara;Graja, Andrzej;Park, Eun Young;Kim, Tae-Dong;Lee, Kwang-Sup;
2:479:1 Organic Triplet Excited States of Gold(I) Complexes with Oligo (o- or m-phenyleneethynylene) Ligands: Conjunction of Steady-State and Time-Resolved Spectroscopic Studies on Exciton Delocalization and Emission Pathways
DOI:10.1021/ja205831v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:31 AU: Lu, Wei;Kwok, Wai-Ming;Ma, Chensheng;Chan, Chris Tsz-Leung;Zhu, Ming-Xin;Che, Chi-Ming;
2:479:2 Harvesting Highly Electronically Excited Energy to Triplet Manifolds: State-Dependent Intersystem Crossing Rate in Os(II) and Ag(I) Complexes
DOI:10.1021/ja2107788 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:21 AU: Hsu, Cheng-Chih;Lin, Chao-Chen;Chou, Pi-Tai;Lai, Chin-Hung;Hsu, Chien-Wei;Lin, Chen-Huey;Chi, Yun;
2:479:3 Four emission bands from a mixed-ligand iridium complex IrQ(PPY)(2) at room temperature
DOI:10.1016/j.optmat.2014.02.031 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Tsuboi, Taiju;Huang, Duo-Fong;Chow, Tahsin J.;Huang, Wei;
2:479:4 Subpicosecond Intersystem Crossing in Mono- and Di(organophosphine)gold(I) Naphthalene Derivatives in Solution
DOI:10.1021/ja303592q JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:16 AU: Vogt, R. Aaron;Gray, Thomas G.;Crespo-Hernandez, Carlos E.;
2:479:5 Structural characteristics of iridium dual-emitter organometallic compound
DOI:10.1557/jmr.2014.337 JN:JOURNAL OF MATERIALS RESEARCH PY:2014 TC:0 AU: Polosan, Silviu;Ciobotaru, Iulia Corina;Enculescu, Ionut;Ciobotaru, Constantin Claudiu;
2:479:6 Selective Synthesis of Facial and Meridianal Isomers of Alq3
DOI:10.1080/15421406.2010.495672 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:8 AU: Tsuboi, Taiju;Torii, Yasuko;
2:479:7 Cathodoluminescence and Raman analysis of the finite-size effects in mer-Alq(3) structure
DOI:10.1016/j.optmat.2012.08.017 JN:OPTICAL MATERIALS PY:2012 TC:3 AU: Radu, I. C.;Polosan, S.;Enculescu, I.;Iovu, H.;
2:479:8 Color tuning of organic light-emitting diodes by adjusting the ligands of heteroleptic iridium(III) complexes
DOI:10.1016/j.jcrysgro.2011.01.064 JN:JOURNAL OF CRYSTAL GROWTH PY:2011 TC:4 AU: Seo, Ji Hyun;Kim, In Jun;Kim, Young Sik;Kim, Young Kwan;
2:480:1 Pure blue light-emitting fluorene-based conjugated polymer with excellent thermal, photophysical, and electroluminescent properties
DOI:10.1007/s10853-013-7473-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:3 AU: Yang, Cheng;Song, Hong-Song;Liu, Da-Bo;
2:480:2 Synthesis, characterization, morphological behaviour, and photo- and electroluminescence of highly blue-emitting fluorene-carbazole copolymers with alkyl side-chains of different lengths
DOI:10.1039/c3tc00060e JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Sergent, Alessandra;Zucchi, Gael;Pansu, Robert B.;Chaigneau, Marc;Geffroy, Bernard;Tondelier, Denis;Ephritikhine, Michel;
2:480:3 Investigation of carrier injection mechanism in small molecular organic light emitting device with a mixed single organic layer
DOI:10.1007/s00339-010-6084-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:2 AU: Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:480:4 Synthesis and properties of blue light electroluminescent conjugated copolymer based on fluorene and carbazole with an alkyl functional group at the 9-position
DOI:10.1007/s10853-011-6170-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:6 AU: Yang, Cheng;Song, Hong-song;Liu, Da-bo;
2:480:5 Improvement of roll-off in power efficiency for mixed single layer organic light emitting devices by co-doping
DOI:10.1016/j.synthmet.2012.05.017 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Lou, Yanhui;Geng, Zhenduo;Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:480:6 Improved Performance of Top-Emission Organic Light Emitting Device With a Mixed Single Layer
DOI:10.1080/15421400903579655 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:2 AU: Wang, Zhaokui;Naka, Shigeki;Okada, Hiroyuki;
2:481:1 Trapping of electrons in metal oxide-polymer memory diodes in the initial stage of electroforming
DOI:10.1063/1.3520517 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Bory, Benjamin F.;Meskers, Stefan C. J.;Janssen, Rene A. J.;Gomes, Henrique L.;de Leeuw, Dago M.;
2:481:2 Opto-electronic characterization of electron traps upon forming polymer oxide memory diodes
DOI:10.1063/1.3628301 JN:APPLIED PHYSICS LETTERS PY:2011 TC:5 AU: Chen, Qian;Bory, Benjamin F.;Kiazadeh, Asal;Rocha, Paulo R. F.;Gomes, Henrique L.;Verbakel, Frank;De Leeuw, Dago M.;Meskers, Stefan C. J.;
2:481:3 Relation between the electroforming voltage in alkali halide-polymer diodes and the bandgap of the alkali halide
DOI:10.1063/1.4903831 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Bory, Benjamin F.;Wang, Jingxin;Gomes, Henrique L.;Janssen, Rene A. J.;De Leeuw, Dago M.;Meskers, Stefan C. J.;
2:481:4 Electrical characteristics of an organic bistable device using an Al/Alq(3)/nanostructured MoO3/Alq(3)/p(+)-Si structure
DOI:10.1063/1.3299265 JN:APPLIED PHYSICS LETTERS PY:2010 TC:9 AU: Chang, Tzu-Yueh;Cheng, You-Wei;Lee, Po-Tsung;
2:481:5 The role of internal structure in the anomalous switching dynamics of metal-oxide/polymer resistive random access memories
DOI:10.1063/1.4799093 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Rocha, Paulo R. F.;Kiazadeh, Asal;De Leeuw, Dago M.;Meskers, Stefan C. J.;Verbakel, Frank;Taylor, David M.;Gomes, Henrique L.;
2:481:6 Optical characterization of femtosecond laser induced active channel waveguides in lithium fluoride crystals
DOI:10.1063/1.4861636 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Chiamenti, I.;Bonfigli, F.;Gomes, A. S. L.;Michelotti, F.;Montereali, R. M.;Kalinowski, H. J.;
2:482:1 Synthesis and characterization. of PEDOT particles in aqueous dispersion of pi-conjugated polyelectrolyte
DOI:10.1016/j.synthmet.2014.03.012 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Zhang, Youxiong;Xin, Mingliang;Lin, Weihong;Yu, Zhiwei;Peng, Jun;Xu, Kai;Chen, Mingcai;
2:482:2 Ammonia sensing by hydrochloric acid doped poly(m-aminophenol)-silver nanocomposite
DOI:10.1007/s10853-010-5165-1 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:7 AU: Kar, Pradip;Pradhan, Narayan C.;Adhikari, Basudam;
2:482:3 Polyaniline/multiwall carbon nanotube nanocomposite for detecting aromatic hydrocarbon vapors
DOI:10.1007/s10853-010-5013-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:9 AU: Li, Wei;Kim, Dojin;
2:482:4 Electrospun PEDOT:PSS/carbon nanotubes/PVP nanofibers as chemiresistors for aromatic volatile organic compounds
DOI:10.1016/j.synthmet.2012.06.028 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Choi, Jaewon;Park, Dong Wha;Shim, Sang Eun;
2:482:5 Induced doping by sodium ion in poly(m-aminophenol) through the functional groups
DOI:10.1016/j.synthmet.2010.05.015 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Kar, Pradip;Pradhan, Narayan C.;Adhikari, Basudam;
2:482:6 Electropolymerization of m-aminophenol on expanded graphite and its electrochemical properties
DOI:10.1016/j.synthmet.2011.08.038 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Kong, Yong;Zhou, Yongsheng;Shan, Xueling;Jiang, Yunyang;Yao, Chao;
2:482:7 Ammonia gas-sensing characteristics of fluorescence-based poly(2-(acetoacetoxy)ethyl methacrylate) thin films
DOI:10.1016/j.jcis.2011.11.074 JN:JOURNAL OF COLLOID AND INTERFACE SCIENCE PY:2012 TC:2 AU: He, Jing;Zhang, Tong-Yi;Chen, Guohua;
2:482:8 Robust PEDOT films by covalent bonding to substrates using in tandem sol-gel, surface initiated free-radical and redox polymerization
DOI:10.1039/c1jm12563j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:3 AU: Sadekar, Anand G.;Mohite, Dhairyashil;Mulik, Sudhir;Chandrasekaran, Naveen;Sotiriou-Leventis, Chariklia;Leventis, Nicholas;
2:483:1 Spectral response of fiber-based organic photovoltaics
DOI:10.1016/j.solmat.2011.10.033 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:7 AU: Li, Yuan;Huang, Huihui;Wang, Mingjun;Nie, Wanyi;Huang, Wenxiao;Fang, Guojia;Carroll, David L.;
2:483:2 Influence on open-circuit voltage by optical heterogeneity in three-dimensional organic photovoltaics
DOI:10.1103/PhysRevB.84.085206 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Li, Yuan;Wang, Mingjun;Huang, Huihui;Nie, Wanyi;Li, Qi;Peterson, Eric D.;Coffin, Robert;Fang, Guojia;Carroll, David L.;
2:483:3 Tube-based geometries for organic photovoltaics
DOI:10.1063/1.3453757 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Li, Yuan;Peterson, Eric D.;Huang, Huihui;Wang, Mingjun;Xue, Dan;Nie, Wanyi;Zhou, Wei;Carroll, David L.;
2:483:4 Multi-layer deposition of conformal, transparent, conducting oxide films for device applications
DOI:10.1016/j.tsf.2012.01.008 JN:THIN SOLID FILMS PY:2012 TC:2 AU: Nie, Wanyi;Li, Yuan;Zhou, Wei;Liu, Jiwen;Carroll, David L.;
2:484:1 Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device characteristics
DOI:10.1103/PhysRevB.86.235206 JN:PHYSICAL REVIEW B PY:2012 TC:3 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;
2:484:2 A kinetic Monte Carlo model with improved charge injection model for the photocurrent characteristics of organic solar cells
DOI:10.1063/1.4811337 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:5 AU: Kipp, Dylan;Ganesan, Venkat;
2:484:3 ORGANIC LIGHT-EMITTING DIODES Bright design
DOI:10.1038/nmat3688 JN:NATURE MATERIALS PY:2013 TC:6 AU: Groves, Chris;
2:484:4 Device simulation of low-band gap polymer solar cells: Influence of electron-hole pair dissociation and decay rates on open-circuit voltage
DOI:10.1063/1.3494527 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Shang, Yuan;Li, Qikai;Meng, Lingyi;Wang, Dong;Shuai, Zhigang;
2:485:1 Utilizing Photocurrent Transients for Dithiolene-Based Photodetection: Stepwise Improvements at Communications Relevant Wavelengths
DOI:10.1021/ja304228c JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:8 AU: Dalgleish, Simon;Matsushita, Michio M.;Hu, Laigui;Li, Bo;Yoshikawa, Hirofumi;Awaga, Kunio;
2:485:2 Optoelectronic conversion by polarization current, triggered by space charges at organic-based interfaces
DOI:10.1063/1.3454915 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Hu, Laigui;Noda, Yukiko;Ito, Hiroshi;Kishida, Hideo;Nakamura, Arao;Awaga, Kunio;
2:485:3 Indole-substituted nickel dithiolene complexes in electronic and optoelectronic devices
DOI:10.1039/c1jm12466h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:13 AU: Dalgleish, Simon;Labram, John G.;Li, Zhe;Wang, Jianpu;McNeill, Christopher R.;Anthopoulos, Thomas D.;Greenham, Neil C.;Robertson, Neil;
2:485:4 Effect of photoinduced charge displacement on organic optoelectronic conversion
DOI:10.1103/PhysRevB.84.205329 JN:PHYSICAL REVIEW B PY:2011 TC:2 AU: Hu, Laigui;Iwasaki, Akito;Suizu, Rie;Noda, Yukiko;Li, Bo;Yoshikawa, Hirofumi;Matsushita, Michio M.;Awaga, Kunio;Ito, Hiroshi;
2:485:5 A molybdenum dithiolene complex as a potential photosensitiser for photoelectrochemical cells
DOI:10.1016/j.ijhydene.2012.12.015 JN:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY PY:2013 TC:1 AU: Mark-Lee, Wun-Fui;Kim-Hang Ng;Minggu, Lorna Jeffery;Umar, Akrajas Ali;Kassim, Mohammad B.;
2:485:6 Probing magnetic interactions in columnar phases of a paramagnetic gold dithiolene complex
DOI:10.1039/c0jm02171g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:18 AU: Perochon, Romain;Davidson, Patrick;Rouziere, Stephan;Camerel, Franck;Piekara-Sady, Lidia;Guizouarn, Thierry;Fourmigue, Marc;
2:486:1 Photo-response of a P3HT:PCBM blend in metal-insulator-semiconductor capacitors
DOI:10.1063/1.4901099 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Devynck, M.;Rostirolla, B.;Watson, C. P.;Taylor, D. M.;
2:486:2 Design of organic tandem solar cells using PCPDTBT: PC61BM and P3HT: PC71BM
DOI:10.1063/1.3448271 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:16 AU: Namkoong, Gon;Boland, Patrick;Lee, Keejoo;Dean, James;
2:486:3 Analytical modeling of organic solar cells and photodiodes
DOI:10.1063/1.3643126 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Altazin, S.;Clerc, R.;Gwoziecki, R.;Pananakakis, G.;Ghibaudo, G.;Serbutoviez, C.;
2:486:4 Demonstration of interfacial charge transfer in an organic charge injection device
DOI:10.1063/1.3665190 JN:APPLIED PHYSICS LETTERS PY:2011 TC:3 AU: Watson, C. P.;Taylor, D. M.;
2:486:5 Modelling Degradation in Organic Solar Cell
DOI:10.1166/jctn.2014.3599 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2014 TC:1 AU: Bhuktare, Swapnil;Ghosh, Bahniman;Bishnoi, Bhupesh;
2:486:6 Experimental and modeling study of the capacitance-voltage characteristics of metal-insulator-semiconductor capacitor based on pentacene/parylene
DOI:10.1016/j.tsf.2011.02.014 JN:THIN SOLID FILMS PY:2011 TC:5 AU: Wondmagegn, W. T.;Satyala, N. T.;Mejia-Silva, I.;Mao, D.;Gowrisanker, S.;Alshareef, H. N.;Stiegler, H. J.;Quevedo-Lopez, M. A.;Pieper, R. J.;Gnade, B. E.;
2:487:1 Efficient hybrid organic/inorganic photovoltaic cells utilizing n-type pentacene and intrinsic/p-type hydrogenated amorphous silicon
DOI:10.1016/j.solmat.2011.04.014 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2011 TC:11 AU: Chao, Ching-Hsun;Chan, Chien-Hung;Wu, Fu-Chiao;Huang, Jung-Jie;Lien, Shui Yang;Weng, Ko-Wei;Cheng, Horng-Long;
2:487:2 Efficient hybrid polymer/titania solar cells sensitized with carboxylated polymer dye
DOI:10.1016/j.solmat.2009.12.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2010 TC:17 AU: Bhongale, Chetan Jagdish;Thelakkat, Mukundan;
2:487:3 Characterization of charge injection and photovoltaic effects of hybrid inorganic-organic GaN/pentacene heterostructures
DOI:10.1063/1.4824985 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Slawinski, M.;Weingarten, M.;Axmann, S.;Urbain, F.;Fahle, D.;Heuken, M.;Vescan, A.;Kalisch, H.;
2:487:4 Electrical and photosensing performance of heterojunction device based on organic thin film structure
DOI:10.1016/j.synthmet.2013.04.030 JN:SYNTHETIC METALS PY:2013 TC:7 AU: Farag, A. A. M.;Osiris, W. G.;Ammar, A. H.;Mansour, A. M.;
2:488:1 Study of the effect of the doped poly(3,4-ethylenedioxythiophene): poly(styrene sulfonate) polymeric anode on the organic light-emitting diode performances
DOI:10.1016/j.tsf.2012.03.128 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Del Mauro, Anna De Girolamo;Nenna, Giuseppe;Villani, Fulvia;Minarini, Carla;
2:488:2 Fabrication of Light Extraction Efficiency of Organic Light-Emitting Diodes with 3D Aspherical Microlens by Using Dry Etching Process
DOI:10.1155/2013/797534 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:1 AU: Chen, Y. C.;Pan, C. T.;Hsieh, C. C.;Su, C. Y.;Wu, H. C.;Li, W. C.;
2:488:3 Novel organic LED structures based on a highly conductive polymeric photonic crystal electrode
DOI:10.1088/0957-4484/24/31/315206 JN:NANOTECHNOLOGY PY:2013 TC:4 AU: Petti, Lucia;Rippa, Massimo;Capasso, Rossella;Nenna, Giuseppe;Del Mauro, Anna De Girolamo;Maglione, Maria Grazia;Minarini, Carla;
2:488:4 Analysis of the Performances of Organic Light-Emitting Devices with a Doped or an Undoped Polyaniline-Poly(4-styrenesulfonate) Hole-Injection Layer
DOI:10.1002/app.34773 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:4 AU: Del Mauro, Anna De Girolamo;Nenna, Giuseppe;Bizzarro, Valentina;Grimaldi, Immacolata Angelica;Villani, Fulvia;Minarini, Carla;
2:488:5 Study of Nanostructured Polymeric Composites Used for Organic Light Emitting Diodes and Organic Solar Cells
DOI:10.1155/2012/190290 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:2 AU: Nguyen Nang Dinh;Do Ngoc Chung;Tran Thi Thao;Hui, David;
2:488:6 Optical Properties of Polystyrene-ZnO Nanocomposite Scattering Layer to Improve Light Extraction in Organic Light-Emitting Diode
DOI:10.1155/2012/319398 JN:JOURNAL OF NANOMATERIALS PY:2012 TC:3 AU: Nenna, G.;Del Mauro, A. De Girolamo;Massera, E.;Bruno, A.;Fasolino, T.;Minarini, C.;
2:488:7 The Effect of Anisotropy on Light Extraction of Organic Light-Emitting Diodes with Photonic Crystal Structure
DOI:10.1155/2013/969120 JN:JOURNAL OF NANOMATERIALS PY:2013 TC:4 AU: Xu, Wei;Li, Yang;
2:489:1 A molecular insight on the supramolecular assembly of thiophene polymers
DOI:10.1039/c2jm30550j JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:9 AU: Suryanarayanan, Chandrasekaran;Ravindran, Ezhakudiyan;Ananthakrishnan, Soundaram Jeevarathinam;Somanathan, Narayanasastri;Mandal, Asit Baran;
2:489:2 Photo-induced amplification of readout contrast in nanoscale data storage
DOI:10.1039/c2jm14923k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:7 AU: Ye, Changqing;Li, Mingzhu;Luo, Jia;Chen, Linfeng;Tang, Zhengming;Pei, Jian;Jiang, Lei;Song, Yanlin;Zhu, Daoben;
2:489:3 Temperature Dependence of Spin-Selective Charge Transfer Pathways in Donor-Bridge-Acceptor Molecules with Oligomeric Fluorenone and p-Phenylethynylene Bridges
DOI:10.1021/ja1095649 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:6 AU: Scott, Amy M.;Wasielewski, Michael R.;
2:489:4 Two-photon-induced hot-electron transfer to a single molecule in a scanning tunneling microscope
DOI:10.1103/PhysRevB.82.085444 JN:PHYSICAL REVIEW B PY:2010 TC:15 AU: Wu, S. W.;Ho, W.;
2:489:5 Programmed High-Hole-Mobility Supramolecular Polymers from Disk-Shaped Molecules
DOI:10.1002/adfm.201001072 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:10 AU: Zhang, Wei;Ochi, Kenji;Fujiki, Michiya;Naito, Masanobu;Ishikawa, Masaaki;Kaneto, Kei-ichi;Takashima, Wataru;Saeki, Akinori;Seki, Shu;
2:490:1 GW calculations on La3Ta0.5Ga5.5O14 with oxygen vacancies at non-equivalent sites
DOI:10.1016/j.commatsci.2011.10.036 JN:COMPUTATIONAL MATERIALS SCIENCE PY:2012 TC:0 AU: Chung, Chan-Yeup;Yaokawa, Ritsuko;Mizuseki, Hiroshi;Kawazoe, Yoshiyuki;
2:490:2 Electrical conduction mechanism in nonstoichiometric La3Ta0.5Ga5.5O14
DOI:10.1063/1.3478772 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:7 AU: Yaokawa, Ritsuko;Uda, Satoshi;Kimura, Hiromitsu;Aota, Katsumi;
2:490:3 Atomistic configurational effects on piezoelectric properties of La3Ta0.5Ga5.5O14 and a new piezoelectric crystal design
DOI:10.1016/j.actamat.2011.07.011 JN:ACTA MATERIALIA PY:2011 TC:2 AU: Chung, Chan-Yeup;Yaokawa, Ritsuko;Mizuseki, Hiroshi;Kawazoe, Yoshiyuki;
2:490:4 First principles calculation of La3Ta0.5Ga5.5O14 crystal with acceptor-like intrinsic point defects
DOI:10.1063/1.3514008 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Chung, Chan-Yeup;Yaokawa, Ritsuko;Mizuseki, Hiroshi;Uda, Satoshi;Kawazoe, Yoshiyuki;
2:490:5 First principles calculations of oxygen vacancy in langatate crystal
DOI:10.1016/j.ssi.2011.10.027 JN:SOLID STATE IONICS PY:2012 TC:0 AU: Chung, Chan-Yeup;Yaokawa, Ritsuko;Mizuseki, Hiroshi;Kawazoe, Yoshiyuki;
2:490:6 Electrical conduction mechanism in La3Ta0.5Ga5.3Al0.2O14 single crystals
DOI:10.1063/1.4839955 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Yaokawa, Ritsuko;Aota, Katsumi;Uda, Satoshi;
2:491:1 Electronic structure of low work function electrodes modified by C16H33SH
DOI:10.1016/j.materresbull.2014.05.010 JN:MATERIALS RESEARCH BULLETIN PY:2014 TC:0 AU: Lee, Hyunbok;Cho, Sang Wan;Park, Sang Han;Cho, Mann-Ho;Yi, Yeonjin;
2:491:2 The reduction of effective doping with extra dopant: n-Type doping of tris(8-hydroxyquinoline) aluminum with K
DOI:10.1063/1.3686704 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:7 AU: Lee, Hyunbok;Cho, Sang Wan;Lee, Jeihyun;Jeon, Pyung Eun;Jeong, Kwangho;Lee, Jin Woo;Yi, Yeonjin;
2:491:3 In situ ellipsometry - A powerful tool for monitoring alkali doping of organic thin films
DOI:10.1016/j.tsf.2014.02.101 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Haidu, F.;Ludemann, M.;Schafer, P.;Gordan, O. D.;Zahn, D. R. T.;
2:491:4 Electron injection in magnesium-doped organic light-emitting diodes
DOI:10.1063/1.4753796 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Kim, Kisoo;Hong, Kihyon;Lee, Illhwan;Kim, Sungjun;Lee, Jong-Lam;
2:491:5 In situ ellipsometric study of copper growth on silicon
DOI:10.1016/j.tsf.2012.02.060 JN:THIN SOLID FILMS PY:2012 TC:3 AU: Haidu, Francisc;Gordan, Ovidiu D.;Zahn, Dietrich R. T.;
2:491:6 Alkali Metal Doped Organic Molecules on Insulators: Charge Impact on the Optical Properties
DOI:10.1002/adma.201000891 JN:ADVANCED MATERIALS PY:2010 TC:5 AU: Dienel, Thomas;Krause, Andreas;Alle, Ronald;Forker, Roman;Meerholz, Klaus;Fritz, Torsten;
2:492:1 Extrusion Printing of Flexible Electrically Conducting Carbon Nanotube Networks
DOI:10.1002/adfm.201200724 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:12 AU: Pidcock, Geoffrey C.;Panhuis, Marc In Het;
2:492:2 Impedance Analysis of Gellan Gum-Poly(vinyl pyrrolidone) Membranes
DOI:10.1080/15421406.2014.968035 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Majid, S. R.;Sabadini, R. C.;Kanicki, J.;Pawlicka, A.;
2:492:3 Gellan-Adipic Acid Blends Crosslinked by Means of a Dehydrothermal Treatment
DOI:10.1002/app.32277 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Barbani, Niccoletta;Coluccio, Maria Laura;Cristallini, Caterina;Guerra, Giulio D.;Rosellini, Elisabetta;
2:492:4 Biodegradable blends based on polyvinyl pyrrolidone for insulation purposes
DOI:10.1002/app.35483 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: El-Houssiny, A. S.;Ward, A. A. M.;Mansour, S. H.;Abd-El-Messieh, S. L.;
2:492:5 Characteristics of gellan gum-LiCF3SO3 polymer electrolytes
DOI:10.1016/j.ssi.2012.03.019 JN:SOLID STATE IONICS PY:2012 TC:10 AU: Noor, I. S. M.;Majid, S. R.;Arof, A. K.;Djurado, D.;Claro Neto, S.;Pawlicka, A.;
2:493:1 Durable polyisobutylene edge sealants for organic electronics and electrochemical devices
DOI:10.1016/j.solmat.2011.12.012 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2012 TC:10 AU: Kim, Yongjin;Kim, Hyungchul;Graham, Samuel;Dyer, Aubrey;Reynolds, John R.;
2:493:2 Gas diffusion barrier characteristics of Al2O3/alucone films formed using trimethylaluminum, water and ethylene glycol for organic light emitting diode encapsulation
DOI:10.1016/j.tsf.2013.05.017 JN:THIN SOLID FILMS PY:2013 TC:6 AU: Park, Minwoo;Oh, Seungsik;Kim, Hoonbae;Jung, Donggeun;Choi, Dongwon;Park, Jin-Seong;
2:493:3 Low-cost and reliable thin film encapsulation for organic light emitting diodes using magnesium fluoride and zinc sulfide
DOI:10.1016/j.tsf.2010.11.036 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Liao, Yingjie;Yu, Fangfang;Long, Li;Wei, Bin;Lu, Lin;Zhang, Jianhua;
2:493:4 Radio frequency plasma power dependence of the moisture permeation barrier characteristics of Al2O3 films deposited by remote plasma atomic layer deposition
DOI:10.1063/1.4829031 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:2 AU: Jung, Hyunsoo;Choi, Hagyoung;Jeon, Heeyoung;Lee, Sanghun;Jeon, Hyeongtag;
2:493:5 Evaluation of thin film passivation using inorganic Mg-Zn-F heterointerface for polymer light emitting diode
DOI:10.1016/j.tsf.2009.12.094 JN:THIN SOLID FILMS PY:2010 TC:2 AU: Kim, Do-Eok;Kang, Byoung-Ho;Hong, Seok-Min;Lee, Sung-Youp;Shin, Byong-Wook;Kim, Kyu-Jin;Yeom, Se-Hyuk;Lee, Jung-Hee;Kwon, Dae-Hyuk;Lee, Hyeong-Rag;Kang, Shin-Won;
2:493:6 Water permeation through organic-inorganic multilayer thin films
DOI:10.1016/j.tsf.2012.07.017 JN:THIN SOLID FILMS PY:2012 TC:7 AU: Seo, Seung-Woo;Jung, Eun;Lim, Chankyu;Chae, Heeyeop;Cho, Sung M.;
2:494:1 Effect of annealing on the growth dynamics of ZnPc LB thin film and its surface morphology
DOI:10.1063/1.4891177 JN:AIP ADVANCES PY:2014 TC:1 AU: Roy, Dhrubojyoti;Das, Nayan Mani;Gupta, P. S.;
2:494:2 Structural morphology study of Cd2+ induced Langmuir Blodgett multilayer films of arachidic acid
DOI:10.1016/j.apsusc.2013.01.212 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Roy, Dhrubojyoti;Das, Nayan Mani;Gupta, P. S.;
2:494:3 Diffusion mediated agglomeration of CdS nanoparticles via Langmuir-Blodgett technique
DOI:10.1016/j.materresbull.2013.06.062 JN:MATERIALS RESEARCH BULLETIN PY:2013 TC:2 AU: Das, Nayan Mani;Roy, Dhrubojyoti;Gupta, P. S.;
2:494:4 Effect of self-affine fractal characteristics of surfaces on wetting
DOI:10.1063/1.3309690 JN:APPLIED PHYSICS LETTERS PY:2010 TC:6 AU: Sarkar, S.;Patra, S.;Gayathri, N.;Banerjee, S.;
2:494:5 Iron sulphide formation in the ferric stearate Langmuir-Blodgett films
DOI:10.1016/j.apsusc.2010.09.042 JN:APPLIED SURFACE SCIENCE PY:2011 TC:2 AU: Kundu, S.;Islam, A. K. M. Maidul;Mukherjee, M.;
2:495:1 Laser micro/nano patterning of hydrophobic surface by contact particle lens array
DOI:10.1016/j.apsusc.2011.08.089 JN:APPLIED SURFACE SCIENCE PY:2011 TC:13 AU: Khan, Ashfaq;Wang, Zengbo;Sheikh, Mohammad A.;Whitehead, David J.;Li, Lin;
2:495:2 Laser surface micro-/nano-structuring by a simple transportable micro-sphere lens array
DOI:10.1063/1.4767471 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:1 AU: Sedao, Xxx;Derrien, Thibault J. -Y.;Romer, Gert-willem R. B. E.;Pathiraj, Belavendram;in 't Veld, Albertus J. Huis;
2:495:3 Large area laser surface micro/nanopatterning by contact microsphere lens arrays
DOI:10.1007/s00339-013-7651-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: Sedao, X.;Derrien, T. J. -Y.;Romer, G. R. B. E.;Pathiraj, B.;in't Veld, A. J. Huis;
2:495:4 Direct writing of micro/nano-scale patterns by means of particle lens arrays scanned by a focused diode pumped Nd:YVO4 laser
DOI:10.1007/s00339-010-5819-5 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:7 AU: Pena, Ana;Wang, Zengbo;Whitehead, David;Li, Lin;
2:496:1 Device Configurations for Ambipolar Transport in Flexible, Pentacene Transistors
DOI:10.1002/adma.201001853 JN:ADVANCED MATERIALS PY:2010 TC:22 AU: Saudari, Sangameshwar Rao;Lin, Yu Jen;Lai, Yuming;Kagan, Cherie R.;
2:496:2 The influence of dual-carrier recombination and release on electrical characteristics of pentacene-based ambipolar transistors
DOI:10.1063/1.4829060 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Chiu, Liang-Yun;Cheng, Horng-Long;Chou, Wei-Yang;Tang, Fu-Ching;
2:496:3 Manipulating the ambipolar characteristics of pentacene-based field-effect transistors
DOI:10.1039/c3tc31546k JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:7 AU: Chiu, Liang-Yun;Cheng, Horng-Long;Wang, Hsin-Yuan;Chou, Wei-Yang;Tang, Fu-Ching;
2:497:1 Luminescence variation by rigidity control of acrylic composite materials
DOI:10.1039/c3tc30407h JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:1 AU: Roppolo, Ignazio;Celasco, Edvige;Sangermano, Marco;Garcia, Alain;Gacoin, Thierry;Boilot, Jean-Pierre;Perruchas, Sandrine;
2:497:2 Luminescence thermochromism of acrylic materials incorporating copper iodide clusters
DOI:10.1039/c1jm13600c JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:14 AU: Roppolo, Ignazio;Celasco, Edvige;Fargues, Alexandre;Garcia, Alain;Revaux, Amelie;Dantelle, Geraldine;Maroun, Fouad;Gacoin, Thierry;Boilot, Jean-Pierre;Sangermano, Marco;Perruchas, Sandrine;
2:497:3 Luminescence modulation in liquid crystalline phases containing a dispiro[fluorene-9,11 '-indeno [1,2-b]fluorene-12 ',9 ''-fluorene] core
DOI:10.1039/c4tc00038b JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2014 TC:1 AU: Thiery, Sebastien;Heinrich, Benoiet;Donnio, Bertrand;Poriel, Cyril;Camerel, Franck;
2:497:4 Brightly Phosphorescent, Environmentally Responsive Hydrogels Containing a Water-Soluble Three-Coordinate Gold(I) Complex
DOI:10.1021/la101615h JN:LANGMUIR PY:2010 TC:15 AU: Marpu, Sreekar;Hu, Zhibing;Omary, Mohammad A.;
2:498:1 Role of confinement and aggregation in charge transport in semicrystalline polythiophene thin films
DOI:10.1103/PhysRevB.86.205205 JN:PHYSICAL REVIEW B PY:2012 TC:4 AU: ;FN Thomson Reuters Web of Scienceâ„¢;1.0;J;Aizin, Gregory R.;Dyer, Gregory C.;Transmission line theory of collective plasma excitations in periodic;two-dimensional electron systems: Finite plasmonic crystals and Tamm;states;PHYSICAL REVIEW B;86;23;235316;10.1103/PhysRevB.86.235316;DEC 28 2012;2012;We present a comprehensive theory of the one-dimensional plasmonic;crystal formed in the grating-gated two-dimensional electron gas (2DEG);in semiconductor heterostructures. To describe collective plasma;excitations in the 2DEG, we develop a generalized transmission line;theoretical formalism consistent with the plasma hydrodynamic model. We;then apply this formalism to analyze the plasmonic spectra of 2DEG;systems with steplike periodic changes of electron density, gate;screening, or both. We show that in a periodically modulated 2DEG, a;plasmonic crystal is formed, and we derive closed-form analytical;expressions describing its energy band spectrum for both infinite and;finite size crystals. Our results demonstrate a nonmonotonic dependence;of the plasmonic band gap width on the electron density modulation. At;so-called transparency points, where the plasmon propagates through the;periodic 2DEG in a resonant manner, the plasmonic band gaps vanish. In;semi-infinite plasmonic crystals, we demonstrate the formation of;plasmonic Tamm states and analytically derive their energy dispersion;and spatial localization. Finally, we present detailed numerical;analysis of the plasmonic band structure of a finite four-period;plasmonic crystal terminated either by an ohmic contact or by an;infinite barrier on each side. We trace the evolution of the plasmonic;band spectrum, including the Tamm states, with changing electron density;modulation and analyze the boundary conditions necessary for formation;of the Tamm states. We also analyze interaction between the Tamm states;formed at the opposite edges of the short length plasmonic crystal. The;validity of our theoretical approach was confirmed in experimental;studies of plasmonic crystals in short, modulated plasmonic cavities;[Dyer et al., Phys. Rev. Lett. 109, 126803 (2012)], which demonstrated;excellent quantitative agreement between theory and experiment.;DOI:10.1103/PhysRevB.86.235316;9;0;0;0;9;1098-0121;WOS:000312833200005;;;J;Arakawa, Tomonori;Tanaka, Takahiro;Chida, Kensaku;Matsuo, Sadashige;Nishihara, Yoshitaka;Chiba, Daichi;Kobayashi, Kensuke;Ono, Teruo;Fukushima, Akio;Yuasa, Shinji;Low-frequency and shot noises in CoFeB/MgO/CoFeB magnetic tunneling;junctions;PHYSICAL REVIEW B;86;22;224423;10.1103/PhysRevB.86.224423;DEC 28 2012;2012;The low-frequency and shot noises in spin-valve CoFeB/MgO/CoFeB magnetic;tunneling junctions were studied at low temperature. The measured 1/f;noise around the magnetic hysteresis loops of the free layer indicates;that the main origin of the 1/f noise is the magnetic fluctuation, which;is discussed in terms of a fluctuation-dissipation relation. Random;telegraph noise (RTN) is observed to be symmetrically enhanced in the;hysteresis loop with regard to the two magnetic configurations. We found;that this enhancement is caused by the fluctuation between two magnetic;states in the free layer. Although the 1/f noise is almost independent;of the magnetic configuration, the RTN is enhanced in the antiparallel;configuration. These findings indicate the presence of spin-dependent;activation of RTN. Shot noise reveals the spin-dependent coherent;tunneling process via a crystalline MgO barrier. DOI:;10.1103/PhysRevB.86.224423;Kobayashi, Kensuke/E-5404-2010;Kobayashi, Kensuke/0000-0001-7072-5945;4;0;0;0;4;1098-0121;WOS:000312832400004;;;J;Cucchiara, J.;Le Gall, S.;Fullerton, E. E.;Kim, J. -V.;Ravelosona, D.;Henry, Y.;Katine, J. A.;Kent, A. D.;Bedau, D.;Gopman, D.;Mangin, S.;Domain wall motion in nanopillar spin-valves with perpendicular;anisotropy driven by spin-transfer torques;PHYSICAL REVIEW B;86;21;214429;10.1103/PhysRevB.86.214429;DEC 28 2012;2012;Using transport measurements and micromagnetic simulations we have;investigated the domain wall motion driven by spin-transfer torques in;all-perpendicular hexagonal nanopillar spin-valves. In particular, we;probe domain walls nucleated in the free layer of the spin-valves, which;are then pinned in the devices. We have determined both the;field-current state diagrams for the domain-wall state and the thermally;activated dynamics of the nucleation and depinning processes. We show;that the nucleation process is well-described by a modified Neel-Brown;model taking into account the spin-transfer torque, whereas the;depinning process is independent of the current. This is confirmed by an;analytical calculation which shows that spin-torques have no effect on;the Arrhenius escape rate associated with thermally activated domain;wall depinning in this geometry. Furthermore, micromagnetic simulations;indicate that spin-transfer only weakly affects the domain wall motion,;but instead modifies the inner domain wall structure. DOI:;10.1103/PhysRevB.86.214429;Kim, Joo-Von/B-3672-2008; Fullerton, Eric/H-8445-2013;Kim, Joo-Von/0000-0002-3849-649X; Fullerton, Eric/0000-0002-4725-9509;0;0;0;0;0;1098-0121;WOS:000312830800003;;;J;Fernandez-Dominguez, A. I.;Zhang, P.;Luo, Y.;Maier, S. A.;Garcia-Vidal, F. J.;Pendry, J. B.;Transformation-optics insight into nonlocal effects in separated;nanowires;PHYSICAL REVIEW B;86;24;241110;10.1103/PhysRevB.86.241110;DEC 28 2012;2012;We present a transformation-optics approach which sheds analytical;insight into the impact that spatial dispersion has on the optical;response of separated dimers of metallic nanowires. We show that;nonlocal effects are apparent at interparticle distances one order of;magnitude larger than the longitudinal plasmon decay length, which;coincides with the spatial regime where electron tunneling phenomena;occur. Our method also clarifies the interplay between nonlocal and;radiation effects taking place in the nanostructure, yielding the dimer;dimensions that optimize its light harvesting capabilities. DOI:;10.1103/PhysRevB.86.241110;Luo, Yu/C-7799-2009; Fernandez-Dominguez, Antonio I./C-4448-2013; Garcia-Vidal, Francisco /B-8280-2011;Luo, Yu/0000-0003-2925-682X; Fernandez-Dominguez, Antonio;I./0000-0002-8082-395X; Garcia-Vidal, Francisco /0000-0003-4354-0982;10;0;0;0;10;1098-0121;WOS:000312834100001;;;J;Gati, E.;Koehler, S.;Guterding, D.;Wolf, B.;Knoener, S.;Ran, S.;Bud'ko, S. L.;Canfield, P. C.;Lang, M.;Hydrostatic-pressure tuning of magnetic, nonmagnetic, and;superconducting states in annealed Ca(Fe1-xCox)(2)As-2;PHYSICAL REVIEW B;86;22;220511;10.1103/PhysRevB.86.220511;DEC 28 2012;2012;We report on measurements of the magnetic susceptibility and electrical;resistance under He-gas pressure on single crystals of;Ca(Fe1-xCox)(2)As-2. We find that for properly heat-treated crystals;with modest Co concentration, x = 0.028, the salient ground states;associated with iron-arsenide superconductors, i.e.,;orthorhombic/antiferromagnetic (o/afm), superconducting, and nonmagnetic;collapsed-tetragonal (cT) states can be accessed all in one sample with;reasonably small and truly hydrostatic pressure. This is possible owing;to the extreme sensitivity of the o/afm (for T <= T-s,T-N) and;superconducting (T <= T-c) states against variation of pressure,;disclosing pressure coefficients of dT(s,N)/dP = -(1100 +/- 50) K/GPa;and dT(c)/dP = -(60 +/- 3) K/GPa, respectively. Systematic;investigations of the various phase transitions and ground states via;pressure tuning revealed no coexistence of bulk superconductivity (sc);with the o/afm state which we link to the strongly first-order character;of the corresponding structural/magnetic transition in this compound.;Our results, together with literature results, indicate that preserving;fluctuations associated with the o/afm transition to low enough;temperatures is vital for sc to form. DOI: 10.1103/PhysRevB.86.220511;Canfield, Paul/H-2698-2014;14;0;0;0;14;1098-0121;WOS:000312832400001;;;J;Hakobyan, Ye.;Tadmor, E. B.;James, R. D.;Objective quasicontinuum approach for rod problems;PHYSICAL REVIEW B;86;24;245435;10.1103/PhysRevB.86.245435;DEC 28 2012;2012;An objective quasicontinuum (OQC) method is developed for simulating;rodlike systems that can be represented as a combination of locally;objective structures. An objective structure (OS) is one for which a;group of atoms, called a "fundamental domain" (FD), is repeated using;specific rules of translation and rotation to build a more complex;structure. An objective Cauchy-Born rule defines the kinematics of the;OS atoms in terms of a set of symmetry parameters and the positions of;the FD atoms. The computational advantage lies in the capability of;representing a large system of atoms through a small set of symmetry;parameters and FD atom positions. As an illustrative example, we;consider the deformation of a copper single-crystal nanobeam which can;be described as an OS. OQC simulations are performed for uniform and;nonuniform bending for two different orientations (nanobeam axis;oriented along [111] and [100]) and compared with elastica results. In;the uniform bending case, the [111]-oriented single-crystal nanobeam;experiences elongation, while the [100]-oriented nanobeam experiences;contraction in total length. The nonuniform bending allows for;stretching, contraction, and bending as deformation. Under certain;loading conditions, dislocation nucleation is observed within the FD.;DOI: 10.1103/PhysRevB.86.245435 PACS number(s): 61.46.Km, 62.23.Hj,;81.07.Gf, 02.70.Ns;1;0;0;0;1;1098-0121;WOS:000312834100006;;;J;He, Jing;Wang, Bo;Kou, Su-Peng;Ferromagnetism and antiferromagnetism of a correlated topological;insulator with a flat band;PHYSICAL REVIEW B;86;23;235146;10.1103/PhysRevB.86.235146;DEC 28 2012;2012;In this paper, based on the mean-field approach and random-phase;approximation, we studied the magnetic properties of the spinfull;Haldane model on honeycomb lattice of topological flat band with onsite;repulsive Coulomb interaction. We found that the antiferromagnetic (AF);order is more stable than the ferromagnetic (FM) order at, or near, half;filling. Away from half filling, the phase diagram becomes complex: at;large doping, the FM order is more stable than the AF order due to the;flatness of band structure. In particular, we found that at quarter;filling, the system becomes a Chern number Q = 1 topological insulator;induced by the FM order. DOI:10.1103/PhysRevB.86.235146;1;0;0;0;1;1098-0121;WOS:000312833200002;;;J;Hu, Jianbo;Misochko, Oleg V.;Goto, Arihiro;Nakamura, Kazutaka G.;Delayed formation of coherent LO phonon-plasmon coupled modes in n- and;p-type GaAs measured using a femtosecond coherent control technique;PHYSICAL REVIEW B;86;23;235145;10.1103/PhysRevB.86.235145;DEC 28 2012;2012;Coherent control experiments using a pair of collinear femtosecond laser;pulses have been carried out to manipulate longitudinal optical (LO);phonon-plasmon coupled (LOPC) modes in both p-and n-type GaAs. By tuning;the interpulse separation, remarkably distinct responses have been;observed in the two samples. To understand the results obtained a;phenomenological model taking the delayed formation of coherent LOPC;modes into account is proposed. The model suggests that the lifetime of;coherent LOPC modes plays a key role and the interference of the;coherent LO phonons excited successively by two pump pulses strongly;affects the manipulation of coherent LOPC modes.;DOI:10.1103/PhysRevB.86.235145;Oleg, Misochko/E-6136-2013; Nakamura, Kazutaka/F-4095-2014;0;0;0;0;0;1098-0121;WOS:000312833200001;;;J;Imura, Ken-Ichiro;Okamoto, Mayuko;Yoshimura, Yukinori;Takane, Yositake;Ohtsuki, Tomi;Finite-size energy gap in weak and strong topological insulators;PHYSICAL REVIEW B;86;24;245436;10.1103/PhysRevB.86.245436;DEC 28 2012;2012;The nontrivialness of a topological insulator (TI) is characterized;either by a bulk topological invariant or by the existence of a;protected metallic surface state. Yet, in realistic samples of finite;size, this nontrivialness does not necessarily guarantee the gaplessness;of the surface state. Depending on the geometry and on the topological;indices, a finite-size energy gap of different nature can appear, and,;correspondingly, exhibit various scaling behaviors of the gap. The;spin-to-surface locking provides one such gap-opening mechanism,;resulting in a power-law scaling of the energy gap. Weak and strong TIs;show different degrees of sensitivity to the geometry of the sample. As;a noteworthy example, a strong TI nanowire of a rectangular-prism shape;is shown to be more gapped than that of a weak TI of precisely the same;geometry. DOI: 10.1103/PhysRevB.86.245436 PACS number(s): 73.22.-f,;73.20.At, 72.80.Sk;Imura, Ken/D-6633-2013;11;0;0;0;11;1098-0121;WOS:000312834100007;;;J;Lenertz, M.;Alaria, J.;Stoeffler, D.;Colis, S.;Dinia, A.;Mentre, O.;Andre, G.;Porcher, F.;Suard, E.;Magnetic structure of ground and field-induced ordered states of;low-dimensional alpha-CoV2O6: Experiment and theory;PHYSICAL REVIEW B;86;21;214428;10.1103/PhysRevB.86.214428;DEC 28 2012;2012;In this work, we investigate the magnetic properties of the monoclinic;alpha-CoV2O6 by powder neutron diffraction measurements and ab initio;calculations. An emphasis has been pointed towards the magnetic;structure and the interaction between the Co ions leading to magnetic;frustrations in this compound. Neutron diffraction experiments were;carried out both in the ground state (zero magnetic field) and under;applied external field of 2.5 and 5 T corresponding to the ferrimagnetic;and ferromagnetic states, respectively. The antiferromagnetic ground;state below 14 K corresponds to k = (1,0, 1/2) magnetic propagation;vector in C1 space group. The magnetic structure can be described by;ferromagnetic interactions along the chains (b axis) and;antiferromagnetic coupling between the chains (along a and c axes). The;ferrimagnetic structure implies a ninefold unit cell (3a, b, 3c) in;which ferromagnetic chains follow an "up-up-down" sequence along the a;and c axes. In the ferromagnetic state, the spin orientations remain;unchanged while every chain lies ferromagnetically ordered. In all;cases, the magnetic moments lie in the ac plane, along the CoO6;octahedra axis, at an angle of 9.3 degrees with respect to the c axis.;The magnetic structure of alpha-CoV2O6 resolved for all the ordered;states is successfully related to a theoretical model. Ab initio;calculations allowed us to (i) confirm the ground-state magnetic;structure, (ii) calculate the interactions between the Co ions, (iii);explain the frustration leading to the stepped variation of the;magnetization curves, (iv) calculate the orbital magnetic moment (1.5;mu(B)) on Co atoms, and (v) confirm the direction of the magnetic;moments near the c direction. DOI: 10.1103/PhysRevB.86.214428;10;0;0;0;10;1098-0121;WOS:000312830800002;;;J;Nakajima, Nobuo;Oki, Megumi;Isohama, Yoichi;Maruyama, Hiroshi;Tezuka, Yasuhisa;Ishiji, Kotaro;Iwazumi, Toshiaki;Okada, Kozo;Enhancement of dielectric constant of BaTiO3 nanoparticles studied by;resonant x-ray emission spectroscopy;PHYSICAL REVIEW B;86;22;224114;10.1103/PhysRevB.86.224114;DEC 28 2012;2012;The nanoscopic origin of the enhancement of the dielectric constant of;BaTiO3 nanoparticles was investigated by means of Ti K beta resonant;x-ray emission spectroscopy. Two inelastic peaks due to charge-transfer;excitations were observed, one of which disappeared as the particle size;(d) was reduced, while the other remained unchanged. This is consistent;with the fact that tetragonality was also reduced with decreasing d. The;origin of the large enhancement in the dielectric constant is briefly;discussed from a microscopic point of view. DOI:;10.1103/PhysRevB.86.224114;3;0;0;0;3;1098-0121;WOS:000312832400003;;;J;Olmon, Robert L.;Slovick, Brian;Johnson, Timothy W.;Shelton, David;Oh, Sang-Hyun;Boreman, Glenn D.;Raschke, Markus B.;Optical dielectric function of gold;PHYSICAL REVIEW B;86;23;235147;10.1103/PhysRevB.86.235147;DEC 28 2012;2012;In metal optics gold assumes a special status because of its practical;importance in optoelectronic and nano-optical devices, and its role as a;model system for the study of the elementary electronic excitations that;underlie the interaction of electromagnetic fields with metals. However,;largely inconsistent values for the frequency dependence of the;dielectric function describing the optical response of gold are found in;the literature. We performed precise spectroscopic ellipsometry;measurements on evaporated gold, template-stripped gold, and;single-crystal gold to determine the optical dielectric function across;a broad spectral range from 300 nm to 25 mu m (0.05-4.14 eV) with high;spectral resolution. We fit the data to the Drude free-electron model,;with an electron relaxation time tau(D) = 14 +/- 3 fs and plasma energy;h omega(p) = 8.45 eV. We find that the variation in dielectric functions;for the different types of samples is small compared to the range of;values reported in the literature. Our values, however, are comparable;to the aggregate mean of the collection of previous measurements from;over the past six decades. This suggests that although some variation;can be attributed to surface morphology, the past measurements using;different approaches seem to have been plagued more by systematic errors;than previously assumed. DOI:10.1103/PhysRevB.86.235147;22;2;0;0;22;1098-0121;WOS:000312833200003;;;J;Phuong, L. Q.;Ichimiya, M.;Ishihara, H.;Ashida, M.;Multiple light-coupling modes of confined excitons observable in;photoluminescence spectra of high-quality CuCl thin films;PHYSICAL REVIEW B;86;23;235449;10.1103/PhysRevB.86.235449;DEC 28 2012;2012;We report the observation of multiple light-coupling modes of excitons;confined in CuCl thin films with thicknesses of a few hundred nanometers;beyond the long-wavelength approximation in photoluminescence spectra.;Due to a remarkably long coupling length between light and;multinode-type excitons resulted from very high crystalline quality of;thin films, photoluminescence signals from the excitonic states;corresponding to not only odd but also even quantum numbers, which are;optically forbidden in the long-wavelength approximation, are clearly;observed. The full width at half maximum of the excitonic state deduced;qualitatively from the corresponding photoluminescence band shows almost;the same dependence on the quantum number as the theoretical prediction.;DOI:10.1103/PhysRevB.86.235449;0;0;0;0;0;1098-0121;WOS:000312833200008;;;J;Reynoso, Andres A.;Usaj, Gonzalo;Balseiro, C. A.;Feinberg, D.;Avignon, M.;Spin-orbit-induced chirality of Andreev states in Josephson junctions;PHYSICAL REVIEW B;86;21;214519;10.1103/PhysRevB.86.214519;DEC 28 2012;2012;We study Josephson junctions (JJs) in which the region between the two;superconductors is a multichannel system with Rashba spin-orbit coupling;(SOC) where a barrier or a quantum point contact (QPC) is present. These;systems might present unconventional Josephson effects such as Josephson;currents for zero phase difference or critical currents that depend on;the current direction. Here, we discuss how the spin polarizing;properties of the system in the normal state affect the spin;characteristics of the Andreev bound states inside the junction. This;results in a strong correlation between the spin of the Andreev states;and the direction in which they transport Cooper pairs. While the;current-phase relation for the JJ at zero magnetic field is;qualitatively unchanged by SOC, in the presence of a weak magnetic;field, a strongly anisotropic behavior and the mentioned anomalous;Josephson effects follow. We show that the situation is not restricted;to barriers based on constrictions such as QPCs and should generically;arise if in the normal system the direction of the carrier's spin is;linked to its direction of motion. DOI: 10.1103/PhysRevB.86.214519;Usaj, Gonzalo/E-6394-2010;Usaj, Gonzalo/0000-0002-3044-5778;5;0;0;0;5;1098-0121;WOS:000312830800005;;;J;Sato, W.;Komatsuda, S.;Ohkubo, Y.;Characteristic local association of In impurities dispersed in ZnO;PHYSICAL REVIEW B;86;23;235209;10.1103/PhysRevB.86.235209;DEC 28 2012;2012;Local environments in 0.5 at.% In-doped ZnO were investigated by means;of the time-differential perturbed angular correlation (TDPAC) method.;In a comparative study, using the Cd-111 probe nuclei as the decay;products of different parents, In-111 and Cd-111m, we found that In-111;microscopically forms a unique structure with nonradioactive In ion(s);dispersed in ZnO, whereas (111)mCd has no specific interaction with the;In impurities. The spectral damping of the TDPAC spectra is attributed;to the aftereffect following the EC decay of In-111. It was demonstrated;from the aftereffect that the local density and/or mobility of;conduction electrons at the In-111 probe site in the In-doped ZnO is;lowered due to the characteristic structure locally formed by the;dispersed In ion(s). DOI:10.1103/PhysRevB.86.235209;1;0;0;0;1;1098-0121;WOS:000312833200004;;;J;Sherman, Benjamin L.;Wilson, Hugh F.;Weeraratne, Dayanthie;Militzer, Burkhard;Ab initio simulations of hot dense methane during shock experiments;PHYSICAL REVIEW B;86;22;224113;10.1103/PhysRevB.86.224113;DEC 28 2012;2012;Using density functional theory molecular dynamics simulations, we;predict shock Hugoniot curves of precompressed methane up to 75 000 K;for initial densities ranging from 0.35 to 0.70 g cm(-3). At 4000 K, we;observe the transformation into a metallic, polymeric state consisting;of long hydrocarbon chains. These chains persist when the sample is;quenched to 300 K, leading to an increase in shock compression. At 6000;K, the sample transforms into a plasma composed of many, short-lived;chemical species. We conclude by discussing implications for the;interiors of Uranus and Neptune and analyzing the possibility of;creating a superionic state of methane in high pressure experiments.;DOI:10.1103/PhysRevB.86.224113;Wilson, Hugh/B-3447-2009;4;0;0;0;4;1098-0121;WOS:000312832400002;;;J;Trescher, Maximilian;Bergholtz, Emil J.;Flat bands with higher Chern number in pyrochlore slabs;PHYSICAL REVIEW B;86;24;241111;10.1103/PhysRevB.86.241111;DEC 28 2012;2012;A large number of recent works point to the emergence of intriguing;analogs of fractional quantum Hall states in lattice models due to;effective interactions in nearly flat bands with Chern number C = 1.;Here, we provide an intuitive and efficient construction of almost;dispersionless bands with higher Chern numbers. Inspired by the physics;of quantum Hall multilayers and pyrochlore-based transition-metal;oxides, we study a tight-binding model describing spin-orbit coupled;electrons in N parallel kagome layers connected by apical sites forming;N - 1 intermediate triangular layers (as in the pyrochlore lattice). For;each N, we find finite regions in parameter space giving a virtually;flat band with C = N. We analytically express the states within these;topological bands in terms of single-layer states and thereby explicitly;demonstrate that the C = N wave functions have an appealing structure in;which layer index and translations in reciprocal space are intricately;coupled. This provides a promising arena for new collective states of;matter. DOI: 10.1103/PhysRevB.86.241111;Bergholtz, Emil/C-3820-2008;Bergholtz, Emil/0000-0002-9739-2930;29;0;1;0;29;1098-0121;WOS:000312834100002;;;J;van Duijn, J.;Ruiz-Bustos, R.;Daoud-Aladine, A.;Kagome-like lattice distortion in the pyrochlore material Hg2Ru2O7;PHYSICAL REVIEW B;86;21;214111;10.1103/PhysRevB.86.214111;DEC 28 2012;2012;The structural transition which accompanies the metal to insulator;transition (MIT), at T = 107 K, in the pyrochlore material Hg2Ru2O7, was;investigated by high-resolution neutron powder diffraction measurements.;Below the MIT the symmetry is lowered from cubic to monoclinic and the;Ru-Ru bonds, which are equal in the pyrochlore phase (3.60147 angstrom),;become split into short (3.599 37 angstrom), medium (3.6028 angstrom),;and long bonds (3.6047 angstrom). As a result the exchange interactions;between the Ru atoms become more two dimensional. The short and medium;bonds form layers, which are separated by the long bonds, that run;parallel to the monoclinic ab plane. Overall the low-temperature;structure of Hg2Ru2O7 can best be described as a stacking of Kagome-like;layers. DOI: 10.1103/PhysRevB.86.214111;0;0;0;0;0;1098-0121;WOS:000312830800001;;;J;Vanevic, Mihajlo;Belzig, Wolfgang;Control of electron-hole pair generation by biharmonic voltage drive of;a quantum point contact;PHYSICAL REVIEW B;86;24;241306;10.1103/PhysRevB.86.241306;DEC 28 2012;2012;A time-dependent electromagnetic field creates electron-hole excitations;in a Fermi sea at low temperature. We show that the electron-hole pairs;can be generated in a controlled way using harmonic and biharmonic;time-dependent voltages applied to a quantum contact, and we obtain the;probabilities of the pair creations. For a biharmonic voltage drive, we;find that the probability of a pair creation decreases in the presence;of an in-phase second harmonic. This accounts for the suppression of the;excess noise observed experimentally (Gabelli and Reulet,;arXiv:1205.3638), proving that dynamic control and detection of;elementary excitations in quantum conductors are within the reach of the;present technology. DOI: 10.1103/PhysRevB.86.241306;6;1;0;0;6;1098-0121;WOS:000312834100004;;;J;Virgus, Yudistira;Purwanto, Wirawan;Krakauer, Henry;Zhang, Shiwei;Ab initio many-body study of cobalt adatoms adsorbed on graphene;PHYSICAL REVIEW B;86;24;241406;10.1103/PhysRevB.86.241406;DEC 28 2012;2012;Many recent calculations have been performed to study a Co atom adsorbed;on graphene, with significantly varying results on the nature of the;bonding. We use the auxiliary-field quantum Monte Carlo method and a;size-correction embedding scheme to accurately calculate the binding;energy of Co on graphene. We find that as a function of the distance h;between the Co atom and the sixfold hollow site, there are three;distinct ground states corresponding to three electronic configurations;of the Co atom. Two of these states provide binding and exhibit a;double-well feature with nearly equal binding energy of 0.4 eV at h =;1.51 and h = 1.65 angstrom, corresponding to low-spin Co-2 (3d(9) 4s(0));and high-spin Co-4 (3d(8) 4s(1)), respectively. DOI:;10.1103/PhysRevB.86.241406;3;0;0;0;3;1098-0121;WOS:000312834100005;;;J;Xing, Jie;Li, Sheng;Ding, Xiaxin;Yang, Huan;Wen, Hai-Hu;Superconductivity appears in the vicinity of semiconducting-like;behavior in CeO1-xFxBiS2;PHYSICAL REVIEW B;86;21;214518;10.1103/PhysRevB.86.214518;DEC 28 2012;2012;Resistive and magnetic properties have been measured in BiS2-based;samples CeO1-xFxBiS2 with a systematic substitution of O with F (0 < x <;0.6). In contrast to the band-structure calculations, it is found that;the parent phase of CeOBiS2 is a bad metal instead of a band insulator.;By doping electrons into the system, it is surprising to find that;superconductivity appears together with a semiconducting normal state.;This evolution is clearly different from the cuprate and the iron;pnictide systems, and is interpreted as approaching the Pomeranchuk;transition with a von Hove singularity and the possible;charge-density-wave instability. Furthermore, ferromagnetism, which may;arise from the Ce magnetic moments, has been observed in the;low-temperature region in all samples, suggesting the coexistence of;superconductivity and ferromagnetism in the superconducting samples.;DOI: 10.1103/PhysRevB.86.214518;55;0;1;0;56;1098-0121;WOS:000312830800004;;;J;Yaji, Koichiro;Hatta, Shinichiro;Aruga, Tetsuya;Okuyama, Hiroshi;Structural and electronic properties of the Pb/Ge(111)-beta(root 3 x;root 3)R30 degrees surface studied by photoelectron spectroscopy and;first-principles calculations;PHYSICAL REVIEW B;86;23;235317;10.1103/PhysRevB.86.235317;DEC 28 2012;2012;We have studied structural and electronic properties of a Ge(111);surface covered with a monatomic Pb layer [Pb/Ge(111)-beta] by means of;core-level photoelectron spectroscopy, angle-resolved photoelectron;spectroscopy (ARPES), and a first-principles band structure calculation.;There has been a controversy about the surface structure of;Pb/Ge(111)-beta between a close-packed model with a coverage of 4/3;monolayers and a trimer model with a coverage of 1 monolayer. This;problem has been examined by analyzing the line shape of a Pb 5d;core-level spectrum and comparing the experimental band structure with;those calculated for two models. The line shape of the core-level;spectrum agrees with a close-packed model. The valence band structure;observed by ARPES has been well reproduced by the calculation employing;the close-packed model. The close-packed model therefore describes;correctly the surface structure of Pb/Ge(111)-beta. The;scanning-tunneling microscopy (STM) image simulated for the close-packed;model is in good agreement with the experimental filled-state STM image,;in which three protrusions per unit cell were observed.;DOI:10.1103/PhysRevB.86.235317;Aruga, Tetsuya/B-7782-2010; Okuyama, Hiroshi/H-7570-2014;2;1;0;0;2;1098-0121;WOS:000312833200006;;;J;Yang, Shuo;Gu, Zheng-Cheng;Sun, Kai;Das Sarma, S.;Topological flat band models with arbitrary Chern numbers;PHYSICAL REVIEW B;86;24;241112;10.1103/PhysRevB.86.241112;DEC 28 2012;2012;We report the theoretical discovery of a systematic scheme to produce;topological flat bands (TFBs) with arbitrary Chern numbers. We find that;generically a multiorbital high Chern number TFB model can be;constructed by considering multilayer Chern number C = 1 TFB models with;enhanced translational symmetry. A series of models are presented as;examples, including a two-band model on a triangular lattice with a;Chern number C = 3 and an N-band square lattice model with C = N for an;arbitrary integer N. In all these models, the flatness ratio for the;TFBs is larger than 30 and increases with increasing Chern number. In;the presence of appropriate interparticle interactions, these models are;likely to lead to the formation of Abelian and non-Abelian fractional;Chern insulators. As a simple example, we test the C = 2 model with;hardcore bosons at 1/3 filling, and an intriguing fractional quantum;Hall state is observed. DOI: 10.1103/PhysRevB.86.241112;Sun, Kai/F-2282-2010; Yang, Shuo/D-1372-2011; Das Sarma, Sankar/B-2400-2009; Gu, Zheng-Cheng/L-5415-2014;Sun, Kai/0000-0001-9595-7646; Yang, Shuo/0000-0001-9733-8566;;24;0;1;0;24;1098-0121;WOS:000312834100003;;;J;Yue, Qu;Chang, Shengli;Tan, Jichun;Qin, Shiqiao;Kang, Jun;Li, Jingbo;Symmetry-dependent transport properties and bipolar spin filtering in;zigzag alpha-graphyne nanoribbons;PHYSICAL REVIEW B;86;23;235448;10.1103/PhysRevB.86.235448;DEC 28 2012;2012;First-principles calculations are performed to investigate the transport;properties of zigzag alpha-graphyne nanoribbons (ZaGNRs). It is found;that asymmetric Z alpha GNRs behave as conductors with linear;current-voltage relationships, whereas symmetric Z alpha GNRs have very;small currents under finite bias voltages, similar to those of zigzag;graphene nanoribbons. The symmetry-dependent transport properties arise;from different coupling rules between the pi and pi* subbands around the;Fermi level, which are dependent on the wave-function symmetry of the;two subbands. Based on the coupling rules, we further demonstrate the;bipolar spin-filtering effect in the symmetric Z alpha GNRs. It is shown;that nearly 100% spin-polarized current can be produced and modulated by;the direction of bias voltage and/or magnetization configuration of the;electrodes. Moreover, the magnetoresistance effect with the order larger;than 500 000% is also predicted. Our calculations suggest Z alpha GNRs;as a promising candidate material for spintronics.;DOI:10.1103/PhysRevB.86.235448;Kang, Jun/F-7105-2011;7;1;0;0;7;1098-0121;WOS:000312833200007;;;J;Berry, Joel;Provatas, Nikolas;Rottler, Joerg;Sinclair, Chad W.;Defect stability in phase-field crystal models: Stacking faults and;partial dislocations;PHYSICAL REVIEW B;86;22;224112;10.1103/PhysRevB.86.224112;DEC 27 2012;2012;The primary factors controlling defect stability in phase-field crystal;(PFC) models are examined, with illustrative examples involving several;existing variations of the model. Guidelines are presented for;constructing models with stable defect structures that maintain high;numerical efficiency. The general framework combines both long-range;elastic fields and basic features of atomic-level core structures, with;defect dynamics operable over diffusive time scales. Fundamental;elements of the resulting defect physics are characterized for the case;of fcc crystals. Stacking faults and split Shockley partial dislocations;are stabilized for the first time within the PFC formalism, and various;properties of associated defect structures are characterized. These;include the dissociation width of perfect edge and screw dislocations,;the effect of applied stresses on dissociation, Peierls strains for;glide, and dynamic contraction of gliding pairs of partials. Our results;in general are shown to compare favorably with continuum elastic;theories and experimental findings. DOI: 10.1103/PhysRevB.86.224112;Rottler, Joerg/L-5539-2013;8;0;0;0;8;1098-0121;WOS:000312831900001;;;J;Emary, Clive;Lambert, Neill;Nori, Franco;Leggett-Garg inequality in electron interferometers;PHYSICAL REVIEW B;86;23;235447;10.1103/PhysRevB.86.235447;DEC 27 2012;2012;We consider the violation of the Leggett-Garg inequality in electronic;Mach-Zehnder inteferometers. This setup has two distinct advantages over;earlier quantum-transport proposals: Firstly, the required correlation;functions can be obtained without time-resolved measurements. Secondly,;the geometry of an interferometer allows one to construct the;correlation functions from ideal negative measurements, which addresses;the noninvasiveness requirement of the Leggett-Garg inequality. We;discuss two concrete realizations of these ideas: the first in quantum;Hall edge-channels, the second in a double quantum dot interferometer.;DOI: 10.1103/PhysRevB.86.235447 PACS number(s): 03.65.Ud, 73.23.-b,;03.65.Ta, 42.50.Lc;Lambert, Neill/B-4998-2009; Emary, Clive/B-9596-2008; Nori, Franco/B-1222-2009;Emary, Clive/0000-0002-9822-8390; Nori, Franco/0000-0003-3682-7432;3;0;0;0;3;1098-0121;WOS:000312832900004;;;J;Kato, Yuto;Endo, Akira;Katsumoto, Shingo;Iye, Yasuhiro;Geometric resonances in the magnetoresistance of hexagonal lateral;superlattices;PHYSICAL REVIEW B;86;23;235315;10.1103/PhysRevB.86.235315;DEC 27 2012;2012;We have measured magnetoresistance of hexagonal lateral superlattices.;We observe three types of oscillations engendered by periodic potential;modulation having hexagonal-lattice symmetry: amplitude modulation of;the Shubnikov-de Haas oscillations, commensurability oscillations, and;the geometric resonances of open orbits generated by Bragg reflections.;The latter two reveal the presence of two characteristic periodicities,;root 3a/2 and a/2, inherent in a hexagonal lattice with the lattice;constant a. The formation of the hexagonal-superlattice minibands;manifested by the observation of open orbits marks the first step toward;realizing massless Dirac fermions in semiconductor 2DEGs. DOI:;10.1103/PhysRevB.86.235315 PACS number(s): 73.43.Qt, 73.23.-b, 73.21.Cd;1;0;0;0;1;1098-0121;WOS:000312832900002;;;J;Lin, I-Tan;Liu, Jia-Ming;Shi, Kai-Yao;Tseng, Pei-Shan;Wu, Kuang-Hsiung;Luo, Chih-Wei;Li, Lain-Jong;Terahertz optical properties of multilayer graphene: Experimental;observation of strong dependence on stacking arrangements and;misorientation angles;PHYSICAL REVIEW B;86;23;235446;10.1103/PhysRevB.86.235446;DEC 27 2012;2012;The optical conductivity of monolayer and multilayer graphene in the;terahertz spectral region is experimentally measured using terahertz;time-domain spectroscopy. The stacking arrangement and the;misorientation angle of each sample are determined by Raman;spectroscopy. The chemical potential of each sample is measured using;ultrafast midinfrared pump-probe spectroscopy to be 63 or 64 meV for all;samples. The intraband scattering rate can be obtained by fitting the;measured data with theoretical models. Other physical parameters,;including carrier density, dc conductivity, and carrier mobility, of;each sample can also be deduced from the theoretical fitting. The;fitting results show the existence of misoriented or AA-stacked layers;with an interaction energy of alpha(1) = 217 meV in our multilayer;samples. Here we show that the scattering rate strongly depends on the;stacking arrangement of the sample. High scattering rates and high;optical conductivity are associated with AA-stacked samples, while lower;ones are associated with misoriented multilayer graphene. This implies;that the THz optoelectronic properties of multilayer graphene can be;tuned by purposefully misorienting layers or employing different;stacking schemes. DOI: 10.1103/PhysRevB.86.235446 PACS number(s):;78.67.Wj, 61.48.Gh, 72.80.Vp, 73.50.Mx;Li, Lain-Jong/D-5244-2011; Luo, Chih Wei/D-3485-2013;Li, Lain-Jong/0000-0002-4059-7783; Luo, Chih Wei/0000-0002-6453-7435;11;0;0;0;11;1098-0121;WOS:000312832900003;;;J;Lundgren, Rex;Chua, Victor;Fiete, Gregory A.;Entanglement entropy and spectra of the one-dimensional Kugel-Khomskii;model;PHYSICAL REVIEW B;86;22;224422;10.1103/PhysRevB.86.224422;DEC 27 2012;2012;We study the quantum entanglement of the spin and orbital degrees of;freedom in the one-dimensional Kugel-Khomskii model, which includes both;gapless and gapped phases, using analytical techniques and exact;diagonalization with up to 16 sites. We compute the entanglement entropy;and the entanglement spectra using a variety of partitions or "cuts" of;the Hilbert space, including two distinct real-space cuts and a;momentum-space cut. Our results show that the Kugel-Khomski model;possesses a number of new features not previously encountered in studies;of the entanglement spectra. Notably, we find robust gaps in the;entanglement spectra for both gapped and gapless phases with the orbital;partition, and show these are not connected to each other. The counting;of the low-lying entanglement eigenvalues shows that the "virtual edge";picture, which equates the low-energy Hamiltonian of a virtual edge,;here one gapless leg of a two-leg ladder, to the "low-energy";entanglement Hamiltonian, breaks down for this model, even though the;equivalence has been shown to hold for a similar cut in a large class of;closely related models. In addition, we show that a momentum space cut;in the gapless phase leads to qualitative differences in the;entanglement spectrum when compared with the same cut in the gapless;spin-1/2 Heisenberg spin chain. We emphasize the new information content;in the entanglement spectra compared to the entanglement entropy, and;using quantum entanglement, we present a refined phase diagram of the;model. Using analytical arguments, exploiting various symmetries of the;model, and applying arguments of adiabatic continuity from two exactly;solvable points of the model, we are also able to prove several results;regarding the structure of the low-lying entanglement eigenvalues. DOI:;10.1103/PhysRevB.86.224422;11;0;1;0;12;1098-0121;WOS:000312831900002;;;J;L'vov, Victor S.;Nazarenko, Sergey V.;Comment on "Symmetry of Kelvin-wave dynamics and the Kelvin-wave cascade;in the T=0 superfluid turbulence";PHYSICAL REVIEW B;86;22;226501;10.1103/PhysRevB.86.226501;DEC 27 2012;2012;We comment on the paper by Sonin [Phys. Rev. B 85, 104516 (2012)] with;most statements of which we disagree. We use this option to shed light;on some important issues of a theory of Kelvin-wave turbulence, touched;on in Sonin's paper, in particular, on the relation between the Vinen;spectrum of strong and the L'vov-Nazarenko spectrum of weak turbulence;of Kelvin waves. We also discuss the role of explicit calculation of the;Kelvin-wave interaction Hamiltonian and "symmetry arguments" that have;to resolve a contradiction between the Kozik-Svistunov and the;L'vov-Nazarenko spectrum of weak turbulence of Kelvin waves. DOI:;10.1103/PhysRevB.86.226501;5;1;0;0;5;1098-0121;WOS:000312831900003;;;J;Misguich, G.;Schwinger boson mean-field theory: Numerics for the energy landscape and;gauge excitations in two-dimensional antiferromagnets;PHYSICAL REVIEW B;86;24;245132;10.1103/PhysRevB.86.245132;DEC 27 2012;2012;We perform some systematic numerical search for Schwinger boson;mean-field states on square and triangular clusters. We look for;possible inhomogeneous ground states as well as low-energy excited;saddle points. The spectrum of the Hessian is also computed for each;solution. On the square lattice, we find gapless U(1) gauge modes in the;nonmagnetic phase. In the Z(2) liquid phase of the triangular lattice,;we identify the topological degeneracy as well as vison states.;DOI:10.1103/PhysRevB.86.245132;2;0;0;0;2;1098-0121;WOS:000312833600001;;;J;Mokhlespour, Salman;Haverkort, J. E. M.;Slepyan, Gregory;Maksimenko, Sergey;Hoffmann, A.;Collective spontaneous emission in coupled quantum dots: Physical;mechanism of quantum nanoantenna;PHYSICAL REVIEW B;86;24;245322;10.1103/PhysRevB.86.245322;DEC 27 2012;2012;We investigate the collective spontaneous emission in a system of two;identical quantum dots (QDs) strongly coupled through the dipole-dipole;(d-d) interaction. The QDs are modeled as two-level quantum objects,;while the d-d interaction is described as the exchange of a virtual;photon through the photonic reservoir. The master equation approach is;used in the analysis. The main attention is focused on antenna;characteristics of the two-QD system-the radiation intensity dependence;on the meridian and azimuthal angles of observation. We show that the;radiation pattern of such a system is nonstationary and its temporal;behavior depends on the initial quantum state. In particular, for;entangled initial states the radiative pattern exhibits oscillations on;the frequency which corresponds to the d-d interaction energy. We also;analyze spectral properties of the directional diagram. The comparison;of radiation patterns is carried out for two QDs and two classical;dipoles. The concept of quantum nanoantenna is proposed based on;collective spontaneous emission in QD ensembles.;DOI:10.1103/PhysRevB.86.245322;Maksimenko, Sergey/F-1888-2011;Maksimenko, Sergey/0000-0002-8271-0449;8;1;0;0;8;1098-0121;WOS:000312833600002;;;J;Muravev, V. M.;Gusikhin, P. A.;Tsydynzhapov, G. E.;Fortunatov, A. A.;Kukushkin, I. V.;Spectroscopy of terahertz radiation using high-Q photonic crystal;microcavities;PHYSICAL REVIEW B;86;23;235144;10.1103/PhysRevB.86.235144;DEC 27 2012;2012;We report observation of high-Q resonance in the photoresponse of a;detector embedded in the 2D photonic crystal slab (PCS) microcavity;illuminated by terahertz radiation. The detector and PCS are fabricated;from a single GaAs wafer in a unified process. The influence of the;period of PCS lattice, microcavity geometry, and detector location on;the resonant photoresponse is studied. The resonance is found to;originate from coupling of the fundamental PCS microcavity photon mode;to the detector. The phenomenon can be exploited to devise a;spectrometer-on-a-chip for terahertz range. DOI:;10.1103/PhysRevB.86.235144 PACS number(s): 42.50.-p, 42.70.Qs, 42.79.-e,;73.21.-b;0;0;0;0;0;1098-0121;WOS:000312832900001;;;J;Reguzzoni, M.;Fasolino, A.;Molinari, E.;Righi, M. C.;Potential energy surface for graphene on graphene: Ab initio derivation,;analytical description, and microscopic interpretation;PHYSICAL REVIEW B;86;24;245434;10.1103/PhysRevB.86.245434;DEC 27 2012;2012;We derive an analytical expression that describes the interaction energy;between two graphene layers identically oriented as a function of the;relative lateral and vertical positions, in excellent agreement with;first principles calculations. Thanks to its formal simplicity, the;proposed model allows for an immediate interpretation of the;interactions, in particular of the potential corrugation. This last;quantity plays a crucial role in determining the intrinsic resistance to;interlayer sliding and its increase upon compression influences the;frictional behavior under load. We show that, for these weakly adherent;layers, the corrugation possesses the same nature and z dependence of;Pauli repulsion. We investigate the microscopic origin of these;phenomena by analyzing the electronic charge distribution: We observe a;pressure-induced charge transfer from the interlayer region toward the;near-layer regions, with a much more consistent depletion of charge;occurring for the AA stacking than for the AB stacking of the two;layers. DOI:10.1103/PhysRevB.86.245434;8;0;0;0;8;1098-0121;WOS:000312833600003;;;J;Sonin, E. B.;Reply to "Comment on 'Symmetry of Kelvin-wave dynamics and the;Kelvin-wave cascade in the T=0 superfluid turbulence'";PHYSICAL REVIEW B;86;22;226502;10.1103/PhysRevB.86.226502;DEC 27 2012;2012;The goal of the Comment by L'vov and Nazarenko is to refute my;perviously published criticism of their mechanism of the Kelvin-wave;cascade. It is important, however, that, in their Comment, L'vov and;Nazarenko admitted that the Hamiltonian, from which they derived their;mechanism, is not tilt invariant. This provides full ammunition to their;critics, who believe that their mechanism is in conflict with the tilt;symmetry of the Kelvin-wave dynamics and, therefore, is not valid for;the real isotropic world. DOI: 10.1103/PhysRevB.86.226502;3;1;0;0;3;1098-0121;WOS:000312831900004;;;J;Swaminathan, Narasimhan;Morgan, Dane;Szlufarska, Izabela;Role of recombination kinetics and grain size in radiation-induced;amorphization;PHYSICAL REVIEW B;86;21;214110;10.1103/PhysRevB.86.214110;DEC 27 2012;2012;Using a rate theory model for a generic one-component material, we;investigated interactions between grain size and recombination kinetics;of radiation-induced defects. Specifically, by varying parametrically;nondimensional kinetic barriers for defect diffusion and recombination,;we determined the effect of these parameters on the shape of the dose to;amorphization versus temperature curves. We found that whether grain;refinement to the nanometer regime improves or deteriorates radiation;resistance of a material depends on the barriers to defect migration and;recombination, as well as on the temperature for the intended use of the;material. We show that the effects of recombination barriers and of;grain refinement can be coupled to each other to produce a phenomenon of;interstitial starvation. In interstitial starvation, a significant;number of interstitials annihilate at the grain boundary, leaving behind;unrecombined vacancies, which in turn amorphize the material. The same;rate theory model with material-specific parameters was used to predict;the grain-size dependence of the critical amorphization temperature in;SiC. Parameters for the SiC model were taken from ab initio;calculations. We find that the fine-grained SiC has a lower radiation;resistance when compared to the polycrystalline SiC due to the presence;of high-energy barrier for recombination of carbon Frenkel pairs and due;to the interstitial starvation phenomenon. DOI:;10.1103/PhysRevB.86.214110;Morgan, Dane/B-7972-2008;Morgan, Dane/0000-0002-4911-0046;5;0;0;0;5;1098-0121;WOS:000312830600001;;;J;Ahart, Muhtar;Sinogeikin, Stanislav;Shebanova, Olga;Ikuta, Daijo;Ye, Zuo-Guang;Mao, Ho-kwang;Cohen, R. E.;Hemley, Russell J.;Pressure dependence of the monoclinic phase in;(1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) solid solutions;PHYSICAL REVIEW B;86;22;224111;10.1103/PhysRevB.86.224111;DEC 26 2012;2012;We combine high-pressure x-ray diffraction, high-pressure Raman;scattering, and optical microscopy to investigate a series of (1 -;x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) solid solutions (x = 0.2, 0.3,;0.33, 0.35, 0.37, 0.4) in diamond anvil cells up to 20 GPa at 300 K. The;Raman spectra show a peak centered at 380 cm(-1) starting above 6 GPa;for all samples, in agreement with previous observations. X-ray;diffraction measurements are consistent with this spectral change;indicating a structural phase transition; we find that the triplet at;the pseudocubic (220) Bragg peak merges into a doublet above 6 GPa. Our;results indicate that the morphotropic phase boundary region (x = 0.33 -;0.37) with the presence of monoclinic symmetry persists up to 7 GPa. The;pressure dependence of ferroelectric domains in PMN-0.32PT single;crystals was observed using a polarizing optical microscope. The domain;wall density decreases with pressure and the domains disappear at a;modest pressure of 3 GPa. We propose a pressure-composition phase;diagram for PMN-xPT solid solutions. DOI: 10.1103/PhysRevB.86.224111;Cohen, Ronald/B-3784-2010;Cohen, Ronald/0000-0001-5871-2359;2;0;0;0;2;1098-0121;WOS:000312831800006;;;J;Akrap, Ana;Tran, Michael;Ubaldini, Alberto;Teyssier, Jeremie;Giannini, Enrico;van der Marel, Dirk;Lerch, Philippe;Homes, Christopher C.;Optical properties of Bi2Te2Se at ambient and high pressures;PHYSICAL REVIEW B;86;23;235207;10.1103/PhysRevB.86.235207;DEC 26 2012;2012;The temperature dependence of the complex optical properties of the;three-dimensional topological insulator Bi2Te2Se is reported for light;polarized in the a-b planes at ambient pressure, as well as the effects;of pressure at room temperature. This material displays a semiconducting;character with a bulk optical gap of E-g similar or equal to 300 meV at;295 K. In addition to the two expected infrared-active vibrations;observed in the planes, there is an additional fine structure that is;attributed to either the removal of degeneracy or the activation of;Raman modes due to disorder. A strong impurity band located at similar;or equal to 200 cm(-1) is also observed. At and just above the optical;gap, several interband absorptions are found to show a strong;temperature and pressure dependence. As the temperature is lowered these;features increase in strength and harden. The application of pressure;leads to a very abrupt closing of the gap above 8 GPa, and strongly;modifies the interband absorptions in the midinfrared spectral range.;While ab initio calculations fail to predict the collapse of the gap,;they do successfully describe the size of the band gap at ambient;pressure, and the magnitude and shape of the optical conductivity. DOI:;10.1103/PhysRevB.86.235207;Teyssier, Jeremie/A-6867-2013; Akrap, Ana/G-1409-2013;Akrap, Ana/0000-0003-4493-5273;10;0;0;0;10;1098-0121;WOS:000312832600007;;;J;Andersen, Kirsten;Jacobsen, Karsten W.;Thygesen, Kristian S.;Spatially resolved quantum plasmon modes in metallic nano-films from;first-principles;PHYSICAL REVIEW B;86;24;245129;10.1103/PhysRevB.86.245129;DEC 26 2012;2012;Electron energy loss spectroscopy (EELS) can be used to probe plasmon;excitations in nanostructured materials with atomic-scale spatial;resolution. For structures smaller than a few nanometers, quantum;effects are expected to be important, limiting the validity of widely;used semiclassical response models. Here we present a method to identify;and compute spatially resolved plasmon modes from first-principles based;on a spectral analysis of the dynamical dielectric function. As an;example we calculate the plasmon modes of 0.5 to 4 nm thick Na films and;find that they can be classified as (conventional) surface modes,;subsurface modes, and a discrete set of bulk modes resembling standing;waves across the film. We find clear effects of both quantum confinement;and nonlocal response. The quantum plasmon modes provide an intuitive;picture of collective excitations of confined electron systems and offer;a clear interpretation of spatially resolved EELS spectra. DOI:;10.1103/PhysRevB.86.245129;Jacobsen, Karsten/B-3602-2009; Thygesen, Kristian /B-1062-2011;6;0;0;0;6;1098-0121;WOS:000312833400007;;;J;Baker, A. M. R.;Alexander-Webber, J. A.;Altebaeumer, T.;Janssen, T. J. B. M.;Tzalenchuk, A.;Lara-Avila, S.;Kubatkin, S.;Yakimova, R.;Lin, C. -T.;Li, L. -J.;Nicholas, R. J.;Weak localization scattering lengths in epitaxial, and CVD graphene;PHYSICAL REVIEW B;86;23;235441;10.1103/PhysRevB.86.235441;DEC 26 2012;2012;Weak localization in graphene is studied as a function of carrier;density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2);using devices produced by epitaxial growth onto SiC and CVD growth on;thin metal film. The magnetic field dependent weak localization is found;to be well fitted by theory, which is then used to analyze the;dependence of the scattering lengths L-phi, L-i, and L-* on carrier;density. We find no significant carrier dependence for L-phi, a weak;decrease for L-i with increasing carrier density just beyond a large;standard error, and a n(-1/4) dependence for L-*. We demonstrate that;currents as low as 0.01 nA are required in smaller devices to avoid;hot-electron artifacts in measurements of the quantum corrections to;conductivity. DOI: 10.1103/PhysRevB.86.235441;Lara-Avila, Samuel/B-4878-2013; Lin, Cheng-Te/D-5203-2011; Materials, Semiconductor/I-6323-2013;Lara-Avila, Samuel/0000-0002-8331-718X; Lin,;Cheng-Te/0000-0002-7090-9610;;11;0;0;0;11;1098-0121;WOS:000312832600015;;;J;Bergeret, F. S.;Verso, A.;Volkov, A. F.;Electronic transport through ferromagnetic and superconducting junctions;with spin-filter tunneling barriers;PHYSICAL REVIEW B;86;21;214516;10.1103/PhysRevB.86.214516;DEC 26 2012;2012;We present a theoretical study of the quasiparticle and subgap;conductance of generic X/I-sf/S-M junctions with a spin-filter barrier;I-sf, where X is either a normal N or a ferromagnetic metal F and S-M is;a superconductor with a built-in exchange field. Our study is based on;the tunneling Hamiltonian and the Green's-function technique. First, we;focus on the quasiparticle transport, both above and below the;superconducting critical temperature. We obtain a general expression for;the tunneling conductance which is valid for arbitrary values of the;exchange field and arbitrary magnetization directions in the electrodes;and in the spin-filter barrier. In the second part, we consider the;subgap conductance of a N/I-sf/S junction, where S is a conventional;superconductor. In order to account for the spin-filter effect at;interfaces, we heuristically derive boundary conditions for the;quasiclassical Green's functions. With the help of these boundary;conditions, we show that the proximity effect and the subgap conductance;are suppressed by spin filtering in a N/I-sf/S junction. Our work;provides useful tools for the study of spin-polarized transport in;hybrid structures both in the normal and in the superconducting state.;DOI: 10.1103/PhysRevB.86.214516;CSIC-UPV/EHU, CFM/F-4867-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;7;1;0;0;7;1098-0121;WOS:000312830400009;;;J;Beugnot, Jean-Charles;Laude, Vincent;Electrostriction and guidance of acoustic phonons in optical fibers;PHYSICAL REVIEW B;86;22;224304;10.1103/PhysRevB.86.224304;DEC 26 2012;2012;We investigate the generation of acoustic phonons in optical fibers via;electrostriction from coherent optical waves. Solving the elastodynamic;equation subject to the electrostrictive force, we are able to reproduce;the experimental spectra found in standard and photonic crystal fibers.;We discuss the two important practical cases of forward interaction,;dominated by elastic resonances of the fiber, and backward interaction,;for which an efficient mechanism of phonon guidance is found. The last;result describes the formation of the coherent phonon beam involved in;stimulated Brillouin scattering. DOI: 10.1103/PhysRevB.86.224304;Laude, Vincent/C-4484-2008;Laude, Vincent/0000-0001-8930-8797;3;0;0;0;3;1098-0121;WOS:000312831800007;;;J;Blanc, Nils;Coraux, Johann;Vo-Van, Chi;N'Diaye, Alpha T.;Geaymond, Olivier;Renaud, Gilles;Local deformations and incommensurability of high-quality epitaxial;graphene on a weakly interacting transition metal;PHYSICAL REVIEW B;86;23;235439;10.1103/PhysRevB.86.235439;DEC 26 2012;2012;We investigate the fine structure of graphene on iridium, which is a;model for graphene weakly interacting with a transition-metal substrate.;Even the highest-quality epitaxial graphene displays tiny imperfections,;i.e., small biaxial strains of similar to 0.3%, rotations of similar to;0.5 degrees, and shears over distances of similar to 100 nm, and is;found incommensurate, as revealed by x-ray diffraction and scanning;tunneling microscopy. These structural variations are mostly induced by;the increase of the lattice parameter mismatch when cooling the sample;from the graphene preparation temperature to the measurement;temperature. Although graphene weakly interacts with iridium, its;thermal expansion is found to be positive, contrary to free-standing;graphene. The structure of graphene and its variations is very sensitive;to the preparation conditions. All these effects are consistent with;initial growth and subsequent pinning of graphene at steps. DOI:;10.1103/PhysRevB.86.235439;Coraux, Johann/A-7897-2008;5;0;0;0;5;1098-0121;WOS:000312832600013;;;J;Blomeier, S.;Candeloro, P.;Hillebrands, B.;Reuscher, B.;Brodyanski, A.;Kopnarski, M.;Micromagnetism and magnetization reversal of embedded ferromagnetic;elements (vol 74, 184405, 2006);PHYSICAL REVIEW B;86;21;219904;10.1103/PhysRevB.86.219904;DEC 26 2012;2012;Hillebrands, Burkard/C-6242-2008;Hillebrands, Burkard/0000-0001-8910-0355;0;0;0;0;0;1098-0121;WOS:000312830400011;;;J;Bud'ko, Sergey L.;Liu, Yong;Lograsso, Thomas A.;Canfield, Paul C.;Hydrostatic and uniaxial pressure dependence of superconducting;transition temperature of KFe2As2 single crystals;PHYSICAL REVIEW B;86;22;224514;10.1103/PhysRevB.86.224514;DEC 26 2012;2012;We present heat capacity, c-axis thermal expansion and;pressure-dependent, low-field, temperature-dependent magnetization for;pressures up to similar to 12 kbar, data for KFe2As2 single crystals.;T-c decreases under pressure with dT(c)/dP approximate to -0.10 K/kbar.;The inferred uniaxial, c-axis, pressure derivative is positive,;dT(c)/dp(c) approximate to 0.11 K/kbar. The data are analyzed in;comparison with those for overdoped Fe-based superconductors. Arguments;are presented that superconductivity in KFe2As2 may be different from;the other overdoped, Fe-based materials in the 122 family. DOI:;10.1103/PhysRevB.86.224514;Canfield, Paul/H-2698-2014;9;0;0;0;9;1098-0121;WOS:000312831800013;;;J;Bulaevskii, Lev N.;Lin, Shi-Zeng;Self-induced pinning of vortices in the presence of ac driving force in;magnetic superconductors;PHYSICAL REVIEW B;86;22;224513;10.1103/PhysRevB.86.224513;DEC 26 2012;2012;We derive the response of the magnetic superconductors in the vortex;state to the ac Lorentz force, F-L (t) = F-ac sin(omega t), taking into;account the interaction of vortices with the magnetic moments described;by the relaxation dynamics (polaronic effect). At low amplitudes of the;driving force F-ac the dissipation in the system is suppressed due to;the enhancement of the effective viscosity at low frequencies and due to;formation of the magnetic pinning at high frequencies omega. In the;adiabatic limit with low frequencies omega and high amplitude of the;driving force F-ac, the vortex and magnetic polarization form a vortex;polaron when F-L (t) is small. When F-L increases, the vortex polaron;accelerates and at a threshold driving force, the vortex polaron;dissociates and the motion of vortex and the relaxation of magnetization;are decoupled. When F-L decreases, the vortex is retrapped by the;background of remnant magnetization and they again form vortex polaron.;This process repeats when F-L (t) increases in the opposite direction.;Remarkably, after dissociation, decoupled vortices move in the periodic;potential induced by magnetization which remains for some periods of;time due to retardation after the decoupling. At this stage vortices;oscillate with high frequencies determined by the Lorentz force at the;moment of dissociation. We derive also the creep rate of vortices and;show that magnetic moments suppress creep rate. DOI:;10.1103/PhysRevB.86.224513;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;3;0;0;0;3;1098-0121;WOS:000312831800012;;;J;Butler, C. A. M.;Hobson, P. A.;Hibbins, A. P.;Sambles, J. R.;Resonant microwave transmission from a double layer of subwavelength;metal square arrays: Evanescent handedness;PHYSICAL REVIEW B;86;24;241109;10.1103/PhysRevB.86.241109;DEC 26 2012;2012;Adouble layer of identical subwavelengthmetal patch arrays is;experimentally shown to be electromagnetically chiral due to the;evanescent coupling of the near fields between nonchiral layers-it;exhibits "evanescent handedness." Despite each layer being intrinsically;isotropic in the plane with four mirror planes orthogonal to the plane;of the structure, circular dichroism, leading to significant;polarization rotation, is found in the resonant microwave transmission;for any incident linear polarization. DOI: 10.1103/PhysRevB.86.241109;1;0;0;0;1;1098-0121;WOS:000312833400002;;;J;Calder, S.;Cao, G. -X.;Lumsden, M. D.;Kim, J. W.;Gai, Z.;Sales, B. C.;Mandrus, D.;Christianson, A. D.;Magnetic structural change of Sr2IrO4 upon Mn doping;PHYSICAL REVIEW B;86;22;220403;10.1103/PhysRevB.86.220403;DEC 26 2012;2012;The layered 5d transition-metal oxide Sr2IrO4 has been shown to host a;novel J(eff) = 1/2 Mott spin-orbit insulating state with;antiferromagnetic ordering, leading to comparisons with the layered;cuprates. Here we study the effect of substituting Mn for Ir in single;crystals of Sr2Ir0.9Mn0.1O4 through an investigation involving bulk;measurements and resonant x-ray and neutron scattering. We observe a new;long-range magnetic structure emerge upon doping through a reordering of;the spins from the basal plane to the c axis with a reduced ordering;temperature compared to Sr2IrO4 . The strong enhancement of the magnetic;x-ray scattering intensity at the L-3 edge relative to the L-2 edge;indicates that the J(eff) = 1/2 state is robust and capable of hosting a;variety of ground states. DOI: 10.1103/PhysRevB.86.220403;Gai, Zheng/B-5327-2012; Mandrus, David/H-3090-2014;Gai, Zheng/0000-0002-6099-4559;;9;1;0;0;9;1098-0121;WOS:000312831800002;;;J;Camjayi, Alberto;Arrachea, Liliana;Conductance of a quantum dot in the Kondo regime connected to dirty;wires;PHYSICAL REVIEW B;86;23;235143;10.1103/PhysRevB.86.235143;DEC 26 2012;2012;We study the transport behavior induced by a small bias voltage through;a quantum dot connected to one-channel disordered wires by means of a;quantum Monte Carlo method. We model the quantum dot by the;Hubbard-Anderson impurity and the wires by the one-dimensional Anderson;model with diagonal disorder within a length. We present a complete;description of the probability distribution function of the conductance;within the Kondo regime. DOI: 10.1103/PhysRevB.86.235143;1;0;0;0;1;1098-0121;WOS:000312832600005;;;J;Chen, Ying;Liu, Rui;Cai, Min;Shinar, Ruth;Shinar, Joseph;Extremely strong room-temperature transient photocurrent-detected;magnetic resonance in organic devices;PHYSICAL REVIEW B;86;23;235442;10.1103/PhysRevB.86.235442;DEC 26 2012;2012;An extremely strong room-temperature photocurrent- (PC- or I-PC-);detected magnetic resonance (PCDMR) that elucidates transport and;trapping phenomena in organic devices, in particular solar cells, is;described. When monitoring the transient PCDMR in indium tin oxide;(ITO)/poly(2-methoxy-5-(2'-ethyl)-hexoxy-1,4-phenylenevinylene);(MEH-PPV)/Al devices, where the MEH-PPV film was baked overnight at 100;degrees C in O-2, it is observed that | Delta I-PC/I-PC| peaks at values;>> 1, where Delta I-PC is the change in I-PC induced by magnetic;resonance conditions. Importantly, Delta I-PC and I-PC are of different;origin. The mechanism most likely responsible for this effect is the;spin-dependent formation of spinless bipolarons adjacent to negatively;charged deep traps, apparently induced in particular by oxygen centers,;to form trions. DOI: 10.1103/PhysRevB.86.235442;Cai, Min/A-2678-2014;1;0;0;0;1;1098-0121;WOS:000312832600016;;;J;Cho, Gil Young;Bardarson, Jens H.;Lu, Yuan-Ming;Moore, Joel E.;Superconductivity of doped Weyl semimetals: Finite-momentum pairing and;electronic analog of the He-3-A phase;PHYSICAL REVIEW B;86;21;214514;10.1103/PhysRevB.86.214514;DEC 26 2012;2012;We study superconducting states of doped inversion-symmetric Weyl;semimetals. Specifically, we consider a lattice model realizing a Weyl;semimetal with an inversion symmetry and study the superconducting;instability in the presence of a short-ranged attractive interaction.;With a phonon-mediated attractive interaction, we find two competing;states: a fully gapped finite-momentum Fulde-Ferrell-Larkin-Ovchinnikov;pairing state and a nodal even-parity pairing state. We show that, in a;BCS-type approximation, the finite-momentum pairing state is;energetically favored over the usual even-parity paired state and is;robust against weak disorder. Although energetically unfavorable, the;even-parity pairing state provides an electronic analog of the He-3-A;phase in that the nodes of the even-parity state carry nontrivial;winding numbers and therefore support a surface flat band. We briefly;discuss other possible superconducting states that may be realized in;Weyl semimetals. DOI: 10.1103/PhysRevB.86.214514;12;0;0;0;12;1098-0121;WOS:000312830400007;;;J;Duivenvoorden, Kasper;Quella, Thomas;Discriminating string order parameter for topological phases of gapped;SU(N) spin chains;PHYSICAL REVIEW B;86;23;235142;10.1103/PhysRevB.86.235142;DEC 26 2012;2012;One-dimensional gapped spin chains with symmetry PSU(N) = SU(N)/Z(N) are;known to possess N different topological phases. In this paper, we;introduce a nonlocal string order parameter which characterizes each of;these N phases unambiguously. Numerics confirm that our order parameter;allows one to extract a quantized topological invariant from a given;nondegenerate gapped ground state wave function. Discontinuous jumps in;the discrete topological order that arise when varying physical;couplings in the Hamiltonian may be used to detect quantum phase;transitions between different topological phases. DOI:;10.1103/PhysRevB.86.235142;Quella, Thomas/A-2630-2012;Quella, Thomas/0000-0002-5441-4124;6;0;0;0;6;1098-0121;WOS:000312832600004;;;J;Gao Xianlong;Chen, A-Hai;Tokatly, I. V.;Kurth, S.;Lattice density functional theory at finite temperature with strongly;density-dependent exchange-correlation potentials;PHYSICAL REVIEW B;86;23;235139;10.1103/PhysRevB.86.235139;DEC 26 2012;2012;The derivative discontinuity of the exchange-correlation (xc) energy at;an integer particle number is a property of the exact, unknown xc;functional of density functional theory (DFT) which is absent in many;popular local and semilocal approximations. In lattice DFT,;approximations exist which exhibit a discontinuity in the xc potential;at half-filling. However, due to convergence problems of the Kohn-Sham;(KS) self-consistency cycle, the use of these functionals is mostly;restricted to situations where the local density is away from;half-filling. Here a numerical scheme for the self-consistent solution;of the lattice KS Hamiltonian with a local xc potential with rapid (or;quasidiscontinuous) density dependence is suggested. The problem is;formulated in terms of finite-temperature DFT where the discontinuity in;the xc potential emerges naturally in the limit of zero temperature. A;simple parametrization is suggested for the xc potential of the uniform;one-dimensional (1D) Hubbard model at finite temperature which is;obtained from the solution of the thermodynamic Bethe ansatz. The;feasibility of the numerical scheme is demonstrated by application to a;model of fermionic atoms in a harmonic trap. The corresponding density;profile exhibits a plateau of integer occupation at low temperatures;which melts away for higher temperatures. DOI:;10.1103/PhysRevB.86.235139;Tokatly, Ilya/D-9554-2011; Chen, Ahai/D-6169-2013; Xianlong, Gao/K-8744-2012;Tokatly, Ilya/0000-0001-6288-0689; Xianlong, Gao/0000-0001-6914-3163;4;0;0;0;4;1098-0121;WOS:000312832600001;;;J;Hanson, George W.;Forati, Ebrahim;Linz, Whitney;Yakovlev, Alexander B.;Excitation of terahertz surface plasmons on graphene surfaces by an;elementary dipole and quantum emitter: Strong electrodynamic effect of;dielectric support;PHYSICAL REVIEW B;86;23;235440;10.1103/PhysRevB.86.235440;DEC 26 2012;2012;The excitation of transverse magnetic (TM) surface plasmons by a point;dipole in the vicinity of a multilayered graphene/dielectric system is;examined. It was previously shown that the surface plasmon (SP) excited;by a vertical dipole on an isolated graphene sheet exhibits a strong;excitation peak in the THz region; here we show that, in the presence of;a finite-thickness dielectric support layer such as SiO2, considerable;spectral content is transferred to a second (perturbed dielectric slab);mode, greatly decreasing and redshifting the excitation peak. The;presence of a Si half-space also diminishes the excitation strength, but;for graphene on top of SiO2-Si the presence of the SiO2 layer creates a;spacer restoring the excitation peak. A two-level quantum emitter is;also considered, where it is shown that the addition of a thin;dielectric support slab and SiO2-Si geometries affects the spontaneous;decay rate in a manner similar to the classical dipole SP excitation;peak. DOI: 10.1103/PhysRevB.86.235440;10;0;0;0;10;1098-0121;WOS:000312832600014;;;J;Hillier, N. J.;Foroozani, N.;Zocco, D. A.;Hamlin, J. J.;Baumbach, R. E.;Lum, I. K.;Maple, M. B.;Schilling, J. S.;Intrinsic dependence of T-c on hydrostatic (He-gas) pressure for;superconducting LaFePO, PrFePO, and NdFePO single crystals;PHYSICAL REVIEW B;86;21;214517;10.1103/PhysRevB.86.214517;DEC 26 2012;2012;Since their discovery in 2008, the Fe-based superconductors have;attracted a great deal of interest. Regrettably, themechanism(s);responsible for the superconductivity has yet to be unequivocally;identified. High pressure is an important variable since its application;moderates the pairing interaction. Thus far, the LnFePO (Ln = La, Pr,;Nd, Sm, Gd) family of superconductors has received relatively little;attention. Early high-pressure studies on LaFePO found that T-c;initially increased with pressure before passing through a maximum at;higher pressures. The present studies on both polycrystalline and;single-crystalline LaFePO, PrFePO, and NdFePO utilize the most;hydrostatic pressure medium available, i.e., dense He. Surprisingly, for;all samples, T-c is found to initially decrease rapidly with pressure at;the rate dT(c)/dP similar or equal to -2 to -3K/GPa. Less hydrostatic;pressure media thus appear to enhance the value of T-c in these;materials. These results give yet further evidence that the;superconducting state in Fe-based superconductors is extraordinarly;sensitive to lattice strain. DOI: 10.1103/PhysRevB.86.214517;Foroozani, Neda/H-2720-2013; Zocco, Diego/O-3440-2014;2;0;0;0;2;1098-0121;WOS:000312830400010;;;J;Hinuma, Yoyo;Oba, Fumiyasu;Kumagai, Yu;Tanaka, Isao;Ionization potentials of (112) and (11(2)over-bar) facet surfaces of;CuInSe2 and CuGaSe2;PHYSICAL REVIEW B;86;24;245433;10.1103/PhysRevB.86.245433;DEC 26 2012;2012;The ionization potentials of the faceted and nonfaceted (110) surfaces;of CuInSe2 (CIS) and CuGaSe2 (CGS), which are key components of;CuIn1-xGaxSe2 (CIGS) thin-film solar cells, are investigated using;first-principles calculations based on a hybrid Hartree-Fock density;functional theory approach. Slab models of the chalcopyrite (110);surface with both (112) and (11 (2) over bar) facets on each surface of;the slab are employed. Surface energy evaluations point out that two;types of faceted surfaces with point defects, namely a combination of;Cu-In (Cu-Ga) and In-Cu (Ga-Cu) antisites and a combination of Cu;vacancies and In-Cu (Ga-Cu) antisites, are the most stable depending on;the chemical potentials. The ionization potentials are evaluated with;two definitions: One highly sensitive to and the other less sensitive to;localized surface states. The latter varies by 0.4 eV in CIS and 0.5 eV;in CGS with the surface structure. The ionization potentials are reduced;by 0.2 eV for faceted surfaces with Cu-In (Cu-Ga) and In-Cu (Ga-Cu);antisites when the effects of the localized surface states are;considered. The values of both ionization potentials are similar between;CIS and CGS with a difference of about 0.1 eV for the most stable;surface structures. DOI: 10.1103/PhysRevB.86.245433;Kumagai, Yu/H-8104-2012; Tanaka, Isao/B-5941-2009; Oba, Fumiyasu/J-9723-2014;9;0;1;0;9;1098-0121;WOS:000312833400018;;;J;Hortamani, M.;Wiesendanger, R.;Role of hybridization in the Rashba splitting of noble metal monolayers;on W(110);PHYSICAL REVIEW B;86;23;235437;10.1103/PhysRevB.86.235437;DEC 26 2012;2012;In contradiction to the nature of the spin-orbit driven Rashba splitting;of surface states which increases with atomic number, Shikin et al.;[Phys. Rev. Lett. 100, 057601 (2008)] have observed that the size of the;splitting in Au overlayers on W(110) is smaller than for Ag overlayers.;In the framework of first-principle density functional theory, we have;studied the origin of the Rashba splitting at Au/Ag overlayers on the;W(110) surface. We show how the asymmetric behavior of the wave function;in the vicinity of the surface atom nucleus, in addition to the strength;of the nuclear potential gradient, plays a crucial role for the size of;the splitting. The influence of the electronic structure and spin;dependent hybridization on the Rashba splitting is discussed. The;asymmetric behavior of the surface wave function originates from the;surface-interface sp-d hybridization. We find that a spin dependent;hybridization in the Ag overlayer influences strongly the size of the;Rashba splitting. DOI: 10.1103/PhysRevB.86.235437;1;0;0;0;1;1098-0121;WOS:000312832600011;;;J;Hu, Xiang;Rueegg, Andreas;Fiete, Gregory A.;Topological phases in layered pyrochlore oxide thin films along the;[111] direction;PHYSICAL REVIEW B;86;23;235141;10.1103/PhysRevB.86.235141;DEC 26 2012;2012;We theoretically study a multiband Hubbard model of pyrochlore oxides of;the form A(2)B(2)O(7), where B is a heavy transition metal ion with;strong spin-orbit coupling, in a thin-film geometry orientated along the;[111] direction. Along this direction, the pyrochlore lattice consists;of alternating kagome and triangular lattice planes of B ions. We;consider a single kagome layer, a bilayer, and the two different;trilayers. As a function of the strength of the spin-orbit coupling, the;direct and indirect d-orbital hopping, and the band filling, we identify;a number of scenarios where a noninteracting time-reversal-invariant;Z(2) topological phase is expected and we suggest some candidate;materials. We study the interactions in the half-filled d shell within;Hartree-Fock theory and identify parameter regimes where a zero magnetic;field Chern insulator with Chern number +/- 1 can be found. The most;promising geometries for topological phases appear to be the bilayer;which supports both a Z(2) topological insulator and a Chern insulator,;and the triangular-kagome-triangular trilayer which supports a;relatively robust Chern insulator phase. DOI: 10.1103/PhysRevB.86.235141;Ruegg, Andreas/B-4498-2010;12;0;0;0;12;1098-0121;WOS:000312832600003;;;J;Janotti, A.;Bjaalie, L.;Gordon, L.;Van de Walle, C. G.;Controlling the density of the two-dimensional electron gas at the;SrTiO3/LaAlO3 interface;PHYSICAL REVIEW B;86;24;241108;10.1103/PhysRevB.86.241108;DEC 26 2012;2012;The polar discontinuity at the SrTiO3/LaAlO3 interface (STO/LAO) can in;principle sustain an electron density of 3.3 x 10(14) cm(-2) (0.5;electrons per unit cell). However, experimentally observed densities are;more than an order of magnitude lower. Using a combination of;first-principles and Schrodinger-Poisson simulations we show that the;problem lies in the asymmetric nature of the structure, i.e., the;inability to form a second LAO/STO interface that is a mirror image of;the first, or to fully passivate the LAO surface. Our insights apply to;oxide interfaces in general, explaining for instance why the;SrTiO3/GdTiO3 interface has been found to exhibit the full density of;3.3 x 10(14) cm(-2). DOI: 10.1103/PhysRevB.86.241108;Janotti, Anderson/F-1773-2011; Van de Walle, Chris/A-6623-2012;Janotti, Anderson/0000-0001-5028-8338; Van de Walle,;Chris/0000-0002-4212-5990;11;0;0;0;11;1098-0121;WOS:000312833400001;;;J;Kim, Changsoo;Jo, Euna;Kang, Byeongki;Kwon, Sangil;Lee, Soonchil;Shim, Jeong Hyun;Suzuki, Takehiko;Katsufuji, Takuro;Giant magnetic anisotropy in Mn3O4 investigated by Mn-55(2+) and;Mn-55(3+) NMR;PHYSICAL REVIEW B;86;22;224420;10.1103/PhysRevB.86.224420;DEC 26 2012;2012;In Mn3O4, the magnetization along the c axis is different from that;along the ab plane even in the strong field of 30 T. To investigate the;origin of the huge magnetic anisotropy, Mn2+ and Mn3+ nuclear magnetic;resonance spectra were measured in the 7-T magnetic field. The canting;angle of the magnetic moments was estimated for various directions of;field by rotating a single-crystalline Mn3O4 sample. One of the main;results is that Mn3+ moments lie nearly in the ab plane in the external;field perpendicular to the plane, meaning that the macroscopic magnetic;anisotropy of Mn3O4 originates from the magnetic anisotropy of Mn3+ in;the ab plane. The anisotropy field is estimated to be about 65 T. It is;obvious that the Yafet-Kittel structure made of Mn2+ and Mn3+ spins lies;in the ab plane due to this huge magnetic anisotropy, contrary to the;previous reports. By the least-squares fit of the canting angle data for;various field directions to a simple model, we obtained that J(BB) =;1.88J(AB) - 0.09 meV and K-A = -14.7J(AB) + 2.0 meV, where J(AB), J(BB),;and K-A are the exchange interaction constants between Mn2+ moments,;Mn2+ and Mn3+ moments, and an anisotropy constant of Mn2+, respectively.;DOI: 10.1103/PhysRevB.86.224420;Suzuki, Takehito/B-3038-2013; Lee, Soonchil/C-1963-2011;3;0;0;0;3;1098-0121;WOS:000312831800010;;;J;Kimber, Robin G. E.;Wright, Edward N.;O'Kane, Simon E. J.;Walker, Alison B.;Blakesley, James C.;Mesoscopic kinetic Monte Carlo modeling of organic photovoltaic device;characteristics;PHYSICAL REVIEW B;86;23;235206;10.1103/PhysRevB.86.235206;DEC 26 2012;2012;Measured mobility and current-voltage characteristics of single layer;and photovoltaic (PV) devices composed of;poly{9,9-dioctylfluorene-co-bis[N,N'-(4-butylphenyl)]bis(N,N'-phenyl-1,4;-phenylene)diamine} (PFB) and;poly(9,9-dioctylfluorene-co-benzothiadiazole) (F8BT) have been;reproduced by a mesoscopic model employing the kinetic Monte Carlo (KMC);approach. Our aim is to show how to avoid the uncertainties common in;electrical transport models arising from the need to fit a large number;of parameters when little information is available, for example, a;single current-voltage curve. Here, simulation parameters are derived;from a series of measurements using a self-consistent "building-blocks";approach, starting from data on the simplest systems. We found that site;energies show disorder and that correlations in the site energies and a;distribution of deep traps must be included in order to reproduce;measured charge mobility-field curves at low charge densities in bulk;PFB and F8BT. The parameter set from the mobility-field curves;reproduces the unipolar current in single layers of PFB and F8BT and;allows us to deduce charge injection barriers. Finally, by combining;these disorder descriptions and injection barriers with an optical;model, the external quantum efficiency and current densities of blend;and bilayer organic PV devices can be successfully reproduced across a;voltage range encompassing reverse and forward bias, with the;recombination rate the only parameter to be fitted, found to be 1 x;10(7) s(-1). These findings demonstrate an approach that removes some of;the arbitrariness present in transport models of organic devices, which;validates the KMC as an accurate description of organic optoelectronic;systems, and provides information on the microscopic origins of the;device behavior. DOI: 10.1103PhysRevB.86.235206;20;0;1;0;20;1098-0121;WOS:000312832600006;;;J;Kishine, Jun-ichiro;Bostrem, I. G.;Ovchinnikov, A. S.;Sinitsyn, Vl. E.;Coherent sliding dynamics and spin motive force driven by crossed;magnetic fields in a chiral helimagnet;PHYSICAL REVIEW B;86;21;214426;10.1103/PhysRevB.86.214426;DEC 26 2012;2012;We demonstrate that the chiral soliton lattice formed from a chiral;helimagnet exhibits a coherent sliding motion when a time-dependent;magnetic field is applied parallel to the helical axis, in addition to a;static field perpendicular to the helical axis. To describe the coherent;sliding, we use the collective coordinate method and a numerical;analysis. We also show that the time-dependent sliding velocity causes a;time-varying Berry cap which creates a spin motive force. A salient;feature of the chiral soliton lattice is the appearance of a strongly;amplified spin motive force which is directly proportional to the;macroscopic number of solitons (magnetic kinks). DOI:;10.1103/PhysRevB.86.214426;2;0;0;0;2;1098-0121;WOS:000312830400005;;;J;Kratzer, M.;Rubezhanska, M.;Prehal, C.;Beinik, I.;Kondratenko, S. V.;Kozyrev, Yu N.;Teichert, C.;Electrical and photovoltaic properties of self-assembled Ge nanodomes on;Si(001);PHYSICAL REVIEW B;86;24;245320;10.1103/PhysRevB.86.245320;DEC 26 2012;2012;SiGe nano-size islands play a key role in novel electronic and;optoelectronic devices. Therefore, the understanding of basic electrical;properties of individual nanoislands is crucial. Here, the electrical;and photovoltaic properties of individual self-assembled Ge nanodomes;(NDs) on Si(001) have been studied by conductive and photoconductive;atomic force microscopy (AFM). The transition areas between the {113};and {15 3 23} facets turned out to be most conductive whereas the {113};facets exhibit minimum conductivity, which is attributed to a local;increase in Si concentration. Local current-to-voltage measurements;revealed that the NDs show an ohmic resistance, which is in the M Omega;region and scales with the ND-substrate interface area. Upon;illumination by the AFM feedback laser at 860 nm, a photovoltage is;generated. This photovoltage originates in the p-i-n structure formed;between the p-type substrate, the Ge ND, and the n-type diamond AFM;probe. DOI: 10.1103/PhysRevB.86.245320;Teichert, Christian/F-1003-2013;3;0;0;0;3;1098-0121;WOS:000312833400010;;;J;Kudasov, Yu. B.;Maslov, D. A.;Frustration and charge order in LuFe2O4;PHYSICAL REVIEW B;86;21;214427;10.1103/PhysRevB.86.214427;DEC 26 2012;2012;The nature of a transition from two-to three-dimensional charge order;(2D-CO -> 3D-CO) in the multiferroic material LuFe2O4 is discussed. It;is shown that a high-temperature ordered phase of the Ising model with;antiferromagnetic or antiferroelectric (AF) interactions on a triangular;bilayer (W layer) is a dimer partially disordered AF (DPDA) state, which;is a generalization of a well-known partially disordered AF structure;for the triangular lattice. The DPDA state is stable against a variation;of interaction parameters in a wide range. It is demonstrated that the;transition of W layers to the DPDA state gives rise to the 2D-CO phase;in LuFe2O4 at a high temperature. DOI: 10.1103/PhysRevB.86.214427;1;1;0;0;1;1098-0121;WOS:000312830400006;;;J;Lee, Janghee;Park, Joonbum;Lee, Jae-Hyeong;Kim, Jun Sung;Lee, Hu-Jong;Gate-tuned differentiation of surface-conducting states in;Bi1.5Sb0.5Te1.7Se1.3 topological-insulator thin crystals;PHYSICAL REVIEW B;86;24;245321;10.1103/PhysRevB.86.245321;DEC 26 2012;2012;Using field-angle, temperature, and back-gate-voltage dependence of the;weak antilocalization (WAL) and universal conductance fluctuations of;thin Bi1.5Sb0.5Te1.7Se1.3 topological-insulator single crystals, in;combination with gate-tuned Hall resistivity measurements, we reliably;separated the surface conduction of the topological nature from both the;bulk conduction and topologically trivial surface conduction. We;minimized the bulk conduction in the crystals and back-gate tuned the;Fermi level to the topological bottom-surface band while keeping the top;surface insensitive to back-gating with the optimal crystal thickness of;similar to 100 nm. We argue that the WAL effect occurring by the;coherent diffusive motion of carriers in relatively low magnetic fields;is more essential than other transport tools such as the Shubnikov-de;Hass oscillations for confirming the conduction by the topologically;protected surface state. Our approach provides a highly coherent picture;of the surface transport properties of topological insulators and a;reliable means of investigating the fundamental topological nature of;surface conduction and possible quantum-device applications related to;momentum-locked spin polarization in surface states. DOI:;10.1103/PhysRevB.86.245321;Kim, Jun Sung/G-8861-2012; Lee, Janghee/E-7471-2013;Lee, Janghee/0000-0002-7398-9097;11;2;1;0;11;1098-0121;WOS:000312833400011;;;J;Lee, Soo-Yong;Lee, Hyun-Woo;Sim, H. -S.;Visibility recovery by strong interaction in an electronic Mach-Zehnder;interferometer;PHYSICAL REVIEW B;86;23;235444;10.1103/PhysRevB.86.235444;DEC 26 2012;2012;We study the evolution of a single-electron packet of Lorentzian shape;along an edge of the integer quantum Hall regime or in a Mach-Zehnder;interferometer, considering a capacitive Coulomb interaction and using a;bosonization approach. When the packet propagates along a chiral quantum;Hall edge, we find that its electron density profile becomes more;distorted from Lorentzian due to the generation of electron-hole;excitations, as the interaction strength increases yet stays in a;weak-interaction regime. However, as the interaction strength becomes;larger and enters a strong-interaction regime, the distortion becomes;weaker and eventually the Lorentzian packet shape is recovered. The;recovery of the packet shape leads to an interesting feature of the;interference visibility of the symmetric Mach-Zehnder interferometer;whose two arms have the same interaction strength. As the interaction;strength increases, the visibility decreases from the maximum value in;the weak-interaction regime and then increases to the maximum value in;the strong-interaction regime. We argue that this counterintuitive;result also occurs under other types of interactions. DOI:;10.1103/PhysRevB.86.235444;Lee, Hyun-Woo/B-8995-2008; Sim, Heung-Sun/C-1624-2011;Lee, Hyun-Woo/0000-0002-1648-8093;;1;0;0;0;1;1098-0121;WOS:000312832600018;;;J;Li, Qiuzi;Rossi, E.;Das Sarma, S.;Two-dimensional electronic transport on the surface of three-dimensional;topological insulators;PHYSICAL REVIEW B;86;23;235443;10.1103/PhysRevB.86.235443;DEC 26 2012;2012;We present a theoretical approach to describe the two-dimensional (2D);transport properties of the surfaces of three-dimensional topological;insulators (3DTIs) including disorder and phonon scattering effects. The;method that we present is able to take into account the effects of the;strong disorder-induced carrier density inhomogeneities that;characterize the ground state of the surfaces of 3DTIs, especially at;low doping, as recently shown experimentally. Due to the inhomogeneous;nature of the carrier density landscape, standard theoretical techniques;based on ensemble averaging over disorder assuming a spatially uniform;average carrier density are inadequate. Moreover the presence of strong;spatial potential and density fluctuations greatly enhances the effect;of thermally activated processes on the transport properties. The theory;presented is able to take into account all the effects due to the;disorder-induced inhomogeneities, momentum scattering by disorder, and;the effect of electron-phonon scattering processes. As a result the;developed theory is able to accurately describe the transport properties;of the surfaces of 3DTIs both at zero and finite temperature. DOI:;10.1103/PhysRevB.86.235443;Rossi, Enrico/K-2837-2012; Li, Qiuzi/F-6474-2011; Das Sarma, Sankar/B-2400-2009;Rossi, Enrico/0000-0002-2647-3610;;8;1;0;0;8;1098-0121;WOS:000312832600017;;;J;Liang, S. H.;Liu, D. P.;Tao, L. L.;Han, X. F.;Guo, Hong;Organic magnetic tunnel junctions: The role of metal-molecule interface;PHYSICAL REVIEW B;86;22;224419;10.1103/PhysRevB.86.224419;DEC 26 2012;2012;We report a first-principles theoretical investigation of spin-polarized;quantum transport in organic magnetic tunnel junctions (OMTJs) to;provide a microscopic understanding on the sign of the tunnel;magnetoresistance ratio (TMR). We consider two different OMTJs, formed;by sandwiching 1-stearic acid radicals (1-SAR) or 1,18-stearic diacid;radicals (1,18-SDR) between two Ni electrodes. Even though the main;difference between them is only on one of the Ni/molecule contacts, such;a structure difference is found to induce a significant sign change of;the TMR. The TMR is negative for 1-SAR at -19.6%, but is positive for;1,18-SDR at 13.7%. By investigating the concept of scattering density of;states (SDOS), we found that scattering processes of p electrons at the;Ni/molecule interface determines the sign of TMR. Based on spin;polarization of the SDOS, we extend the Julliere model to explain both;the sign and the value of the TMR qualitatively and semiquantitatively.;It is concluded that understanding spin-polarized quantum transport in;organic magnetic tunnel junction requires a comprehensive knowledge of;the electronic structures of the molecule, the metal electrode, and the;metal-molecule contacts. DOI: 10.1103/PhysRevB.86.224419;Guo, Hong/A-8084-2010;4;0;0;0;4;1098-0121;WOS:000312831800009;;;J;Liew, T. C. H.;Holographic arrays based on semiconductor microstructures;PHYSICAL REVIEW B;86;23;235314;10.1103/PhysRevB.86.235314;DEC 26 2012;2012;A concept of complex reflectivity modulation is proposed based on the;electrical control of quantum well exciton resonances that influence the;propagation of light in a layered semiconductor structure. By variation;in exciton energies, both the intensity and the phase of reflected light;can be fully controlled. Unlike previous devices, for full complex light;modulation, the design is based on a single device in a single;structure. The device allows complete 100% intensity contrast and allows;for the construction of small pixel sizes with fast response times. DOI:;10.1103/PhysRevB.86.235314;1;0;0;0;1;1098-0121;WOS:000312832600010;;;J;Lin, Chien-Hung;Sensarma, Rajdeep;Sengupta, K.;Sarma, S. Das;Quantum dynamics of disordered bosons in an optical lattice;PHYSICAL REVIEW B;86;21;214207;10.1103/PhysRevB.86.214207;DEC 26 2012;2012;We study the equilibrium and nonequilibrium properties of strongly;interacting bosons on a lattice in the presence of a random bounded;disorder potential. Using a Gutzwiller projected variational technique,;we study the equilibrium phase diagram of the disordered Bose-Hubbard;model and obtain the Mott insulator, Bose glass, and superfluid phases.;We also study the nonequilibrium response of the system under a periodic;temporal drive where, starting from the superfluid phase, the hopping;parameter is ramped down linearly in time, and back to its initial;value. We study the density of excitations created, the change in the;superfluid order parameter, and the energy pumped into the system in;this process as a function of the inverse ramp rate tau. For the clean;case the density of excitations goes to a constant, while the order;parameter and energy relax as 1/tau and 1/tau(2) respectively. With;disorder, the excitation density decays exponentially with t, with the;decay rate increasing with the disorder, to an asymptotic value;independent of the disorder. The energy and change in order parameter;also decrease as tau is increased. DOI: 10.1103/PhysRevB.86.214207;Das Sarma, Sankar/B-2400-2009;1;0;0;0;1;1098-0121;WOS:000312830400001;;;J;Luo, Yongkang;Bao, Jinke;Shen, Chenyi;Han, Jieke;Yang, Xiaojun;Lv, Chen;Li, Yuke;Jiao, Wenhe;Si, Bingqi;Feng, Chunmu;Dai, Jianhui;Cao, Guanghan;Xu, Zhu-An;Magnetism and crystalline electric field effect in ThCr2Si2-type;CeNi2As2;PHYSICAL REVIEW B;86;24;245130;10.1103/PhysRevB.86.245130;DEC 26 2012;2012;A millimeter-sized ThCr2Si2-type CeNi2As2 single crystal was synthesized;by the NaAs flux method and its physical properties were investigated by;magnetization, transport, and specific-heat measurements. In contrast to;the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type;CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the;transition temperature T-N = 4.8 K. A magnetic-field-induced spin-flop;transition was seen below T-N when the applied B is parallel to the c;axis, the magnetic easy axis, together with a huge frustration parameter;f = theta(W)/T-N. A pronounced Schottky-type anomaly in specific heat;was also found around 160 K, which could be attributed to the;crystalline electric field effect with the excitation energies being;fitted to Delta(1) = 325 K and Delta(2) = 520 K, respectively. Moreover,;the in-plane resistivity anisotropy and low-temperature x-ray;diffractions suggest that this compound is a rare example exhibiting a;possible structure distortion induced by the 4f-electron magnetic;frustration. DOI: 10.1103/PhysRevB.86.245130;Cao, Guanghan/C-4753-2008;5;0;0;0;5;1098-0121;WOS:000312833400008;;;J;Margaris, G.;Trohidou, K. N.;Iannotti, V.;Ausanio, G.;Lanotte, L.;Fiorani, D.;Magnetic behavior of dense nanoparticle assemblies: Interplay of;interparticle interactions and particle system morphology;PHYSICAL REVIEW B;86;21;214425;10.1103/PhysRevB.86.214425;DEC 26 2012;2012;The role of interparticle interactions and the morphology in the;magnetic behavior of dense assemblies of Fe nanoparticles with;concentration well above the percolation threshold has been studied;using the Monte Carlo simulations technique. The initial and;temperature-dependent magnetization curves have been calculated for;different conditions of the assembly morphology and the interparticle;interaction strengths. Our simulations showed that the strong;competition between the anisotropy and exchange energies in nonuniform;dense assemblies results in a frustration of the nanoparticles moments;coupling and creates plateaus and abrupt steps, which indicate a sudden,;collective spin reversal, for low and intermediate dipolar strengths. In;the case of strong dipolar interactions, the stepwise behavior becomes;smoother and gradually disappears. DOI: 10.1103/PhysRevB.86.214425;2;0;0;0;2;1098-0121;WOS:000312830400004;;;J;Marom, Noa;Caruso, Fabio;Ren, Xinguo;Hofmann, Oliver T.;Koerzdoerfer, Thomas;Chelikowsky, James R.;Rubio, Angel;Scheffler, Matthias;Rinke, Patrick;Benchmark of GW methods for azabenzenes;PHYSICAL REVIEW B;86;24;245127;10.1103/PhysRevB.86.245127;DEC 26 2012;2012;Many-body perturbation theory in the GW approximation is a useful method;for describing electronic properties associated with charged;excitations. A hierarchy of GW methods exists, starting from;non-self-consistent G(0)W(0), through partial self-consistency in the;eigenvalues and in the Green's function (scGW(0)), to fully;self-consistent GW (scGW). Here, we assess the performance of these;methods for benzene, pyridine, and the diazines. The quasiparticle;spectra are compared to photoemission spectroscopy (PES) experiments;with respect to all measured particle removal energies and the ordering;of the frontier orbitals. We find that the accuracy of the calculated;spectra does not match the expectations based on their level of;self-consistency. In particular, for certain starting points G(0)W(0);and scGW(0) provide spectra in better agreement with the PES than scGW.;DOI: 10.1103/PhysRevB.86.245127;Rinke, Patrick/A-4208-2010; Caruso, Fabio/D-5917-2013; Korzdorfer, Thomas/B-8266-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014; Ren, Xinguo/N-4768-2014;Rinke, Patrick/0000-0002-5967-9965;;17;0;0;0;17;1098-0121;WOS:000312833400006;;;J;Marty, K.;Christianson, A. D.;dos Santos, A. M.;Sipos, B.;Matsubayashi, K.;Uwatoko, Y.;Fernandez-Baca, J. A.;Tulk, C. A.;Maier, T. A.;Sales, B. C.;Lumsden, M. D.;Effect of pressure on the neutron spin resonance in the unconventional;superconductor FeTe0.6Se0.4;PHYSICAL REVIEW B;86;22;220509;10.1103/PhysRevB.86.220509;DEC 26 2012;2012;We have carried out a pressure study of the unconventional;superconductor FeTe0.6Se0.4 up to 1.5 GPa by neutron scattering,;resistivity, and magnetic susceptibility measurements. The neutron spin;resonance energy and the superconducting transition temperature have;been extracted as a function of applied pressure in samples obtained;from the same crystal. Both increase with pressure up to amaximum at;approximate to 1.3 GPa, directly demonstrating a correlation between;these two fundamental parameters of unconventional superconductivity. A;comparison between the quantitative evolution of T-c and the resonance;energy as a function of applied pressure is also discussed. These;measurements serve to demonstrate the feasibility of using pressure;dependent inelastic neutron scattering to explore the relationship;between the resonance energy and T-c in unconventional superconductors.;DOI: 10.1103/PhysRevB.86.220509;Maier, Thomas/F-6759-2012; Fernandez-Baca, Jaime/C-3984-2014; Matsubayashi, Kazuyuki/F-7696-2013;3;0;0;0;3;1098-0121;WOS:000312831800004;;;J;Mesterhazy, D.;Berges, J.;von Smekal, L.;Effect of short-range interactions on the quantum critical behavior of;spinless fermions on the honeycomb lattice;PHYSICAL REVIEW B;86;24;245431;10.1103/PhysRevB.86.245431;DEC 26 2012;2012;We present a functional renormalization group investigation of an;Euclidean three-dimensional matrix Yukawa model with U(N) symmetry,;which describes N = 2 Weyl fermions that effectively interact via a;short-range repulsive interaction. This system relates to an effective;low-energy theory of spinless electrons on the honeycomb lattice and can;be seen as a simple model for suspended graphene. We find a continuous;phase transition characterized by large anomalous dimensions for the;fermions and composite degrees of freedom. The critical exponents define;a new universality class distinct from Gross-Neveu type models,;typically considered in this context. DOI: 10.1103/PhysRevB.86.245431;7;0;0;0;7;1098-0121;WOS:000312833400016;;;J;Mizuguchi, Yoshikazu;Fujihisa, Hiroshi;Gotoh, Yoshito;Suzuki, Katsuhiro;Usui, Hidetomo;Kuroki, Kazuhiko;Demura, Satoshi;Takano, Yoshihiko;Izawa, Hiroki;Miura, Osuke;BiS2-based layered superconductor Bi4O4S3;PHYSICAL REVIEW B;86;22;220510;10.1103/PhysRevB.86.220510;DEC 26 2012;2012;Exotic superconductivity has often been discovered in materials with a;layered (two-dimensional) crystal structure. The low dimensionality can;affect the electronic structure and can realize high transition;temperatures (T-c) and/or unconventional superconductivity mechanisms.;We show superconductivity in a new bismuth-oxysulfide compound Bi4O4S3.;Crystal structure analysis indicates that this superconductor has a;layered structure composed of a stacking of spacer layers and BiS2;layers. Band calculation suggests that the Fermi level for Bi4O4S3 is;just on the peak position of the partial density of states of the Bi 6p;orbital within the BiS2 layer. The BiS2 layer will be a basic structure;which provides another universality class for a layered superconducting;family, and this opens up a new field in the physics and chemistry of;low-dimensional superconductors. DOI: 10.1103/PhysRevB.86.220510;68;0;3;0;70;1098-0121;WOS:000312831800005;;;J;Mutiso, Rose M.;Sherrott, Michelle C.;Li, Ju;Winey, Karen I.;Simulations and generalized model of the effect of filler size;dispersity on electrical percolation in rod networks;PHYSICAL REVIEW B;86;21;214306;10.1103/PhysRevB.86.214306;DEC 26 2012;2012;We present a three-dimensional simulation of electrical conductivity in;isotropic, polydisperse rod networks from which we determine the;percolation threshold (phi(c)). Existing analytical models that account;for size dispersity are formulated in the slender-rod limit and are less;accurate for predicting phi(c) in composites with rods of modest L/D.;Using empirical approximations from our simulation data, we generalized;the excluded volume percolation model to account for both finite L/D and;size dispersity, providing a solution for phi(c) of polydisperse rod;networks that is quantitatively accurate across the entire L/D range.;DOI: 10.1103/PhysRevB.86.214306;Li, Ju/A-2993-2008;Li, Ju/0000-0002-7841-8058;12;0;0;0;12;1098-0121;WOS:000312830400002;;;J;Nishikawa, Y.;Hewson, A. C.;Hund's rule coupling in models of magnetic impurities and quantum dots;PHYSICAL REVIEW B;86;24;245131;10.1103/PhysRevB.86.245131;DEC 26 2012;2012;Studies of the effects of the Hund's rule coupling J(H) in multiple;orbit impurities or quantum dots using different models have led to;quite different predictions for the Kondo temperature T-K as a function;of J(H). We show that the differences depend on whether or not the;models conserve orbital angular momentum about the impurity site. Using;numerical renormalization-group calculations, we deduce the renormalized;parameters for the Fermi liquid regime and show that, despite the;differences between the models, the low-energy fixed point in the;strong-correlation regime is universal, with a single energy scale T-K;and just two renormalized interaction parameters, a renormalized single;orbital term, (U) over tilde = 4T(K), and a renormalized Hund's rule;term, (J) over tilde (H) = 8T(K)/3. DOI: 10.1103/PhysRevB.86.245131;3;0;0;0;3;1098-0121;WOS:000312833400009;;;J;Oliveira, G. N. P.;Pereira, A. M.;Lopes, A. M. L.;Amaral, J. S.;dos Santos, A. M.;Ren, Y.;Mendonca, T. M.;Sousa, C. T.;Amaral, V. S.;Correia, J. G.;Araujo, J. P.;Dynamic off-centering of Cr3+ ions and short-range magneto-electric;clusters in CdCr2S4;PHYSICAL REVIEW B;86;22;224418;10.1103/PhysRevB.86.224418;DEC 26 2012;2012;The cubic spinel CdCr2S4 gained recently a vivid interest, given the;relevance of relaxor-like dielectric behavior in its paramagnetic phase.;By a singular combination of local probe techniques, namely, pair;distribution function and perturbed angular correlation, we firmly;establish that the Cr ion plays the central key role on this exotic;phenomenon, namely, through a dynamic off-centering displacement of its;coordination sphere. We further show that this off-centering of the;magnetic Cr ion gives rise to a peculiar entanglement between the polar;and magnetic degrees of freedom, stabilizing, in the paramagnetic phase,;short-range magnetic clusters, clearly seen in ultralow-field;susceptibility measurements. Moreover, the Landau theory is here used to;demonstrate that a linear coupling between the magnetic and polar order;parameters is sufficient to justify the appearance of magnetic cluster;in the paramagnetic phase of this compound. These results open insights;on the hotly debated magnetic and polar interaction, setting a step;forward in the reinterpretation of the coupling of different physical;degrees of freedom. DOI: 10.1103/PhysRevB.86.224418;Universidade Aveiro, Departamento Fisica/E-4128-2013; Amaral, Vitor/A-1570-2009; Pereira, Andre/B-4648-2008; Amaral, Joao/C-6354-2009; Lopes, Armandina/I-5066-2013; Martins Correia, Joao Guilherme/J-5473-2013; Esteves de Araujo, Joao Pedro/D-4389-2011;Amaral, Vitor/0000-0003-3359-7133; Pereira, Andre/0000-0002-8587-262X;;Amaral, Joao/0000-0003-0488-9372; Lopes, Armandina/0000-0001-8776-0894;;Martins Correia, Joao Guilherme/0000-0002-8848-0824; Esteves de Araujo,;Joao Pedro/0000-0002-1646-7727;7;1;0;0;7;1098-0121;WOS:000312831800008;;;J;Olund, Christopher T.;Zhao, Erhai;Current-phase relation for Josephson effect through helical metal;PHYSICAL REVIEW B;86;21;214515;10.1103/PhysRevB.86.214515;DEC 26 2012;2012;Josephson junctions fabricated on the surface of three-dimensional;topological insulators ( TI) show a few unusual properties distinct from;conventional Josephson junctions. In these devices, the Josephson;coupling and the supercurrent are mediated by helical metal, the;two-dimensional surface state of the TI. A line junction of this kind is;known to support Andreev bound states at zero energy for phase bias pi;and, consequently, the so-called fractional ac Josephson effect.;Motivated by recent experiments on TI-based Josephson junctions, here we;describe a convenient algorithm to compute the bound-state spectrum and;the current-phase relation for junctions of finite length and width. We;present analytical results for the bound-state spectrum, and discuss the;dependence of the current-phase relation on the length and width of the;junction, the chemical potential of the helical metal, and temperature.;A thorough understanding of the current-phase relation may help in;designing topological superconducting qubits and manipulating Majorana;fermions. DOI: 10.1103/PhysRevB.86.214515;Zhao, Erhai/B-3463-2010;Zhao, Erhai/0000-0001-8954-1601;5;0;0;0;5;1098-0121;WOS:000312830400008;;;J;Pakdel, Sahar;Miri, MirFaez;Faraday rotation and circular dichroism spectra of gold and silver;nanoparticle aggregates;PHYSICAL REVIEW B;86;23;235445;10.1103/PhysRevB.86.235445;DEC 26 2012;2012;We study the magneto-optical response of noble metal nanoparticle;clusters. We consider the interaction between the light-induced dipoles;of particles. In the presence of a magnetic field, the simplest achiral;cluster, a dimer, exhibits circular dichroism (CD). The CD of a dimer;depends on the directions of the magnetic field and the light wave;vector. The CD of a populous cluster weakly depends on the magnetic;field. Upon scattering from the cluster, an incident linearly polarized;light with polarization azimuth. becomes elliptically polarized. The;polarization azimuth rotation and ellipticity angle variation are;sinusoidal functions of 2 phi.. The anisotropy and the chirality of the;cluster control the amplitude and offset of these sinusoidal functions.;The Faraday rotation and Faraday ellipticity are also sinusoidal;functions of 2 phi. Near the surface plasmon frequency, Faraday rotation;and Faraday ellipticity increase. DOI: 10.1103/PhysRevB.86.235445;6;0;0;0;6;1098-0121;WOS:000312832600019;;;J;Pedersen, Jesper Goor;Brynildsen, Mikkel H.;Cornean, Horia D.;Pedersen, Thomas Garm;Optical Hall conductivity in bulk and nanostructured graphene beyond the;Dirac approximation;PHYSICAL REVIEW B;86;23;235438;10.1103/PhysRevB.86.235438;DEC 26 2012;2012;We present a perturbative method for calculating the optical Hall;conductivity in a tight-binding framework based on the Kubo formalism.;The method involves diagonalization only of the Hamiltonian in absence;of the magnetic field, and thus avoids the computational problems;usually arising due to the huge magnetic unit cells required to maintain;translational invariance in the presence of a Peierls phase. A recipe;for applying the method to numerical calculations of the magneto-optical;response is presented. We apply the formalism to the case of ordinary;and gapped graphene in a next-nearest-neighbor tight-binding model as;well as graphene antidot lattices. In both cases, we find unique;signatures in the Hall response that are not captured in continuum;(Dirac) approximations. These include a nonzero optical Hall;conductivity even when the chemical potential is at the Dirac point;energy. Numerical results suggest that this effect should be measurable;in experiments. DOI: 10.1103/PhysRevB.86.235438;Goor Pedersen, Jesper/C-3965-2008; Cornean, Horia/A-4064-2008;Goor Pedersen, Jesper/0000-0002-8411-240X; Cornean,;Horia/0000-0003-2700-8785;1;0;0;0;1;1098-0121;WOS:000312832600012;;;J;Rodriguez, Alejandro W.;Reid, M. T. Homer;Johnson, Steven G.;Fluctuating-surface-current formulation of radiative heat transfer for;arbitrary geometries;PHYSICAL REVIEW B;86;22;220302;10.1103/PhysRevB.86.220302;DEC 26 2012;2012;We describe a fluctuating-surface-current formulation of radiative heat;transfer, applicable to arbitrary geometries in both the near and far;field, that directly exploits efficient and sophisticated techniques;from the boundary-element method. We validate as well as extend previous;results for spheres and cylinders, and also compute the heat transfer in;a more complicated geometry consisting of two interlocked rings.;Finally, we demonstrate how this method can be adapted to compute the;spatial distribution of heat flux on the surfaces of the bodies. DOI:;10.1103/PhysRevB.86.220302;13;0;0;0;13;1098-0121;WOS:000312831800001;;;J;Saidi, Wissam A.;Lee, Minyoung;Li, Liang;Zhou, Guangwen;McGaughey, Alan J. H.;Ab initio atomistic thermodynamics study of the early stages of Cu(100);oxidation;PHYSICAL REVIEW B;86;24;245429;10.1103/PhysRevB.86.245429;DEC 26 2012;2012;Using an ab initio atomistic thermodynamics framework, we identify the;stable surface structures during the early stages of Cu(100) oxidation;at finite temperature and pressure conditions. We predict the clean;surface, the 0.25 monolayer oxygen-covered surface, and the missing-row;reconstruction as thermodynamically stable structures in range of;100-1000 K and 10(-15)-10(5) atm, consistent with previous experimental;and theoretical results. We also investigate the thermodynamic;stabilities of possible precursors to Cu2O formation including;missing-row reconstruction structures that include extra on-or;subsurface oxygen atoms as well as boundary phases formed from two;missing-row nanodomains. While these structures are not predicted to be;thermodynamically stable for oxygen chemical potentials below the;nucleation limit of Cu2O, they are likely to exist due to kinetic;hindrance. DOI: 10.1103/PhysRevB.86.245429;Li, Liang/C-5782-2012;7;0;0;0;7;1098-0121;WOS:000312833400014;;;J;Sakuma, R.;Miyake, T.;Aryasetiawan, F.;Self-energy and spectral function of Ce within the GW approximation;PHYSICAL REVIEW B;86;24;245126;10.1103/PhysRevB.86.245126;DEC 26 2012;2012;To investigate how far the GW approximation can treat systems with;strong on-site correlations, we perform calculations of the;self-energies and spectral functions of alpha-and gamma-Ce within the GW;approximation. For this strongly correlated material, the screened;interaction exhibits a complex and rich structure which is attributed to;strong particle-hole transitions involving localized 4f states. This;structure in the screened interaction is carried over to the;self-energy, which in turn yields spectral functions with multiple;peaks. A satellite at around 5 eV above the Fermi level is formed, which;is reminiscent of the experimentally observed upper Hubbard band, while;the experimentally observed peak structure below the Fermi level at -2;eV and disappearance of the quasiparticle peak in the. phase are not;reproduced. DOI: 10.1103/PhysRevB.86.245126;6;0;0;0;6;1098-0121;WOS:000312833400005;;;J;Schulze, T. P.;Smereka, P.;Kinetic Monte Carlo simulation of heteroepitaxial growth: Wetting;layers, quantum dots, capping, and nanorings;PHYSICAL REVIEW B;86;23;235313;10.1103/PhysRevB.86.235313;DEC 26 2012;2012;A new kinetic Monte Carlo algorithm that efficiently accounts for;elastic strain is presented and applied to study various phenomena that;take place during heteroepitaxial growth. For example, it is;demonstrated that faceted quantum dots occur via the layer-by-layer;nucleation of prepyramids on top of a critical layer with faceting;occurring by anisotropic surface diffusion. It is also shown that the;dot growth is enhanced by the depletion of the critical layer which;leaves behind a wetting layer. Capping simulations provide insight into;the mechanisms behind dot erosion and ring formation. The algorithm used;for the simulations presented here is based on the observation that;adatom and dimer motion is essentially decoupled from the elastic field.;This is exploited by decomposing the film into two parts: the weakly;bonded portion and the strongly bonded portion. The weakly bonded;portion is taken to evolve independent of the elastic field. In this way;the elastic field need only be updated infrequently. Extensive;validation reveals that there is little loss of fidelity but the;algorithm is fifteen to twenty times faster. DOI:;10.1103/PhysRevB.86.235313;Smereka, Peter/F-9974-2013;7;0;0;0;7;1098-0121;WOS:000312832600009;;;J;Shukla, D. K.;Francoual, S.;Skaugen, A.;von Zimmermann, M.;Walker, H. C.;Bezmaternykh, L. N.;Gudim, I. A.;Temerov, V. L.;Strempfer, J.;Ho and Fe magnetic ordering in multiferroic HoFe3(BO3)(4);PHYSICAL REVIEW B;86;22;224421;10.1103/PhysRevB.86.224421;DEC 26 2012;2012;Resonant and nonresonant x-ray scattering studies on HoFe3(BO3)(4);reveal competing magnetic ordering of Ho and Fe moments. Temperature and;x-ray polarization dependent measurements employed at the Ho L-3 edge;directly reveal a spiral spin order of the induced Ho moments in the ab;plane propagating along the c axis, a screw-type magnetic structure. At;about 22.5 K the Fe spins are observed to rotate within the basal plane;inducing spontaneous electric polarization, P. Components of P in the;basal plane and along the c axis can be scaled with the separated;magnetic x-ray scattering intensities of the Fe and Ho magnetic;sublattices, respectively. DOI: 10.1103/PhysRevB.86.224421;Walker, Helen/C-4201-2011; Shukla, Dinesh /D-2232-2012;Walker, Helen/0000-0002-7859-5388;;1;0;0;0;1;1098-0121;WOS:000312831800011;;;J;Smolenski, T.;Kazimierczuk, T.;Goryca, M.;Jakubczyk, T.;Klopotowski, L.;Cywinski, L.;Wojnar, P.;Golnik, A.;Kossacki, P.;In-plane radiative recombination channel of a dark exciton in;self-assembled quantum dots;PHYSICAL REVIEW B;86;24;241305;10.1103/PhysRevB.86.241305;DEC 26 2012;2012;We demonstrate evidence for a radiative recombination channel of dark;excitons in self-assembled quantum dots. This channel is due to a light;hole admixture in the excitonic ground state. Its presence was;experimentally confirmed by a direct observation of the dark exciton;photoluminescence from a cleaved edge of the sample. The;polarization-resolved measurements revealed that a photon created from;the dark exciton recombination is emitted only in the direction;perpendicular to the growth axis. Strong correlation between the dark;exciton lifetime and the in-plane hole g factor enabled us to show that;the radiative recombination is a dominant decay channel of the dark;excitons in CdTe/ZnTe quantum dots. DOI: 10.1103/PhysRevB.86.241305;Cywinski, Lukasz/E-5348-2010;8;0;0;0;8;1098-0121;WOS:000312833400004;;;J;Tahara, H.;Bamba, M.;Ogawa, Y.;Minami, F.;Observation of a dynamical mixing process of exciton-polaritons in a;ZnSe epitaxial layer using four-wave mixing spectroscopy;PHYSICAL REVIEW B;86;23;235208;10.1103/PhysRevB.86.235208;DEC 26 2012;2012;We have observed a coherent spectral change of exciton-polaritons in a;ZnSe epitaxial layer through spectrally resolved four-wave mixing;spectroscopy. The spectra exhibit an exchange of the dominant peak;position between the different polariton branches depending on the delay;time of the second pulse. This result reflects the initial creation;process of polaritons with many-body interactions. The calculation based;on the exciton-photon microscopic model reveals that the spectral change;occurs due to the four-particle correlations between heavy-hole and;light-hole excitons; it clearly shows the dynamical mixing process of;exciton-polaritons in the initial creation. DOI:;10.1103/PhysRevB.86.235208;1;0;0;0;1;1098-0121;WOS:000312832600008;;;J;Tomio, Yuh;Suzuura, Hidekatsu;Ando, Tsuneya;Cross-polarized excitons in double-wall carbon nanotubes;PHYSICAL REVIEW B;86;24;245428;10.1103/PhysRevB.86.245428;DEC 26 2012;2012;Optical absorption in double-wall carbon nanotubes for light polarized;perpendicular to the tube axis is studied by taking into account exciton;effects and depolarization effects within an effective-mass theory. The;Coulomb interaction is suppressed by not only intrawall screening;effects but also interwall screening, leading to the reduction of;exciton binding energies and band gaps. When two tubes are both;semiconducting, a clear exciton peak still survives even under;depolarization effects for the outer tube, but the exciton peak of the;inner tube has an asymmetric Fano line shape due to the coupling with;continuum states of the outer tube. When a double-wall nanotube contains;a metallic tube, either inner or outer, the exciton of the;semiconducting tube loses its peak structure under depolarization;effects. DOI: 10.1103/PhysRevB.86.245428;SUZUURA, Hidekatsu/F-7605-2012;0;0;0;0;0;1098-0121;WOS:000312833400013;;;J;Tsvelik, A. M.;Model description of the supersolid state in YBa2Cu3O6+x;PHYSICAL REVIEW B;86;22;220508;10.1103/PhysRevB.86.220508;DEC 26 2012;2012;I employ a semiphenomenological model introduced by Tsvelik and Chubukov;[Phys. Rev. Lett. 98, 237001 (2007)] to describe the state with;coexisting superconductivity (SC) and charge density wave (CDW) recently;discovered in YBa2Cu3O6+x (YBCO). The SC and the CDW order parameter;fields are united in a single pseudospin and can be rotated into each;other. It is suggested that disorder creates isolated pseudospins which;become centers of inelastic scattering of electrons. It is suggested;that this scattering is responsible for the logarithmic upturn in the;resistivity rho(T) similar to - ln T observed at low doping. DOI:;10.1103/PhysRevB.86.220508;0;0;0;0;0;1098-0121;WOS:000312831800003;;;J;Uebelacker, Stefan;Honerkamp, Carsten;Self-energy feedback and frequency-dependent interactions in the;functional renormalization group flow for the two-dimensional Hubbard;model;PHYSICAL REVIEW B;86;23;235140;10.1103/PhysRevB.86.235140;DEC 26 2012;2012;We study the impact of including self-energy feedback and;frequency-dependent interactions on functional renormalization group;flows for the two-dimensional Hubbard model on the square lattice at;weak to moderate coupling strength. Previous studies using the;functional renormalization group had ignored these two ingredients to a;large extent, and the question is how much the flows to strong coupling;analyzed by this method depend on these approximations. Here we include;the imaginary part of the self-energy on the imaginary axis and the;frequency dependence of the running interactions on a frequency mesh of;10 frequencies on the Matsubara axis. We find that (i) the critical;scales for the flows to strong coupling are shifted downward by a factor;that is usually of order 1 but can get larger in specific parameter;regions, and (ii) that the leading channel in this flow does not depend;strongly on whether self-energies and frequency dependence is included;or not. We also discuss the main features of the self-energies;developing during the flows. DOI: 10.1103/PhysRevB.86.235140;5;0;0;0;5;1098-0121;WOS:000312832600002;;;J;Velizhanin, Kirill A.;Shahbazyan, Tigran V.;Long-range plasmon-assisted energy transfer over doped graphene;PHYSICAL REVIEW B;86;24;245432;10.1103/PhysRevB.86.245432;DEC 26 2012;2012;We demonstrate that longitudinal plasmons in doped monolayer graphene;can mediate highly efficient long-range energy transfer between nearby;fluorophores, e.g., semiconductor quantum dots. We derive a simple;analytical expression for the energy transfer efficiency that;incorporates all the essential processes involved. We perform numerical;calculations of the transfer efficiency for a pair of PbSe quantum dots;near graphene for interfluorophore distances of up to 1 mu m and find;that the plasmon-assisted long-range energy transfer can be enhanced by;up to a factor of similar to 10(4) relative to the Forster's transfer in;vacuum.;Velizhanin, Kirill/C-4835-2008;3;0;0;0;3;1098-0121;WOS:000312833400017;;;J;Vivo, Edoardo;Nicoli, Matteo;Engler, Martin;Michely, Thomas;Vazquez, Luis;Cuerno, Rodolfo;Strong anisotropy in surface kinetic roughening: Analysis and;experiments;PHYSICAL REVIEW B;86;24;245427;10.1103/PhysRevB.86.245427;DEC 26 2012;2012;We report an experimental assessment of surface kinetic roughening;properties that are anisotropic in space. Working for two specific;instances of silicon surfaces irradiated by ion-beam sputtering under;diverse conditions (with and without concurrent metallic impurity;codeposition), we verify the predictions and consistency of a recently;proposed scaling Ansatz for surface observables like the two-dimensional;(2D) height power spectral density (PSD). In contrast with other;formulations, this ansatz is naturally tailored to the study of;two-dimensional surfaces, and allows us to readily explore the;implications of anisotropic scaling for other observables, such as;real-space correlation functions and PSD functions for 1D profiles of;the surface. Our results confirm that there are indeed actual;experimental systems whose kinetic roughening is strongly anisotropic,;as consistently described by this scaling analysis. In the light of our;work, some types of experimental measurements are seen to be more;affected by issues like finite space resolution effects, etc. that may;hinder a clear-cut assessment of strongly anisotropic scaling in the;present and other practical contexts. DOI: 10.1103/PhysRevB.86.245427;VAZQUEZ, LUIS/A-1272-2009;VAZQUEZ, LUIS/0000-0001-6220-2810;2;0;0;0;2;1098-0121;WOS:000312833400012;;;J;Weiler, S.;Ulhaq, A.;Ulrich, S. M.;Richter, D.;Jetter, M.;Michler, P.;Roy, C.;Hughes, S.;Phonon-assisted incoherent excitation of a quantum dot and its emission;properties;PHYSICAL REVIEW B;86;24;241304;10.1103/PhysRevB.86.241304;DEC 26 2012;2012;We present a detailed study of a phonon-assisted incoherent excitation;mechanism of single quantum dots. A spectrally detuned continuous-wave;laser couples to a quantum dot transition by mediation of acoustic;phonons, whereby excitation efficiencies up to 20% with respect to;strictly resonant excitation can be achieved at T = 9 K.;Laser-frequency-dependent analysis of the quantum dot intensity;distinctly maps the underlying acoustic phonon bath and shows good;agreement with our polaron master equation theory. An analytical;solution for the steady-state exciton density (which is proportional to;the photoluminescence) is introduced which predicts a broadband;incoherent coupling process mediated by electron-phonon scattering.;Moreover, we investigate the coherence properties of the emitted light;with respect to strictly resonant versus phonon-assisted excitation,;revealing the importance of narrow band triggered emitter-state;initialization for possible applications of a quantum dot exciton system;as a qubit. DOI: 10.1103/PhysRevB.86.241304;Jetter, Michael/I-8270-2012;8;0;0;0;8;1098-0121;WOS:000312833400003;;;J;Zhang, L.;Schwertfager, N.;Cheiwchanchamnangij, T.;Lin, X.;Glans-Suzuki, P. -A.;Piper, L. F. J.;Limpijumnong, S.;Luo, Y.;Zhu, J. F.;Lambrecht, W. R. L.;Guo, J. -H.;Electronic band structure of graphene from resonant soft x-ray;spectroscopy: The role of core-hole effects;PHYSICAL REVIEW B;86;24;245430;10.1103/PhysRevB.86.245430;DEC 26 2012;2012;The electronic structure and band dispersion of graphene on SiO2 have;been studied by x-ray-absorption spectroscopy (XAS), x-ray-emission;spectroscopy (XES), and resonant inelastic x-ray scattering (RIXS).;Using first-principles calculations, it is found that the core-hole;effect is dramatic in XAS while it has negligible consequences in XES.;Strong dispersive features, due to the conservation of crystal momentum,;are observed in RIXS spectra. Simulated RIXS spectra based on the;Kramers-Heisenberg theory agree well with the experimental results,;provided a shift between RIXS and XAS due to the absence or presence of;the core hole is taken into account. DOI: 10.1103/PhysRevB.86.245430;Luo, Yi/B-1449-2009; Zhu, Junfa/E-4020-2010;Luo, Yi/0000-0003-0007-0394; Zhu, Junfa/0000-0003-0888-4261;10;1;0;0;10;1098-0121;WOS:000312833400015;;;J;Zhang, Steven S. -L.;Zhang, Shufeng;Spin convertance at magnetic interfaces;PHYSICAL REVIEW B;86;21;214424;10.1103/PhysRevB.86.214424;DEC 26 2012;2012;Exchange interaction between conduction electrons and magnetic moments;at magnetic interfaces leads to mutual conversion between spin current;and magnon current. We introduce a concept of spin convertance which;quantitatively measures magnon current induced by spin accumulation and;spin current created by magnon accumulation at a magnetic interface. We;predict several phenomena on charge and spin drag across a magnetic;insulator spacer for a few layered structures. DOI:;10.1103/PhysRevB.86.214424;Zhang, Shufeng/G-7833-2011;10;1;0;0;10;1098-0121;WOS:000312830400003;;;J;Nakhmedov, Enver;Alekperov, Oktay;Oppermann, Reinhold;Effects of randomness on the critical temperature in;quasi-two-dimensional organic superconductors;PHYSICAL REVIEW B;86;21;214513;10.1103/PhysRevB.86.214513;DEC 21 2012;2012;The effects of nonmagnetic disorder on the critical temperature T-c of;organic weak-linked layered superconductors with singlet in-plane;pairing are considered. A randomness in the interlayer Josephson;coupling is shown to destroy phase coherence between the layers, and T-c;suppresses smoothly in a large extent of the disorder strength.;Nevertheless, the disorder of arbitrarily high strength cannot destroy;completely the superconducting phase. The obtained quasilinear decrease;of the critical temperature with increasing disorder strength is in good;agreement with experimental measurements. DOI:;10.1103/PhysRevB.86.214513;0;0;0;0;0;1098-0121;WOS:000312693200004;;;J;Sanson, Andrea;Giarola, Marco;Rossi, Barbara;Mariotto, Gino;Cazzanelli, Enzo;Speghini, Adolfo;Vibrational dynamics of single-crystal YVO4 studied by polarized;micro-Raman spectroscopy and ab initio calculations;PHYSICAL REVIEW B;86;21;214305;10.1103/PhysRevB.86.214305;DEC 21 2012;2012;The vibrational properties of yttrium orthovanadate (YVO4) single;crystals, with tetragonal zircon structure, have been investigated by;means of polarized micro-Raman spectroscopy and ab initio calculations.;Raman spectra were taken at different polarizations and orientations;carefully set by the use of a micromanipulator, so that all of the;twelve Raman-active modes, expected on the basis of the group theory,;were selected in turn and definitively assigned in wave number and;symmetry. In particular the E-g(4) mode, assigned incorrectly in;previous literature, has been observed at 387 cm(-1). Moreover, the very;weak E-g(1) mode, peaked at about 137 cm(-1), was clearly observed only;under some excitation wavelengths, and its peculiar Raman excitation;profile was measured within a wide region of the visible. Finally, ab;initio calculations based on density-functional theory have been;performed in order to determine both Raman and infrared vibrational;modes and to corroborate the experimental results. The rather good;agreement between computational and experimental frequencies is slightly;better than in previous computational works and supports our;experimental symmetry assignments. DOI: 10.1103/PhysRevB.86.214305;Mariotto, Gino/B-1629-2013; Speghini, Adolfo/G-3474-2012;1;0;0;0;1;1098-0121;WOS:000312693200002;;;J;Thomson, R. I.;Jain, P.;Cheetham, A. K.;Carpenter, M. A.;Elastic relaxation behavior, magnetoelastic coupling, and order-disorder;processes in multiferroic metal-organic frameworks;PHYSICAL REVIEW B;86;21;214304;10.1103/PhysRevB.86.214304;DEC 21 2012;2012;Resonant ultrasound spectroscopy has been used to analyze magnetic and;ferroelectric phase transitions in two multiferroic metal-organic;frameworks (MOFs) with perovskite-like structures;[(CH3)(2)NH2]M(HCOO)(3)(DMA[M] F, M = Co, Mn). Elastic and anelastic;anomalies are evident at both the magnetic ordering temperature and;above the higher temperature ferroelectric transition. Broadening of;peaks above the ferroelectric transition implies the diminishing;presence of a dynamic process and is caused by an ordering of the;central DMA ([(CH3)(2)NH2](+)) cation which ultimately causes a change;in the hydrogen bond conformation and provides the driving mechanism for;ferroelectricity. This is unlike traditional mechanisms for;ferroelectricity in perovskites which typically involve ionic;displacements. A comparison of these mechanisms is made by drawing on;examples from the literature. Small elastic stiffening at low;temperatures suggests weak magnetoelastic coupling in these materials.;This behavior is consistent with other magnetic systems studied,;although there is no change in Q(-1) associated with magnetic;order-disorder, and is the first evidence of magnetoelastic coupling in;MOFs. This could help lead to the tailoring of MOFs with a larger;coupling leading to magnetoelectric coupling via a common strain;mechanism. DOI: 10.1103/PhysRevB.86.214304;Jain, Prashant/C-8135-2009;15;4;0;0;15;1098-0121;WOS:000312693200001;;;J;Yin, Junqi;Eisenbach, Markus;Nicholson, Don M.;Rusanu, Aurelian;Effect of lattice vibrations on magnetic phase transition in bcc iron;PHYSICAL REVIEW B;86;21;214423;10.1103/PhysRevB.86.214423;DEC 21 2012;2012;The most widely taught example of a magnetic transition is that of Fe at;1043 K. Despite the high temperature most discussions of this transition;focus on the magnetic states of a fixed spin lattice with lattice;vibrations analyzed separately and simply added. We propose a model of;alpha iron that fully couples spin and displacement degrees of freedom.;Results demonstrate a significant departure from models that treat these;coordinates independently. The success of the model rests on a first;principles calculation of changes in energy with respect to spin;configurations on a bcc-iron lattice with displacements. Complete;details of environment-dependent exchange interactions that augment the;Finnis-Sinclair potential are given and comparisons to measurements are;made. We find that coupling has no effect on critical exponents, a small;effect on the transition temperature, T-c, and a large effect on the;entropy of transformation. DOI: 10.1103/PhysRevB.86.214423;Ni, Daye/F-6920-2014;5;0;0;0;5;1098-0121;WOS:000312693200003;;;J;Butler, Keith T.;Harding, John H.;Atomistic simulation of doping effects on growth and charge transport in;Si/Ag interfaces in high-performance solar cells;PHYSICAL REVIEW B;86;24;245319;10.1103/PhysRevB.86.245319;DEC 21 2012;2012;We present the results of a first-principles atomistic simulation study;of the effects of phosphorus doping on the silver/silicon interface as;found in high-performance solar cells. Calculating the interfacial;stabilities of the (110)/(110) and (111)/(111) interfaces we demonstrate;how the presence of phosphorus increases the nucleation rate of silver;crystallites and how the relative stabilities of the interfaces depend;on the doping. We then calculate the electronic structure of the;interfaces, demonstrating how the presence of phosphorus leads to a;buildup of positive charge in the silicon and an opposite negative;charge in the silver. Finally we show how this charge buildup;significantly affects the n-type Schottky barriers at the interfaces, in;both cases lowering the Schottky barrier by more than 100 meV. DOI:;10.1103/PhysRevB.86.245319;4;0;0;0;4;1098-0121;WOS:000312697500004;;;J;Carbotte, J. P.;Schachinger, E.;c-axis optical sum in underdoped superconducting cuprates;PHYSICAL REVIEW B;86;22;224512;10.1103/PhysRevB.86.224512;DEC 21 2012;2012;In conventional metals, the total optical spectral weight under the real;part of the dynamical conductivity remains unchanged in going from;normal to superconducting state. In the underdoped cuprates, however,;experiments found that the interlayer conductivity no longer respects;this sum rule. Here, we find that a recently proposed phenomenological;model of the pseudogap state which is based on ideas of a resonating;valence bond spin liquid naturally leads to such a sum-rule violation.;For the interplane charge transfer, a coherent tunneling model is used.;We also obtain analytic results based on a simplification of the theory;which reduces it to an arc model. This provides further insight into the;effect of the opening of a pseudogap on the c-axis optical conductivity;Re[sigma(c)(omega)]. The missing area under Re[sigma(c)(omega)];normalized to the superfluid density, which is found to be one in the;Fermi-liquid limit with no pseudogap, is considerably reduced when the;pseudogap becomes large and the size of the Luttinger pockets or arcs is;small.;2;0;0;0;2;1098-0121;WOS:000312693900004;;;J;Das Sarma, S.;Sau, Jay D.;Stanescu, Tudor D.;Splitting of the zero-bias conductance peak as smoking gun evidence for;the existence of the Majorana mode in a superconductor-semiconductor;nanowire;PHYSICAL REVIEW B;86;22;220506;10.1103/PhysRevB.86.220506;DEC 21 2012;2012;Recent observations of a zero-bias conductance peak in tunneling;transport measurements in superconductor-semiconductor nanowire devices;provide evidence for the predicted zero-energy Majorana modes, but not;the conclusive proof of their existence. We establish that direct;observation of a splitting of the zero-bias conductance peak can serve;as the smoking gun evidence for the existence of the Majorana mode. We;show that the splitting has an oscillatory dependence on the Zeeman;field (chemical potential) at fixed chemical potential (Zeeman field).;By contrast, when the density is constant rather than the chemical;potential-the likely situation in the current experimental setups-the;splitting oscillations are generically suppressed. Our theory predicts;the conditions under which the splitting oscillations can serve as the;smoking gun for the experimental confirmation of the elusive Majorana;mode.;Das Sarma, Sankar/B-2400-2009;23;0;0;0;23;1098-0121;WOS:000312693900001;;;J;Durach, Maxim;Rusina, Anastasia;Transforming Fabry-Perot resonances into a Tamm mode;PHYSICAL REVIEW B;86;23;235312;10.1103/PhysRevB.86.235312;DEC 21 2012;2012;We propose an optical structure composed of two metal nanolayers;enclosing a distributed Bragg reflector (DBR) mirror. The structure is;an open photonic system whose bound modes are coupled to external;radiation. We apply the special theoretical treatment based on inversion;symmetry of the structure to classify its resonances. We show that the;structure supports resonances transitional between Fabry-Perot modes and;Tamm plasmons. When the dielectric contrast of the DBR is removed these;modes are a pair of conventional Fabry-Perot resonances. They spectrally;merge into a Tamm mode at high contrast. The optical properties of the;structure in the frequency range of the DBR stop band, including highly;beneficial 50% transmittivity through thick structures with;sub-skin-depth metal films, are determined by the hybrid quasinormal;modes of the open nonconservative structure under consideration. The;results can find a broad range of applications in photonics and;optoelectronics, including the possibility of coherent control over;optical fields in the class of structures similar to the one proposed;here. DOI: 10.1103/PhysRevB.86.235312;3;0;1;0;4;1098-0121;WOS:000312694800003;;;J;Gumeniuk, Roman;Sarkar, Rajib;Geibel, Christoph;Schnelle, Walter;Paulmann, Carsten;Baenitz, Michael;Tsirlin, Alexander A.;Guritanu, Violeta;Sichelschmidt, Joerg;Grin, Yuri;Leithe-Jasper, Andreas;YbPtGe2: A multivalent charge-ordered system with an unusual spin;pseudogap;PHYSICAL REVIEW B;86;23;235138;10.1103/PhysRevB.86.235138;DEC 21 2012;2012;We performed a study of the structural and physical properties of;YbPtGe2. This compound is a multivalent charge-ordered system presenting;an unusual spin pseudogap below 200 K. The crystal structure of YbPtGe2;is refined from single-crystal and powder high-resolution synchrotron;x-ray diffraction data at different temperatures. Analysis of the;structural features of YbPtGe2, together with a combined study of Yb;L-III x-ray absorption spectroscopy, magnetic susceptibility chi(T),;thermopower S(T), and Yb-171 and Pt-195 NMR indicate half of the Yb;atoms to be in an intermediate valence state with an electronic;configuration close to 4f(13) (Yb3+), while for the remaining Yb atoms;the 4f(14) (Yb2+) configuration with almost no valence fluctuations is;most likely. A drastic drop of the magnetic susceptibility and a;decrease of the isotropic shift K-195(iso)(T) with decreasing;temperature in the temperature range of 50-200 K evidence the opening of;a spin pseudogap with an activation energy of Delta/k(B) similar to 200;K. Surprisingly, transport properties do not show clear evidence for the;opening of a charge gap, thus excluding a standard Kondo-insulator;scenario. Possible origins for this unusual electronic (valence);behavior are discussed. DOI: 10.1103/PhysRevB.86.235138;Sichelschmidt, Joerg/A-6005-2013; Sarkar, Rajib/G-9738-2011; Tsirlin, Alexander/D-6648-2013;3;1;0;0;3;1098-0121;WOS:000312694800002;;;J;Ivek, T.;Kovacevic, I.;Pinteric, M.;Korin-Hamzic, B.;Tomic, S.;Knoblauch, T.;Schweitzer, D.;Dressel, M.;Cooperative dynamics in charge-ordered state of alpha-(BEDT-TTF)(2)I-3;PHYSICAL REVIEW B;86;24;245125;10.1103/PhysRevB.86.245125;DEC 21 2012;2012;Electric-field-dependent pulse measurements are reported in the;charge-ordered state of alpha-(BEDT-TTF)(2)I-3. At low electric fields;up to about 50 V/cm only negligible deviations from Ohmic behavior can;be identified with no threshold field. At larger electric fields and up;to about 100 V/cm a reproducible negative differential resistance is;observed with a significant change in shape of the measured resistivity;in time. These changes critically depend on whether constant voltage or;constant current is applied to the single crystal. At high enough;electric fields the resistance displays a dramatic drop down to metallic;values and relaxes subsequently in a single-exponential manner to its;low-field steady-state value. We argue that such an;electric-field-induced negative differential resistance and switching to;transient states are fingerprints of cooperative domain-wall dynamics;inherent to two-dimensional bond-charge density waves with;ferroelectric-like nature. DOI: 10.1103/PhysRevB.86.245125;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;3;0;0;0;3;1098-0121;WOS:000312697500002;;;J;Katanin, A.;Longitudinal and transverse static spin fluctuations in layered;ferromagnets and antiferromagnets;PHYSICAL REVIEW B;86;22;224416;10.1103/PhysRevB.86.224416;DEC 21 2012;2012;We analyze the momentum dependence of static susceptibilities of layered;local-moment systems below Curie (Neel) temperature within the 1/S;expansion, the renormalization-group (RG) approach, and the first order;of the 1/N expansion. We argue that already at sufficiently low;temperatures the previously known results of the spin-wave theory and RG;approach for the transverse spin susceptibility acquire strong;corrections, which appear due to the interaction of the incoming magnon;having momentum q with virtual magnons having momenta k < q. Such;corrections cannot be treated in the standard RG approach but can be;described by both 1/S and 1/N expansions. The results of these;expansions can be successfully extrapolated to T = T-M, yielding the;correct weight of static spin fluctuations, determined by the O(3);symmetry. For the longitudinal susceptibility, the summation of leading;terms of the 1/S expansion within the parquet approach allows us to;fulfill the sum rule for the weights of transverse and longitudinal;fluctuations in a broad temperature region below T-M outside the;critical regime. We also discuss the effect of longitudinal spin;fluctuations on the (sublattice) magnetization of layered systems.;Katanin, Andrey/J-4706-2013;Katanin, Andrey/0000-0003-1574-657X;0;0;0;0;0;1098-0121;WOS:000312693900002;;;J;Liu, Jingbo;Mendis, Rajind;Mittleman, Daniel M.;Designer reflectors using spoof surface plasmons in the terahertz range;PHYSICAL REVIEW B;86;24;241405;10.1103/PhysRevB.86.241405;DEC 21 2012;2012;We show that spoof surface plasmons can be used to control the;reflection of terahertz radiation at the output facet of a;parallel-plate waveguide. Using a periodic groove pattern on the output;face, reflectivity approaching 100% can be achieved within a limited;spectral range. Unlike the conventional geometry for plasmon-enhanced;transmission, this approach enables a unique method for studying the;coupling between the guided mode and the surface plasmon through;angle-dependent measurement of the plasmon-mediated reflection. A simple;model incorporating the surface plasmon coupling to the waveguide mode;can adequately explain all of the observed phenomena, including the;observed Goos-Hanchen shift in the reflected beam. DOI:;10.1103/PhysRevB.86.241405;2;0;0;0;2;1098-0121;WOS:000312697500001;;;J;Sato, Toshihiro;Hattori, Kazumasa;Tsunetsugu, Hirokazu;Transport criticality at the Mott transition in a triangular-lattice;Hubbard model;PHYSICAL REVIEW B;86;23;235137;10.1103/PhysRevB.86.235137;DEC 21 2012;2012;We study electric transport near the Mott metal-insulator transition in;a triangular-lattice Hubbard model at half filling. We calculate optical;conductivity sigma(omega) based on a cellular dynamical mean-field;theory including vertex corrections inside the cluster. Near the Mott;critical end point, a Drude analysis in the metallic region suggests;that the change in the Drude weight is important rather than that in the;transport scattering rate for the Mott transition. In the insulating;region, there emerges an "in-gap" peak in sigma(omega) at low omega near;the Mott transition, and this smoothly connects to the Drude peak in the;metallic region with decreasing Coulomb repulsion. We find that the;weight of these peaks exhibits a power-law behavior upon controlling;Coulomb repulsion at the critical temperature. The obtained critical;exponent suggests that conductivity does not correspond to magnetization;or energy density of the Ising universality class in contrast to several;previous works. DOI: 10.1103/PhysRevB.86.235137;Hattori, Kazumasa/B-2554-2013;1;0;0;0;1;1098-0121;WOS:000312694800001;;;J;Schaffer, Robert;Bhattacharjee, Subhro;Kim, Yong Baek;Quantum phase transition in Heisenberg-Kitaev model;PHYSICAL REVIEW B;86;22;224417;10.1103/PhysRevB.86.224417;DEC 21 2012;2012;We explore the nature of the quantum phase transition between a;magnetically ordered state with collinear spin pattern and a gapless;Z(2) spin liquid in the Heisenberg-Kitaev model. We construct a slave;particle mean-field theory for the Heisenberg-Kitaev model in terms of;complex fermionic spinons. It is shown that this theory, formulated in;the appropriate basis, is capable of describing the Kitaev spin liquid;as well as the transition between the gapless Z(2) spin liquid and the;so-called stripy antiferromagnet. Within our mean-field theory, we find;a discontinuous transition from the Z(2) spin liquid to the stripy;antiferromagnet. We argue that subtle spinon confinement effects,;associated with the instability of gapped U(1) spin liquid in two;spatial dimensions, play an important role at this transition. The;possibility of an exotic continuous transition is briefly addressed.;13;0;0;0;13;1098-0121;WOS:000312693900003;;;J;Schaich, W. L.;Puscasu, Irina;Tuning infrared emission from microstrip arrays;PHYSICAL REVIEW B;86;24;245423;10.1103/PhysRevB.86.245423;DEC 21 2012;2012;Earlier work has shown that a narrow-frequency-band, wide-angle emission;is produced by an array of metal patches supported on a thin dielectric;layer covering a ground plane. The modes responsible for this emission;are local plasmons trapped under the metal patches. As the dielectric;layer thickness, h(d), is increased, the resonant emission fades in;strength because the plasmon modes can no longer be trapped under a;single patch. Further increases in h(d), making it comparable to the;light wavelength in the dielectric layer, lead to a collection of new;emission peaks. These are narrower than the one peak found for small;h(d) but they are not well separated. We have found that some of these;peaks can be suppressed over a narrow range of h(d). This leaves one;with well-separated, narrow-band emission peaks. We have identified the;physical mechanism for this selective suppression of emission peaks.;DOI: 10.1103/PhysRevB.86.245423;0;0;0;0;0;1098-0121;WOS:000312697500005;;;J;Teperik, T. V.;Degiron, A.;Design strategies to tailor the narrow plasmon-photonic resonances in;arrays of metallic nanoparticles;PHYSICAL REVIEW B;86;24;245425;10.1103/PhysRevB.86.245425;DEC 21 2012;2012;Arrays of metallic nanoparticles can support mixed plasmon-photonic;resonances known as lattice surface modes. Their properties are well;known, but a general strategy to control their properties is still;lacking. In this article, we offer a perspective on the formation of;these modes and show that their excitation depends on constructive and;destructive interferences between the excitation field and the light;scattered by the resonant nanoparticles. It is therefore possible to;design the response of the system through a careful choice of the;excitation conditions and/or by tuning the polarizability of the;particles forming the periodic arrays. DOI: 10.1103/PhysRevB.86.245425;10;0;0;0;10;1098-0121;WOS:000312697500007;;;J;Thakurathi, Manisha;Sen, Diptiman;Dutta, Amit;Fidelity susceptibility of one-dimensional models with twisted boundary;conditions;PHYSICAL REVIEW B;86;24;245424;10.1103/PhysRevB.86.245424;DEC 21 2012;2012;Recently it has been shown that the fidelity of the ground state of a;quantum many-body system can be used todetect its quantum critical;points (QCPs). If g denotes the parameter in the Hamiltonian with;respect to which the fidelity is computed, we find that for;one-dimensional models with large but finite size, the fidelity;susceptibility chi(F) can detect a QCP provided that the correlation;length exponent satisfies nu < 2. We then show that chi(F) can be used;to locate a QCP even if nu >= 2 if we introduce boundary conditions;labeled by a twist angle N theta, where N is the system size. If the QCP;lies at g = 0, we find that if N is kept constant, chi(F) has a scaling;form given by chi(F) similar to theta(-2/nu) f (g/theta(1/nu)) if theta;<< 2 pi/N. We illustrate this both in a tight-binding model of fermions;with a spatially varying chemical potential with amplitude h and period;2q in which nu = q, and in a XY spin-1/2 chain in which nu = 2. Finally;we show that when q is very large, the model has two additional QCPs at;h = +/- 2 which cannot be detected by studying the energy spectrum but;are clearly detected by chi(F). The peak value and width of chi(F) seem;to scale as nontrivial powers of q at these QCPs. We argue that these;QCPs mark a transition between extended and localized states at the;Fermi energy. DOI: 10.1103/PhysRevB.86.245424;3;0;0;0;3;1098-0121;WOS:000312697500006;;;J;Thalmeier, Peter;Akbari, Alireza;Inelastic magnetic scattering effect on local density of states of;topological insulators;PHYSICAL REVIEW B;86;24;245426;10.1103/PhysRevB.86.245426;DEC 21 2012;2012;Magnetic ions such as Fe, Mn, and Co with localized spins may be;adsorbed on the surface of topological insulators such as Bi2Se3. They;form scattering centers for the helical surface states which have a;Dirac cone dispersion as long as the local spins are disordered.;However, the local density of states (LDOS) may be severely modified by;the formation of bound states. Commonly, only elastic scattering due to;normal and exchange potentials of the adatom is assumed. Magnetization;measurements show, however, that considerable magnetic single-ion;anisotropies exist which lead to a splitting of the local impurity spin;states, resulting in a singlet ground state. Therefore inelastic;scattering processes of helical Dirac electrons become possible, as;described by a dynamical local self-energy of second order in the;exchange interaction. The self energy influences bound-state formation;and leads to significant new anomalies in the LDOS at low energies and;low temperatures, which we calculate within the T-matrix approach. We;propose that they may be used for spectroscopy of local impurity spin;states by appropriate tuning of the chemical potential and magnetic;field. DOI: 10.1103/PhysRevB.86.245426;Akbari, Alireza/A-3738-2012;0;0;0;0;0;1098-0121;WOS:000312697500008;;;J;Ungier, W.;Wilamowski, Z.;Jantsch, W.;Spin-orbit force due to Rashba coupling at the spin resonance condition;PHYSICAL REVIEW B;86;24;245318;10.1103/PhysRevB.86.245318;DEC 21 2012;2012;We analyze the effect of Rashba type of spin-orbit (SO) coupling on the;electron dynamics and the rf electrical conductivity. We show that in;addition to the momentum current an additional SO current occurs which;can be attributed to a SO contribution to the electric Lorentz force.;This Rashba SO force is proportional to the time derivative of the;electron magnetization. Therefore, in a static electromagnetic field SO;interaction does not affect the electric or the spin current. Applying;an rf electric current, however, an rf magnetization can be efficiently;induced via the rf Rashba field. Thus, at the Larmor frequency a;characteristic current induced electron spin resonance occurs. There the;absorbed electric power is efficiently converted into magnetic energy.;DOI: 10.1103/PhysRevB.86.245318;1;0;0;0;1;1098-0121;WOS:000312697500003;;;J;Chen, Xie;Wen, Xiao-Gang;Chiral symmetry on the edge of two-dimensional symmetry protected;topological phases;PHYSICAL REVIEW B;86;23;235135;10.1103/PhysRevB.86.235135;DEC 20 2012;2012;Symmetry protected topological (SPT) states are short-range entangled;states with symmetry. The boundary of a SPT phases has either gapless;excitations or degenerate ground states, around a gapped bulk. Recently,;we proposed a systematic construction of SPT phases in interacting;bosonic systems, however it is not very clear what is the form of the;low-energy excitations on the gapless edge. In this paper, we answer;this question for two-dimensional (2D) bosonic SPT phases with Z(N) and;U(1) symmetry. We find that while the low-energy modes of the gapless;edges are nonchiral, symmetry acts on them in a "chiral" way, i.e., acts;on the right movers and the left movers differently. This special;realization of symmetry protects the gaplessness of the otherwise;unstable edge states by prohibiting a direct scattering between the left;and right movers. Moreover, understanding of the low-energy effective;theory leads to experimental predictions about the SPT phases. In;particular, we find that all the 2D U(1) SPT phases have even integer;quantized Hall conductance. DOI: 10.1103/PhysRevB.86.235135;12;1;1;0;12;1098-0121;WOS:000312694400001;;;J;Croy, Alexander;Midtvedt, Daniel;Isacsson, Andreas;Kinaret, Jari M.;Nonlinear damping in graphene resonators;PHYSICAL REVIEW B;86;23;235435;10.1103/PhysRevB.86.235435;DEC 20 2012;2012;Based on a continuum mechanical model for single-layer graphene, we;propose and analyze a microscopic mechanism for dissipation in;nanoelectromechanical graphene resonators. We find that coupling between;flexural modes and in-plane phonons leads to linear and nonlinear;damping of out-of-plane vibrations. By tuning external parameters such;as bias and ac voltages, one can cross over from a linear-to a;nonlinear-damping dominated regime. We discuss the behavior of the;effective quality factor in this context. DOI:;10.1103/PhysRevB.86.235435;Isacsson, Andreas/A-6932-2008; Croy, Alexander/D-4149-2013;Croy, Alexander/0000-0001-9296-9350;13;1;0;0;13;1098-0121;WOS:000312694400004;;;J;Juarez-Reyes, L.;Pastor, G. M.;Stepanyuk, V. S.;Tuning substrate-mediated magnetic interactions by external surface;charging: Co and Fe impurities on Cu(111);PHYSICAL REVIEW B;86;23;235436;10.1103/PhysRevB.86.235436;DEC 20 2012;2012;The substrate-mediated magnetic interactions between substitutional Co;and Fe impurities at the Cu(111) surface have been theoretically;investigated as a function of external surface charging. The;modification of the interactions as a result of the metallic screening;and charge rearrangements are determined self-consistently from first;principles by using the Green's-function Korringa-Kohn-Rostoker method.;As in the neutral Cu(111) surface, the effective magnetic exchange;coupling Delta E between impurities shows;Ruderman-Kittel-Kasuya-Yosida-like (RKKY) oscillations as a function of;the interimpurity distance. At large interimpurity distances, the;wavelength of the RKKY oscillation is not significantly affected by the;value and polarity of the external surface charge. Still, important;changes in the magnitude of Delta E are observed. For short distances,;up to fourth nearest neighbors, surface charging offers remarkable;possibilities of controlling the sign and strength of the magnetic;coupling. A nonmonotonous dependence of Delta E, including changes from;ferromagnetic to antiferromagnetic coupling, is observed as a function;of overlayer charging. The charge-induced changes in the surface;electronic structure, local magnetic moments, electronic densities of;states, and interaction energies are analyzed from a local perspective.;The resulting possibilities of manipulating the magnetic interactions in;surface nanostructures are discussed. DOI: 10.1103/PhysRevB.86.235436;2;0;0;0;2;1098-0121;WOS:000312694400005;;;J;Kurahashi, M.;Sun, X.;Yamauchi, Y.;Magnetic properties of O-2 adsorbed on Cu(100): A spin-polarized;metastable He beam study;PHYSICAL REVIEW B;86;24;245421;10.1103/PhysRevB.86.245421;DEC 20 2012;2012;Magnetic properties of O-2 adsorbed on Cu(100) were investigated by;monitoring the spin dependence in Penning ionization of metastable;He(2(3)S) under external magnetic fields of 0-5 T. A clear spin;polarization was found for the 3 sigma and 1 pi(u) orbitals of;physisorbed O-2 under external fields, while the spin polarization;disappeared when O-2 was changed into the chemisorbed state at >50 K.;The magnetic susceptibility at the surface of multilayer and monolayer;of physisorbed O-2 on Cu(100) was similar to that for the bulk liquid;O-2. Observed exchange splittings and spin polarization suggest that a;physisorbed O-2 molecule has a magnetic moment close to that for an;isolated O-2 molecule even at submonolayer coverages, while a density;functional theory calculation predicts a much reduced magnetic moment;for O-2 directly adsorbed on Cu(100). DOI: 10.1103/PhysRevB.86.245421;KURAHASHI, Mitsunori/H-2801-2011;1;0;0;0;1;1098-0121;WOS:000312696900004;;;J;Livneh, Y.;Klipstein, P. C.;Klin, O.;Snapi, N.;Grossman, S.;Glozman, A.;Weiss, E.;k . p model for the energy dispersions and absorption spectra of;InAs/GaSb type-II superlattices;PHYSICAL REVIEW B;86;23;235311;10.1103/PhysRevB.86.235311;DEC 20 2012;2012;We have fitted the k . p model derived recently by one of the authors;[Klipstein, Phys. Rev. B 81, 235314 (2010)] to experimentally measured;photoabsorption spectra at 77 and 300 K for representative InAs/GaSb;superlattices with band-gap wavelengths between 4.3 and 10.5 mu m. The;model is able to reproduce the main features of the absorption spectra,;including a strong peak from the zone boundary HH2 -> E-1 transition. We;have also used the same model to predict the band-gap wavelengths of;over 30 more superlattices, measured by photoluminescence spectroscopy.;The maximum error is 0.6 mu m, which corresponds to an uncertainty of;less than 0.4 ML in layer width. This is comparable with the;experimental uncertainty in layer widths, determined by in situ;beam-flux measurements in the growth reactor. By eliminating all terms;from the Hamiltonian, the energy contribution of which is less than the;error due to the uncertainty in layer widths, the number of unknown;fitting parameters has been reduced to six: two Luttinger parameters,;three interface parameters, and the valence band offset. The remaining;four Luttinger parameters are not independent and are determined from;the two independent ones. Our set of Luttinger parameters is close to;that reported by Lawaetz [Phys. Rev. B 4, 3460 (1971)], with a maximum;deviation in any parameter of 0.6. The interface parameters are diagonal;and have values of D-S = 3 eV angstrom, D-X = 1.3 eV angstrom, and D-Z =;1.1 eV angstrom at 77 K. The off-diagonal interface parameters alpha and;beta are too small to be fitted with any accuracy and have negligible;effect on the unpolarized photoabsorption spectra. We also propose;values for the room-temperature Luttinger and interface parameters. The;fitted unstrained InAs/GaSb band overlap is 0.142 eV. DOI:;10.1103/PhysRevB.86.235311;5;0;0;0;5;1098-0121;WOS:000312694400003;;;J;Sales, Brian C.;May, Andrew F.;McGuire, Michael A.;Stone, Matthew B.;Singh, David J.;Mandrus, David;Transport, thermal, and magnetic properties of the narrow-gap;semiconductor CrSb2;PHYSICAL REVIEW B;86;23;235136;10.1103/PhysRevB.86.235136;DEC 20 2012;2012;Resistivity, the Hall effect, the Seebeck coefficient, thermal;conductivity, heat capacity, and magnetic susceptibility data are;reported for CrSb2 single crystals. In spite of some unusual features in;electrical transport and Hall measurements below 100 K, only one phase;transition is found in the temperature range from 2 to 750 K;corresponding to long-range antiferromagnetic order below T-N;approximate to 273 K. Many of the low-temperature properties can be;explained by the thermal depopulation of carriers from the conduction;band into a low-mobility band located approximately 16 meV below the;conduction-band edge, as deduced from the Hall effect data. In analogy;with what occurs in Ge, the low-mobility band is likely an impurity;band. The Seebeck coefficient, S, is large and negative for temperatures;from 2 to 300 K ranging from approximate to -70 mu V/K at 300 K to -4500;mu V/K at 18 K. A large maximum in vertical bar S vertical bar at 18 K;is likely due to phonon drag, with the abrupt drop in vertical bar S;vertical bar below 18 K due to the thermal depopulation of the;high-mobility conduction band. The large thermal conductivity between 10;and 20 K (approximate to 350 W/m K) is consistent with this;interpretation, as are detailed calculations of the Seebeck coefficient;made using the complete calculated electronic structure. These data are;compared to data reported for FeSb2, which crystallizes in the same;marcasite structure, and FeSi, another unusual narrow-gap semiconductor.;DOI: 10.1103/PhysRevB.86.235136;Stone, Matthew/G-3275-2011; McGuire, Michael/B-5453-2009; May, Andrew/E-5897-2011; Mandrus, David/H-3090-2014;McGuire, Michael/0000-0003-1762-9406;;7;0;0;0;7;1098-0121;WOS:000312694400002;;;J;Toews, W.;Pastor, G. M.;Spin-polarized density-matrix functional theory of the single-impurity;Anderson model;PHYSICAL REVIEW B;86;24;245123;10.1103/PhysRevB.86.245123;DEC 20 2012;2012;Lattice density functional theory (LDFT) is used to investigate spin;excitations in the single-impurity Anderson model. In this method, the;single-particle density matrix gamma(ij sigma) with respect to the;lattice sites replaces the wave function as the basic variable of the;many-body problem. A recently developed two-level approximation (TLA) to;the interaction-energy functional W[gamma] is extended to systems having;spin-polarized density distributions and bond orders. This allows us to;investigate the effect of external magnetic fields and, in particular,;the important singlet-triplet gap Delta E, which determines the Kondo;temperature. Applications to finite Anderson rings and square lattices;show that the gap Delta E as well as other ground-state and;excited-state properties are very accurately reproduced. One concludes;that the spin-polarized TLA is reliable in all interaction regimes, from;weak to strong correlations, for different hybridization strengths and;for all considered impurity valence states. In this way the efficiency;of LDFT to account for challenging electron-correlation effects is;demonstrated. DOI: 10.1103/PhysRevB.86.245123;1;0;0;0;1;1098-0121;WOS:000312696900002;;;J;Weichselbaum, Andreas;Tensor networks and the numerical renormalization group;PHYSICAL REVIEW B;86;24;245124;10.1103/PhysRevB.86.245124;DEC 20 2012;2012;The full-density-matrix numerical renormalization group has evolved as a;systematic and transparent setting for the calculation of;thermodynamical quantities at arbitrary temperatures within the;numerical renormalization group (NRG) framework. It directly evaluates;the relevant Lehmann representations based on the complete basis sets;introduced by Anders and Schiller [Phys. Rev. Lett. 95, 196801 (2005)].;In addition, specific attention is given to the possible feedback from;low-energy physics to high energies by the explicit and careful;construction of the full thermal density matrix, naturally generated;over a distribution of energy shells. Specific examples are given in;terms of spectral functions (fdmNRG), time-dependent NRG (tdmNRG),;Fermi-golden-rule calculations (fgrNRG) as well as the calculation of;plain thermodynamic expectation values. Furthermore, based on the very;fact that, by its iterative nature, the NRG eigenstates are naturally;described in terms of matrix product states, the language of tensor;networks has proven enormously convenient in the description of the;underlying algorithmic procedures. This paper therefore also provides a;detailed introduction and discussion of the prototypical NRG;calculations in terms of their corresponding tensor networks. DOI:;10.1103/PhysRevB.86.245124;Weichselbaum, Andreas/I-8858-2012;Weichselbaum, Andreas/0000-0002-5832-3908;8;0;0;0;8;1098-0121;WOS:000312696900003;;;J;Yan, Jun;Jacobsen, Karsten W.;Thygesen, Kristian S.;Conventional and acoustic surface plasmons on noble metal surfaces: A;time-dependent density functional theory study;PHYSICAL REVIEW B;86;24;241404;10.1103/PhysRevB.86.241404;DEC 20 2012;2012;First-principles calculations of the conventional and acoustic surface;plasmons (CSPs and ASPs) on the (111) surfaces of Cu, Ag, and Au are;presented. The effect of s-d interband transitions on both types of;plasmons is investigated by comparing results from the local density;approximation and an orbital-dependent exchange-correlation (xc);potential that improves the position and width of the d bands. The;plasmon dispersions calculated with the latter xc potential agree well;with electron energy loss spectroscopy (EELS) experiments. For both the;CSP and ASP, the same trend of Cu < Au < Ag is found for the plasmon;energies and is attributed to the reduced screening by interband;transitions from Cu, to Au and Ag. This trend for the ASP, however,;contradicts a previous model prediction. While the ASP is seen as a weak;feature in the EELS, it can be clearly identified in the static and;dynamic dielectric band structure. DOI: 10.1103/PhysRevB.86.241404;Jacobsen, Karsten/B-3602-2009; Yan, Jun/K-3474-2012; Thygesen, Kristian /B-1062-2011;7;0;0;0;7;1098-0121;WOS:000312696900001;;;J;Euchner, H.;Pailhes, S.;Nguyen, L. T. K.;Assmus, W.;Ritter, F.;Haghighirad, A.;Grin, Y.;Paschen, S.;de Boissieu, M.;Phononic filter effect of rattling phonons in the thermoelectric;clathrate Ba8Ge40+xNi6-x;PHYSICAL REVIEW B;86;22;224303;10.1103/PhysRevB.86.224303;DEC 20 2012;2012;One of the key requirements for good thermoelectric materials is a low;lattice thermal conductivity. Here we present a combined neutron;scattering and theoretical investigation of the lattice dynamics in the;type I clathrate system Ba-Ge-Ni, which fulfills this requirement. We;observe a strong hybridization between phonons of the Ba guest atoms and;acoustic phonons of the Ge-Ni host structure over a wide region of the;Brillouin zone, which is in contrast with the frequently adopted picture;of isolated Ba atoms in Ge-Ni host cages. It occurs without a strong;decrease of the acoustic phonon lifetime, which contradicts the usual;assumption of strong anharmonic phonon-phonon scattering processes.;Within the framework of ab initio density-functional theory calculations;we interpret these hybridizations as a series of anticrossings which act;as a low-pass filter, preventing the propagation of acoustic phonons. To;highlight the effect of such a phononic low-pass filter on the thermal;transport, we compute the contribution of acoustic phonons to the;thermal conductivity of Ba8Ge40Ni6 and compare it to those of pure Ge;and a Ge-46 empty-cage model system. DOI: 10.1103/PhysRevB.86.224303;Paschen, Silke/C-3841-2014;Paschen, Silke/0000-0002-3796-0713;8;1;0;0;8;1098-0121;WOS:000312693600002;;;J;Harvey, J. -P.;Gheribi, A. E.;Chartrand, P.;Thermodynamic integration based on classical atomistic simulations to;determine the Gibbs energy of condensed phases: Calculation of the;aluminum-zirconium system;PHYSICAL REVIEW B;86;22;224202;10.1103/PhysRevB.86.224202;DEC 20 2012;2012;In this work, an in silico procedure to generate a fully coherent set of;thermodynamic properties obtained from classical molecular dynamics (MD);and Monte Carlo (MC) simulations is proposed. The procedure is applied;to the Al-Zr system because of its importance in the development of high;strength Al-Li alloys and of bulk metallic glasses. Cohesive energies of;the studied condensed phases of the Al-Zr system (the liquid phase, the;fcc solid solution, and various orthorhombic stoichiometric compounds);are calculated using the modified embedded atom model (MEAM) in the;second-nearest-neighbor formalism (2NN). The Al-Zr MEAM-2NN potential is;parameterized in this work using ab initio and experimental data found;in the literature for the AlZr3-L1(2) structure, while its predictive;ability is confirmed for several other solid structures and for the;liquid phase. The thermodynamic integration (TI) method is implemented;in a general MC algorithm in order to evaluate the absolute Gibbs energy;of the liquid and the fcc solutions. The entropy of mixing calculated;from the TI method, combined to the enthalpy of mixing and the heat;capacity data generated from MD/MC simulations performed in the;isobaric-isothermal/canonical (NPT/NVT) ensembles are used to;parameterize the Gibbs energy function of all the condensed phases in;the Al-rich side of the Al-Zr system in a CALculation of PHAse Diagrams;(CALPHAD) approach. The modified quasichemical model in the pair;approximation (MQMPA) and the cluster variation method (CVM) in the;tetrahedron approximation are used to define the Gibbs energy of the;liquid and the fcc solid solution respectively for their entire range of;composition. Thermodynamic and structural data generated from our MD/MC;simulations are used as input data to parameterize these thermodynamic;models. A detailed analysis of the validity and transferability of the;Al-Zr MEAM-2NN potential is presented throughout our work by comparing;the predicted properties obtained from this formalism with available ab;initio and experimental data for both liquid and solid phases. DOI:;10.1103/PhysRevB.86.224202;0;0;0;0;0;1098-0121;WOS:000312693600001;;;J;Hoffman, Silas;Upadhyaya, Pramey;Tserkovnyak, Yaroslav;Spin-torque ac impedance in magnetic tunnel junctions;PHYSICAL REVIEW B;86;21;214420;10.1103/PhysRevB.86.214420;DEC 20 2012;2012;Subjecting a magnetic tunnel junction (MTJ) to a spin-transfer torque;and/or electric voltage-induced magnetic anisotropy induces magnetic;precession, which can reciprocally pump current through the circuit.;This results in an ac impedance, which is sensitive to the magnetic;field applied to the MTJ. Measurement of this impedance can be used to;characterize the nature of the coupling between the magnetic free layer;and the electric input as well as a readout of the magnetic;configuration of the MTJ. DOI: 10.1103/PhysRevB.86.214420;1;0;0;0;1;1098-0121;WOS:000312674200003;;;J;Martinez, Enrique;Caro, Alfredo;Atomistic modeling of long-term evolution of twist boundaries under;vacancy supersaturation;PHYSICAL REVIEW B;86;21;214109;10.1103/PhysRevB.86.214109;DEC 20 2012;2012;Vacancy accumulation in 4 degrees {110} bcc Fe and 2 degrees {111} fcc;Cu twist boundaries (TBs) has been studied. These interfaces are;characterized by different sets of screw dislocations: two sets of;a(0)/2 < 111 > and one set of a(0)/2 < 100 > in Fe and three sets of;a(0)/6 < 112 > in Cu. We observe that vacancies agglomerate;preferentially at the misfit dislocation intersections (MDIs), where;their formation energy is lower. In bcc the dislocation structure;remains stable, but in fcc the interface rearranges itself increasing;the stacking fault area. To perform this study a kinetic Monte Carlo;algorithm coupled with the molecular dynamics code LAMMPS has been;developed. Atomic positions are relaxed at every step after an event;takes place to account for long-range strain fields. The events;considered in this work are vacancy migration hops. The rates are;calculated via harmonic transition state theory with the energy at the;saddle point obtained either by a linear approximation considering the;relaxed energy of the initial and final configurations or the;nudged-elastic band method depending on the vacancy position in the;sample. Vacancy diffusivities at both interfaces have also been;calculated. For the {110} TB in Fe the diffusivity is of the same order;of magnitude as in bulk (D-TB(Fe) = 2.60 x 10(-13) m(2)/s) while at the;{111} TB in Cu, diffusivities are two orders of magnitude larger than in;bulk (D-TB(Cu) = 2.06 x 10(-12) m(2)/s). The correlation factors at both;interfaces are extremely low (f(TB)(Fe) = 1.61 x 10(-4) and f(TB)(Cu) =;3.34 x 10(-4)), highlighting the importance of trapping sites at these;interfaces. DOI: 10.1103/PhysRevB.86.214109;3;1;0;0;3;1098-0121;WOS:000312674200002;;;J;McCash, Kevin;Srikanth, A.;Ponomareva, I.;Competing polarization reversal mechanisms in ferroelectric nanowires;PHYSICAL REVIEW B;86;21;214108;10.1103/PhysRevB.86.214108;DEC 20 2012;2012;Polarization reversal in ferroelectrics has been a subject of intense;interest for many years owing to both its scientific appeal and;practical utility. In recent years the interest has increased even;further thanks to the expectations of achieving ultrafast polarization;reversal at the nanoscale. While most of the studies up to now are;focused on the polarization reversal in ferroelectric thin films, we;report the intrinsic dynamics of ultrafast polarization reversal in;ferroelectric nanowires. Using atomistic first-principles-based;simulations, we trace the time evolution of polarization under applied;electric field to reveal the existence of two competing polarization;reversal mechanisms: (i) domain-driven and (ii) homogeneous. The;analysis of their microscopic origin allows us to postulate the;associated laws and leads to a deeper understanding of polarization;reversal dynamics in general. In addition, we find that in defect-free;nanowires the polarization reversal can occur within picoseconds, which;potentially is very promising for ultrafast memory and other;applications. DOI: 10.1103/PhysRevB.86.214108;Ponomareva, Inna/C-4067-2012;6;0;0;0;6;1098-0121;WOS:000312674200001;;;J;Silaev, M. A.;Volovik, G. E.;Topological Fermi arcs in superfluid He-3;PHYSICAL REVIEW B;86;21;214511;10.1103/PhysRevB.86.214511;DEC 20 2012;2012;We consider fermionic states bound on domain walls in a Weyl superfluid;He-3-A and on interfaces between He-3-A and a fully gapped topological;superfluid He-3-B. We demonstrate that in both cases the fermionic;spectrum contains Fermi arcs that are continuous nodal lines of energy;spectrum terminating at the projections of two Weyl points to the plane;of surface states in momentum space. The number of Fermi arcs is;determined by the index theorem that relates bulk values of the;topological invariant to the number of zero-energy surface states. The;index theorem is consistent with an exact spectrum of Bogolubov-de;Gennes equation obtained numerically, meanwhile, the quasiclassical;approximation fails to reproduce the correct number of zero modes. Thus;we demonstrate that topology describes the properties of the exact;spectrum beyond the quasiclassical approximation. DOI:;10.1103/PhysRevB.86.214511;8;0;0;0;8;1098-0121;WOS:000312674200006;;;J;Sluka, V.;Kakay, A.;Deac, A. M.;Buergler, D. E.;Hertel, R.;Schneider, C. M.;Quenched Slonczewski windmill in spin-torque vortex oscillators;PHYSICAL REVIEW B;86;21;214422;10.1103/PhysRevB.86.214422;DEC 20 2012;2012;We present a combined analytical and numerical study on double-vortex;spin-torque nano-oscillators and describe a mechanism that suppresses;the windmill modes. The magnetization dynamics is dominated by the;gyrotropic precession of the vortex in one of the ferromagnetic layers.;In the other layer, the vortex gyration is strongly damped. The;dominating layer for the magnetization dynamics is determined by the;sign of the product between sample current and the chiralities.;Measurements on Fe/Ag/Fe nanopillars support these findings. The results;open up a new perspective for building high quality-factor spin-torque;oscillators operating at selectable, well-separated frequency bands.;DOI: 10.1103/PhysRevB.86.214422;Deac, Alina/D-2961-2012; Buergler, Daniel/I-7408-2012; Kakay, Attila/B-7106-2008; Schneider, Claus/H-7453-2012;Buergler, Daniel/0000-0002-5579-4886; Kakay, Attila/0000-0002-3195-219X;;Schneider, Claus/0000-0002-3920-6255;4;0;0;0;4;1098-0121;WOS:000312674200005;;;J;Strohm, C.;Roth, T.;Detlefs, C.;van der Linden, P.;Mathon, O.;Element-selective magnetometry in ferrimagnetic erbium iron garnet;PHYSICAL REVIEW B;86;21;214421;10.1103/PhysRevB.86.214421;DEC 20 2012;2012;The emergence of a field induced canted phase below a critical;temperature is one of the characteristic properties of ferrimagnets with;two inequivalent antiferromagnetically coupled sublattices. Using x-ray;magnetic circular dichroism at the Fe K edge, we have performed element;selective magnetometry in ferrimagnetic erbium iron garnet in fields up;to 30 T. The signal from the tetrahedral Fe sites at 70 K allows the;detection of the two transitions at 10 and 23 T bounding the canted;phase and the direct observation of the reversal of the Fe-sublattice;magnetization within this phase. DOI: 10.1103/PhysRevB.86.214421;Detlefs, Carsten/B-6244-2008;Detlefs, Carsten/0000-0003-2573-2286;0;0;0;0;0;1098-0121;WOS:000312674200004;;;J;Yang, Huan;Wang, Zhenyu;Fang, Delong;Li, Sheng;Kariyado, Toshikaze;Chen, Genfu;Ogata, Masao;Das, Tanmoy;Balatsky, A. V.;Wen, Hai-Hu;Unexpected weak spatial variation in the local density of states induced;by individual Co impurity atoms in superconducting Na(Fe1-xCox)As;crystals revealed by scanning tunneling spectroscopy;PHYSICAL REVIEW B;86;21;214512;10.1103/PhysRevB.86.214512;DEC 20 2012;2012;We use spatially resolved scanning tunneling spectroscopy in;Na(Fe1-xCox)As to investigate the impurity effect induced by Co dopants.;The Co impurities are successfully identified, and the spatial;distributions of local density of state at different energies around;these impurities are investigated. It is found that the spectrum shows;negligible spatial variation at different positions near the Co;impurity, although there is a continuum of the in-gap states which lifts;the zero-bias conductance to a finite value. Our results put constraints;on the S +/- and S++ models and sharpen the debate on the role of;scattering potentials induced by the Co dopants. DOI:;10.1103/PhysRevB.86.214512;Das, Tanmoy/F-7174-2013;9;0;1;0;9;1098-0121;WOS:000312674200007;;;J;Chen, Gang;Hermele, Michael;Magnetic orders and topological phases from f-d exchange in pyrochlore;iridates;PHYSICAL REVIEW B;86;23;235129;10.1103/PhysRevB.86.235129;DEC 19 2012;2012;We study theoretically the effects of f-d magnetic exchange interaction;in the R2Ir2O7 pyrochlore iridates. The R3+ f electrons form localized;Kramers or non-Kramers doublets, while the Ir4+ d electrons are more;itinerant and feel a strong spin-orbit coupling. We construct and;analyze a minimal model capturing this physics, treating the Ir;subsystem using a Hubbard-type model. First neglecting the Hubbard;interaction, we find Weyl semimetal and Axion insulator phases induced;by the f-d exchange. Next, we find that f-d exchange can cooperate with;the Hubbard interaction to stabilize the Weyl semimetal over a larger;region of parameter space than when it is induced by d-electron;correlations alone. Applications to experiments are discussed. DOI:;10.1103/PhysRevB.86.235129;15;1;0;0;15;1098-0121;WOS:000312495500002;;;J;Hung, Ling-Yan;Wan, Yidun;String-net models with Z(N) fusion algebra;PHYSICAL REVIEW B;86;23;235132;10.1103/PhysRevB.86.235132;DEC 19 2012;2012;We study the Levin-Wen string-net model with a Z(N) type fusion algebra.;Solutions of the local constraints of this model correspond to Z(N);gauge theory and double Chern-Simons theories with quantum groups. For;the first time, we explicitly construct a spin-(N - 1)/2 model with Z(N);gauge symmetry on a triangular lattice as an exact dual model of the;string-net model with a Z(N) type fusion algebra on a honeycomb lattice.;This exact duality exists only when the spins are coupled to a Z(N);gauge field living on the links of the triangular lattice. The ungauged;Z(N) lattice spin models are a class of quantum systems that bear;symmetry-protected topological phases that may be classified by the;third cohomology group H-3(Z(N), U(1)) of Z(N). Our results apply also;to any case where the fusion algebra is identified with a finite group;algebra or a quantum group algebra. DOI: 10.1103/PhysRevB.86.235132;9;0;0;0;9;1098-0121;WOS:000312495500005;;;J;Husser, H.;Pehlke, E.;Analysis of two-photon photoemission from Si(001);PHYSICAL REVIEW B;86;23;235134;10.1103/PhysRevB.86.235134;DEC 19 2012;2012;We have applied our ab initio simulation approach for the photoemission;process at solid surfaces to calculate two-photon photoemission spectra;from the p(2 x 2)-reconstructed Si(001) surface. In this approach, the;ground-state electronic structure of the surface is obtained within;density functional theory. The subsequent time-dependent simulation is;carried through at frozen effective potential, while an optical;potential is applied to account for inelastic scattering in the excited;state. We have derived normal emission spectra for s-and p-polarized;light with photon energies in the range (h) over bar omega = 3.85-4.75;eV. The dependence of the theoretical spectra on photon energy and;polarization is analyzed and compared to experimental spectra from the;literature. To unravel the role of the unoccupied states between Fermi;energy and the vacuum level which are acting as intermediate states in;the excitation process, we investigate the expression for the two-photon;photocurrent from perturbation theory. The scattering states, which;serve as the final states of photoemission, are obtained from a;time-dependent simulation of a LEED-type experiment. The evaluation of;the dipole matrix elements allows us to identify the relevant bulk band;transitions and to address the influence of surface states. DOI:;10.1103/PhysRevB.86.235134;0;0;0;0;0;1098-0121;WOS:000312495500007;;;J;Jenkins, Gregory S.;Sushkov, Andrei B.;Schmadel, Don C.;Kim, M. -H.;Brahlek, Matthew;Bansal, Namrata;Oh, Seongshik;Drew, H. Dennis;Giant plateau in the terahertz Faraday angle in gated Bi2Se3;PHYSICAL REVIEW B;86;23;235133;10.1103/PhysRevB.86.235133;DEC 19 2012;2012;We report gated terahertz Faraday angle measurements on epitaxial Bi2Se3;thin films capped with In2Se3. A plateau is observed in the real part of;the Faraday angle at an onset gate voltage corresponding to no band;bending at the surface, which persists into accumulation. The plateau is;two orders of magnitude flatter than the step size expected from a;single Landau level in the low-frequency limit, quantized in units of;the fine structure constant. At 8 T, the plateau extends over a range of;gate voltage that spans an electron density greater than 14 times the;quantum flux density. Both the imaginary part of the Faraday angle and;transmission measurements indicate dissipative off-axis and longitudinal;conductivity channels associated with the plateau. DOI:;10.1103/PhysRevB.86.235133;6;0;0;0;6;1098-0121;WOS:000312495500006;;;J;Maciejko, Joseph;Qi, Xiao-Liang;Karch, Andreas;Zhang, Shou-Cheng;Models of three-dimensional fractional topological insulators;PHYSICAL REVIEW B;86;23;235128;10.1103/PhysRevB.86.235128;DEC 19 2012;2012;Time-reversal invariant three-dimensional topological insulators can be;defined fundamentally by a topological field theory with a quantized;axion angle theta of 0 or pi. It was recently shown that fractional;quantized values of theta are consistent with time-reversal invariance;if deconfined, gapped, fractionally charged bulk excitations appear in;the low-energy spectrum due to strong correlation effects, leading to;the concept of a fractional topological insulator. These fractionally;charged excitations are coupled to emergent gauge fields, which ensure;that the microscopic degrees of freedom, the original electrons, are;gauge-invariant objects. A first step towards the construction of;microscopic models of fractional topological insulators is to understand;the nature of these emergent gauge theories and their corresponding;phases. In this work, we show that low-energy effective gauge theories;of both Abelian or non-Abelian type are consistent with a fractional;quantized axion angle if they admit a Coulomb phase or a Higgs phase;with gauge group broken down to a discrete subgroup. The Coulomb phases;support gapless but electrically neutral bulk excitations while the;Higgs phases are fully gapped. The Higgs and non-Abelian Coulomb phases;exhibit multiple ground states on boundaryless spatial three-manifolds;with nontrivial first homology, while the Abelian Coulomb phase has a;unique ground state. The ground-state degeneracy receives an additional;contribution on manifolds with boundary due to the induced boundary;Chern-Simons term. DOI: 10.1103/PhysRevB.86.235128;Zhang, Shou-Cheng/B-2794-2010;6;0;0;0;6;1098-0121;WOS:000312495500001;;;J;Mikheev, E.;Stolichnov, I.;De Ranieri, E.;Wunderlich, J.;Trodahl, H. J.;Rushforth, A. W.;Riester, S. W. E.;Campion, R. P.;Edmonds, K. W.;Gallagher, B. L.;Setter, N.;Magnetic domain wall propagation under ferroelectric control;PHYSICAL REVIEW B;86;23;235130;10.1103/PhysRevB.86.235130;DEC 19 2012;2012;Control of magnetic domain walls (DWs) and their propagation is among;the most promising development directions for future information-storage;devices. The well-established tools for such manipulation are the;spin-torque transfer from electrical currents and strain. The focus of;this paper is an alternative concept based on the nonvolatile;ferroelectric field effect on DWs in a ferromagnet with carrier-mediated;exchange coupling. The integrated ferromagnet/ferroelectric structure;yields two superimposed ferroic patterns strongly coupled by an electric;field. Using this coupling, we demonstrate an easy-to-form, stable,;nondestructive, and electrically rewritable switch on magnetic domain;wall propagation. DOI: 10.1103/PhysRevB.86.235130;Stolichnov, Igor/B-3331-2014; Wunderlich, Joerg/G-6918-2014;Stolichnov, Igor/0000-0003-0606-231X;;2;0;0;0;2;1098-0121;WOS:000312495500003;;;J;Yamaoka, Hitoshi;Zekko, Yumiko;Kotani, Akio;Jarrige, Ignace;Tsujii, Naohito;Lin, Jung-Fu;Mizuki, Jun'ichiro;Abe, Hideki;Kitazawa, Hideaki;Hiraoka, Nozomu;Ishii, Hirofumi;Tsuei, Ku-Ding;Electronic transitions in CePd2Si2 studied by resonant x-ray emission;spectroscopy at high pressures and low temperatures;PHYSICAL REVIEW B;86;23;235131;10.1103/PhysRevB.86.235131;DEC 19 2012;2012;Temperature and pressure dependences of the electronic structure of the;heavy-fermion system CePd2Si2 have been investigated using partial;fluorescence yield x-ray absorption spectroscopy and resonant x-ray;emission spectroscopy at the Ce L-3 edge. The temperature dependence has;also been measured for CeRh2Si2 for comparison. In both compounds Ce is;in a weakly mixed valence state at ambient pressure, mostly f(1) with a;small contribution from the f(0) component. No temperature dependence of;the Ce valence is observed at temperatures as low as 8 K. In CePd2Si2 at;19 K, however, the Ce valence shows a continuous increase with pressure,;indicating pressure-induced delocalization of the 4f states. Theoretical;calculations based on the single impurity Anderson model reproduce the;experimental results well. Pressure dependence of the difference between;the ground state valence and the measured valence including the final;state effect is also discussed. DOI: 10.1103/PhysRevB.86.235131;Lin, Jung-Fu/B-4917-2011;3;0;0;0;3;1098-0121;WOS:000312495500004;;;J;Zolyomi, V.;Ivady, V.;Gali, A.;Enhancement of electron-nuclear hyperfine interaction at lattice defects;in semiconducting single-walled carbon nanotubes studied by ab initio;density functional theory calculations;PHYSICAL REVIEW B;86;23;235433;10.1103/PhysRevB.86.235433;DEC 19 2012;2012;We present a first principles study of the electron-nuclear;hyperfine-interaction (HF) in achiral single-walled carbon nanotubes;(SWCNTs). We show that while HF coupling is small in perfect nanotubes,;it is significantly enhanced near lattice defects such as vacancies and;Stone-Wales pairs. The enhancement of hyperfine coupling near the;defects varies considerably in different nanotubes which might pave the;way to simultaneously identifying the chirality of carbon nanotubes and;the defects inside them by sophisticated magnetic resonance techniques.;Charged vacancy is proposed as a candidate for solid state qubit in;semiconducting SWCNTs. DOI: 10.1103/PhysRevB.86.235433;0;0;0;0;0;1098-0121;WOS:000312495500008;;;J;Castro, M.;Gago, R.;Vazquez, L.;Munoz-Garcia, J.;Cuerno, R.;Stress-induced solid flow drives surface nanopatterning of silicon by;ion-beam irradiation;PHYSICAL REVIEW B;86;21;214107;10.1103/PhysRevB.86.214107;DEC 19 2012;2012;Ion-beam sputtering (IBS) is known to produce surface nanopatterns over;macroscopic areas on a wide range of materials. However, in spite of the;technological potential of this route to nanostructuring, the physical;process by which these surfaces self-organize remains poorly understood.;We have performed detailed experiments of IBS on Si substrates that;validate dynamical and morphological predictions from a hydrodynamic;description of the phenomenon. We introduce a systematic approach to;perform the experiments under conditions that guarantee the;applicability of a linear description, helping to clarify the;experimental framework in which theories should be tested. Among our;results, the pattern wavelength is experimentally seen to depend almost;linearly on ion energy, in agreement with existing results for other;targets that are amorphous or become so under irradiation. Our work;substantiates flow of a nanoscopically thin and highly viscous surface;layer, driven by the stress created by the ion beam, as an accurate;description of this class of systems.;Gago, Raul/C-6762-2008; VAZQUEZ, LUIS/A-1272-2009; Munoz-Garcia, Javier/C-1135-2011; Castro, Mario/A-3585-2009;Gago, Raul/0000-0003-4388-8241; VAZQUEZ, LUIS/0000-0001-6220-2810;;Castro, Mario/0000-0003-3288-6144;22;0;0;0;22;1098-0121;WOS:000312494800001;;;J;Fishman, Randy S.;Furukawa, Nobuo;Haraldsen, Jason T.;Matsuda, Masaaki;Miyahara, Shin;Identifying the spectroscopic modes of multiferroic BiFeO3;PHYSICAL REVIEW B;86;22;220402;10.1103/PhysRevB.86.220402;DEC 19 2012;2012;We have identified the modes of multiferroic BiFeO3 measured by THz and;Raman spectroscopies. Excellent agreement with the observed peaks is;obtained by including the effects of easy-axis anisotropy along the;direction of the electric polarization. By distorting the cycloidal spin;state, anisotropy splits the Psi(perpendicular to 1) mode into peaks at;20 and 21.5 cm(-1) and activates the lower Phi(+/- 2) mode at 27 cm(-1);(T = 200 K). An electromagnon is identified with the upper Psi(+/- 1);mode at 21.5 cm(-1). Our results also explain recent inelastic;neutron-scattering measurements. DOI:10.1103/PhysRevB.86.220402;Haraldsen, Jason/B-9809-2012; Fishman, Randy/C-8639-2013; Lujan Center, LANL/G-4896-2012;Haraldsen, Jason/0000-0002-8641-5412;;8;0;0;0;8;1098-0121;WOS:000312495200001;;;J;Geraedts, Scott D.;Motrunich, Olexei I.;Monte Carlo study of a U(1) x U(1) loop model with modular invariance;PHYSICAL REVIEW B;86;24;245121;10.1103/PhysRevB.86.245121;DEC 19 2012;2012;We study a U(1) x U(1) system in (2+1) dimensions with long-range;interactions and mutual statistics. The model has the same form after;the application of operations from the modular group, a property which;we call modular invariance. Using the modular invariance of the model,;we propose a possible phase diagram. We obtain a sign-free reformulation;of the model and study it in Monte Carlo. This study confirms our;proposed phase diagram. We use the modular invariance to analytically;determine the current-current correlation functions and conductivities;in all the phases in the diagram, as well as at special "fixed" points;which are unchanged by an operation from the modular group. We;numerically determine the order of the phase transitions, and find;segments of second-order transitions. For the statistical interaction;parameter theta = pi, these second-order transitions are evidence of a;critical loop phase obtained when both loops are trying to condense;simultaneously. We also measure the critical exponents of the;second-order transitions. DOI: 10.1103/PhysRevB.86.245121;1;0;0;0;1;1098-0121;WOS:000312495800003;;;J;Giering, Kay-Uwe;Salmhofer, Manfred;Self-energy flows in the two-dimensional repulsive Hubbard model;PHYSICAL REVIEW B;86;24;245122;10.1103/PhysRevB.86.245122;DEC 19 2012;2012;We study the two-dimensional repulsive Hubbard model by functional;renormalization group methods, using our recently proposed channel;decomposition of the interaction vertex. The main technical advance of;this work is that we calculate the full Matsubara frequency dependence;of the self-energy and the interaction vertex in the whole frequency;range without simplifying assumptions on its functional form, and that;the effects of the self-energy are fully taken into account in the;equations for the flow of the two-body vertex function. At Van Hove;filling, we find that the Fermi-surface deformations remain small at;fixed particle density and have a minor impact on the structure of the;interaction vertex. The frequency dependence of the self-energy,;however, turns out to be important, especially at a transition from;ferromagnetism to d-wave superconductivity. We determine;non-Fermi-liquid exponents at this transition point. DOI:;10.1103/PhysRevB.86.245122;14;0;0;0;14;1098-0121;WOS:000312495800004;;;J;Le Roux, Sebastien;Bouzid, Assil;Boero, Mauro;Massobrio, Carlo;Structural properties of glassy Ge2Se3 from first-principles molecular;dynamics;PHYSICAL REVIEW B;86;22;224201;10.1103/PhysRevB.86.224201;DEC 19 2012;2012;The structural properties of glassy Ge2Se3 were studied in the framework;of first-principles molecular dynamics by using the Becke-Lee-Yang-Parr;scheme for the treatment of the exchange-correlation functional in;density functional theory. Our results for the total neutron structure;factor and the total pair distribution function are in very good;agreement with the experimental results. When compared to the structural;description obtained for liquid Ge2Se3, glassy Ge2Se3 is found to be;characterized by a larger percentage of fourfold coordinated Ge atoms;and a lower number of miscoordinations. However, Ge-Ge homopolar bonds;inevitably occur due to the lack of Se atoms available, at this;concentration, to form GeSe4 tetrahedra. Focusing on the family of;glasses GexSe1-x, the present results allow a comparison to be carried;out in reciprocal and real space among three prototypical glassy;structures. The first was obtained at the stoichiometric composition;(glassy GeSe2), the second at a Se-rich composition (glassy GeSe4) and;the third at a Ge-rich composition (glassy Ge2Se3). All networks are;consistent with the "8 - N" rule, in particular, glassy GeSe4, which;exhibits the highest degree of chemical order. The electronic structure;of glassy Ge2Se3 has been characterized by using the Wannier localized;orbital formalism. The analysis of the Ge environment shows the presence;of dangling, ionocovalent Ge-Se, and covalent bonds, the latter related;to Ge-Ge connections. DOI: 10.1103/PhysRevB.86.224201;BOERO, Mauro/M-2358-2014;BOERO, Mauro/0000-0002-5052-2849;6;0;0;0;6;1098-0121;WOS:000312495200004;;;J;Matthews, M. J.;Castelnovo, C.;Moessner, R.;Grigera, S. A.;Prabhakaran, D.;Schiffer, P.;High-temperature onset of field-induced transitions in the spin-ice;compound Dy2Ti2O7;PHYSICAL REVIEW B;86;21;214419;10.1103/PhysRevB.86.214419;DEC 19 2012;2012;We have studied the field-dependent ac magnetic susceptibility of single;crystals of Dy2Ti2O7 spin ice along the [111] direction in the;temperature range 1.8-7 K. Our data reflect the onset of local spin-ice;order in the appearance of different field regimes. In particular, we;observe a prominent feature at approximately 1.0 T that is a precursor;of the low-temperature metamagnetic transition out of field-induced;kagome ice, below which the kinetic constraints imposed by the ice rules;manifest themselves in a substantial frequency dependence of the;susceptibility. Despite the relatively high temperatures, our results;are consistent with a monopole picture, and they demonstrate that such a;picture can give physical insight into spin-ice systems even outside the;low-temperature, low-density limit where monopole excitations are;well-defined quasiparticles.;6;2;0;0;6;1098-0121;WOS:000312494800002;;;J;Nuss, Martin;Heil, Christoph;Ganahl, Martin;Knap, Michael;Evertz, Hans Gerd;Arrigoni, Enrico;von der Linden, Andwolfgang;Steady-state spectra, current, and stability diagram of a quantum dot: A;nonequilibrium variational cluster approach;PHYSICAL REVIEW B;86;24;245119;10.1103/PhysRevB.86.245119;DEC 19 2012;2012;We calculate steady-state properties of a strongly correlated quantum;dot under voltage bias by means of nonequilibrium cluster perturbation;theory and the nonequilibrium variational cluster approach,;respectively. Results for the steady-state current are benchmarked;against data from accurate matrix product state based time evolution. We;show that for low to medium interaction strength, nonequilibrium cluster;perturbation theory already yields good results, while for higher;interaction strength the self-consistent feedback of the nonequilibrium;variational cluster approach significantly enhances the accuracy. We;report the current-voltage characteristics for different interaction;strengths. Furthermore we investigate the nonequilibrium local density;of states of the quantum dot and illustrate that within the variational;approach a linear splitting and broadening of the Kondo resonance is;predicted which depends on interaction strength. Calculations with;applied gate voltage, away from particle-hole symmetry, reveal that the;maximum current is reached at the crossover from the Kondo regime to the;doubly occupied or empty quantum dot. Obtained stability diagrams;compare very well to recent experimental data [A. V. Kretinin et al.,;Phys. Rev. B 84, 245316 (2011)]. DOI: 10.1103/PhysRevB.86.245119;Knap, Michael/H-3344-2011; Arrigoni, Enrico/E-4507-2012; Nuss, Martin/J-5674-2014;Knap, Michael/0000-0002-7093-9502; Arrigoni, Enrico/0000-0002-1347-3080;;;7;0;0;0;7;1098-0121;WOS:000312495800001;;;J;Rottler, Andreas;Krueger, Benjamin;Heitmann, Detlef;Pfannkuche, Daniela;Mendach, Stefan;Route towards cylindrical cloaking at visible frequencies using an;optimization algorithm;PHYSICAL REVIEW B;86;24;245120;10.1103/PhysRevB.86.245120;DEC 19 2012;2012;We derive a model based on the Maxwell-Garnett effective-medium theory;that describes a cylindrical cloaking shell composed of metal rods which;are radially aligned in a dielectric host medium. We propose and;demonstrate a minimization algorithm that calculates for given material;parameters the optimal geometrical parameters of the cloaking shell such;that its effective optical parameters fit the best to the required;permittivity distribution for cylindrical cloaking. By means of;sophisticated full-wave simulations we find that a cylindrical cloak;with good performance using silver as the metal can be designed with our;algorithm for wavelengths in the red part of the visible spectrum (623;nm < lambda < 773 nm). We also present a full-wave simulation of such a;cloak at an exemplary wavelength of lambda = 729 nm (h omega = 1.7 eV);which indicates that our model is useful to find design rules of cloaks;with good cloaking performance. Our calculations investigate a structure;that is easy to fabricate using standard preparation techniques and;therefore pave the way to a realization of guiding light around an;object at visible frequencies, thus rendering it invisible. DOI:;10.1103/PhysRevB.86.245120;Krueger, Benjamin/B-7466-2009;Krueger, Benjamin/0000-0001-8502-368X;0;0;0;0;0;1098-0121;WOS:000312495800002;;;J;Tokiwa, Y.;Huebner, S. -H.;Beck, O.;Jeevan, H. S.;Gegenwart, P.;Unique phase diagram with narrow superconducting dome in;EuFe2(As1-xPx)(2) due to Eu2+ local magnetic moments;PHYSICAL REVIEW B;86;22;220505;10.1103/PhysRevB.86.220505;DEC 19 2012;2012;The interplay between superconductivity and Eu2+ magnetic moments in;EuFe2(As1-xPx)(2) is studied with electrical resistivity measurements;under hydrostatic pressure on x = 0.13 and x = 0.18 single crystals. We;can map hydrostatic pressure to chemical pressure x and show that;superconductivity is confined to a very narrow range 0.18 <= x <= 0.23;in the phase diagram, beyond which ferromagnetic (FM) Eu ordering;suppresses superconductivity. The change from antiferro- to FM Eu;ordering at the latter concentration coincides with a Lifshitz;transition and the complete depression of iron magnetic order. DOI:;10.1103/PhysRevB.86.220505;6;0;0;0;6;1098-0121;WOS:000312495200002;;;J;Tran Doan Huan;Amsler, Maximilian;Vu Ngoc Tuoc;Willand, Alexander;Goedecker, Stefan;Low-energy structures of zinc borohydride Zn(BH4)(2);PHYSICAL REVIEW B;86;22;224110;10.1103/PhysRevB.86.224110;DEC 19 2012;2012;We present a systematic study of the low-energy structures of zinc;borohydride, a crystalline material proposed for the purpose of hydrogen;storage. In addition to previously proposed structures, many new;low-energy structures of zinc borohydride are found by utilizing;theminima-hopping method. We identify a new dynamically stable structure;which belongs to the I4(1)22 space group as the lowest-energy phase of;zinc borohydride at low temperatures. A low transition barrier between;I4(1)22 and P1, the two lowest-lying phases of zinc borohydride, is;predicted, implying that a coexistence of low-energy phases of zinc;borohydride is possible at ambient conditions. An analysis based on the;simulated x-ray-diffraction pattern reveals that the I4(1)22 structure;exhibits the same major features as the experimentally synthesized zinc;borohydride samples. DOI: 10.1103/PhysRevB.86.224110;Amsler, Maximilian/H-4718-2013; Tran, Huan/K-3587-2013;Tran, Huan/0000-0002-8093-9426;4;0;0;0;4;1098-0121;WOS:000312495200003;;;J;van den Berg, T. L.;Raymond, L.;Verga, A.;Enhanced spin Hall effect in strong magnetic disorder;PHYSICAL REVIEW B;86;24;245420;10.1103/PhysRevB.86.245420;DEC 19 2012;2012;We consider a two-dimensional electron gas in an inversion asymmetric;layer and in the presence of spatially distributed magnetic impurities.;We investigate the relationship between the geometrical properties of;the wave function and the system's spin-dependent transport properties.;A localization transition, arising when disorder is increased, is;exhibited by the appearance of a fractal state with finite inverse;participation ratio. Below the transition, interference effects modify;the carrier's diffusion, as revealed by the dependence on the scattering;time of the power law exponents characterizing the spreading of a wave;packet. Above the transition, in the strong disorder regime, we find;that the states are spin polarized and localized around the impurities.;A significant enhancement of the spin current develops in this regime.;DOI: 10.1103/PhysRevB.86.245420;RAYMOND, Laurent/B-6025-2008;RAYMOND, Laurent/0000-0002-5014-1333;0;0;0;0;0;1098-0121;WOS:000312495800005;;;J;Bauer, Oliver;Mercurio, Giuseppe;Willenbockel, Martin;Reckien, Werner;Schmitz, Christoph Heinrich;Fiedler, Benjamin;Soubatch, Serguei;Bredow, Thomas;Tautz, Frank Stefan;Sokolowski, Moritz;Role of functional groups in surface bonding of planar pi-conjugated;molecules;PHYSICAL REVIEW B;86;23;235431;10.1103/PhysRevB.86.235431;DEC 18 2012;2012;The trends in the bonding mechanism of 3,4,9,10-perylenetetracarboxylic;acid dianhydride (PTCDA) to the Ag(111), Ag(100), and Ag(110) surfaces;were analyzed on the basis of data obtained from x-ray standing waves;and dispersion-corrected density functional theory. Of importance are;the attractive local O-Ag bonds on the anhydride groups. They are the;shorter, the more open the surface is, and lead even to partly repulsive;interactions between the perylene core and the surface. In parallel,;there is an increasing charge donation from the Ag surface into the pi;system of the PTCDA. This synergism explains the out-of-plane distortion;of the adsorbed PTCDA and the surface buckling. DOI:;10.1103/PhysRevB.86.235431;13;1;0;0;13;1098-0121;WOS:000312445200001;;;J;Saptsov, R. B.;Wegewijs, M. R.;Fermionic superoperators for zero-temperature nonlinear transport:;Real-time perturbation theory and renormalization group for Anderson;quantum dots;PHYSICAL REVIEW B;86;23;235432;10.1103/PhysRevB.86.235432;DEC 18 2012;2012;We study electron quantum transport through a strongly interacting;Anderson quantum dot at finite bias voltage and magnetic field at zero;temperature using the real-time renormalization group (RT-RG) in the;framework of a kinetic (generalized master) equation for the reduced;density operator. To this end, we further develop the general,;finite-temperature real-time transport formalism by introducing field;superoperators that obey fermionic statistics. This direct second;quantization in Liouville Fock space strongly simplifies the;construction of operators and superoperators that transform irreducibly;under the Anderson-model symmetry transformations. The fermionic field;superoperators naturally arise from the univalence (fermion-parity);superselection rule of quantum mechanics for the total system of quantum;dot plus reservoirs. Expressed in these field superoperators, the causal;structure of the perturbation theory for the effective time-evolution;superoperator kernel becomes explicit. Using the constraints of the;causal structure, we construct a parametrization of the exact effective;time-evolution kernel for which we analytically find the eigenvectors;and eigenvalues in terms of a minimal set of only 30 independent;coefficients. The causal structure also implies the existence of a;fermion-parity protected eigenvector of the exact Liouvillian,;explaining a recently reported result on adiabatic driving;[Contreras-Pulido et al., Phys. Rev. B 85, 075301 (2012)] and;generalizing it to arbitrary order in the tunnel coupling Gamma.;Furthermore, in the wide-band limit, the causal representation;exponentially reduces the number of diagrams for the time-evolution;kernel. The remaining diagrams can be identified simply by their;topology and are manifestly independent of the energy cutoff term by;term. By an exact reformulation of this series, we integrate out all;infinite-temperature effects, obtaining an expansion targeting only the;nontrivial, finite-temperature corrections, and the exactly conserved;transport current follows directly from the time-evolution kernel. From;this new series, the previously formulated RT-RG equations are obtained;naturally. We perform a complete one-plus-two-loop RG analysis at finite;voltage and magnetic field, while systematically accounting for the;dependence of all renormalized quantities on both the quantum dot and;reservoir frequencies. Using the second quantization in Liouville space;and symmetry restrictions, we obtain analytical RT-RG equations, which;can be solved numerically in an efficient way, and we extensively study;the model parameter space, excluding the Kondo regime where the;one-plus-two-loop approach is obviously invalid. The incorporated;renormalization effects result in an enhancement of the inelastic;cotunneling peak, even at a voltage similar to magnetic field similar to;tunnel coupling Gamma. Moreover, we find a tunnel-induced nonlinearity;of the stability diagrams (Coulomb diamonds) at finite voltage, both in;the single-electron tunneling and inelastic cotunneling regime. DOI:;10.1103/PhysRevB.86.235432;Wegewijs, Maarten/A-3512-2012;Wegewijs, Maarten/0000-0002-2972-3822;9;0;0;0;9;1098-0121;WOS:000312445200002;;;J;Tyrrell, E. J.;Smith, J. M.;Effective mass modeling of excitons in type-II quantum dot;heterostructures (vol 84, 165328, 2011);PHYSICAL REVIEW B;86;23;239905;10.1103/PhysRevB.86.239905;DEC 18 2012;2012;0;0;0;0;0;1098-0121;WOS:000312445200003;;;J;Buividovich, P. V.;Polikarpov, M. I.;Monte Carlo study of the electron transport properties of monolayer;graphene within the tight-binding model;PHYSICAL REVIEW B;86;24;245117;10.1103/PhysRevB.86.245117;DEC 18 2012;2012;We study the effect of Coulomb interaction between charge carriers on;the properties of graphene monolayer, assuming that the strength of the;interaction is controlled by the dielectric permittivity of the;substrate on which the graphene layer is placed. To this end, we;consider the tight-binding model on the hexagonal lattice coupled to the;noncompact gauge field. The action of the latter is also discretized on;the hexagonal lattice. Equilibrium ensembles of gauge field;configurations are obtained using the hybrid Monte Carlo algorithm. Our;numerical results indicate that at sufficiently strong coupling, that;is, at sufficiently small substrate dielectric permittivities epsilon;less than or similar to 4 and at sufficiently small temperatures T less;than or similar to 1 x 10(4) K, the symmetry between simple sublattices;of hexagonal lattice breaks down spontaneously and the low-frequency;conductivity gradually decreases down to 20-30% of its weak-coupling;value. On the other hand, in the weak-coupling regime (with epsilon;greater than or similar to 4), the conductivity practically does not;depend on epsilon and is close to the universal value sigma(0) = 1/4.;DOI: 10.1103/PhysRevB.86.245117;15;0;0;0;15;1098-0121;WOS:000312445700002;;;J;Cheng, Ran;Niu, Qian;Electron dynamics in slowly varying antiferromagnetic texture;PHYSICAL REVIEW B;86;24;245118;10.1103/PhysRevB.86.245118;DEC 18 2012;2012;Adiabatic dynamics of conduction electrons in antiferromagnetic (AFM);materials with slowly varying spin texture is developed. Quite different;from the ferromagnetic (FM) case, adiabaticity in AFM texture does not;imply perfect alignment of conduction electron spins with background;profile, instead, it introduces an internal dynamics between degenerate;bands. As a result, the orbital motion of conduction electrons becomes;spin dependent and is affected by two emergent gauge fields: one of them;is the non-Abelian version of what has been discovered in FM systems;;the other leads to an anomalous velocity that has no FM counterpart. Two;examples with experimental predictions are provided. DOI:;10.1103/PhysRevB.86.245118;Niu, Qian/G-9908-2013; Cheng, Ran/M-9260-2014;Cheng, Ran/0000-0003-0166-2172;12;0;0;0;12;1098-0121;WOS:000312445700003;;;J;Cuadrado, R.;Chantrell, R. W.;Electronic and magnetic properties of bimetallic L1(0) cuboctahedral;clusters by means of fully relativistic density-functional-based;calculations;PHYSICAL REVIEW B;86;22;224415;10.1103/PhysRevB.86.224415;DEC 18 2012;2012;By means of density functional theory and the generalized gradient;approximation, we present a structural, electronic, and magnetic study;of FePt-, CoPt-, FeAu-, and FePd-based L1(0) ordered cuboctahedral;nanoparticles, with total numbers of atoms N-tot = 13, 55, 147. After a;conjugate gradient relaxation, the nanoparticles retain their L1(0);symmetry, but the small displacements of the atomic positions tune the;electronic and magnetic properties. The value of the total magnetic;moment stabilizes as the size increases. We also show that the magnetic;anisotropy energy (MAE) depends on the size as well as the position of;the Fe-atomic planes in the clusters. We address the influence on the;MAE of the surface shape, finding a small in-plane MAE for (Fe,;Co)(24)Pt-31 nanoparticles. DOI: 10.1103/PhysRevB.86.224415;7;0;0;0;7;1098-0121;WOS:000312445000002;;;J;Deisenhofer, J.;Schaile, S.;Teyssier, J.;Wang, Zhe;Hemmida, M.;von Nidda, H. -A. Krug;Eremina, R. M.;Eremin, M. V.;Viennois, R.;Giannini, E.;van der Marel, D.;Loidl, A.;Electron spin resonance and exchange paths in the orthorhombic dimer;system Sr2VO4;PHYSICAL REVIEW B;86;21;214417;10.1103/PhysRevB.86.214417;DEC 18 2012;2012;We report on susceptibility and electron spin resonance (ESR);measurements at X- and Q-band frequencies of Sr2VO4 with orthorhombic;symmetry. In this dimer system, the V4+ ions are in tetrahedral;environment and are coupled by an antiferromagnetic intradimer exchange;constant J/k(B) approximate to 100 K to form a singlet ground state;without any phase transitions between room temperature and 2 K. Based on;an extended Huckel tight-binding analysis, we identify the strongest;exchange interaction to occur between two inequivalent vanadium sites;via two intermediate oxygen ions. The ESR absorption spectra can be well;fitted by a single Lorentzian line and the temperature dependence of the;ESR intensity, and the dc susceptibility can be modeled by using the;Bleaney-Bowers approach for independent dimers. The temperature;dependence of the ESR linewidth at X-band frequency can be modeled by a;superposition of a linear increase with temperature with a slope alpha =;1.35 Oe/K and a thermally activated behavior with an activation energy;Delta/k(B) = 1418 K, both of which point to spin-phonon coupling as the;dominant relaxation mechanism in this compound.;Teyssier, Jeremie/A-6867-2013; Deisenhofer, Joachim/G-8937-2011;Deisenhofer, Joachim/0000-0002-7645-9390;3;0;0;0;3;1098-0121;WOS:000312444700001;;;J;Hsu, Chen-Hsuan;Wang, Zhiqiang;Chakravarty, Sudip;Spin dynamics of possible density wave states in the pseudogap phase of;high-temperature superconductors;PHYSICAL REVIEW B;86;21;214510;10.1103/PhysRevB.86.214510;DEC 18 2012;2012;In a recent inelastic neutron scattering experiment in the pseudogap;state of the high-temperature superconductor YBa2Cu3O6.6, an unusual;"vertical" dispersion of the spin excitations with a large in-plane;anisotropy was observed. In this paper, we discuss in detail the spin;susceptibility of the singlet d-density wave, the triplet d-density wave;as well as the more common spin density wave orders with hopping;anisotropies. From numerical calculations within the framework of random;phase approximation, we find nearly vertical dispersion relations for;spin excitations with anisotropic incommensurability at low energy omega;<= 90 meV, which are reminiscent of the experiments. At very high energy;omega >= 165 meV, we also find energy-dependent incommensurability.;Although there are some important differences between the three cases,;unpolarized neutron measurements cannot discriminate between these;alternate possibilities; the vertical dispersion, however, is a distinct;feature of all three density wave states in contrast to the;superconducting state, which shows an hour-glass shape dispersion.;0;0;0;0;0;1098-0121;WOS:000312444700003;;;J;Jain, S.;Schultheiss, H.;Heinonen, O.;Fradin, F. Y.;Pearson, J. E.;Bader, S. D.;Novosad, V.;Coupled vortex oscillations in mesoscale ferromagnetic double-disk;structures;PHYSICAL REVIEW B;86;21;214418;10.1103/PhysRevB.86.214418;DEC 18 2012;2012;Coupled resonance modes in connected ferromagnetic double-dot structures;have been investigated as a function of the overlap between the dots,;both experimentally and via micromagnetic simulations. An asymmetry is;observed in the frequency spectrum about zero field. Softening of the;magnetization during vortex core precession when the cores are near the;overlap region results in low-frequency modes and a splitting;corresponding to different polarity combinations. A range of vortex;resonance frequencies are identified that can be tuned by varying the;overlap area. This study provides insight into the control of the;dynamic response in coupled mesoscale magnetic structures.;Jain, Shikha/J-4734-2012; Novosad, Valentyn/C-2018-2014;7;0;0;0;7;1098-0121;WOS:000312444700002;;;J;Kim, Isaac H.;Perturbative analysis of topological entanglement entropy from;conditional independence;PHYSICAL REVIEW B;86;24;245116;10.1103/PhysRevB.86.245116;DEC 18 2012;2012;We use the structure of conditionally independent states to analyze the;stability of topological entanglement entropy. For the ground state of;the quantum double or Levin-Wen model, we obtain a bound on the;first-order perturbation of topological entanglement entropy in terms of;its energy gap and subsystem size. The bound decreases superpolynomially;with the size of the subsystem, provided the energy gap is nonzero. We;also study the finite-temperature stability of stabilizer models, for;which we prove a stronger statement than the strong subadditivity of;entropy. Using this statement and assuming (i) finite correlation length;and (ii) small conditional mutual information of certain configurations,;first-order perturbation effect for arbitrary local perturbation can be;bounded. We discuss the technical obstacles in generalizing these;results. DOI: 10.1103/PhysRevB.86.245116;4;0;0;0;4;1098-0121;WOS:000312445700001;;;J;Metelmann, A.;Brandes, T.;Transport through single-level systems: Spin dynamics in the;nonadiabatic regime;PHYSICAL REVIEW B;86;24;245317;10.1103/PhysRevB.86.245317;DEC 18 2012;2012;We investigate the Fano-Anderson model coupled to a large ensemble of;spins under the influence of an external magnetic field. The interaction;between the two spin systems is treated within a mean-field approach,;and we assume an anisotropic coupling between these two systems. By;using a nonadiabatic approach, we make no further approximations in the;theoretical description of our system, apart from the semiclassical;treatment. Therewith, we can include the short-time dynamics as well as;the broadening of the energy levels arising due to the coupling to the;external electronic reservoirs. We study the spin dynamics in the regime;of low and high bias. For the infinite bias case, we compare our results;to those obtained from a simpler rate equation approach, where;higher-order transitions are neglected. We show that these higher-order;terms are important in the range of low magnetic field. Additionally, we;analyze extensively the finite bias regime with methods from nonlinear;dynamics, and we discuss the possibility of switching of the large spin.;DOI: 10.1103/PhysRevB.86.245317;2;0;0;0;2;1098-0121;WOS:000312445700004;;;J;Nastar, M.;Soisson, F.;Atomistic modeling of phase transformations: Point-defect concentrations;and the time-scale problem;PHYSICAL REVIEW B;86;22;220102;10.1103/PhysRevB.86.220102;DEC 18 2012;2012;The time scale of diffusive phase transformations in alloys depends on;point-defect concentrations, which evolve with the microstructure. We;present a simple method that provides a physical time scale for;atomistic simulations of such transformations, even when performed with;constant point-defect numbers. It also gives an on-the-fly evaluation of;the real point-defect concentration, when equilibrium conditions are;fulfilled. The method is applied to kinetic Monte Carlo simulations of;precipitation in binary alloys occurring by vacancy diffusion. The;vacancy concentration is found to be very dependent on the difference in;formation energy between the matrix and the precipitates, and therefore;on the composition and volume fraction of these two phases. The effect;of the interface curvature, through a Gibbs-Thomson effect, is revealed.;A mean-field approximation is also developed for computing the;point-defect concentrations. Contrary to previous models, it takes into;account the short range order in nonideal and concentrated solutions.;Atomistic simulations and mean-field simulations are validated by direct;comparisons. DOI: 10.1103/PhysRevB.86.220102;soisson, frederic/B-2917-2009;soisson, frederic/0000-0001-6435-6119;6;0;0;0;6;1098-0121;WOS:000312445000001;;;J;Abd El-Fattah, Z. M.;Matena, M.;Corso, M.;Ormaza, M.;Ortega, J. E.;Schiller, F.;Modifying the Cu(111) Shockley surface state by Au alloying;PHYSICAL REVIEW B;86;24;245418;10.1103/PhysRevB.86.245418;DEC 17 2012;2012;The deposition of submonolayer amounts of Au onto Cu(111) results in a;Au-Cu surface alloy with temperature- and thickness-dependent;stoichiometry. Upon alloying, the characteristic Shockley state of;Cu(111) is modified, shifting to 0.53 eV binding energy for a particular;surface Au2Cu concentration, which is a very high binding energy for a;noble-metal surface. Based on a phase accumulation model analysis, we;discuss how this unusually large shift is likely reflecting an effective;increase in the topmost layer thickness of the order of, but smaller;than, the value expected from the moire undulation. DOI:;10.1103/PhysRevB.86.245418;CSIC-UPV/EHU, CFM/F-4867-2012; ortega, enrique/I-4445-2012; Corso, Martina/B-7768-2014; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000312365800013;;;J;Baledent, V.;Rullier-Albenque, F.;Colson, D.;Monaco, G.;Rueff, J. -P.;Stability of the Fe electronic structure through temperature-, doping-,;and pressure-induced transitions in the BaFe2As2 superconductors;PHYSICAL REVIEW B;86;23;235123;10.1103/PhysRevB.86.235123;DEC 17 2012;2012;We report on a survey of Fe electronic properties in the;temperature-pressure phase diagram of the Co-doped pnictides BaFe2As2;superconductors by hard x-ray absorption spectroscopy at the Fe K edge;in the high-resolution, partial fluorescence yield mode. The absorption;spectra are found remarkably stable through the temperature-induced;phase transitions while pressure leads to slight energy shift of the;main edge but not of the pre-edge. The latter effect is ascribed to the;lattice compression and band widening effects under pressure as;confirmed by multiple scattering simulations. Our results suggest that;from the Fe electronic structure point of view, doping and pressure are;equivalent ways to destabilize the magnetic phase to the advantage of;superconductivity. DOI: 10.1103/PhysRevB.86.235123;0;0;0;0;0;1098-0121;WOS:000312365200003;;;J;Bejas, Matias;Greco, Andres;Yamase, Hiroyuki;Possible charge instabilities in two-dimensional doped Mott insulators;PHYSICAL REVIEW B;86;22;224509;10.1103/PhysRevB.86.224509;DEC 17 2012;2012;Motivated by the growing evidence of the importance of charge;fluctuations in the pseudogap phase in high-temperature cuprate;superconductors, we apply a large-N expansion formulated in a path;integral representation of the two-dimensional t - J model on a square;lattice. We study all possible charge instabilities of the paramagnetic;state in leading order of the 1/N expansion. While the d-wave charge;density wave (flux phase) becomes the leading instability for various;choices of model parameters, we find that a d-wave Pomeranchuk;(electronic nematic phase) instability occurs as a next leading one. In;particular, the nematic state has a strong tendency to become;inhomogeneous. In the presence of a large second nearest-neighbor;hopping integral, the flux phase is suppressed and the electronic;nematic instability becomes leading in a high doping region. Besides;these two major instabilities, bond-order phases occur as weaker;instabilities close to half-filling. Phase separation is also detected;in a finite temperature region near half-filling. DOI:;10.1103/PhysRevB.86.224509;7;0;0;0;7;1098-0121;WOS:000312364700006;;;J;Chen, S. L.;Chen, W. M.;Buyanova, I. A.;Zeeman splitting and dynamics of an isoelectronic bound exciton near the;band edge of ZnO;PHYSICAL REVIEW B;86;23;235205;10.1103/PhysRevB.86.235205;DEC 17 2012;2012;Comprehensive time-resolved photoluminescence and magneto-optical;measurements are performed on a bound exciton (BX) line peaking at;3.3621 eV (labeled as I*). Though the energy position of I* lies within;the same energy range as that for donor bound exciton (DX) transitions,;its behavior in an applied magnetic field is found to be distinctly;different from that observed for DXs bound to either ionized or neutral;donors. An exciton bound to an isoelectronic center with a;hole-attractive local potential is shown to provide a satisfactory model;that can account for all experimental results of the I* transition. DOI:;10.1103/PhysRevB.86.235205;Chen, Weimin/J-4660-2012;Chen, Weimin/0000-0002-6405-9509;5;0;0;0;5;1098-0121;WOS:000312365200008;;;J;Chen, Zuhuang;Zou, Xi;Ren, Wei;You, Lu;Huang, Chuanwei;Yang, Yurong;Yang, Ping;Wang, Junling;Sritharan, Thirumany;Bellaiche, L.;Chen, Lang;Study of strain effect on in-plane polarization in epitaxial BiFeO3 thin;films using planar electrodes;PHYSICAL REVIEW B;86;23;235125;10.1103/PhysRevB.86.235125;DEC 17 2012;2012;Epitaxial strain plays an important role in determining physical;properties of perovskite ferroelectric oxide thin films because of the;inherent coupling between the strain and the polarization. However, it;is very challenging to directly measure properties such as polarization;in ultrathin strained films, using traditional sandwich capacitor;devices, because of high leakage current. Hence, a planar electrode;device with different crystallographical orientations between;electrodes, which is able to measure the polarization response with;different electric field orientation, is used successfully in this work;to directly measure the in-plane polarization-electric-field (P-E);hysteresis loops in fully strained thin films. We used BiFeO3 (BFO) as a;model system and measured in-plane P-E loops not only in the;rhombohedral-like (R-like) BFO thin films but also in largely strained;BFO films exhibiting the pure tetragonal-like (T-like) phase. The exact;magnitude and direction of the spontaneous polarization vector of the;T-like phase is deduced thanks to the collection of in-plane;polarization components along different orientations. It is also shown;that the polarization vector in the R-like phase of BiFeO3 is;constrained to lie within the (1 (1) over bar 10) plane and rotates from;the [111] towards the [001] pseudocubic direction when the compressive;strain is increased from zero. At high misfit strains such as -4.4%, the;pure T-like phase is obtained and its polarization vector is constrained;to lie in the (010) plane with a significantly large in-plane component,;similar to 44 mu C/cm(2). First-principles calculations are carried out;in parallel, and provide a good agreement with the experimental results.;DOI: 10.1103/PhysRevB.86.235125;CHEN, LANG/A-2251-2011; You, Lu/H-1512-2011; Ren, Wei/D-2081-2009; HUANG, CHUANWEI/F-9858-2011; WANG, Junling/B-3596-2009; Yang, Ping/C-5612-2008; Chen, Zuhuang/E-7131-2011; Sritharan, Thirumany/G-4890-2010;WANG, Junling/0000-0003-3663-7081; Chen, Zuhuang/0000-0003-1912-6490;;8;1;0;0;8;1098-0121;WOS:000312365200005;;;J;Croitoru, M. D.;Buzdin, A. I.;Extended Lawrence-Doniach model: The temperature evolution of the;in-plane magnetic field anisotropy;PHYSICAL REVIEW B;86;22;224508;10.1103/PhysRevB.86.224508;DEC 17 2012;2012;Using the quasiclassical formalism, we provide the description of the;temperature and field-direction dependence of the in-plane upper;critical field in layered superconductors, taking into account the;interlayer Josephson coupling and the paramagnetic spin splitting. We;generalize the Lawrence-Doniach model for the case of high magnetic;fields and show that the reentrant superconductivity is naturally;described by our formalism when neglecting the Pauli pair-breaking;effect. We demonstrate that in layered superconductors the in-plane;anisotropy of the onset of superconductivity exhibits four different;temperature regimes: from the Ginzburg-Landau type in the vicinity of;the critical temperature T-c0 with anisotropies of coherence lengths, up;to the Fulde-Ferell-Larkin-Ovchinnikov type induced by the strong;interference between the modulation vector and the orbital effect. Our;results are in agreement with the experimental measurements of the;field-angle dependence of the superconducting onset temperature of the;organic compound (TMTSF)(2)ClO4. DOI: 10.1103/PhysRevB.86.224508;Buzdin, Alexander/I-6038-2013; Croitoru, Mihail/J-9934-2014;Croitoru, Mihail/0000-0002-3014-8634;3;0;0;0;3;1098-0121;WOS:000312364700005;;;J;Dhital, Chetan;Abernathy, D. L.;Zhu, Gaohua;Ren, Zhifeng;Broido, D.;Wilson, Stephen D.;Inelastic neutron scattering study of phonon density of states in;nanostructured Si1-xGex thermoelectrics;PHYSICAL REVIEW B;86;21;214303;10.1103/PhysRevB.86.214303;DEC 17 2012;2012;Inelastic neutron scattering measurements are utilized to explore;relative changes in the generalized phonon density of states of;nanocrystalline Si1-xGex thermoelectric materials prepared via;ball-milling and hot-pressing techniques. Dynamic signatures of Ge;clustering can be inferred from the data by referencing the resulting;spectra to a density functional theoretical model assuming homogeneous;alloying via the virtual-crystal approximation. Comparisons are also;presented between as-milled Si nanopowder and bulk, polycrystalline Si;where a preferential low-energy enhancement and lifetime broadening of;the phonon density of states appear in the nanopowder. Negligible;differences are however observed between the phonon spectra of bulk Si;and hot-pressed, nanostructured Si samples suggesting that changes to;the single-phonon dynamics above 4 meV play only a secondary role in the;modified heat conduction of this compound.;BL18, ARCS/A-3000-2012; Abernathy, Douglas/A-3038-2012; Ren, Zhifeng/B-4275-2014;1;0;0;0;1;1098-0121;WOS:000312364200002;;;J;Farahani, S. K. Vasheghani;Veal, T. D.;Sanchez, A. M.;Bierwagen, O.;White, M. E.;Gorfman, S.;Thomas, P. A.;Speck, J. S.;McConville, C. F.;Influence of charged-dislocation density variations on carrier mobility;in heteroepitaxial semiconductors: The case of SnO2 on sapphire;PHYSICAL REVIEW B;86;24;245315;10.1103/PhysRevB.86.245315;DEC 17 2012;2012;In highly mismatched heteroepitaxial systems, the influence of carrier-;and dislocation-density variations on carrier mobility is revealed.;Transmission electronmicroscopy reveals the variation of dislocation;density through a series of SnO2 films grown by molecular-beam epitaxy;on sapphire substrates where the lattice mismatch exceeds 11%. A;layer-by-layer parallel conduction treatment of the carrier mobility in;SnO2 epilayers is used to illustrate the dominant role of the;depth-dependent dislocation density and charge profile in determining;the film-thickness dependence of the transport properties.;Thomas, Pam/G-3532-2010; Sanchez, Ana/F-3153-2010;Sanchez, Ana/0000-0002-8230-6059;0;0;0;0;0;1098-0121;WOS:000312365800009;;;J;Ferraz, Alvaro;Kochetov, Evgeny;Comment on "Fermi surface reconstruction in hole-doped t-J models;without long-range antiferromagnetic order";PHYSICAL REVIEW B;86;24;247103;10.1103/PhysRevB.86.247103;DEC 17 2012;2012;0;0;0;0;0;1098-0121;WOS:000312365800015;;;J;Frimmer, Martin;Koenderink, A. Femius;Superemitters in hybrid photonic systems: A simple lumping rule for the;local density of optical states and its breakdown at the unitary limit;PHYSICAL REVIEW B;86;23;235428;10.1103/PhysRevB.86.235428;DEC 17 2012;2012;We theoretically investigate how the enhancement of the radiative decay;rate of a spontaneous emitter provided by coupling to an optical antenna;is modified when this "superemitter" is introduced into a complex;photonic environment that provides an enhanced local density of optical;states (LDOS) itself, such as a microcavity or stratified medium. We;show that photonic environments with increased LDOS further boost the;performance of antennas that scatter weakly, for which a simple;multiplicative LDOS lumping rule holds. In contrast, enhancements;provided by antennas close to the unitary limit, i.e., close to the;limit of maximally possible scattering strength, are strongly reduced by;an enhanced LDOS of the environment. Thus, we identify multiple;scattering in hybrid photonic systems as a powerful mechanism for LDOS;engineering. DOI: 10.1103/PhysRevB.86.235428;Koenderink, A. Femius/A-3955-2008;Koenderink, A. Femius/0000-0003-1617-5748;7;0;0;0;7;1098-0121;WOS:000312365200011;;;J;Gasparinetti, S.;Kamleitner, I.;Coherent Cooper-pair pumping by magnetic flux control;PHYSICAL REVIEW B;86;22;224510;10.1103/PhysRevB.86.224510;DEC 17 2012;2012;We introduce and discuss a scheme for Cooper-pair pumping. The scheme;relies on the coherent transfer of a superposition of charge states;across a superconducting island and is realized by adiabatic;manipulation of magnetic fluxes. Differently from previous;implementations, it does not require any modulation of electrostatic;potentials. We find a peculiar dependence of the pumped charge on the;superconducting phase bias across the pump and that an arbitrarily large;amount of charge can be pumped in a single cycle when the phase bias is;pi. We explain these features and their relation to the adiabatic;theorem. DOI: 10.1103/PhysRevB.86.224510;Gasparinetti, Simone/C-2991-2014;Gasparinetti, Simone/0000-0002-7238-693X;3;0;0;0;3;1098-0121;WOS:000312364700007;;;J;Gu, B.;Ziman, T.;Maekawa, S.;Theory of the spin Hall effect, and its inverse, in a ferromagnetic;metal near the Curie temperature;PHYSICAL REVIEW B;86;24;241303;10.1103/PhysRevB.86.241303;DEC 17 2012;2012;We give a theory of the inverse spin Hall effect (ISHE) in ferromagnetic;metals based on skew scattering via collective spin fluctuations. This;extends Kondo's theory of the anomalous Hall effect (AHE) to include;short-range spin-spin correlations. We find a relation between the ISHE;and the four-spin correlations near the Curie temperature T-C. Such;four-spin correlations do not contribute to the AHE, which relates to;the three-spin correlations. Thus our theory shows an essential;difference between the AHE and ISHE, providing an essential complement;to Kondo's classic theory of the AHE in metals. We note the relation to;skew-scattering mechanisms based on impurity scattering. Our theory can;be compared to recent experimental results by Wei et al. [Nat. Commun.;3, 1058 (2012)] for the ISHE in ferromagnetic alloys. DOI:;10.1103/PhysRevB.86.241303;Gu, Bo/B-6145-2011;Gu, Bo/0000-0003-2216-8413;1;0;0;0;1;1098-0121;WOS:000312365800003;;;J;Guedes, E. B.;Abbate, M.;Ishigami, K.;Fujimori, A.;Yoshimatsu, K.;Kumigashira, H.;Oshima, M.;Vicentin, F. C.;Fonseca, P. T.;Mossanek, R. J. O.;Core level and valence band spectroscopy of SrRuO3: Electron correlation;and covalence effects;PHYSICAL REVIEW B;86;23;235127;10.1103/PhysRevB.86.235127;DEC 17 2012;2012;We studied the electronic structure of SrRuO3 using several;spectroscopic techniques. These include ( resonant) photoemission, x-ray;absorption, and optical conductivity. The experimental results were;interpreted using an extended cluster model, which takes into account;electron correlation and the Ru 4d-O 2p covalence. The analysis shows;that this material is in the negative charge transfer regime, where the;ground state is dominated by the 4d(5) (L) under bar configuration with;an occupation of 47%. This is mainly due to the relatively large crystal;field and exchange splitting in the Ru 4d states. The electronic;structure of SrRuO3 is strongly influenced by the Ru 4d-O 2p;hybridization. Thus, the oxygen states should be explicitly considered;in the analysis of the physical properties of this system. However,;correlation effects are also important in this system giving rise to the;coherent peak in the valence band spectra. DOI:;10.1103/PhysRevB.86.235127;Mossanek, Rodrigo /E-8113-2010;1;0;0;0;1;1098-0121;WOS:000312365200007;;;J;Gull, E.;Millis, A. J.;Energetics of superconductivity in the two-dimensional Hubbard model;PHYSICAL REVIEW B;86;24;241106;10.1103/PhysRevB.86.241106;DEC 17 2012;2012;The energetics of the interplay between superconductivity and the;pseudogap in high-temperature superconductivity is examined using the;eight-site dynamical cluster approximation to the two-dimensional;Hubbard model. Two regimes of superconductivity are found: a;weak-coupling/large-doping regime in which the onset of;superconductivity causes a reduction in potential energy and an increase;in kinetic energy, and a strong-coupling regime in which;superconductivity is associated with an increase in potential energy and;a decrease in kinetic energy. The crossover between the two regimes is;found to coincide with the boundary of the normal-state pseudogap,;providing further evidence of the unconventional nature of;superconductivity in the pseudogap regime. However, the absence, in the;strongly correlated but nonsuperconducting state, of discernibly;nonlinear response to an applied pairing field suggests that resonating;valence bond physics is not the origin of the kinetic-energy driven;superconductivity. DOI: 10.1103/PhysRevB.86.241106;Gull, Emanuel/A-2362-2010;Gull, Emanuel/0000-0002-6082-1260;10;1;0;0;10;1098-0121;WOS:000312365800001;;;J;Hiltscher, Bastian;Governale, Michele;Koenig, Juergen;ac Josephson transport through interacting quantum dots;PHYSICAL REVIEW B;86;23;235427;10.1103/PhysRevB.86.235427;DEC 17 2012;2012;We investigate the ac Josephson current through a quantum dot with;strong Coulomb interaction attached to two superconducting and one;normal lead. To this end, we perform a perturbation expansion in the;tunneling couplings within a diagrammatic real-time technique. The ac;Josephson current is connected to the reduced density matrix elements;that describe superconducting correlations induced on the quantum dot;via proximity effect. We analyze the dependence of the ac signal on the;level position of the quantum dot, the charging energy, and the applied;bias voltages. DOI: 10.1103/PhysRevB.86.235427;2;0;0;0;2;1098-0121;WOS:000312365200010;;;J;Kambe, Takashi;He, Xuexia;Takahashi, Yosuke;Yamanari, Yusuke;Teranishi, Kazuya;Mitamura, Hiroki;Shibasaki, Seiji;Tomita, Keitaro;Eguchi, Ritsuko;Goto, Hidenori;Takabayashi, Yasuhiro;Kato, Takashi;Fujiwara, Akihiko;Kariyado, Toshikaze;Aoki, Hideo;Kubozono, Yoshihiro;Synthesis and physical properties of metal-doped picene solids;PHYSICAL REVIEW B;86;21;214507;10.1103/PhysRevB.86.214507;DEC 17 2012;2012;We report electronic-structure and physical properties of metal-doped;picene as well as selective synthesis of the phase that exhibits 18-K;superconducting transition. First, Raman scattering is used to;characterize the number of electrons transferred from the dopants to;picene molecules, where a softening of Raman scattering peaks enables us;to determine the number of transferred electrons. From this, we have;identified that three electrons are transferred to each picene molecule;in the superconducting doped picene solids. Second, we report pressure;dependence of T-c in 7- and 18-K phases of K(3)picene. The 7-K phase;shows a negative pressure dependence, while the 18-K phase exhibits a;positive pressure dependence which can not be understood with a simple;phonon mechanism of BCS superconductivity. Third, we report a synthesis;method for superconducting K(3)picene by a solution process with;monomethylamine CH3NH2. This method enables us to prepare selectively;the K(3)picene sample exhibiting 18-K superconducting transition. The;method for preparing K(3)picene with T-c = 18 K found here may;facilitate clarification of the mechanism of superconductivity.;Takabayashi, Yasuhiro/A-5014-2013; EGUCHI, Ritsuko/H-4129-2011; Aoki, Hideo/A-2525-2009; KUBOZONO, Yoshihiro/B-2091-2011; KAMBE, Takashi/B-2117-2011;Takabayashi, Yasuhiro/0000-0002-3493-2194; Aoki,;Hideo/0000-0002-7332-9355;;14;0;0;0;14;1098-0121;WOS:000312364200006;;;J;Kandpal, Hem C.;Koepernik, Klaus;Richter, Manuel;Strong magnetic anisotropy of chemically bound Co dimers in a graphene;sheet;PHYSICAL REVIEW B;86;23;235430;10.1103/PhysRevB.86.235430;DEC 17 2012;2012;The magnetism of cobalt atoms and dimers bound by single vacancies in a;graphene sheet is investigated by means of relativistic density;functional calculations. In both cases, local magnetic moments are;formed despite strong chemical binding. While orbital magnetism is;suppressed in the Co atoms, magnetic bistability with an anisotropy;barrier of about 50 meV is possible in the chemically bound Co dimers.;The feasibility of their preparation is demonstrated and a general;construction principle for similar (sub-)nanometer size magnets is;proposed. DOI: 10.1103/PhysRevB.86.235430;3;0;0;0;3;1098-0121;WOS:000312365200013;;;J;Kawai, Shigeki;Glatzel, Thilo;Such, Bartosz;Koch, Sascha;Baratoff, Alexis;Meyer, Ernst;Energy dissipation in dynamic force microscopy on KBr(001) correlated;with atomic-scale adhesion phenomena;PHYSICAL REVIEW B;86;24;245419;10.1103/PhysRevB.86.245419;DEC 17 2012;2012;Atomic-scale adhesion phenomena between KBr tip and sample were studied;by dynamic force spectroscopy with a small amplitude of down to 285 pm;at room temperature. The high-resonance frequency of the second flexural;mode of a silicon cantilever (approximate to 1 MHz) suppresses an;apparent dissipation energy caused by undesirable mechanical couplings;in between the cantilever and the dither piezo actuator. Further, the;Joule heating dissipation contribution and the noise-equivalent;dissipation energy were reduced by setting a smaller amplitude. Usage of;a high resonance frequency and a smaller amplitude enables us to perform;highly sensitive measurements of the atomic-scale adhesion and the;tip-instability-related energy dissipation. Tip changes, caused by;tip-sample interactions and thermal energy, resulted in three different;dissipation energy levels (Delta E-ts approximate to 25 meV/cycle). This;infrequent change of the tip apex condition often prevents a stable;imaging with small amplitude. Our systematic measurement shows that the;atomic adhesion is caused mainly in the tip itself, and a sharper and;softer tip induced a larger energy dissipation. DOI:;10.1103/PhysRevB.86.245419;Glatzel, Thilo/F-2639-2011; Kawai, Shigeki/C-8517-2012;2;0;0;0;2;1098-0121;WOS:000312365800014;;;J;Kim, Younghyun;Cano, Jennifer;Nayak, Chetan;Majorana zero modes in semiconductor nanowires in contact with;higher-T-c superconductors;PHYSICAL REVIEW B;86;23;235429;10.1103/PhysRevB.86.235429;DEC 17 2012;2012;We analyze the prospects for stabilizing Majorana zero modes in;semiconductor nanowires that are proximity coupled to higher-temperature;superconductors. We begin with the case of iron pnictides which, though;they are s-wave superconductors, are believed to have superconducting;gaps that change sign. We then consider the case of cuprate;superconductors. We show that a nanowire on a steplike surface,;especially in an orthorhombic material such as YBCO, can support;Majorana zero modes at an elevated temperature. DOI:;10.1103/PhysRevB.86.235429;1;0;0;0;1;1098-0121;WOS:000312365200012;;;J;Kovylina, Miroslavna;Morales, Rafael;Labarta, Amilcar;Batlle, Xavier;Magnetization reversal in Ni/FeF2 heterostructures with the coexistence;of positive and negative exchange bias;PHYSICAL REVIEW B;86;22;224414;10.1103/PhysRevB.86.224414;DEC 17 2012;2012;Magnetization reversal mechanisms are studied in Ni/FeF2;heterostructures with the coexistence of positive and negative exchanged;bias (PEB/NEB), showing single and double hysteresis loops (DHL) in;magnetoresistance measurements. Micromagnetic simulations show that PEB;and NEB domains of a minimum critical size must be introduced in order;to reproduce the occurrence of DHLs. The simulations reveal that;different magnetic configurations and, hence, different magnetization;reversal processes take place in a ferromagnet (FM) on top of minority;PEB domains that are either greater or smaller than the critical size.;In particular, for the case of DHLs, core reversal of a depthwise domain;wall is observed over minority PEB domains when the magnetic field is;decreased from positive saturation. As the field is further decreased, a;complex domain-wall evolution takes place in the FM, including the;dependences of the domain-wall width and domain size on the magnetic;field and distance from the antiferromagnet (AF). These effects should;be taken into account when the domain size is estimated from data;measured by depth-dependent techniques since they average the;distribution of domain sizes in the FM for different distances from the;AF. DOI: 10.1103/PhysRevB.86.224414;Labarta, Amilcar/B-4539-2012; Batlle, Xavier/H-5795-2012;Labarta, Amilcar/0000-0003-0904-4678;;2;0;0;0;2;1098-0121;WOS:000312364700004;;;J;Kuga, Kentaro;Morrison, Gregory;Treadwell, LaRico;Chan, Julia Y.;Nakatsuji, Satoru;Magnetic order induced by Fe substitution of Al site in the;heavy-fermion systems alpha-YbAlB4 and beta-YbAlB4;PHYSICAL REVIEW B;86;22;224413;10.1103/PhysRevB.86.224413;DEC 17 2012;2012;beta-YbAlB4 is a heavy-fermion superconductor that exhibits a quantum;criticality without tuning at zero field and under ambient pressure. We;have succeeded in substituting Fe for Al in beta-YbAlB4 as well as the;polymorphous compound alpha-YbAlB4, which in contrast has a heavy;Fermi-liquid ground state. Full structure determination by;single-crystal x-ray diffraction confirmed no change in crystal;structure for both alpha- and beta-YbAlB4, in addition to volume;contraction with Fe substitution. Our measurements of the magnetization;and specific heat indicate that both alpha-YbAl0.93Fe0.07B4 and;beta-YbAl0.94Fe0.06B4 exhibit a magnetic order, most likely of a canted;antiferromagnetic type, at 7 similar to 9 K. The increase in the entropy;as well as the decrease in the antiferromagnetic Weiss temperature with;the Fe substitution in both systems indicates that the chemical pressure;due to the Fe substitution suppresses the Kondo temperature and induces;the magnetism. DOI: 10.1103/PhysRevB.86.224413;Chan, Julia/C-5392-2008;2;0;0;0;2;1098-0121;WOS:000312364700003;;;J;Lee, Yu-Wen;Lee, Yu-Li;Chung, Chung-Hou;Nonequilibrium noise correlations in a point contact of helical edge;states;PHYSICAL REVIEW B;86;23;235121;10.1103/PhysRevB.86.235121;DEC 17 2012;2012;We investigate theoretically the nonequilibrium finite-frequency current;noise in a four-terminal quantum point contact of interacting helical;edge states at a finite bias voltage. Special focus is put on the;effects of the single-particle and two-particle scattering between the;two helical edge states on the fractional charge quasiparticle;excitations shown in the nonequilibrium current noise spectra. Via the;Keldysh perturbative approach, we find that the effects of the;single-particle and the two-particle scattering processes on the current;noise depend sensitively on the Luttinger liquid parameter. Moreover,;the Fano factors for the auto-and cross correlations of the currents in;the terminals are distinct from the ones for tunneling between the;chiral edge states in the quantum Hall liquid. The current noise spectra;in the single-particle-scattering-dominated and the;two-particle-scattering-dominated regime are shown. Experimental;implications of our results on the transport through the helical edges;in two-dimensional topological insulators are discussed. DOI:;10.1103/PhysRevB.86.235121;6;0;0;0;6;1098-0121;WOS:000312365200001;;;J;Leppert, L.;Albuquerque, R. Q.;Kuemmel, S.;Gold-platinum alloys and Vegard's law on the nanoscale;PHYSICAL REVIEW B;86;24;241403;10.1103/PhysRevB.86.241403;DEC 17 2012;2012;The structure of gold-platinum nanoparticles is heavily debated as;theoretical calculations predict core-shell particles, whereas x-ray;diffraction experiments frequently detect randomly mixed alloys. By;calculating the structure of gold-platinum nanoparticles with diameters;of up to approximate to 3.5 nm and simulating their x-ray diffraction;patterns, we show that these seemingly opposing findings need not be in;contradiction: Shells of gold are hardly visible in usual x-ray;scattering, and the interpretation of Vegard's law is ambiguous on the;nanoscale. DOI: 10.1103/PhysRevB.86.241403;Albuquerque, Rodrigo/A-8433-2013; Kummel, Stephan/K-5634-2014;4;0;0;0;4;1098-0121;WOS:000312365800004;;;J;Lin, Chien-Hung;Sau, Jay D.;Das Sarma, S.;Zero-bias conductance peak in Majorana wires made of;semiconductor/superconductor hybrid structures;PHYSICAL REVIEW B;86;22;224511;10.1103/PhysRevB.86.224511;DEC 17 2012;2012;Motivated by a recent experimental report Mourik et al. [Science 336,;1003 (2012)] claiming the likely observation of the Majorana mode in a;semiconductor-superconductor hybrid structure, we study theoretically;the dependence of the zero-bias conductance peak associated with the;zero-energy Majorana mode in the topological superconducting phase as a;function of temperature, tunnel barrier potential, and a magnetic field;tilted from the direction of the wire for realistic wires of finite;lengths. We find that higher temperatures and tunnel barriers as well as;a large magnetic field in the direction transverse to the wire length;could very strongly suppress the zero- bias conductance peak as observed;in recent experiments. We also show that a strong magnetic field along;the wire could eventually lead to the splitting of the zero bias peak;into a doublet with the doublet energy splitting oscillating as a;function of increasing magnetic field. Our results based on the standard;theory of topological superconductivity in a semiconductor hybrid;structure in the presence of proximity-induced superconductivity,;spin-orbit coupling, and Zeeman splitting show that the recently;reported experimental data are generally consistent with the existing;theory that led to the predictions for the existence of the Majorana;modes in the semiconductor hybrid structures in spite of some apparent;anomalies in the experimental observations at first sight. We also make;a prediction for the future observation of Majorana splitting in finite;wires used in the experiments. DOI: 10.1103/PhysRevB. 86.224511;Das Sarma, Sankar/B-2400-2009;22;0;1;0;22;1098-0121;WOS:000312364700008;;;J;Marchal, R.;Boyko, O.;Bonello, B.;Zhao, J.;Belliard, L.;Oudich, M.;Pennec, Y.;Djafari-Rouhani, B.;Dynamics of confined cavity modes in a phononic crystal slab;investigated by in situ time-resolved experiments;PHYSICAL REVIEW B;86;22;224302;10.1103/PhysRevB.86.224302;DEC 17 2012;2012;The confinement of elastic waves within a single defect in a phononic;crystal slab is investigated both experimentally and theoretically. The;structure is formed by a honeycomb lattice of air holes in a silicon;plate with one hole missing in its center. The frequencies and;polarizations of the localized modes in the first band gap are computed;with a finite element method. A noncontact laser ultrasonic technique is;used both to excite flexural Lamb waves and to monitor in situ the;displacement field within the cavity. We report on the time evolution of;confinement, which is distinct according to the symmetry of the;eigenmode. DOI: 10.1103/PhysRevB.86.224302;3;0;0;0;3;1098-0121;WOS:000312364700002;;;J;Martinez, Enrique;Senninger, Oriane;Fu, Chu-Chun;Soisson, Frederic;Decomposition kinetics of Fe-Cr solid solutions during thermal aging;PHYSICAL REVIEW B;86;22;224109;10.1103/PhysRevB.86.224109;DEC 17 2012;2012;The decomposition of Fe-Cr solid solutions during thermal aging is;modeled by atomistic kinetic Monte Carlo simulations, using a rigid;lattice approximation with pair interactions that depend on the local;composition and temperature. The pair interactions are fitted on ab;initio calculations of mixing energies and vacancy migration barriers at;0 K. The entropic contributions to the mixing of Fe-Cr alloys and to the;vacancy formation and migration free energies are taken into account.;The model reproduces the change in sign of the mixing energy with the;alloy composition and gives realistic thermodynamic and kinetic;properties, including an asymmetrical miscibility gap at low temperature;and diffusion coefficients in good agreement with available experimental;data. Simulations of short-range ordering and alpha-alpha' decomposition;are performed at 773 and 813 K for Cr concentrations between 10% and;50%. They are compared with experimental kinetics based on;three-dimensional atom probe and neutron scattering measurements. The;possible effect of magnetic properties on diffusion in the alpha and;alpha' phases, and therefore on the decomposition kinetics, is;emphasized. DOI: 10.1103/PhysRevB.86.224109;soisson, frederic/B-2917-2009; Lujan Center, LANL/G-4896-2012;soisson, frederic/0000-0001-6435-6119;;6;0;0;0;6;1098-0121;WOS:000312364700001;;;J;Moon, Eun-Gook;Xu, Cenke;Exotic continuous quantum phase transition between Z(2) topological spin;liquid and Neel order;PHYSICAL REVIEW B;86;21;214414;10.1103/PhysRevB.86.214414;DEC 17 2012;2012;Recent numerical simulations with different techniques have all;suggested the existence of a continuous quantum phase transition between;the Z(2) topological spin-liquid phase and a conventional Neel order.;Motivated by this numerical progress, we propose a candidate theory for;such Z(2)-Neel transition. We first argue on general grounds that, for a;SU(2)-invariant system, this transition can not be interpreted as the;condensation of spinons in the Z(2) spin-liquid phase. Then, we propose;that such Z(2)-Neel transition is driven by proliferating the bound;state of the bosonic spinon and vison excitation of the Z(2) spin;liquid, i.e., the so-called (e, m)-type excitation. Universal critical;exponents associated with this exotic transition are computed using 1/N;expansion. This theory predicts that at the Z(2)-Neel transition, there;is an emergent quasi-long-range power-law correlation of columnar;valence bond solid order parameter.;6;0;0;0;6;1098-0121;WOS:000312364200003;;;J;Moskvin, A. S.;Gippius, A. A.;Tkachev, A. V.;Mahajan, A. V.;Chakrabarty, T.;Presniakov, I. A.;Sobolev, A. V.;Demazeau, G.;Direct evidence of non-Zhang-Rice Cu3+ centers in La2Li0.5Cu0.5O4;PHYSICAL REVIEW B;86;24;241107;10.1103/PhysRevB.86.241107;DEC 17 2012;2012;A well-isolated Zhang-Rice (ZR) singlet as a ground state of the Cu3+;center in hole-doped cuprates is a leading paradigm in modern theories;of high-temperature superconductivity. However, a dramatic temperature;evolution of the Li-6,Li-7 NMR signal in La2Li0.5Cu0.5O4, a system with;a regular lattice of well-isolated Cu3+ centers, reveals significant;magnetic fluctuations and suggests a quasidegeneracy to be a generic;property of their ground state at variance with the simple ZR model. We;argue for a competition of the ZR state with nearby states formed by a;"doped" hole occupying purely oxygen nonbonding a(2g)(pi) and e(u)(pi);orbitals rather than a conventional b(1g)(d(x2-y2))Cu 3d-O 2p hybrid.;The temperature variation of the Li-6,Li-7 NMR line shape and;spin-lattice relaxation rate point to a gradual slowing down of some;magnetic order parameter's fluctuations without distinct signatures of a;phase transition down to T = 2 K. This behavior agrees with a stripelike;ferrodistortive fluctuating Ammm order in a two-dimensional structure of;the (CuLi)O-2 planes accompanied by unconventional oxygen orbital;antiferromagnetic fluctuations. DOI: 10.1103/PhysRevB.86.241107;Gippius, Andrey/D-1139-2010; Sobolev, Alexey/C-3832-2009;Sobolev, Alexey/0000-0002-8085-5425;0;0;0;0;0;1098-0121;WOS:000312365800002;;;J;Nguyen, P. D.;Kepaptsoglou, D. M.;Erni, R.;Ramasse, Q. M.;Olsen, A.;Quantum confinement of volume plasmons and interband transitions in;germanium nanocrystals;PHYSICAL REVIEW B;86;24;245316;10.1103/PhysRevB.86.245316;DEC 17 2012;2012;The plasmonic properties of individual quantum-sized Ge nanocrystals;(NCs) were observed and systematically analyzed by aberration-corrected;scanning transmission electron microscopy (STEM) and electron energy;loss spectroscopy (EELS). For this purpose, Ge NCs embedded in an SiO2;matrix with controllable size, density, and structure were fabricated;using magnetron sputtering. The size dependence of the Ge plasmon;energies in the size range of 5-9 nm is shown to be well depicted by the;so-called medium quantum confinement (QC) model, with an effective mass;of 0.57m(0) (contrary to expectations of a stronger quantum effect). In;the very low-loss region of the EEL spectra, an apparent blue shift of;the E-2 interband transition peak up to 2 eV and a strong reduction in;the oscillator strength were measured for the NCs in the size range of;4-6 nm. It indicates for this smaller size range a transition to a QC;regime where the band structure and the density of states are modified;dramatically. These trends are explained by a combination of low-loss;and core-loss EELS results, which show that the Ge NCs are surrounded;uniformly by nearly stoichiometric SiO2. This local chemistry is shown;to provide an infinite potential barrier and to confine electrons and;holes in the spherically shaped Ge NCs. In addition to pure QC effects;in the Ge NCs, the SiO2 matrix thus plays an important role in the;strength of the observed QC and interband transitions. DOI:;10.1103/PhysRevB.86.245316;2;0;0;0;2;1098-0121;WOS:000312365800010;;;J;Roedl, Claudia;Bechstedt, Friedhelm;Optical and energy-loss spectra of the antiferromagnetic transition;metal oxides MnO, FeO, CoO, and NiO including quasiparticle and;excitonic effects;PHYSICAL REVIEW B;86;23;235122;10.1103/PhysRevB.86.235122;DEC 17 2012;2012;We calculate the frequency-dependent dielectric function for the series;of antiferromagnetic transition metal oxides (TMOs) from MnO to NiO;using many-body perturbation theory. Quasiparticle, excitonic, and;local-field effects are taken into account by solving the Bethe-Salpeter;equation in the framework of collinear spin polarization. The optical;spectra are based on electronic structures which have been obtained;using density-functional theory with a hybrid functional containing;screened exchange (HSE03) and a subsequent quasiparticle calculation in;the GW approximation to describe exchange and correlation effects;adequately. These sophisticated quasiparticle band structures are mapped;to electronic structures resulting from the computationally less;expensive GGA + U + Delta scheme that includes an on-site interaction U;and a scissors shift Delta and allows us to calculate the large number;of electronic states that is necessary to construct the Bethe-Salpeter;Hamiltonian. For an accurate description of the optical spectra, an;appropriate treatment of the strong electron-hole attraction is;mandatory to obtain agreement with the experimentally observed;absorption-peak positions. The itinerant s and p states as well as the;localized transition metal 3d states have to be considered on an equal;footing. We find that a purely atomic picture is not suitable to;understand the optical absorption spectra of the TMOs. Reflectivity;spectra, absorption coefficients, and loss functions at vanishing;momentum transfer are computed in a wide spectral range and discussed in;light of the available experimental data. DOI:;10.1103/PhysRevB.86.235122;8;1;0;0;8;1098-0121;WOS:000312365200002;;;J;Schlickeiser, F.;Atxitia, U.;Wienholdt, S.;Hinzke, D.;Chubykalo-Fesenko, O.;Nowak, U.;Temperature dependence of the frequencies and effective damping;parameters of ferrimagnetic resonance;PHYSICAL REVIEW B;86;21;214416;10.1103/PhysRevB.86.214416;DEC 17 2012;2012;Recent experiments on all-optical switching in GdFeCo and CoGd have;raised the question about the importance of the angular momentum or the;magnetization compensation point for ultrafast magnetization dynamics.;We investigate the dynamics of ferrimagnets by means of computer;simulations as well as analytically. The results from atomistic modeling;are explained by a theory based on the two-sublattice;Landau-Lifshitz-Bloch equation. Similarly to the experimental results;and unlike predictions based on the macroscopic Landau-Lifshitz;equation, we find an increase in the effective damping at temperatures;approaching the Curie temperature. Further results for the temperature;dependence of the frequencies and effective damping parameters of the;normal modes represent an improvement of former approximated solutions,;building a better basis for comparison to recent experiments.;Atxitia, Unai/A-8870-2010;4;0;0;0;4;1098-0121;WOS:000312364200005;;;J;Smith, R. F.;Minich, R. W.;Rudd, R. E.;Eggert, J. H.;Bolme, C. A.;Brygoo, S. L.;Jones, A. M.;Collins, G. W.;Orientation and rate dependence in high strain-rate compression of;single-crystal silicon;PHYSICAL REVIEW B;86;24;245204;10.1103/PhysRevB.86.245204;DEC 17 2012;2012;High strain-rate ((epsilon)over dot similar to 10(6)-10(9) s(-1));compression of single crystal Si reveals strong orientation- and;rate-dependent precursor stresses. At these high compression rates, the;peak elastic stress, sigma(E_Peak), for Si [100], [110], and [111];exceeds twice the Hugoniot elastic limit. Near the loading surface, the;rate at which Si evolves from uniaxial compression to a;three-dimensional relaxed state is exponentially dependent on;sigma(E_Peak) and independent of initial crystal orientation. At later;times, the high elastic wave speed results in a temporal decoupling of;the elastic precursor from the main inelastic wave. A rapid;high-(epsilon)over dot increase in the measured elastic stress at the;onset of inelastic deformation is consistent with a transition from;dislocation flow mediated by thermal activation to a phonon drag regime.;DOI: 10.1103/PhysRevB.86.245204;3;0;0;0;3;1098-0121;WOS:000312365800006;;;J;Svensson, S. P.;Sarney, W. L.;Hier, H.;Lin, Y.;Wang, D.;Donetsky, D.;Shterengas, L.;Kipshidze, G.;Belenky, G.;Band gap of InAs1-xSbx with native lattice constant;PHYSICAL REVIEW B;86;24;245205;10.1103/PhysRevB.86.245205;DEC 17 2012;2012;The band gap energy of the alloy InAsSb has been studied as a function;of composition with special emphasis on minimization of strain-induced;artifacts. The films were grown by molecular beam epitaxy on GaSb;substrates with compositionally graded buffer layers that were designed;to produce strain-free films. The compositions were precisely determined;by high-resolution x-ray diffraction. Evidence for weak, long-range,;group-V ordering was detected in materials exhibiting residual strain;and relaxation. In contrast, unstrained films having the nondistorted;cubic form showed no evidence of group-V ordering. The photoluminescence;(PL) peak positions therefore corresponds to the inherent band gap of;unstrained, unrelaxed, InAsSb. PL peaks were recorded for compositions;up to 46% Sb, reaching a peak wavelength of 10.3 mu m, observed under;low excitation at T = 13 K. The alloy band gap energies determined from;PL maxima are described with a bowing parameter of 0.87 eV, which is;significantly larger than measured for InAsSb in earlier work. The;sufficiently large bowing parameter and the ability to grow the alloys;without ordering allows direct band gap InAsSb to be a candidate;material for low-temperature long-wavelength infrared detector;applications. DOI: 10.1103/PhysRevB.86.245205;8;0;0;0;8;1098-0121;WOS:000312365800007;;;J;Thirupathaiah, S.;Evtushinsky, D. V.;Maletz, J.;Zabolotnyy, V. B.;Kordyuk, A. A.;Kim, T. K.;Wurmehl, S.;Roslova, M.;Morozov, I.;Buechner, B.;Borisenko, S. V.;Weak-coupling superconductivity in electron-doped NaFe0.95Co0.05As;revealed by ARPES;PHYSICAL REVIEW B;86;21;214508;10.1103/PhysRevB.86.214508;DEC 17 2012;2012;We report a systematic study on the electronic structure and;superconducting (SC) gaps in electron-doped NaFe0.95Co0.05As;superconductor using angle-resolved photoemission spectroscopy. Holelike;Fermi sheets are at the zone center and electronlike Fermi sheets are at;the zone corner, and are mainly contributed by xz and yz orbital;characters. Our results reveal a Delta/KBTc in the range of 1.8-2.1,;suggesting a weak-coupling superconductivity in these compounds. Gap;closing above the transition temperature (T-c) shows the absence of;pseudogaps. Gap evolution with temperature follows the BCS gap equation;near the Gamma, Z, and M high symmetry points. Furthermore, an almost;isotropic superconductivity along the k(z) direction in the momentum;space is observed by varying the excitation energies.;Wurmehl, Sabine/A-5872-2009; Morozov, Igor/C-4329-2011; Borisenko, Sergey/G-6743-2012; Roslova, Maria/F-7352-2013;Borisenko, Sergey/0000-0002-5046-4829;;6;0;0;0;6;1098-0121;WOS:000312364200007;;;J;Tsuda, Kenji;Sano, Rikiya;Tanaka, Michiyoshi;Nanoscale local structures of rhombohedral symmetry in the orthorhombic;and tetragonal phases of BaTiO3 studied by convergent-beam electron;diffraction;PHYSICAL REVIEW B;86;21;214106;10.1103/PhysRevB.86.214106;DEC 17 2012;2012;The symmetries of the rhombohedral, orthorhombic, and tetragonal phases;of barium titanate (BaTiO3) are investigated using convergent-beam;electron diffraction. Nanometer-sized local structures with rhombohedral;symmetry are observed in both the orthorhombic and tetragonal phases.;This indicates that an order-disorder character exists in phase;transformations of BaTiO3. The nanostructures in these phases are;discussed in terms of an order-disorder model with off-centered Ti in;the < 111 > directions.;6;0;0;0;6;1098-0121;WOS:000312364200001;;;J;Ulstrup, Soren;Frederiksen, Thomas;Brandbyge, Mads;Nonequilibrium electron-vibration coupling and conductance fluctuations;in a C-60 junction;PHYSICAL REVIEW B;86;24;245417;10.1103/PhysRevB.86.245417;DEC 17 2012;2012;We investigate chemical bond formation and conductance in a molecular;C-60 junction under finite bias voltage using first-principles;calculations based on density functional theory and nonequilibrium;Green's functions (DFT-NEGF). At the point of contact formation we;identify a remarkably strong coupling between the C-60 motion and the;molecular electronic structure. This is only seen for positive sample;bias, although the conductance itself is not strongly polarity;dependent. The nonequilibrium effect is traced back to a sudden shift in;the position of the voltage drop with a small C-60 displacement.;Combined with a vibrational heating mechanism we construct a model from;our results that explain the polarity-dependent two-level conductance;fluctuations observed in recent scanning tunneling microscopy (STM);experiments [N. Neel et al., Nano Lett. 11, 3593 (2011)]. These findings;highlight the significance of nonequilibrium effects in chemical bond;formation/breaking and in electron-vibration coupling in molecular;electronics. DOI: 10.1103/PhysRevB.86.245417;Frederiksen, Thomas/D-3545-2011; Brandbyge, Mads/C-6095-2008; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Frederiksen, Thomas/0000-0001-7523-7641;;4;0;0;0;4;1098-0121;WOS:000312365800012;;;J;Urdaniz, M. C.;Barral, M. A.;Llois, A. M.;Magnetic exchange coupling in 3d-transition-metal atomic chains adsorbed;on Cu2N/Cu(001);PHYSICAL REVIEW B;86;24;245416;10.1103/PhysRevB.86.245416;DEC 17 2012;2012;Covalent substrates can give rise to a variety of magnetic interaction;mechanisms among adsorbed transition-metal atoms building atomic;nanostructures. We show this by calculating the ground state magnetic;configuration of monoatomic 3d chains deposited on a monolayer of Cu2N;grown on Cu(001) as a function of d filling and of adsorption sites of;these nanostructures. DOI: 10.1103/PhysRevB.86.245416;1;0;0;0;1;1098-0121;WOS:000312365800011;;;J;Vaz, Eduardo;Kyriakidis, Jordan;Resonant regimes in the Fock-space coherence of multilevel quantum dots;PHYSICAL REVIEW B;86;23;235310;10.1103/PhysRevB.86.235310;DEC 17 2012;2012;The coherence between quantum states with different particle numbers-the;Fock-space coherence-qualitatively differs from the more common;Hilbert-space coherence between states with equal particle numbers. For;a quantum dot with multiple channels available for transport, we find;the conditions for decoupling the dynamics of the Fock-space coherence;from both the Hilbert-space coherence as well as the population;dynamics. We further find specific energy and coupling regimes where a;long-lived resonance in the Fock-space coherence of the system is;realized, even where no resonances are found either in the populations;or Hilbert-space coherence. Numerical calculations show this resonance;remains robust in the presence of both boson-mediated relaxation and;transport through the quantum dot. DOI: 10.1103/PhysRevB.86.235310;1;0;0;0;1;1098-0121;WOS:000312365200009;;;J;Ward, D. K.;Zhou, X. W.;Wong, B. M.;Doty, F. P.;Zimmerman, J. A.;Analytical bond-order potential for the Cd-Zn-Te ternary system;PHYSICAL REVIEW B;86;24;245203;10.1103/PhysRevB.86.245203;DEC 17 2012;2012;Cd-Zn-Te ternary alloyed semiconductor compounds are key materials in;radiation detection and photovoltaic applications. Currently,;crystalline defects such as dislocations limit the performance of these;materials. Atomistic simulations are a powerful method for exploring;crystalline defects at a resolution unattainable by experimental;techniques. To enable accurate atomistic simulations of defects in the;Cd-Zn-Te systems, we develop a full Cd-Zn-Te ternary bond-order;potential. This Cd-Zn-Te potential has numerous unique advantages over;other potential formulations: (1) It is analytically derived from;quantum mechanical theories and is therefore more likely to be;transferable to environments that are not explicitly tested. (2) A;variety of elemental and compound configurations (with coordination;varying from 1 to 12) including small clusters, bulk lattices, defects,;and surfaces are explicitly considered during parameterization. As a;result, the potential captures structural and property trends close to;those seen in experiments and quantum mechanical calculations and;provides a good description of melting temperature, defect;characteristics, and surface reconstructions. (3) Most importantly, this;potential is validated to correctly predict the crystalline growth of;the ground-state structures for Cd, Zn, Te elements as well as CdTe,;ZnTe, and Cd1-xZnxTe compounds during highly challenging molecular;dynamics vapor deposition simulations. DOI: 10.1103/PhysRevB.86.245203;Wong, Bryan/B-1663-2009;Wong, Bryan/0000-0002-3477-8043;7;0;0;0;7;1098-0121;WOS:000312365800005;;;J;Williams, M. E.;Sims, H.;Mazumdar, D.;Butler, W. H.;Effects of 3d and 4d transition metal substitutional impurities on the;electronic properties of CrO2;PHYSICAL REVIEW B;86;23;235124;10.1103/PhysRevB.86.235124;DEC 17 2012;2012;We present first-principles-based density functional theory calculations;of the electronic and magnetic structure of CrO2 with 3d and 4d;substitutional impurities. We find that the half-metallicity of CrO2;remains intact for the ground state of all of the calculated;substitutions. We also observe two periodic trends as a function of the;number of valence electrons: if the substituted atom has six or fewer;valence electrons, the number of down spin electrons associated with the;impurity ion is zero, resulting in ferromagnetic alignment of the;impurity magnetic moment with the magnetization of the CrO2 host. For;substituent atoms with eight to ten valence electrons (with the;exception of Ni), the number of down-spin electrons contributed by the;impurity ion remains fixed at three as the number contributed to the;majority increases from one to three resulting in antiferromagnetic;alignment between impurity moment and host magnetization. In impurities;with seven valence electrons, the zero down-spin and threse down-spin;configurations are very close in energy. At 11 valence electrons, the;energy is minimized when the substituent ion contributes five down-spin;electrons. The moments on the 4d impurities, particularly Nb and Mo,;tend to be delocalized compared with those of the 3ds. DOI:;10.1103/PhysRevB.86.235124;0;0;0;0;0;1098-0121;WOS:000312365200004;;;J;Yan, Xin-Zhong;Ting, C. S.;Possible broken inversion and time-reversal symmetry state of electrons;in bilayer graphene;PHYSICAL REVIEW B;86;23;235126;10.1103/PhysRevB.86.235126;DEC 17 2012;2012;With the two-band continuum model, we study the broken inversion and;time-reversal symmetry state of electrons with finite-range repulsive;interactions in bilayer graphene. In the state, there are overlapped;loop currents in each layer. With the analytical solution to the;mean-field Hamiltonian, we obtain the electronic spectra. The ground;state is gapped. In the presence of the magnetic field B, the energy gap;grows with increasing B, in excellent agreement with the experimental;observation. Such an energy-gap behavior originates from the;disappearance of a Landau level of n = 0 and 1 states. The present;result resolves explicitly the puzzle of the gap dependence of B. DOI:;10.1103/PhysRevB.86.235126;6;0;0;0;6;1098-0121;WOS:000312365200006;;;J;Yin, Z. P.;Haule, K.;Kotliar, G.;Fractional power-law behavior and its origin in iron-chalcogenide and;ruthenate superconductors: Insights from first-principles calculations;(vol 86, 195141, 2012);PHYSICAL REVIEW B;86;23;239904;10.1103/PhysRevB.86.239904;DEC 17 2012;2012;2;0;0;0;2;1098-0121;WOS:000312365200014;;;J;Zhigadlo, N. D.;Weyeneth, S.;Katrych, S.;Moll, P. J. W.;Rogacki, K.;Bosma, S.;Puzniak, R.;Karpinski, J.;Batlogg, B.;High-pressure flux growth, structural, and superconducting properties of;LnFeAsO (Ln = Pr, Nd, Sm) single crystals;PHYSICAL REVIEW B;86;21;214509;10.1103/PhysRevB.86.214509;DEC 17 2012;2012;Single crystals of the LnFeAsO (Ln1111, Ln = Pr, Nd, and Sm) family with;lateral dimensions up to 1 mm were grown from NaAs and KAs flux at high;pressure. The crystals are of good structural quality and become;superconducting when O is partially substituted by F (PrFeAsO1-xFx and;NdFeAsO1-xFx) or when Fe is substituted by Co (SmFe1-xCoxAsO). From;magnetization measurements, we estimate the temperature dependence and;anisotropy of the upper critical field and the critical current density;of underdoped PrFeAsO0.7F0.3 crystal with T-c approximate to 25 K.;Single crystals of SmFe1-xCoxAsO with maximal T-c up to 16.3 K for x;approximate to 0.08 were grown. From transport and magnetic;measurements, we estimate the critical fields and their anisotropy and;find these superconducting properties to be quite comparable to the ones;in SmFeAsO1-xFx with a much higher T-c approximate to 50 K. The;magnetically measured critical current densities are as high as 10(9);A/m(2) at 2 K up to 7 T, with indication of the usual fishtail effect.;The upper critical field estimated from resistivity measurements is;anisotropic with slopes of similar to - 8.7 T/K (H parallel to ab plane);and similar to - 1.7 T/K (H parallel to c axis). This anisotropy;(similar to 5) is similar to that in other Ln1111 crystals with various;higher T-c's.;Puzniak, Roman/N-1643-2013;Puzniak, Roman/0000-0001-5636-5541;7;0;0;0;7;1098-0121;WOS:000312364200008;;;J;Zhu, Guobao;Yang, Shengyuan A.;Fang, Cheng;Liu, W. M.;Yao, Yugui;Theory of orbital magnetization in disordered systems;PHYSICAL REVIEW B;86;21;214415;10.1103/PhysRevB.86.214415;DEC 17 2012;2012;We present a general formula of the orbital magnetization of disordered;systems based on the Keldysh Green's function theory in the;gauge-covariant Wigner space. In our approach, the gauge invariance of;physical quantities is ensured from the very beginning, and the vertex;corrections are easily included. Our formula applies not only for;insulators but also for metallic systems where the quasiparticle;behavior is usually strongly modified by the disorder scattering. In the;absence of disorders, our formula recovers the previous results obtained;from the semiclassical theory and the perturbation theory. As an;application, we calculate the orbital magnetization of a weakly;disordered two-dimensional electron gas with Rashba spin-orbit coupling.;We find that for the short-range disorder scattering, its major effect;is to the shifting of the distribution of orbital magnetization;corresponding to the quasiparticle energy renormalization.;Yao, Yugui/A-8411-2012; Yang, Shengyuan/L-2848-2014;6;0;1;0;7;1098-0121;WOS:000312364200004;;;J;Zhukov, E. A.;Yugov, O. A.;Yugova, I. A.;Yakovlev, D. R.;Karczewski, G.;Wojtowicz, T.;Kossut, J.;Bayer, M.;Resonant spin amplification of resident electrons in CdTe/(Cd,Mg)Te;quantum wells subject to tilted magnetic fields;PHYSICAL REVIEW B;86;24;245314;10.1103/PhysRevB.86.245314;DEC 17 2012;2012;Electron spin coherence in CdTe/(Cd,Mg)Te quantum wells is studied;experimentally and theoretically in tilted external magnetic fields;generated by a superconducting vector magnet. The long-lived spin;coherence is measured by pump-probe Kerr rotation in the resonant spin;amplification (RSA) regime. The shape of RSA signals is very sensitive;to weak magnetic field components deviating from the Voigt or Faraday;geometries. DOI: 10.1103/PhysRevB.86.245314;Yugova, Irina/F-6823-2011;Yugova, Irina/0000-0003-0020-3679;3;0;0;0;3;1098-0121;WOS:000312365800008;;;J;Adelstein, Nicole;Mun, B. Simon;Ray, Hannah L.;Ross, Philip N., Jr.;Neaton, Jeffrey B.;De Jonghe, Lutgard C.;Structure and electronic properties of cerium orthophosphate: Theory and;experiment (vol 83, 205104, 2011);PHYSICAL REVIEW B;86;23;239903;10.1103/PhysRevB.86.239903;DEC 14 2012;2012;Mun, Bongjin /G-1701-2013;0;0;0;0;0;1098-0121;WOS:000312365100009;;;J;Bagchi, Debarshee;Mohanty, P. K.;Thermally driven classical Heisenberg model in one dimension;PHYSICAL REVIEW B;86;21;214302;10.1103/PhysRevB.86.214302;DEC 14 2012;2012;We study thermal transport in a classical one-dimensional Heisenberg;model employing a discrete-time odd-even precessional update scheme.;This dynamics equilibrates a spin chain for any arbitrary temperature;and finite value of the integration time step Delta t. We rigorously;show that in presence of driving, the system attains local thermal;equilibrium, which is a strict requirement of Fourier law. In the;thermodynamic limit, heat current for such a system obeys Fourier law;for all temperatures, as has been recently shown [A. V. Savin, G. P.;Tsironis, and X. Zotos, Phys. Rev. B 72, 140402(R) (2005)]. Finite;systems, however, show an apparent ballistic transport which crosses;over to a diffusive one as the system size is increased. We provide;exact results for current and energy profiles in zero- and;infinite-temperature limits. DOI: 10.1103/PhysRevB.86.214302;3;0;0;0;3;1098-0121;WOS:000312364100001;;;J;Barasinski, A.;Kamieniarz, G.;Drzewinski, A.;Magnetization-based assessment of correlation energy in canted;single-chain magnets;PHYSICAL REVIEW B;86;21;214412;10.1103/PhysRevB.86.214412;DEC 14 2012;2012;We demonstrate numerically that for the strongly anisotropic;homometallic S = 2 canted single-chain magnet described by the quantum;antiferromagnetic Heisenberg model, the correlation energy and exchange;coupling constant can be directly estimated from the;in-field-magnetization profile found along the properly selected;crystallographic direction. In the parameter space defined by the;spherical angles (phi, theta) determining the axes orientation, four;regions are identified with different sequences of the characteristic;field-dependent magnetization profiles representing the;antiferromagnetic, metamagnetic, and weak ferromagnetic type behavior.;These sequences provide a criterion for the applicability of the;anisotropic quantum Heisenberg model to a given experimental system. Our;analysis shows that the correlation energy decreases linearly with field;and vanishes for a given value H-cr, which defines a special coordinates;in the metamagnetic profile relevant for the zero-field correlation;energy and magnetic coupling. For the single-chain magnet formed by the;strongly anisotropic manganese(III) acetate meso-tetraphenylporphyrin;complexes coupled to the phenylphosphinate ligands, the experimental;metamagnetic-type magnetization curve in the c direction yields an;accurate estimate of the values of correlation energy Delta(xi)/k(B) =;7.93 K and exchange coupling J/k(B) = 1.20 K. DOI:;10.1103/PhysRevB.86.214412;1;0;0;0;1;1098-0121;WOS:000312364100004;;;J;Brinzari, T. V.;Chen, P.;Tung, L. -C.;Kim, Y.;Smirnov, D.;Singleton, J.;Miller, Joel. S.;Musfeldt, J. L.;Magnetoelastic coupling in [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] molecule-based;magnet;PHYSICAL REVIEW B;86;21;214411;10.1103/PhysRevB.86.214411;DEC 14 2012;2012;Infrared and Raman vibrational spectroscopies were employed to explore;the lattice dynamics of [Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] through the;field- and temperature-driven magnetic transitions. The high field work;reveals systematic changes in the C equivalent to N stretching mode and;Cr-containing phonons as the system is driven away from the;antiferromagnetic state. The magnetic intersublattice coalescence;transition at B-c similar or equal to 0.08 T, on the contrary, is purely;magnetic and takes place with no lattice involvement. The variable;temperature spectroscopy affirms overall [Cr(CN)(6)](3-) flexibility;along with stronger intermolecular interactions at low temperature.;Based on a displacement pattern analysis, we discuss the local lattice;distortions in terms of an adaptable chromium environment. These;findings provide deeper understanding of spin-lattice coupling in;[Ru-2(O2CMe)(4)](3)[Cr(CN)(6)] and may be useful in the development of;technologically important molecule-based magnets. DOI:;10.1103/PhysRevB.86.214411;4;2;0;0;4;1098-0121;WOS:000312364100003;;;J;Chan, Tzu-Liang;Capacitance of metallic and semiconducting nanowires examined by;first-principles calculations;PHYSICAL REVIEW B;86;24;245414;10.1103/PhysRevB.86.245414;DEC 14 2012;2012;The capacitance of Al < 110 > and P-doped Si < 110 > nanowires a few;nanometers in diameter are examined by first-principles calculations.;During charging, the metallic nanowire expels the charge to its surface,;and its capacitance stays relatively constant. For the semiconducting;nanowire, depletion of conduction electrons can lead to an increase in;the work function, which results in a drop in the capacitance when;charged beyond a threshold. This study is made possible by developing a;formalism for total energy calculations of charged periodic systems with;a specific electrostatic boundary condition. DOI:;10.1103/PhysRevB.86.245414;1;0;0;0;1;1098-0121;WOS:000312365400006;;;J;Dias, R. G.;del Rio, Lidia;Goltsev, A. V.;Interplay between potential and spin-flip scattering in systems with;depleted density of states;PHYSICAL REVIEW B;86;23;235120;10.1103/PhysRevB.86.235120;DEC 14 2012;2012;We study the behavior of a magnetic impurity in systems with a depleted;density of states by use of the spin-1/2 single-impurity Anderson model;and the equation of motion approach. We calculate the impurity spectral;function and study the role of potential and spin-flip scattering. We;show that in these systems, if the hybridization is larger than a;critical value, a narrow virtual bound resonance emerges. The resonance;peak appears much below the Fermi energy and is dominated by the;contribution of potential scattering of conduction electrons by the;magnetic impurity while spin-flip scattering only gives a nonsingular;temperature-dependent contribution to this peak. These results are in;contrast to behavior of impurities in normal metals where it is;spin-flip scattering that is responsible for the Kondo peak near the;Fermi level while potential scattering gives a nonsignificant;renormalization of the exchange coupling. We also show that the virtual;bound resonance leads to a strong renormalization of the effective;exchange coupling between conduction and impurity spins. The narrow;virtual bound resonance can be observed in graphene with magnetic;impurities where its spectral weight and position is strongly influenced;by the van Hove singularity. DOI: 10.1103/PhysRevB.86.235120;Universidade Aveiro, Departamento Fisica/E-4128-2013; Dias, Ricardo/J-6007-2013;Dias, Ricardo/0000-0002-5128-5531;0;0;0;0;0;1098-0121;WOS:000312365100001;;;J;Ganeshan, Sriram;Abanov, Alexander G.;Averin, Dmitri V.;Fractional quantum Hall interferometers in a strong tunneling regime:;The role of compactness in edge fields;PHYSICAL REVIEW B;86;23;235309;10.1103/PhysRevB.86.235309;DEC 14 2012;2012;We consider multiple-point tunneling in the interferometers formed;between edges of electron liquids with, in general, different filling;factors in the regime of the fractional quantum Hall effect (FQHE). We;derive an effective matrix Caldeira-Leggett model for the multiple;tunneling contacts connecting the chiral single-mode FQHE edges. It is;shown that the compactness of the Wen-Frohlich chiral boson fields;describing the FQHE edge modes plays a crucial role in eliminating the;spurious nonlocality of the electron transport properties of the FQHE;interferometers arising in the regime of strong tunneling. DOI:;10.1103/PhysRevB.86.235309;0;0;0;0;0;1098-0121;WOS:000312365100004;;;J;Giannazzo, F.;Deretzis, I.;La Magna, A.;Roccaforte, F.;Yakimova, R.;Electronic transport at monolayer-bilayer junctions in epitaxial;graphene on SiC;PHYSICAL REVIEW B;86;23;235422;10.1103/PhysRevB.86.235422;DEC 14 2012;2012;Two-dimensional maps of the electronic conductance in epitaxial graphene;grown on SiC were obtained by calibrated conductive atomic force;microscopy. The correlation between morphological and electrical maps;revealed the local conductance degradation in epitaxial graphene over;the SiC substrate steps or at the junction between monolayer (1L) and;bilayer (2L) graphene regions. The effect of steps strongly depends on;the charge transfer phenomena between the step sidewall and graphene,;whereas the resistance increase at the 1L/2L junction is a purely;quantum-mechanical effect independent on the interaction with the;substrate. First-principles transport calculations indicate that the;weak wave-function coupling between the 1L pi/pi* bands with the;respective first bands of the 2L region gives rise to a strong;suppression of the conductance for energies within +/- 0.48 eV from the;Dirac point. Conductance degradation at 1L/2L junctions is therefore a;general issue for large area graphene with a certain fraction of;inhomogeneities in the layer number, including graphene grown by;chemical vapor deposition on metals. DOI: 10.1103/PhysRevB.86.235422;Materials, Semiconductor/I-6323-2013;11;0;0;0;11;1098-0121;WOS:000312365100005;;;J;Hintzsche, L. E.;Fang, C. M.;Watts, T.;Marsman, M.;Jordan, G.;Lamers, M. W. P. E.;Weeber, A. W.;Kresse, G.;Density functional theory study of the structural and electronic;properties of amorphous silicon nitrides: Si3N4-x:H;PHYSICAL REVIEW B;86;23;235204;10.1103/PhysRevB.86.235204;DEC 14 2012;2012;We present ab initio density functional theory studies for;stoichiometric as well as nonstoichiometric amorphous silicon nitride,;varying the stoichiometry between Si3N4.5 and Si3N3. Stoichiometric;amorphous Si3N4 possesses the same local structure as crystalline Si3N4,;with Si being fourfold coordinated and N being threefold coordinated.;Only few Si-Si and N-N bonds and other defects are found in;stoichiometric silicon nitride, and the electronic properties are very;similar to the crystalline bulk. In over-stoichiometric Si3N4+x, the;additional N results in N-N bonds, whereas in under-stoichiometric;Si3N4-x the number of homopolar Si-Si bonds increases with decreasing N;content. Analysis of the structure factor and the local coordination of;the Si atoms indicates a slight tendency towards Si clustering, although;at the investigated stoichiometries, phase separation is not observed.;In the electronic properties, the conduction-band minimum is dominated;by Si states, whereas the valence-band maximum is made up by lone pair N;states. Towards Si rich samples, the character of the valence-band;maximum becomes dominated by Si states corresponding to Si-Si bonding;linear combinations. Adding small amounts of hydrogen, as typically used;in passivating layers of photovoltaic devices, has essentially no impact;on the overall structural and electronic properties. DOI:;10.1103/PhysRevB.86.235204;Fang, Chang Ming/E-9213-2013;3;0;0;0;3;1098-0121;WOS:000312365100002;;;J;Joung, Daeha;Khondaker, Saiful I.;Efros-Shklovskii variable-range hopping in reduced graphene oxide sheets;of varying carbon sp(2) fraction;PHYSICAL REVIEW B;86;23;235423;10.1103/PhysRevB.86.235423;DEC 14 2012;2012;We investigate the low-temperature electron transport properties of;chemically reduced graphene oxide (RGO) sheets with different carbon;sp(2) fractions of 55% to 80%. We show that in the low-bias (Ohmic);regime, the temperature (T) dependent resistance (R) of all the devices;follow Efros-Shklovskii variable range hopping (ES-VRH) R similar to;exp[(T-ES/T)(1/2)] with T-ES decreasing from 3.1 x 10(4) to 0.42 x 10(4);K and electron localization length increasing from 0.46 to 3.21 nm with;increasing sp(2) fraction. From our data, we predict that for the;temperature range used in our study, Mott-VRH may not be observed even;at 100% sp(2) fraction samples due to residual topological defects and;structural disorders. From the localization length, we calculate a;band-gap variation of our RGO from 1.43 to 0.21 eV with increasing sp(2);fraction from 55 to 80%, which agrees remarkably well with theoretical;predictions. We also show that, in the high bias non-Ohmic regime at low;temperature, the hopping is field driven and the data follow R similar;to exp[(E0/E)(1/2)] providing further evidence of ES-VRH. DOI:;10.1103/PhysRevB.86.235423;14;0;0;0;14;1098-0121;WOS:000312365100006;;;J;Kim, Se-Heon;Homyk, Andrew;Walavalkar, Sameer;Scherer, Axel;High-Q impurity photon states bounded by a photonic band pseudogap in an;optically thick photonic crystal slab;PHYSICAL REVIEW B;86;24;245114;10.1103/PhysRevB.86.245114;DEC 14 2012;2012;We show that, taking a two-dimensional photonic crystal slab system as;an example, surprisingly high quality factors (Q) over 10(5) are;achievable, even in the absence of a rigorous photonic band gap. We find;that the density of in-plane Bloch modes can be controlled by creating;additional photon feedback from a finite-size photonic-crystal boundary;that serves as a low-Q resonator. This mechanism enables significant;reduction in the coupling strength between the bound state and the;extended Bloch modes by more than a factor of 40. DOI:;10.1103/PhysRevB.86.245114;Walavalkar, Sameer/B-3196-2013; Kim, Se-Heon/C-5498-2008;Walavalkar, Sameer/0000-0002-7628-9600;;2;0;0;0;2;1098-0121;WOS:000312365400001;;;J;Kravets, A. F.;Timoshevskii, A. N.;Yanchitsky, B. Z.;Bergmann, M. A.;Buhler, J.;Andersson, S.;Korenivski, V.;Temperature-controlled interlayer exchange coupling in strong/weak;ferromagnetic multilayers: A thermomagnetic Curie switch;PHYSICAL REVIEW B;86;21;214413;10.1103/PhysRevB.86.214413;DEC 14 2012;2012;We investigate interlayer exchange coupling based on driving a;strong/weak/strong ferromagnetic trilayer through the Curie point of the;weakly ferromagnetic spacer, with exchange coupling between the strongly;ferromagnetic outer layers that can be switched on and off, or varied;continuously in magnitude by controlling the temperature of the;material. We use Ni-Cu alloys of varied composition as the spacer;material and model the effects of proximity-induced magnetism and the;interlayer exchange coupling through the spacer from first principles,;taking into account not only thermal spin disorder but also the;dependence of the atomic moment of Ni on the nearest-neighbor;concentration of the nonmagnetic Cu. We propose and demonstrate a;gradient-composition spacer, with a lower Ni concentration at the;interfaces, for greatly improved effective-exchange uniformity and;significantly improved thermomagnetic switching in the structure. The;reported multilayer materials can form the base for a variety of;magnetic devices, such as sensors, oscillators, and memory elements;based on thermomagnetic Curie switching. DOI: 10.1103/PhysRevB.86.214413;Korenivski, Vladislav/N-7355-2014;Korenivski, Vladislav/0000-0003-2339-1692;4;0;0;0;4;1098-0121;WOS:000312364100005;;;J;Little, C. E.;Anufriev, R.;Iorsh, I.;Kaliteevski, M. A.;Abram, R. A.;Brand, S.;Tamm plasmon polaritons in multilayered cylindrical structures;PHYSICAL REVIEW B;86;23;235425;10.1103/PhysRevB.86.235425;DEC 14 2012;2012;It is shown that cylindrical Bragg reflector structures with either a;metal core, a metal cladding, or both can support Tamm plasmon;polaritons (TPPs) that can propagate axially along the interface between;the metallic layer and the adjacent dielectric. A transfer matrix;formalism for cylindrical multilayered structures is used in association;with cavity phase matching considerations to design structures that;support Tamm plasmon polaritons at specified frequencies, and to explore;the field distributions and the dispersion relations of the excitations.;The cylindrical TPPs can exist in both the TE and TM polarizations for;the special cases of modes with either azimuthal isotropy or zero axial;propagation constant and also as hybrid cylindrical modes when neither;of those conditions applies. In the cases considered the TPPs have low;effective masses and low group velocities. Also, when there is both;metallic core and cladding, near degenerate modes localized at each;metallic interface can couple to produce symmetric and antisymmetric;combinations whose frequency difference is in the terahertz regime. DOI:;10.1103/PhysRevB.86.235425;Brand, Stuart/A-1658-2009;Brand, Stuart/0000-0002-1757-5017;3;0;0;0;3;1098-0121;WOS:000312365100008;;;J;Machida, Manabu;Iitaka, Toshiaki;Miyashita, Seiji;ESR intensity and the Dzyaloshinsky-Moriya interaction of the nanoscale;molecular magnet V-15;PHYSICAL REVIEW B;86;22;224412;10.1103/PhysRevB.86.224412;DEC 14 2012;2012;The intensity of electron spin resonance (ESR) of the nanoscale;molecular magnet V-15 is studied. We calculate the temperature;dependence of the intensity at temperatures from high to low. In;particular, we find that the low-temperature ESR intensity is;significantly affected by the Dzyaloshinsky-Moriya interaction. DOI:;10.1103/PhysRevB.86.224412;1;0;0;0;1;1098-0121;WOS:000312364500003;;;J;Meinert, Markus;Friedrich, Christoph;Reiss, Guenter;Bluegel, Stefan;GW study of the half-metallic Heusler compounds Co2MnSi and Co2FeSi;PHYSICAL REVIEW B;86;24;245115;10.1103/PhysRevB.86.245115;DEC 14 2012;2012;Quasiparticle spectra of potentially half-metallic Co2MnSi and Co2FeSi;Heusler compounds have been calculated within the one-shot GW;approximation in an all-electron framework without adjustable;parameters. For Co2FeSi the many-body corrections are crucial: a;pseudogap opens and good agreement of the magnetic moment with;experiment is obtained. Otherwise, however, the changes with respect to;the density-functional-theory starting point are moderate. For both;cases we find that photoemission and x-ray absorption spectra are well;described by the calculations. By comparison with the GW density of;states, we conclude that the Kohn-Sham eigenvalue spectrum provides a;reasonable approximation for the quasiparticle spectrum of the Heusler;compounds considered in this work. DOI: 10.1103/PhysRevB.86.245115;Reiss, Gunter/A-3423-2010; Meinert, Markus/E-8794-2011; Blugel, Stefan/J-8323-2013; Friedrich, Christoph/L-5029-2013;Reiss, Gunter/0000-0002-0918-5940; Blugel, Stefan/0000-0001-9987-4733;;Friedrich, Christoph/0000-0002-3315-7536;7;1;0;0;7;1098-0121;WOS:000312365400002;;;J;Misiorny, Maciej;Weymann, Ireneusz;Barnas, Jozef;Underscreened Kondo effect in S=1 magnetic quantum dots: Exchange,;anisotropy, and temperature effects;PHYSICAL REVIEW B;86;24;245415;10.1103/PhysRevB.86.245415;DEC 14 2012;2012;We present a theoretical analysis of the effects of uniaxial magnetic;anisotropy and contact-induced exchange field on the underscreened Kondo;effect in S = 1 magnetic quantum dots coupled to ferromagnetic leads.;First, by using the second-order perturbation theory we show that the;coupling to spin-polarized electrode results in an effective exchange;field B-eff and an effective magnetic anisotropy D-eff. Second, we;confirm these findings by using the numerical renormalization group;method, which is employed to study the dependence of the quantum-dot;spectral functions, as well as quantum-dot spin, on various parameters;of the system. We show that the underscreened Kondo effect is generally;suppressed due to the presence of effective exchange field and can be;restored by tuning the anisotropy constant, when vertical bar D-eff;vertical bar = |B-eff vertical bar. The Kondo effect can also be;restored by sweeping an external magnetic field, and the restoration;occurs twice in a single sweep. From the distance between the restored;Kondo resonances one can extract the information about both the exchange;field and the effective anisotropy. Finally, we calculate the;temperature dependence of linear conductance for the parameters where;the Kondo effect is restored and show that the restored Kondo resonances;display a universal scaling of S = 1/2 Kondo effect. DOI:;10.1103/PhysRevB.86.245415;3;0;0;0;3;1098-0121;WOS:000312365400007;;;J;Monette, Gabriel;Nateghi, Nima;Masut, Remo A.;Francoeur, Sebastien;Menard, David;Plasmonic enhancement of the magneto-optical response of MnP;nanoclusters embedded in GaP epilayers;PHYSICAL REVIEW B;86;24;245312;10.1103/PhysRevB.86.245312;DEC 14 2012;2012;We report on the magneto-optical activity of MnP nanoclusters embedded;in GaP epilayers and MnP thin film as a function of temperature,;magnetic field, and wavelength in the near infrared and visible. The;measured Faraday rotation originates from the ferromagnetic;magnetization of the metallic MnP phase and exhibits a hysteretic;behavior as a function of an externally applied magnetic field closely;matching that of the magnetization. The Faraday rotation spectrum of MnP;shows a magnetoplasmonic resonance whose energy depends on the MnP;filling factor and surrounding matrix permittivity. At resonance, the;measured rotary power for the epilayer systems increases by a factor of;2 compared to that of the MnP film in terms of degrees of rotation per;MnP thickness for an applied magnetic field of 410 mT. We propose an;effective medium model, which qualitatively reproduces the Faraday;rotation and the magnetocircular dichroism spectra, quantitatively;determines the spectral shift induced by variations in the MnP volume;fraction, and demonstrates the influence of the shape and orientation;distributions of ellipsoidal MnP nanoclusters on the magneto-optical;activity and absorption spectra. DOI: 10.1103/PhysRevB.86.245312;Menard, David/A-6862-2010; Francoeur, Sebastien/E-6614-2011; Masut, Remo/I-3727-2014;Menard, David/0000-0003-2207-3422;;2;0;0;0;2;1098-0121;WOS:000312365400003;;;J;Morgan, Steven W.;Oganesyan, Vadim;Boutis, Gregory S.;Multispin correlations and pseudothermalization of the transient density;matrix in solid-state NMR: Free induction decay and magic echo;PHYSICAL REVIEW B;86;21;214410;10.1103/PhysRevB.86.214410;DEC 14 2012;2012;Quantum unitary evolution typically leads to thermalization of generic;interacting many-body systems. There are very few known general methods;for reversing this process, and we focus on the magic echo, a;radio-frequency pulse sequence known to approximately "rewind" the time;evolution of dipolar coupled homonuclear spin systems in a large;magnetic field. By combining analytic, numerical, and experimental;results, we systematically investigate factors leading to the;degradation of magic echoes, as observed in reduced revival of mean;transverse magnetization. Going beyond the conventional analysis based;on mean magnetization, we use a phase-encoding technique to measure the;growth of spin correlations in the density matrix at different points in;time following magic echoes of varied durations and compare the results;to those obtained during a free induction decay. While considerable;differences are documented at short times, the long-time behavior of the;density matrix appears to be remarkably universal among the types of;initial states considered: simple low-order multispin correlations are;observed to decay exponentially at the same rate, seeding the onset of;increasingly complex high-order correlations. This manifestly athermal;process is constrained by conservation of the second moment of the;spectrum of the density matrix and proceeds indefinitely, assuming;unitary dynamics. DOI: 10.1103/PhysRevB.86.214410;3;0;0;0;3;1098-0121;WOS:000312364100002;;;J;Sung, N. H.;Roh, C. J.;Kim, K. S.;Cho, B. K.;Possible multigap superconductivity and magnetism in single crystals of;superconducting La2Pt3Ge5 and Pr2Pt3Ge5;PHYSICAL REVIEW B;86;22;224507;10.1103/PhysRevB.86.224507;DEC 14 2012;2012;We herein describe our investigation of the superconducting and magnetic;properties of the rare-earth ternary germanide intermetallic compounds;La2Pt3Ge5 and Pr2Pt3Ge5. Single crystals of La2Pt3Ge5 and Pr2Pt3Ge5 were;synthesized using the high-temperature metal flux method. Both types of;crystal formed in a U2Co3Si5-type orthorhombic structure (space group;Ibam). La2Pt3Ge5 showed the onset of superconducting phase transition at;T-c = 8.1 K, which, to the best of our knowledge, is the highest Tc of;all the R2M3X5 (R = rare-earth elements, M = transition metal, and X =;s-p metal) superconductors, and from the specific heat data, it was;found to have multigap superconductivity. Pr2Pt3Ge5 showed both a;superconducting phase transition at T-c = 7.8 K and two;antiferromagnetic transitions at T-N1 = 3.5 K and T-N2 = 4.2 K, which;indicates the coexistence of superconductivity and magnetism. However,;the correlation between the superconductivity and the magnetism was too;weak to be observed. In its normal state, Pr2Pt3Ge5 revealed strong;magnetic anisotropy, probably due to the crystalline electric field;effect. DOI: 10.1103/PhysRevB.86.224507;1;0;0;0;1;1098-0121;WOS:000312364500004;;;J;Suzuki, Takafumi;Sato, Masahiro;Gapless edge states and their stability in two-dimensional quantum;magnets;PHYSICAL REVIEW B;86;22;224411;10.1103/PhysRevB.86.224411;DEC 14 2012;2012;We study the nature of edge states in extrinsically and spontaneously;dimerized states of two-dimensional spin-1/2 antiferromagnets, by;performing quantum Monte Carlo simulation. We show that a gapless edge;mode emerges in the wide region of the dimerized phases, and the;critical exponent of spin correlators along the edge deviates from the;value of Tomonaga-Luttinger liquid (TLL) universality in large but;finite systems at low temperatures. We also demonstrate that the gapless;nature at edges is stable against several perturbations such as external;magnetic field, easy-plane XXZ anisotropy, Dzyaloshinskii-Moriya;interaction, and further-neighbor exchange interactions. The edge states;exhibit non-TLL behavior, depending strongly on model parameters and;kinds of perturbations. Possible ways of detecting these edge states are;discussed. Properties of edge states we show in this paper could also be;used as reference points to study other edge states of more exotic;gapped magnetic phases such as spin liquids. DOI:;10.1103/PhysRevB.86.224411;0;0;0;0;0;1098-0121;WOS:000312364500002;;;J;Tian, H. Y.;Chan, K. S.;Wang, J.;Efficient spin injection in graphene using electron optics;PHYSICAL REVIEW B;86;24;245413;10.1103/PhysRevB.86.245413;DEC 14 2012;2012;We investigate theoretically spin injection efficiency from the;ferromagnetic graphene to normal graphene (FG/NG) based on electron;optics, where the magnetization in the FG is assumed from the magnetic;proximity effect. Based on a graphene lattice model, we demonstrated;that one spin-species electron flow from a point source could be nearly;suppressed through the FG-NG interface, when the total internal;reflection effect occurs with the help of an additional barrier masking;the Klein tunneling, while the opposite spin-species electron flow could;even be collimated due to the negative refraction under suitable;parameters. Not only at the focusing point is the efficient spin;injection achieved, but in the whole NG region the spin injection;efficiency can also be maintained at a high level. It is also shown that;the nonideal FG-NG interface could reduce the spin injection efficiency;since the electron optics phenomena are weakened owing to the;interfacial backscattering. Our findings may shed light on making;graphene-based spin devices in the spintronics field. DOI:;10.1103/PhysRevB.86.245413;3;0;2;0;3;1098-0121;WOS:000312365400005;;;J;Vasko, F. T.;Mitin, V. V.;Ryzhii, V.;Otsuji, T.;Interplay of intra- and interband absorption in a disordered graphene;PHYSICAL REVIEW B;86;23;235424;10.1103/PhysRevB.86.235424;DEC 14 2012;2012;The absorption of heavily doped graphene in the terahertz and;midinfrared spectral regions is considered, taking into account both the;elastic scattering due to finite-range disorder and the variations of;concentration due to long-range disorder. The interplay between intra-;and interband transitions is analyzed for the high-frequency regime of;response, near the Pauli blocking threshold. The gate voltage and;temperature dependencies of the absorption efficiency are calculated. It;is demonstrated that for typical parameters, the smearing of the;interband absorption edge is determined by a partly screened;contribution to long-range disorder while the intraband absorption is;determined by finite-range scattering. The latter yields the spectral;dependencies which deviate from those following from the Drude formula.;The obtained dependencies are in agreement with recent experimental;results. The comparison of the results of our calculations with the;experimental data provides a possibility to extract the disorder;characteristics. DOI: 10.1103/PhysRevB.86.235424;10;0;0;0;10;1098-0121;WOS:000312365100007;;;J;Violante, C.;Conte, A. Mosca;Bechstedt, F.;Pulci, O.;Geometric, electronic, and optical properties of the Si(111)2x1 surface:;Positive and negative buckling;PHYSICAL REVIEW B;86;24;245313;10.1103/PhysRevB.86.245313;DEC 14 2012;2012;The Si(111)2x1 is among the most investigated surfaces. Nonetheless,;several issues are still not understood. Its reconstruction is well;explained in terms of the Pandey model with a slight buckling (tilting);of the topmost atoms; two different isomers of the surface,;conventionally named positive and negative buckling, exist. Usually,;scanning tunneling microscopy (STM) experiments identify the positive;buckling isomer as the stable reconstruction at room temperature.;However, at low temperatures and for high n doping of the substrate,;recent scanning tunneling spectroscopy (STS) measurements found the;coexistence of positive and negative buckling on the Si(111) 2x1;surface. In this work, state-of-the-art ab initio methods, based on;density functional theory and on many-body perturbation theory, have;been used to obtain structural, electronic, and optical properties of;Si(111) 2x1 positive and negative buckling. The theoretical reflectance;anisotropy spectra (RAS), with the inclusion of the excitonic effects,;can provide a way to deepen the understanding of the coexistence of the;isomers. DOI: 10.1103/PhysRevB.86.245313;5;0;0;0;5;1098-0121;WOS:000312365400004;;;J;Yuge, Tatsuro;Sagawa, Takahiro;Sugita, Ayumu;Hayakawa, Hisao;Geometrical pumping in quantum transport: Quantum master equation;approach;PHYSICAL REVIEW B;86;23;235308;10.1103/PhysRevB.86.235308;DEC 14 2012;2012;For an open quantum system, we investigate the pumped current induced by;a slow modulation of control parameters on the basis of the quantum;master equation and full counting statistics. We find that the average;and the cumulant generating function of the pumped quantity are;characterized by the geometrical Berry-phase-like quantities in the;parameter space, which is associated with the generator of the master;equation. From our formulation, we can discuss the geometrical pumping;under the control of the chemical potentials and temperatures of;reservoirs. We demonstrate the formulation by spinless electrons in;coupled quantum dots. We show that the geometrical pumping is prohibited;for the case of noninteracting electrons if we modulate only;temperatures and chemical potentials of reservoirs, while the;geometrical pumping occurs in the presence of an interaction between;electrons. DOI: 10.1103/PhysRevB.86.235308;5;0;0;0;5;1098-0121;WOS:000312365100003;;;J;Zhang, Yanning;Wang, Hui;Wu, Ruqian;First-principles determination of the rhombohedral magnetostriction of;Fe100-xAlx and Fe100-xGax alloys;PHYSICAL REVIEW B;86;22;224410;10.1103/PhysRevB.86.224410;DEC 14 2012;2012;Through systematic density functional calculations using the full;potential linearized augmented plane-wave (FLAPW) method, the;rhombohedral magnetostriction (lambda(111)) of Fe100-xAlx and Fe100-xGax;alloys are studied for x up to 25. Theoretical calculations;satisfactorily reproduce the main features of experimental;lambda(111)(x) curves, except for dilute alloys with x < 5. Detailed;analyses on electronic and structural properties indicate the importance;of availability and symmetry of dangling bonds for the sign change of;lambda(111) around x = 16. In addition, the impurity induced local;distortion might be a possible reason for the disagreement between;theory and experiment for lambda(111) of the bulk bcc Fe. DOI:;10.1103/PhysRevB.86.224410;ZHANG, YANNING/A-3316-2013; Wu, Ruqian/C-1395-2013;0;0;0;0;0;1098-0121;WOS:000312364500001;;;J;Al Attar, Hameed A.;Monkman, Andrew P.;Controlled energy transfer between isolated donor-acceptor molecules;intercalated in thermally self-ensemble two-dimensional hydrogen bonding;cages;PHYSICAL REVIEW B;86;23;235420;10.1103/PhysRevB.86.235420;DEC 13 2012;2012;Thermally assembled hydrogen bonding cages which are neither size nor;guest specific have been developed using a poly (vinyl alcohol) (PVA);host. A water-soluble conjugated polymer;poly(2,5-bis(3-sulfonatopropoxy)-1,4-phenylene, disodium;salt-alt-1,4-phenylene) (PPP-OPSO3) as a donor and;tris(2,2-bipyridyl)-ruthenium(II) [Ru(bpy)(3)(2+)] as an acceptor have;been isolated and trapped in such a PVA matrix network. This is a unique;system that shows negligible exciton diffusion and the donor and;acceptor predominantly interact by a direct single step excitation;transfer process (DSSET). Singlet and triplet exciton quenching have;been studied. Time-resolved fluorescence lifetime measurement at;different acceptor concentrations has enabled us to determine the;dimensionality of the energy-transfer process within the PVA scaffold.;Our results reveal that the PVA hydrogen bonding network effectively;isolates the donor-acceptor molecules in a two-dimensional layer;structure (lamella) leading to the condition where a precise control of;the energy and charge transfer is possible.;Monkman, Andy/B-1521-2013;Monkman, Andy/0000-0002-0784-8640;0;0;0;0;0;1098-0121;WOS:000312291900005;;;J;Anzenberg, Eitan;Perkinson, Joy C.;Madi, Charbel S.;Aziz, Michael J.;Ludwig, Karl F., Jr.;Nanoscale surface pattern formation kinetics on germanium irradiated by;Kr+ ions;PHYSICAL REVIEW B;86;24;10.1103/PhysRevB.86.245412;DEC 13 2012;2012;Nanoscale surface topography evolution on Ge surfaces irradiated by 1;keV Kr+ ions is examined in both directions perpendicular and parallel;to the projection of the ion beam on the surface. Grazing incidence;small angle x-ray scattering is used to measure in situ the evolution of;surface morphology via the linear dispersion relation. A transition from;smoothing (stability) to pattern-forming instability is observed at a;critical ion incidence angle of approximately 62 degrees with respect to;the surface normal. The linear theory quadratic coefficients which;determine the surface stability/instability are determined as a function;of bombardment angle. The Ge surface evolution during Kr+ irradiation is;qualitatively similar to that observed for Ar+ irradiation of Si.;However, in contrast to the case of Si under Ar+ irradiation, the;critical angle separating stability and instability for Ge under Kr+;irradiation cannot be quantitatively reproduced by the simple;Carter-Vishnyakov mass redistribution model. DOI:;10.1103/PhysRevB.86.245412;5;0;0;0;5;1098-0121;WOS:000312292600006;;;J;Arnardottir, K. B.;Kyriienko, O.;Shelykh, I. A.;Hall effect for indirect excitons in an inhomogeneous magnetic field;PHYSICAL REVIEW B;86;24;245311;10.1103/PhysRevB.86.245311;DEC 13 2012;2012;We study the effect of an inhomogeneous out-of-plane magnetic field on;the behavior of two-dimensional (2D) spatially indirect excitons. Due to;the difference of the magnetic field acting on electrons and holes, the;total Lorentz force affecting the center of mass motion of an indirect;exciton appears. Consequently, an indirect exciton acquires an effective;charge proportional to the gradient of the magnetic field. The;appearance of the Lorentz force causes the Hall effect for neutral;bosons, which can be detected by measurement of the spatially;inhomogeneous blueshift of the photoluminescence using a counterflow;experiment. DOI: 10.1103/PhysRevB.86.245311;Kyriienko, Oleksandr/M-5163-2014;Kyriienko, Oleksandr/0000-0002-6259-6570;2;0;0;0;2;1098-0121;WOS:000312292600004;;;J;Baek, S. -H.;Loew, T.;Hinkov, V.;Lin, C. T.;Keimer, B.;Buechner, B.;Grafe, H. -J.;Evidence of a critical hole concentration in underdoped YBa2Cu3Oy single;crystals revealed by Cu-63 NMR;PHYSICAL REVIEW B;86;22;220504;10.1103/PhysRevB.86.220504;DEC 13 2012;2012;We report a Cu-63 NMR investigation in detwinned YBa2Cu3Oy single;crystals, focusing on the highly underdoped regime (y = 6.35-6.6).;Measurements of both the spectra and the spin-lattice relaxation rates;of Cu-63 uncover the emergence of static order at a well-defined onset;temperature T-0 with an as yet unknown order parameter. While T-0 is;rapidly suppressed with increasing hole doping concentration p, the spin;pseudogap was identified only near and above the doping content at which;T-0 -> 0. Our data indicate the presence of a critical hole doping p(c);similar to 0.1, which may control both the static order at p < p(c) and;the spin pseudogap at p > p(c). DOI: 10.1103/PhysRevB.86.220504;Baek, Seung-Ho/F-4733-2011;Baek, Seung-Ho/0000-0002-0059-8255;6;1;0;0;6;1098-0121;WOS:000312291200001;;;J;Bieri, Samuel;Serbyn, Maksym;Senthil, T.;Lee, Patrick A.;Paired chiral spin liquid with a Fermi surface in S=1 model on the;triangular lattice;PHYSICAL REVIEW B;86;22;224409;10.1103/PhysRevB.86.224409;DEC 13 2012;2012;Motivated by recent experiments on Ba3NiSb2O9, we investigate possible;quantum spin liquid ground states for spin S = 1 Heisenberg models on;the triangular lattice. We use variational Monte Carlo techniques to;calculate the energies of microscopic spin liquid wave functions where;spin is represented by three flavors of fermionic spinon operators.;These energies are compared with the energies of various competing;three-sublattice ordered states. Our approach shows that the;antiferromagnetic Heisenberg model with biquadratic term and single-ion;anisotropy does not have a low-temperature spin liquid phase. However,;for an SU(3)-invariant model with sufficiently strong ring-exchange;terms, we find a paired chiral quantum spin liquid with a Fermi surface;of deconfined spinons that is stable against all types of ordering;patterns we considered. We discuss the physics of this exotic spin;liquid state in relation to the recent experiment and suggest new ways;to test this scenario. DOI: 10.1103/PhysRevB.86.224409;Bieri, Samuel/L-1045-2013;11;0;0;0;11;1098-0121;WOS:000312291200002;;;J;Busch, M.;Seifert, J.;Meyer, E.;Winter, H.;Evidence for longitudinal coherence in fast atom diffraction;PHYSICAL REVIEW B;86;24;241402;10.1103/PhysRevB.86.241402;DEC 13 2012;2012;Angular distributions for grazing scattering of keV H atoms from an;Al2O3(11 (2) over bar0) surface were recorded. These distributions;reveal defined diffraction patterns which can be understood in terms of;quantum scattering from well-ordered surfaces. From the observation of;so-called Laue circles, we conclude a high degree of longitudinal;coherence for fast atom diffraction at surfaces which allows one to;resolve periodicity intervals of several 100 angstrom. We demonstrate;this feature in scattering experiments from the reconstructed (12 x 4);phase of an Al2O3(11 (2) over bar0) surface obtained after annealing at;temperatures of about 2000 K. DOI: 10.1103/PhysRevB.86.241402;4;0;0;0;4;1098-0121;WOS:000312292600002;;;J;Chen, Chien-Chun;Jiang, Huaidong;Rong, Lu;Salha, Sara;Xu, Rui;Mason, Thomas G.;Miao, Jianwei;Reply to "Comment on 'Three-dimensional imaging of a phase object from a;single sample orientation using an optical laser'";PHYSICAL REVIEW B;86;22;226102;10.1103/PhysRevB.86.226102;DEC 13 2012;2012;In a technical comment to our paper [Phys. Rev. B 84, 224104 (2011)],;Wei and Liu criticized our work without providing theoretical,;numerical, or experimental evidence. Furthermore, we believe they;misinterpreted our matrix rank analysis of ankylography and their;statements about our experiment are inaccurate. Below is our detailed;point-by-point response to their criticisms. DOI:;10.1103/PhysRevB.86.226102;Rong, Lu/L-6195-2014;Rong, Lu/0000-0003-4614-6411;0;0;0;0;0;1098-0121;WOS:000312291200004;;;J;Dubail, J.;Read, N.;Rezayi, E. H.;Edge-state inner products and real-space entanglement spectrum of trial;quantum Hall states;PHYSICAL REVIEW B;86;24;245310;10.1103/PhysRevB.86.245310;DEC 13 2012;2012;We consider the trial wave functions for the fractional quantum Hall;effect that are given by conformal blocks, and construct their;associated edge excited states in full generality. The inner products;between these edge states are computed in the thermodynamic limit,;assuming generalized screening (i.e., short-range correlations only);inside the quantum Hall droplet and using the language of boundary;conformal field theory (boundary CFT). These inner products take;universal values in this limit: they are equal to the corresponding;inner products in the bulk two-dimensional chiral CFT which underlies;the trial wave function. This is a bulk/edge correspondence; it shows;the equality between equal-time correlators along the edge and the;correlators of the bulk CFT up to a Wick rotation. This approach is then;used to analyze the entanglement spectrum of the ground state obtained;with a bipartition A boolean OR B in real space. Starting from our;universal result for inner products in the thermodynamic limit, we;tackle corrections to scaling using standard field-theoretic and;renormalization- group arguments. We prove that generalized screening;implies that the entanglement Hamiltonian H-E = -ln rho(A) is;isospectral to an operator that is local along the cut between A and B.;We also show that a similar analysis can be carried out for particle;partition. We discuss the close analogy between the formalism of trial;wave functions given by conformal blocks and tensor product states, for;which results analogous to ours have appeared recently. Finally, the;edge theory and entanglement spectrum of p(x) +/- ip(y) paired;superfluids are treated in a similar fashion in the Appendixes. DOI:;10.1103/PhysRevB.86.245310;Read, Nicholas/J-6030-2012;14;0;0;0;14;1098-0121;WOS:000312292600003;;;J;He, Jiangang;Franchini, Cesare;Screened hybrid functional applied to 3d(0)-> 3d(8) transition-metal;perovskites LaMO3 (M = Sc-Cu): Influence of the exchange mixing;parameter on the structural, electronic, and magnetic properties;PHYSICAL REVIEW B;86;23;235117;10.1103/PhysRevB.86.235117;DEC 13 2012;2012;We assess the performance of the Heyd-Scuseria-Ernzerhof (HSE) screened;hybrid density functional scheme applied to the perovskite family LaMO3;(M = Sc-Cu) and discuss the role of the mixing parameter alpha [which;determines the fraction of exact Hartree-Fock exchange included in the;density functional theory (DFT) exchange-correlation functional] on the;structural, electronic, and magnetic properties. The physical complexity;of this class of compounds, manifested by the largely varying electronic;characters (band/Mott-Hubbard/charge-transfer insulators and metals),;magnetic orderings, structural distortions (cooperative Jahn-Teller-type;instabilities), as well as by the strong competition between;localization/delocalization effects associated with the gradual filling;of the t(2g) and e(g) orbitals, symbolize a critical and challenging;case for theory. Our results indicate that HSE is able to provide a;consistent picture of the complex physical scenario encountered across;the LaMO3 series and significantly improve the standard DFT description.;The only exceptions are the correlated paramagnetic metals LaNiO3 and;LaCuO3, which are found to be treated better within DFT. By fitting the;ground-state properties with respect to alpha, we have constructed a set;of "optimum" values of alpha from LaScO3 to LaCuO3: it is found that the;optimum mixing parameter decreases with increasing filling of the d;manifold (LaScO3: 0.25; LaTiO3 and LaVO3: 0.10-0.15; LaCrO3, LaMnO3, and;LaFeO3: 0.15; LaCoO3: 0.05; LaNiO3 and LaCuO3: 0). This trend can be;nicely correlated with the modulation of the screening and dielectric;properties across the LaMO3 series, thus providing a physical;justification to the empirical fitting procedure. Finally, we show that;by using this set of optimum mixing parameter, HSE predict dielectric;constants in very good agreement with the experimental ones.;17;1;1;0;17;1098-0121;WOS:000312291900002;;;J;Imura, Ken-Ichiro;Yoshimura, Yukinori;Takane, Yositake;Fukui, Takahiro;Spherical topological insulator;PHYSICAL REVIEW B;86;23;235119;10.1103/PhysRevB.86.235119;DEC 13 2012;2012;The electronic spectrum on the spherical surface of a topological;insulator reflects an active property of the helical surface state that;stems from a constraint on its spin on a curved surface. The induced;spin connection can be interpreted as an effective vector potential;associated with a fictitious magnetic monopole induced at the center of;the sphere. The strength of the induced magnetic monopole is found to be;g = +/-2 pi, being the smallest finite (absolute) value compatible with;the Dirac quantization condition. We have established an explicit;correspondence between the bulk Hamiltonian and the effective Dirac;operator on the curved spherical surface. An explicit construction of;the surface spinor wave functions implies a rich spin texture possibly;realized on the surface of topological insulator nanoparticles. The;electronic spectrum inferred by the obtained effective surface Dirac;theory, confirmed also by the bulk tight-binding calculation, suggests a;specific photoabsorption/emission spectrum of such nanoparticles.;Imura, Ken/D-6633-2013;6;0;0;0;6;1098-0121;WOS:000312291900004;;;J;Kamburov, D.;Shayegan, M.;Winkler, R.;Pfeiffer, L. N.;West, K. W.;Baldwin, K. W.;Anisotropic Fermi contour of (001) GaAs holes in parallel magnetic;fields;PHYSICAL REVIEW B;86;24;241302;10.1103/PhysRevB.86.241302;DEC 13 2012;2012;We report a severe, spin-dependent, Fermi contour anisotropy induced by;parallel magnetic field in a high-mobility (001) GaAs two-dimensional;hole system. Employing commensurability oscillations created by a;unidirectional, surface-strain-induced, periodic potential modulation,;we directly probe the anisotropy of the two spin subband Fermi contours.;Their areas are obtained from the Fourier transform of the Shubnikov-de;Haas oscillations. Our findings are in semiquantitative agreement with;the results of parameter-free calculations of the energy bands. DOI:;10.1103/PhysRevB.86.241302;5;0;0;0;5;1098-0121;WOS:000312292600001;;;J;Kourtis, Stefanos;Venderbos, Joern W. F.;Daghofer, Maria;Fractional Chern insulator on a triangular lattice of strongly;correlated t(2g) electrons;PHYSICAL REVIEW B;86;23;235118;10.1103/PhysRevB.86.235118;DEC 13 2012;2012;We discuss the low-energy limit of three-orbital Kondo-lattice and;Hubbard models describing t(2g) orbitals on a triangular lattice near;half-filling. We analyze how very flat single-particle bands with;nontrivial topological character, a Chern number C = +/-1, arise both in;the limit of infinite on-site interactions as well as in more realistic;regimes. Exact diagonalization is then used to investigate an effective;one-orbital spinless-fermion model at fractional fillings including;nearest-neighbor interaction V; it reveals signatures of fractional;Chern insulator (FCI) states for several filling fractions. In addition;to indications based on energies, e. g., flux insertion and fractional;statistics of quasiholes, Chern numbers are obtained. It is shown that;FCI states are robust against disorder in the underlying magnetic;texture that defines the topological character of the band. We also;investigate competition between a FCI state and a charge density wave;(CDW) and discuss the effects of particle-hole asymmetry and;Fermi-surface nesting. FCI states turn out to be rather robust and do;not require very flat bands, but can also arise when filling or an;absence of Fermi-surface nesting disfavor the competing CDW.;Nevertheless, very flat bands allow FCI states to be induced by weaker;interactions than those needed for more dispersive bands.;Daghofer, Maria/C-5762-2008;Daghofer, Maria/0000-0001-9434-8937;10;0;0;0;10;1098-0121;WOS:000312291900003;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;23;230001;10.1103/PhysRevB.86.230001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312291900001;;;J;Molenkamp, Laurens W.;Editorial: The End of PRB Brief Reports;PHYSICAL REVIEW B;86;21;210001;10.1103/PhysRevB.86.210001;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700001;;;J;Ochoa, H.;Castro Neto, A. H.;Fal'ko, V. I.;Guinea, F.;Spin-orbit coupling assisted by flexural phonons in graphene;PHYSICAL REVIEW B;86;24;245411;10.1103/PhysRevB.86.245411;DEC 13 2012;2012;We analyze the couplings between spins and phonons in graphene. We;present a complete analysis of the possible couplings between spins and;flexural, out-of-plane, vibrations. From tight-binding models, we obtain;analytical and numerical estimates of their strength. We show that;dynamical effects, induced by quantum and thermal fluctuations,;significantly enhance the spin-orbit gap. DOI:;10.1103/PhysRevB.86.245411;Guinea, Francisco/A-7122-2008; Castro Neto, Antonio/C-8363-2014;Guinea, Francisco/0000-0001-5915-5427; Castro Neto,;Antonio/0000-0003-0613-4010;9;1;0;0;9;1098-0121;WOS:000312292600005;;;J;Suewattana, Malliga;Singh, David J.;Limpijumnong, Sukit;Crystal structure and cation off-centering in Bi(Mg1/2Ti1/2)O-3 (vol 86,;064105, 2012);PHYSICAL REVIEW B;86;21;219903;10.1103/PhysRevB.86.219903;DEC 13 2012;2012;0;0;0;0;0;1098-0121;WOS:000312290700002;;;J;Wei, Haiqing;Liu, Shiyuan;Comment on "Three-dimensional imaging of a phase object from a single;sample orientation using an optical laser";PHYSICAL REVIEW B;86;22;226101;10.1103/PhysRevB.86.226101;DEC 13 2012;2012;A recent article by Chen et al. [Phys. Rev. B 84, 224104 (2011)];purports a "matrix rank analysis" and an optical experiment in support;of the three-dimensional (3D) imaging technique called "ankylography.";However, the mathematical analysis does not appear to be conclusive, and;the one used in the experiment is more a 3D-supported scattering object;of actually 2D complexity than a 3D-distributed scattering object of;truly 3D complexity. Consequently, the article provides little support;to the "ankylography" technique. DOI: 10.1103/PhysRevB.86.226101;Liu, Shiyuan/H-1463-2012;Liu, Shiyuan/0000-0002-0756-1439;1;0;0;0;1;1098-0121;WOS:000312291200003;;;J;Bobes, Omar;Zhang, Kun;Hofsaess, Hans;Ion beam induced surface patterns due to mass redistribution and;curvature-dependent sputtering;PHYSICAL REVIEW B;86;23;235414;10.1103/PhysRevB.86.235414;DEC 12 2012;2012;Recently it was reported that ion-induced mass redistribution would;solely determine nano pattern formation on ion-irradiated surfaces. We;investigate the pattern formation on amorphous carbon thin films;irradiated with Xe ions of energies between 200 eV and 10 keV. Sputter;yield as well as number of displacements within the collision cascade;vary strongly as function of ion energy and allow us to investigate the;contributions of curvature-dependent erosion according to the;Bradley-Harper model as well as mass redistribution according to the;Carter-Vishnyakov model. We find parallel ripple orientations for an ion;incidence angle of 60 degrees and for all energies. A transition to;perpendicular pattern orientation or a rather flat surface occurs around;80 degrees for energies between 1 keV and 10 keV. Our results are;compared with calculations based on both models. For the calculations we;extract the shape and size of Sigmund's energy ellipsoid (parameters a,;sigma, mu), the angle-dependent sputter yield, and the mean mass;redistribution distance from the Monte Carlo simulations with program;SDTrimSP. The calculated curvature coefficients S-x and S-y describing;the height evolution of the surface show that mass redistribution is;dominant for parallel pattern formation in the whole energy regime.;Furthermore, the angle where the parallel pattern orientation starts to;disappear is related to curvature-dependent sputtering. In addition, we;investigate the case of Pt erosion with 200 eV Ne ions, where mass;redistribution vanishes. In this case, we observe perpendicular ripple;orientation in accordance with curvature-dependent sputtering and the;predictions of the Bradley-Harper model.;10;0;0;0;10;1098-0121;WOS:000312291600004;;;J;Bradlyn, Barry;Goldstein, Moshe;Read, N.;Kubo formulas for viscosity: Hall viscosity, Ward identities, and the;relation with conductivity;PHYSICAL REVIEW B;86;24;245309;10.1103/PhysRevB.86.245309;DEC 12 2012;2012;Motivated by recent work on Hall viscosity, we derive from first;principles the Kubo formulas for the stress-stress response function at;zero wave vector that can be used to define the full complex;frequency-dependent viscosity tensor, both with and without a uniform;magnetic field. The formulas in the existing literature are frequently;incomplete, incorrect, or lack a derivation; in particular, Hall;viscosity is overlooked. Our approach begins from the response to a;uniform external strain field, which is an active time-dependent;coordinate transformation in d space dimensions. These transformations;form the group GL(d, R) of invertible matrices, and the infinitesimal;generators are called strain generators. These enable us to express the;Kubo formula in different ways, related by Ward identities; some of;these make contact with the adiabatic transport approach. The importance;of retaining contact terms, analogous to the diamagnetic term in the;familiar Kubo formula for conductivity, is emphasized. For;Galilean-invariant systems, we derive a relation between the stress;response tensor and the conductivity tensor that is valid at all;frequencies and in both the presence and absence of a magnetic field. In;the presence of a magnetic field and at low frequency, this yields a;relation between the Hall viscosity, the q(2) part of the Hall;conductivity, the inverse compressibility (suitably defined), and the;diverging part of the shear viscosity (if any); this relation;generalizes a result found recently by others. We show that the correct;value of the Hall viscosity at zero frequency can be obtained (at least;in the absence of low-frequency bulk and shear viscosity) by assuming;that there is an orbital spin per particle that couples to a perturbing;electromagnetic field as a magnetization per particle. We study several;examples as checks on our formulation. We also present formulas for the;stress response that directly generalize the Berry (adiabatic) curvature;expressions for zero-frequency Hall conductivity or viscosity to the;full tensors at all frequencies. DOI: 10.1103/PhysRevB.86.245309;Read, Nicholas/J-6030-2012;21;0;0;0;21;1098-0121;WOS:000312292400010;;;J;Calvo, Hernan L.;Classen, Laura;Splettstoesser, Janine;Wegewijs, Maarten R.;Interaction-induced charge and spin pumping through a quantum dot at;finite bias;PHYSICAL REVIEW B;86;24;245308;10.1103/PhysRevB.86.245308;DEC 12 2012;2012;We investigate charge and spin transport through an adiabatically;driven, strongly interacting quantum dot weakly coupled to two metallic;contacts with finite bias voltage. Within a kinetic equation approach,;we identify coefficients of response to the time-dependent external;driving and relate these to the concepts of charge and spin emissivities;previously discussed within the time-dependent scattering matrix;approach. Expressed in terms of auxiliary vector fields, the response;coefficients allow for a straightforward analysis of recently predicted;interaction-induced pumping under periodic modulation of the gate and;bias voltage [Reckermann et al., Phys. Rev. Lett. 104, 226803 (2010)].;We perform a detailed study of this effect and the related adiabatic;Coulomb blockade spectroscopy, and, in particular, extend it to spin;pumping. Analytic formulas for the pumped charge and spin in the regimes;of small and large driving amplitude are provided for arbitrary bias. In;the absence of a magnetic field, we obtain a striking, simple relation;between the pumped charge at zero bias and at bias equal to the Coulomb;charging energy. At finite magnetic field, there is a possibility to;have interaction-induced pure spin pumping at this finite bias value,;and generally, additional features appear in the pumped charge. For;large-amplitude adiabatic driving, the magnitude of both the pumped;charge and spin at the various resonances saturates at values which are;independent of the specific shape of the pumping cycle. Each of these;values provides an independent, quantitative measure of the junction;asymmetry. DOI: 10.1103/PhysRevB.86.245308;Calvo, Hernan/D-9825-2011; Wegewijs, Maarten/A-3512-2012; Splettstoesser, Janine/B-4003-2012;Wegewijs, Maarten/0000-0002-2972-3822;;6;0;1;0;6;1098-0121;WOS:000312292400009;;;J;Drummond, David;Pryadko, Leonid P.;Shtengel, Kirill;Suppression of hyperfine dephasing by spatial exchange of double quantum;dots;PHYSICAL REVIEW B;86;24;245307;10.1103/PhysRevB.86.245307;DEC 12 2012;2012;We examine the logical qubit system of a pair of electron spins in;double quantum dots. Each electron experiences a different hyperfine;interaction with the local nuclei of the lattice, leading to a relative;phase difference, and thus decoherence. Methods such as nuclei;polarization, state narrowing, and spin-echo pulses have been proposed;to delay decoherence. Instead we propose to suppress hyperfine dephasing;by the adiabatic rotation of the dots in real space, leading to the same;average hyperfine interaction. We show that the additional effects due;to the motion in the presence of spin-orbit coupling are still smaller;than the hyperfine interaction, and result in an infidelity below 10(-4);after ten decoupling cycles. We discuss a possible experimental setup;and physical constraints for this proposal. DOI:;10.1103/PhysRevB.86.245307;0;0;0;0;0;1098-0121;WOS:000312292400008;;;J;Estienne, B.;Regnault, N.;Bernevig, B. A.;D-algebra structure of topological insulators;PHYSICAL REVIEW B;86;24;241104;10.1103/PhysRevB.86.241104;DEC 12 2012;2012;In the quantum Hall effect, the density operators at different wave;vectors generally do not commute and give rise to the Girvin-MacDonald-;Plazmann (GMP) algebra, with important consequences such as ground-state;center-of-mass degeneracy at fractional filling fraction, and;W1+infinity symmetry of the filled Landau levels. We show that the;natural generalization of the GMP algebra to higher-dimensional;topological insulators involves the concept of a D commutator. For;insulators in even-dimensional space, the D commutator is isotropic and;closes, and its structure factors are proportional to the D/2 Chern;number. In odd dimensions, the algebra is not isotropic, contains the;weak topological insulator index (layers of the topological insulator in;one fewer dimension), and does not contain the Chern-Simons theta form.;This algebraic structure paves the way towards the identification of;fractional topological insulators through the counting of their;excitations. The possible relation to D-dimensional volume-preserving;diffeomorphisms and parallel transport of extended objects is also;discussed. DOI: 10.1103/PhysRevB.86.241104;7;0;0;0;7;1098-0121;WOS:000312292400001;;;J;Gingrich, E. C.;Quarterman, P.;Wang, Yixing;Loloee, R.;Pratt, W. P., Jr.;Birge, Norman O.;Spin-triplet supercurrent in Co/Ni multilayer Josephson junctions with;perpendicular anisotropy;PHYSICAL REVIEW B;86;22;224506;10.1103/PhysRevB.86.224506;DEC 12 2012;2012;We have measured spin-triplet supercurrent in Josephson junctions of the;form S/F'/F/F'/S, where S is superconducting Nb, F' is a thin Ni layer;with in-plane magnetization, and F is a Ni/[Co/Ni](n) multilayer with;out-of-plane magnetization. The supercurrent in these junctions decays;very slowly with F-layer thickness and is much larger than in similar;junctions not containing the two F' layers. Those two features are the;characteristic signatures of spin-triplet supercurrent, which is;maximized by the orthogonality of the magnetizations in the F and F';layers. Magnetic measurements confirm the out-of-plane anisotropy of the;Co/Ni multilayers. These samples have their critical current optimized;in the as-prepared state, which will be useful for future applications.;DOI: 10.1103/PhysRevB.86.224506;7;1;0;0;7;1098-0121;WOS:000312291100001;;;J;Golub, Anatoly;Grosfeld, Eytan;Charge resistance in a Majorana RC circuit;PHYSICAL REVIEW B;86;24;241105;10.1103/PhysRevB.86.241105;DEC 12 2012;2012;We investigate the dynamical charge response in a "Majorana Coulomb box";realized by two Majorana bound states hosted at the ends of a mesoscopic;topological superconductor. One side of the wire is coupled to a normal;lead and low frequency gate voltage is applied to the system. There is;no dc current; the system can be considered as an RC quantum circuit. We;calculate the effective capacitance and charge relaxation resistance.;The latter is in agreement with the Korringa-Shiba formula where,;however, the charge relaxation resistance is equal to h/2e(2). This;value corresponds to the strong Coulomb blockade limit described by a;resonant model formulated by Fu [Phys. Rev. Lett. 104, 056402 (2010)].;We also performed direct calculations using the latter model and defined;its parameters by direct comparison with our perturbation theory;results. DOI: 10.1103/PhysRevB.86.241105;4;1;0;0;4;1098-0121;WOS:000312292400002;;;J;Guenter, T.;Rubano, A.;Paparo, D.;Lilienblum, M.;Marrucci, L.;Granozio, F. Miletto;di Uccio, U. Scotti;Jany, R.;Richter, C.;Mannhart, J.;Fiebig, M.;Spatial inhomogeneities at the LaAlO3/SrTiO3 interface: Evidence from;second harmonic generation;PHYSICAL REVIEW B;86;23;235418;10.1103/PhysRevB.86.235418;DEC 12 2012;2012;Phase-sensitive, spatially resolved optical second-harmonic-generation;experiments were performed on LaAlO3/SrTiO3 heterostructures. Lateral;inhomogeneities on a length scale of approximate to 30 mu m are found;when a one-unit-cell-thick epitaxial monolayer of LaAlO3 is grown on;TiO2-terminated SrTiO3 single crystals. The inhomogeneity is absent in;samples with LaAlO3 layers of more than one unit cell. The results are;discussed in the framework of electronic, oxidic, and chemical;inhomogeneities.;Marrucci, Lorenzo/A-4331-2012; Richter, Christoph/A-6172-2013;Marrucci, Lorenzo/0000-0002-1154-8966; Richter,;Christoph/0000-0002-6591-1118;7;0;0;0;7;1098-0121;WOS:000312291600008;;;J;Huang, Zhoushen;Arovas, Daniel P.;Entanglement spectrum and Wannier center flow of the Hofstadter problem;PHYSICAL REVIEW B;86;24;245109;10.1103/PhysRevB.86.245109;DEC 12 2012;2012;We examine the quantum entanglement spectra and Wannier functions of the;square lattice Hofstadter model. Consistent with previous work on;entanglement spectra of topological band structures, we find that the;entanglement levels exhibit a spectral flow similar to that of the full;system's energy spectrum. While the energy spectra are continuous, with;cylindrical boundary conditions the entanglement spectra exhibit;discontinuities associated with the passage of an energy edge state;through the Fermi level. We show how the entanglement spectrum can be;understood by examining the band projectors of the full system and their;behavior under adiabatic pumping. In so doing we make connections with;the original work by Thouless, Kohmoto, Nightingale, and den Nijs (TKNN);[Phys. Rev. Lett. 49, 405 (1982)] on topological two-dimensional band;structures and their Chern numbers. Finally, we consider Wannier states;and their adiabatic flows and draw connections to the entanglement;properties. DOI: 10.1103/PhysRevB.86.245109;5;0;0;0;5;1098-0121;WOS:000312292400003;;;J;Humeniuk, Stephan;Roscilde, Tommaso;Quantum Monte Carlo calculation of entanglement Renyi entropies for;generic quantum systems;PHYSICAL REVIEW B;86;23;235116;10.1103/PhysRevB.86.235116;DEC 12 2012;2012;We present a general scheme for the calculation of the Renyi entropy of;a subsystem in quantum many-body models that can be efficiently;simulated via quantum Monte Carlo. When the simulation is performed at;very low temperature, the above approach delivers the entanglement Renyi;entropy of the subsystem, and it allows us to explore the crossover to;the thermal Renyi entropy as the temperature is increased. We implement;this scheme explicitly within the stochastic series expansion as well as;within path-integral Monte Carlo, and apply it to quantum spin and;quantum rotor models. In the case of quantum spins, we show that;relevant models in two dimensions with reduced symmetry (XX model or;hard-core bosons, transverse-field Ising model at the quantum critical;point) exhibit an area law for the scaling of the entanglement entropy.;23;0;0;0;23;1098-0121;WOS:000312291600002;;;J;Jacobs, Th;Katterwe, S. O.;Motzkau, H.;Rydh, A.;Maljuk, A.;Helm, T.;Putzke, C.;Kampert, E.;Kartsovnik, M. V.;Krasnov, V. M.;Electron-tunneling measurements of low-T-c single-layer;Bi2+xSr2-yCuO6+delta: Evidence for a scaling disparity between;superconducting and pseudogap states;PHYSICAL REVIEW B;86;21;214506;10.1103/PhysRevB.86.214506;DEC 12 2012;2012;We experimentally study intrinsic tunneling and high magnetic field (up;to 65 T) transport characteristics of the single-layer cuprate;Bi2+xSr2-yCuO6+delta, with a very low superconducting critical;temperature T-c less than or similar to 4 K. It is observed that the;superconducting gap, the collective bosonic mode energy, the upper;critical field, and the fluctuation temperature range are scaling down;with T-c, while the corresponding pseudogap characteristics remain the;same as in high-T-c cuprates with 20 to 30 times higher T-c. The;observed disparity of the superconducting and pseudogap scales clearly;reveals their different origins. DOI: 10.1103/PhysRevB.86.214506;Kartsovnik, Mark/E-3598-2013; Rydh, Andreas/A-7068-2012;Kartsovnik, Mark/0000-0002-3011-0169; Rydh, Andreas/0000-0001-6641-4861;4;1;0;0;4;1098-0121;WOS:000312290600002;;;J;Klinovaja, Jelena;Ferreira, Gerson J.;Loss, Daniel;Helical states in curved bilayer graphene;PHYSICAL REVIEW B;86;23;235416;10.1103/PhysRevB.86.235416;DEC 12 2012;2012;We study spin effects of quantum wires formed in bilayer graphene by;electrostatic confinement. With a proper choice of the confinement;direction, we show that in the presence of magnetic field, spin orbit;interaction induced by curvature, and intervalley scattering, bound;states emerge that are helical. The localization length of these helical;states can be modulated by the gate voltage which enables the control of;the tunnel coupling between two parallel wires. Allowing for proximity;effect via an s-wave superconductor, we show that the helical modes give;rise to Majorana fermions in bilayer graphene.;J. Ferreira, Gerson/K-1948-2013; Klinovaja, Jelena/L-2510-2013; Loss, Daniel/A-3721-2008;J. Ferreira, Gerson/0000-0002-4933-3119; Loss,;Daniel/0000-0001-5176-3073;17;0;0;0;17;1098-0121;WOS:000312291600006;;;J;Lee, Wei-Cheng;Phillips, Philip W.;Non-Fermi liquid due to orbital fluctuations in iron pnictide;superconductors;PHYSICAL REVIEW B;86;24;245113;10.1103/PhysRevB.86.245113;DEC 12 2012;2012;We study the influence of quantum fluctuations on the electron;self-energy in the normal state of iron pnictide superconductors using a;five-orbital tight-binding model with generalized Hubbard on-site;interactions. Within a one-loop treatment, we find that an overdamped;collective mode develops at low frequency in channels associated with;quasi-one-dimensional d(xz) and d(yz) bands. When the critical point for;the C-4-symmetry-broken phase (structural phase transition) is;approached, the overdamped collective modes soften, and acquire;increased spectral weight, resulting in non-Fermi-liquid behavior at the;Fermi surface characterized by a frequency dependence of the imaginary;part of the electron self-energy of the form. omega(lambda), 0 < lambda;< 1. We argue that this non-Fermi-liquid behavior is responsible for the;recently observed zero-bias enhancement in the tunneling signal in;point-contact spectroscopy. A key experimental test of this proposal is;the absence of non-Fermi-liquid behavior in the hole-doped materials.;Our result suggests that quantum criticality plays an important role in;understanding the normal-state properties of iron pnictide;superconductors. DOI: 10.1103/PhysRevB.86.245113;11;0;0;0;11;1098-0121;WOS:000312292400007;;;J;McKenna, Keith P.;Blumberger, Jochen;Crossover from incoherent to coherent electron tunneling between defects;in MgO;PHYSICAL REVIEW B;86;24;245110;10.1103/PhysRevB.86.245110;DEC 12 2012;2012;Long-range electron tunneling is a fundamental process that is critical;to the performance of oxide materials in microelectronics, energy;generation, and photocatalysis, but extremely challenging to probe;experimentally. Here we devise a computational approach that allows one;to probe the mechanism and calculate the rate of electron transfer (ET);in such materials from first principles. Application to ET between;defects in MgO reveals that the activation energy for ET depends;strongly on defect separation, an effect not usually taken into account;in semiempirical models of ET processes in oxides. Importantly, for;distances below a critical defect separation (6 angstrom), the nature of;ET changes from incoherent to coherent tunneling, suggesting that;existing empirical models require essential modifications. These;calculations extend first-principles modeling of ET in oxides to the;regime of long-range incoherent transport, an outstanding problem;important for modeling many processes of technological relevance. DOI:;10.1103/PhysRevB.86.245110;Blumberger, Jochen/L-5949-2013; McKenna, Keith/A-5084-2010;6;1;0;0;6;1098-0121;WOS:000312292400004;;;J;Mol, L. A. S.;Pereira, A. R.;Moura-Melo, W. A.;Extending spin ice concepts to another geometry: The artificial;triangular spin ice (vol 85, 184410, 2012);PHYSICAL REVIEW B;86;21;219902;10.1103/PhysRevB.86.219902;DEC 12 2012;2012;Mol, Lucas/D-9575-2013;Mol, Lucas/0000-0002-5001-0499;0;0;0;0;0;1098-0121;WOS:000312290600003;;;J;Palotas, Krisztian;Mandi, Gabor;Szunyogh, Laszlo;Orbital-dependent electron tunneling within the atom superposition;approach: Theory and application to W(110);PHYSICAL REVIEW B;86;23;235415;10.1103/PhysRevB.86.235415;DEC 12 2012;2012;We introduce an orbital-dependent electron tunneling model and implement;it within the atom superposition approach for simulating scanning;tunneling microscopy (STM) and spectroscopy (STS). Applying our method,;we analyze the convergence and the orbital contributions to the;tunneling current and the corrugation of constant-current STM images;above the W(110) surface. In accordance with a previous study [Heinze et;al., Phys. Rev. B 58, 16432 (1998)], we find atomic contrast reversal;depending on the bias voltage. Additionally, we analyze this effect;depending on the tip-sample distance using different tip models and find;two qualitatively different behaviors based on the tip orbital;composition. As an explanation, we highlight the role of the real-space;shape of the orbitals involved in the tunneling. STM images calculated;by our model agree well with those obtained using Tersoff and Hamann's;and Bardeen's approaches. The computational efficiency of our model is;remarkable as the k-point samplings of the surface and tip Brillouin;zones do not affect the computation time, in contrast to the Bardeen;method.;Palotas, Krisztian/C-5338-2009;5;0;0;0;5;1098-0121;WOS:000312291600005;;;J;Rodrigues, J. N. B.;Peres, N. M. R.;Lopes dos Santos, J. M. B.;Scattering by linear defects in graphene: A continuum approach;PHYSICAL REVIEW B;86;21;214206;10.1103/PhysRevB.86.214206;DEC 12 2012;2012;We study the low-energy electronic transport across periodic extended;defects in graphene. In the continuum low-energy limit, such defects act;as infinitessimally thin stripes separating two regions where the Dirac;Hamiltonian governs the low-energy phenomena. The behavior of these;systems is defined by the boundary condition imposed by the defect on;the massless Dirac fermions. We demonstrate how this low-energy boundary;condition can be computed from the tight-binding model of the defect;line. For simplicity we consider defect lines oriented along the zigzag;direction, which requires the consideration of only one copy of the;Dirac equation. Three defect lines of this kind are studied and shown to;be mappable between them: the pentagon-only, the zz(558), and the;zz(5757) defect lines. In addition, in this same limit, we calculate the;conductance across such defect lines with size L and find it to be;proportional to k(F)L at low temperatures. DOI:;10.1103/PhysRevB.86.214206;6;0;0;0;6;1098-0121;WOS:000312290600001;;;J;Saloriutta, Karri;Uppstu, Andreas;Harju, Ari;Puska, Martti J.;Ab initio transport fingerprints for resonant scattering in graphene;PHYSICAL REVIEW B;86;23;235417;10.1103/PhysRevB.86.235417;DEC 12 2012;2012;We have recently shown that by using a scaling approach for randomly;distributed topological defects in graphene, reliable estimates for;transmission properties of macroscopic samples can be calculated based;even on single-defect calculations [A. Uppstu et al., Phys. Rev. B 85,;041401 (2012)]. We now extend this approach of energy-dependent;scattering cross sections to the case of adsorbates on graphene by;studying hydrogen and carbon adatoms as well as epoxide and hydroxyl;groups. We show that a qualitative understanding of resonant scattering;can be gained through density functional theory results for a;single-defect system, providing a transmission "fingerprint";characterizing each adsorbate type. This information can be used to;reliably predict the elastic mean free path for moderate defect;densities directly using ab initio methods. We present tight-binding;parameters for carbon and epoxide adsorbates, obtained to match the;density-functional theory based scattering cross sections.;Puska, Martti/E-7362-2012; Harju, Ari/C-2828-2009;Harju, Ari/0000-0002-2233-2896;4;0;0;0;4;1098-0121;WOS:000312291600007;;;J;Schuster, R.;Pyon, S.;Knupfer, M.;Azuma, M.;Takano, M.;Takagi, H.;Buechner, B.;Angle-dependent spectral weight transfer and evidence of a;symmetry-broken in-plane charge response in Ca1.9Na0.1CuO2Cl2;PHYSICAL REVIEW B;86;24;245112;10.1103/PhysRevB.86.245112;DEC 12 2012;2012;We report about the energy and momentum dependent charge response in;Ca1.9Na0.1CuO2Cl2 employing electron energy-loss spectroscopy. Along the;diagonal of the Brillouin zone (BZ) we find a plasmon peak-indicating;the presence of metallic states in this momentum region-which emerges as;a consequence of substantial spectral-weight transfer from excitations;across the charge-transfer (CT) gap and is the two-particle;manifestation of the small Fermi pocket or arc observed with;photoemission in this part of the BZ. In contrast, the spectrum along;the [100] direction is almost entirely dominated by CT excitations,;reminiscent of the insulating parent compound. We argue that the;observed polarization dependent shape of the spectrum is suggestive of a;breaking of the underlying tetragonal lattice symmetry, possibly due to;fluctuating nematic order in the charge channel. In addition we find the;plasmon bandwidth to be suppressed compared to optimally doped cuprates.;DOI: 10.1103/PhysRevB.86.245112;Takagi, Hidenori/B-2935-2010; PYON, Sunseng/B-2618-2011; Azuma, Masaki/C-2945-2009;0;0;0;0;0;1098-0121;WOS:000312292400006;;;J;Swingle, Brian;Experimental signatures of three-dimensional fractional topological;insulators;PHYSICAL REVIEW B;86;24;245111;10.1103/PhysRevB.86.245111;DEC 12 2012;2012;In this paper we explore experimental signatures of fractional;topological insulators in three dimensions. These are states of matter;with a fully gapped bulk that host exotic gapless surface states and;fractionally charged quasiparticles. They are partially characterized by;a nontrivial magneto-electric response while preserving time reversal.;We describe how these phases appear in a variety of probes including;photoemmission, tunneling, and quantum oscillations. We also discuss the;effects of doping and proximate superconductivity. We argue that despite;our current theoretical inability to predict materials where such phases;will be realized, they should be relatively easy to detect;experimentally. DOI:10.1103/PhysRevB.86.245111;0;0;0;0;0;1098-0121;WOS:000312292400005;;;J;Thomas, Mark;Romito, Alessandro;Decoherence effects on weak value measurements in double quantum dots;PHYSICAL REVIEW B;86;23;235419;10.1103/PhysRevB.86.235419;DEC 12 2012;2012;We study the effect of decoherence on a weak value measurement in a;paradigm system consisting of a double quantum dot continuously measured;by a quantum point contact. Fluctuations of the parameters controlling;the dot state induce decoherence. We find that, for measurements longer;than the decoherence time, weak values are always reduced within the;range of the eigenvalues of the measured observable. For measurements at;shorter time scales, the measured weak value strongly depends on the;interplay between the decoherence dynamics of the system and the;detector backaction. In particular, depending on the postselected state;and the strength of the decoherence, a more frequent classical readout;of the detector might lead to an enhancement of weak values.;Romito, Alessandro/L-3564-2013;Romito, Alessandro/0000-0003-3082-6279;1;0;0;0;1;1098-0121;WOS:000312291600009;;;J;Witczak-Krempa, William;Sachdev, Subir;Quasinormal modes of quantum criticality;PHYSICAL REVIEW B;86;23;235115;10.1103/PhysRevB.86.235115;DEC 12 2012;2012;We study charge transport of quantum critical points described by;conformal field theories in 2 + 1 space-time dimensions. The transport;is described by an effective field theory on an asymptotically anti-de;Sitter space-time, expanded to fourth order in spatial and temporal;gradients. The presence of a horizon at nonzero temperatures implies;that this theory has quasinormal modes with complex frequencies. The;quasinormal modes determine the poles and zeros of the conductivity in;the complex frequency plane, and so fully determine its behavior on the;real frequency axis, at frequencies both smaller and larger than the;absolute temperature. We describe the role of particle-vortex or S;duality on the conductivity, specifically how it maps poles to zeros and;vice versa. These analyses motivate two sum rules obeyed by the quantum;critical conductivity: the holographic computations are the first to;satisfy both sum rules, while earlier Boltzmann-theory computations;satisfy only one of them. Finally, we compare our results with the;analytic structure of the O(N) model in the large-N limit, and other;CFTs.;Sachdev, Subir/A-8781-2013;Sachdev, Subir/0000-0002-2432-7070;13;0;0;0;13;1098-0121;WOS:000312291600001;;;J;Zielke, Robert;Braunecker, Bernd;Loss, Daniel;Cotunneling in the v=5/2 fractional quantum Hall regime;PHYSICAL REVIEW B;86;23;235307;10.1103/PhysRevB.86.235307;DEC 12 2012;2012;We show that cotunneling in the 5/2 fractional quantum Hall regime;allows us to test the Moore-Read wave function, proposed for this;regime, and to probe the nature of the fractional charge carriers. We;calculate the cotunneling current for electrons that tunnel between two;quantum Hall edge states via a quantum dot and for quasiparticles with;fractional charges e/4 and e/2 that tunnel via an antidot. While;electron cotunneling is strongly suppressed, the quasiparticle tunneling;shows signatures characteristic of the Moore-Read state. For comparison,;we also consider cotunneling between Laughlin states, and find that;electron transport between Moore-Read states and between Laughlin states;at filling factor 1/3 have identical voltage dependences.;Loss, Daniel/A-3721-2008;Loss, Daniel/0000-0001-5176-3073;0;0;0;0;0;1098-0121;WOS:000312291600003;;;J;de Andres, P. L.;Guinea, F.;Katsnelson, M. I.;Density functional theory analysis of flexural modes, elastic constants,;and corrugations in strained graphene;PHYSICAL REVIEW B;86;24;245409;10.1103/PhysRevB.86.245409;DEC 11 2012;2012;Ab initio density functional theory has been used to analyze flexural;modes, elastic constants, and atomic corrugations on single-and bi-layer;graphene. Frequencies of flexural modes are sensitive to compressive;stress; its variation under stress can be related to the anomalous;thermal expansion via a simple model based in classical elasticity;theory [P. L. de Andres, F. Guinea, and M. I. Katsnelson, Phys. Rev. B;86, 144103 (2012)]. Under compression, flexural modes are responsible;for a long-wavelength rippling with a large amplitude and a marked;anharmonic behavior. This is compared with corrugations created by;thermal fluctuations and the adsorption of a light impurity (hydrogen).;Typical values for the later are in the sub-Angstrom regime, while;maximum corrugations associated to bending modes quickly increase up to;a few Angstroms under a compressive stress, due to the intrinsic;instability of flexural modes. DOI: 10.1103/PhysRevB.86.245409;Katsnelson, Mikhail/D-4359-2012; Guinea, Francisco/A-7122-2008; de Andres, Pedro/B-2043-2010; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Guinea, Francisco/0000-0001-5915-5427;;8;1;0;0;8;1098-0121;WOS:000312292100004;;;J;Glaessl, M.;Axt, V. M.;Polarization dependence of phonon influences in exciton-biexciton;quantum dot systems;PHYSICAL REVIEW B;86;24;245306;10.1103/PhysRevB.86.245306;DEC 11 2012;2012;We report on a strong dependence of the phonon-induced damping of Rabi;dynamics in an optically driven exciton-biexciton quantum dot system on;the polarization of the exciting pulse. While for a fixed pulse;intensity the damping is maximal for linearly polarized excitation, it;decreases with increasing ellipticity of the polarization. This finding;is most remarkable considering that the carrier-phonon coupling is spin;independent. In addition to simulations based on a numerically exact;real-time path-integral approach, we present an analysis within a;weak-coupling theory that allows for analytical expressions for the;pertinent damping rates. We demonstrate that an efficient coupling to;the biexciton state is of central importance for the reported;polarization dependencies. Further, we discuss influences of various;system parameters and show that, for finite biexciton binding energies,;Rabi scenarios differ qualitatively from the widely studied two-level;dynamics. DOI: 10.1103/PhysRevB.86.245306;2;0;0;0;2;1098-0121;WOS:000312292100003;;;J;Ishioka, J.;Fujii, T.;Katono, K.;Ichimura, K.;Kurosawa, T.;Oda, M.;Tanda, S.;Reply to "Comment on 'Charge-parity symmetry observed through Friedel;oscillations in chiral charge-density waves' ";PHYSICAL REVIEW B;86;24;247102;10.1103/PhysRevB.86.247102;DEC 11 2012;2012;We are responding to the Comment by J. Wezel on our paper. This study;was developed from our previous work [Ishioka et al., Phys. Rev. Lett.;105, 176401 (2010)]. In the PRL paper, H-CDW was defined as a new;parameter for expressing CDW chirality for the first time. In his;Comment, he claims that H-CDW is ill defined. He also claims that the;initial phase phi of the CDW wave function is a more appropriate;parameter for expressing chiral CDW, despite our early introduction of;phi to explain the experimental data described in the PRL paper.;However, we conclude that H-CDW can distinguish the CDW chirality by its;sign. Moreover, by considering different H-CDW signs, we had succeeded;in demonstrating the difference of the spatial distributions of CDWs as;shown in Fig. 4 of the PRB paper [Phys. Rev. B 84, 245125 (2011)]. In;our Reply, we discuss the validity of H-CDW. We show that his argument;regarding the identification of the CDW with the opposite sign of q is;wrong, since the logic is inapplicable to a wave function with a nonzero;phi. We also discuss the applicability of H-CDW to two- or;three-dimensional CDWs in transition metal dichalcogenides. DOI:;10.1103/PhysRevB.86.247102;0;0;0;0;0;1098-0121;WOS:000312292100007;;;J;Kallos, Efthymios;Chremmos, Ioannis;Yannopapas, Vassilios;Resonance properties of optical all-dielectric metamaterials using;two-dimensional multipole expansion;PHYSICAL REVIEW B;86;24;245108;10.1103/PhysRevB.86.245108;DEC 11 2012;2012;We examine the electromagnetic response of metamaterial unit elements;consisting of dielectric rods embedded in a nonmagnetic background;medium. We establish a theoretical framework in which the response is;described through the electric and magnetic multipole moments that are;simultaneously generated via the polarization currents that are excited;upon the incidence of plane waves. The corresponding dipole and;quadrupole polarizabilities are then calculated as a function of the Mie;scattering coefficients, and their resonances are mapped for the case of;dielectric cylindrical rods as a function of the geometry and the;material parameters used. The results provide critical insight into the;anisotropic response of two-dimensional rod-type metamaterials and can;be used as a unified methodology in the calculation of exotic effective;electromagnetic parameters involved in phenomena such as optical;magnetism. DOI: 10.1103/PhysRevB.86.245108;5;0;0;0;5;1098-0121;WOS:000312292100001;;;J;Lim, Linda Y.;Lany, Stephan;Chang, Young Jun;Rotenberg, Eli;Zunger, Alex;Toney, Michael F.;Angle-resolved photoemission and quasiparticle calculation of ZnO: The;need for d band shift in oxide semiconductors;PHYSICAL REVIEW B;86;23;235113;10.1103/PhysRevB.86.235113;DEC 11 2012;2012;ZnO is a prototypical semiconductor with occupied d(10) bands that;interact with the anion p states and is thus challenging for electronic;structure theories. Within the context of these theories, incomplete;cancellation of the self-interaction energy results in a Zn d band that;is too high in energy, resulting in upwards repulsion of the valence;band maximum (VBM) states, and an unphysical reduction of the band gap.;Methods such as GW should significantly reduce the self-interaction;error, and in order to evaluate such calculations, we measured;high-resolution and resonant angle-resolved photoemission spectroscopy;(ARPES) and compared these to several electronic structure calculations.;We find that, in a standard GW calculation, the d bands remain too high;in energy by more than 1 eV irrespective of the Hamiltonian used for;generating the input wave functions, causing a slight underestimation of;the band gap due to the p-d repulsion. We show that a good agreement;with the ARPES data over the full valence band spectrum is obtained,;when the Zn-d band energy is shifted down by applying an on-site;potential V-d for Zn-d states during the GW calculations to match the;measured d band position. The magnitude of the GW quasiparticle energy;shift relative to the initial density functional calculation is of;importance for the prediction of charged defect formation energies,;band-offsets, and ionization potentials. DOI: 10.1103/PhysRevB.86.235113;Zunger, Alex/A-6733-2013; Lim, Ying Wen Linda/A-8608-2012; Rotenberg, Eli/B-3700-2009; Chang, Young Jun/N-3440-2014;Rotenberg, Eli/0000-0002-3979-8844; Chang, Young Jun/0000-0001-5538-0643;15;0;0;0;15;1098-0121;WOS:000312291700002;;;J;Liu, Tao;Lee, Kenneth E.;Wang, Qi Jie;Microscopic density matrix model for optical gain of terahertz quantum;cascade lasers: Many-body, nonparabolicity, and resonant tunneling;effects;PHYSICAL REVIEW B;86;23;235306;10.1103/PhysRevB.86.235306;DEC 11 2012;2012;Intersubband semiconductor-Bloch equations are investigated by;incorporating many-body Coulomb interaction, nonparabolicity, and;coherence of resonant tunneling transport in a quantitative way based on;the density matrix theory. The calculations demonstrate the importance;of these parameters on optical properties, especially the optical gain;spectrum, of terahertz (THz) quantum cascade lasers (QCLs). The results;show that the lasing frequency at gain peak calculated by the proposed;microscopic density matrix model is closer to the experimentally;measured result, compared with that calculated by the existing;macroscopic density matrix model. Specifically, both the many-body;interaction and nonparabolicity effects red-shift the gain spectrum and;reduce the gain peak. In addition, as the injection-coupling strength;increases, the gain peak value is enhanced and the spectrum is slightly;broadened, while an increase of the extraction-coupling strength reduces;the gain peak value and broadens the gain spectrum. The dependence of;optical gain of THz QCLs on device parameters such as external;electrical bias, dephasing rate, doping density, and temperature is also;systematically studied in details. This model provides a more;comprehensive picture of the optical properties of THz QCLs from a;microscopic point of view and potentially enables a more accurate and;faster prediction and calculation of the device performance, e. g., gain;spectra, current-voltage characteristics, optical output powers, and;nonlinear amplitude-phase coupling. DOI: 10.1103/PhysRevB.86.235306;Wang, Qi Jie/E-6987-2010;5;0;0;0;5;1098-0121;WOS:000312291700004;;;J;Pedersen, Jesper Goor;Gunst, Tue;Markussen, Troels;Pedersen, Thomas Garm;Graphene antidot lattice waveguides;PHYSICAL REVIEW B;86;24;245410;10.1103/PhysRevB.86.245410;DEC 11 2012;2012;We introduce graphene antidot lattice waveguides: nanostructured;graphene where a region of pristine graphene is sandwiched between;regions of graphene antidot lattices. The band gaps in the surrounding;antidot lattices enable localized states to emerge in the central;waveguide region. We model the waveguides via a position-dependent mass;term in the Dirac approximation of graphene and arrive at analytical;results for the dispersion relation and spinor eigenstates of the;localized waveguide modes. To include atomistic details we also use a;tight-binding model, which is in excellent agreement with the analytical;results. The waveguides resemble graphene nanoribbons, but without the;particular properties of ribbons that emerge due to the details of the;edge. We show that electrons can be guided through kinks without;additional resistance and that transport through the waveguides is;robust against structural disorder. DOI: 10.1103/PhysRevB.86.245410;Goor Pedersen, Jesper/C-3965-2008; Gunst, Tue/C-6575-2013; Markussen, Troels/B-7800-2012;Goor Pedersen, Jesper/0000-0002-8411-240X; Gunst,;Tue/0000-0002-3000-5940; Markussen, Troels/0000-0003-1192-4025;9;0;0;0;9;1098-0121;WOS:000312292100005;;;J;Ramos, J. G. G. S.;Barbosa, A. L. R.;Bazeia, D.;Hussein, M. S.;Lewenkopf, C. H.;Generalized correlation functions for conductance fluctuations and the;mesoscopic spin Hall effect;PHYSICAL REVIEW B;86;23;235112;10.1103/PhysRevB.86.235112;DEC 11 2012;2012;We study the spin Hall conductance fluctuations in ballistic mesoscopic;systems. We obtain universal expressions for the spin and charge current;fluctuations, cast in terms of current-current autocorrelation;functions. We show that the latter are conveniently parametrized as;deformed Lorentzian shape lines, functions of an external applied;magnetic field and the Fermi energy. We find that the charge current;fluctuations show quite unique statistical features at the;symplectic-unitary crossover regime. Our findings are based on an;evaluation of the generalized transmission coefficients correlation;functions within the stub model and are amenable to experimental test.;DOI: 10.1103/PhysRevB.86.235112;1, INCT/G-5846-2013; Informacao quantica, Inct/H-9493-2013; Lewenkopf, Caio/A-1791-2014;Lewenkopf, Caio/0000-0002-2053-2798;1;0;0;0;1;1098-0121;WOS:000312291700001;;;J;Ruth, Marcel;Meier, Cedrik;Scaling coefficient for three-dimensional grain coalescence of ZnO on;Si(111);PHYSICAL REVIEW B;86;22;224108;10.1103/PhysRevB.86.224108;DEC 11 2012;2012;Grain-rotation-induced coalescence is a well-known growth mechanism of;granular/polycrystalline systems in two dimensions. In three-dimensional;(3D) crystals there are more degrees of freedom, and influences of the;substrate play an important role. In the present work we analyze the 3D;coalescence of ZnO grains on Si(111) by thermal annealing under O-2;atmosphere. Atomic force microscopy and electron backscatter diffraction;measurements reveal a significant increase in the mean grain diameter;and a reorientation that matches the substrate orientation. This;structural reorganization leads to a substantial enhancement of the;electronic layer quality. We describe the grain growth with a diffusive;model and find a volume scaling coefficient of 1.5. This proves that the;additional degrees of freedom significantly accelerate grain-rotation;induced coalescence in three dimensions. DOI: 10.1103/PhysRevB.86.224108;Meier, Cedrik/E-4877-2011;Meier, Cedrik/0000-0002-3787-3572;4;0;0;0;4;1098-0121;WOS:000312291300001;;;J;van den Berg, T. L.;Lombardo, P.;Kuzian, R. O.;Hayn, R.;Orbital polaron in double-exchange ferromagnets;PHYSICAL REVIEW B;86;23;235114;10.1103/PhysRevB.86.235114;DEC 11 2012;2012;We investigate the spectral properties of the two-orbital Hubbard model,;including the pair hopping term, by means of the dynamical mean field;method. This Hamiltonian describes materials in which ferromagnetism is;realized by the double-exchange mechanism, as for instance manganites,;nickelates, or diluted magnetic semiconductors. The spectral function of;the unoccupied states is characterized by a specific equidistant three;peak structure. We emphasize the importance of the double hopping term;on the spectral properties. We show the existence of a ferromagnetic;phase due to electron doping near n = 1 by the double-exchange;mechanism. A quasiparticle excitation at the Fermi energy is found that;we attribute to what we will call an orbital polaron. We derive an;effective spin-pseudospin Hamiltonian for the two-orbital;double-exchange model at n = 1 filling to explain the existence and;dynamics of this quasiparticle. DOI: 10.1103/PhysRevB.86.235114;Kuzian, Roman/C-9079-2012; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Kuzian, Roman/0000-0002-6672-7224;;1;0;0;0;1;1098-0121;WOS:000312291700003;;;J;van Wezel, Jasper;Comment on "Charge-parity symmetry observed through Friedel oscillations;in chiral charge-density waves";PHYSICAL REVIEW B;86;24;247101;10.1103/PhysRevB.86.247101;DEC 11 2012;2012;In their publication [Phys. Rev. B 84, 245125 (2011)], Ishioka et al.;discuss the recently discovered chiral charge-density wave state in;1T-TiSe2 in terms of a parameter H-CDW, whose sign is suggested to;correspond to the handedness of the chiral order. Here, we point out;that H-CDW, as defined by Ishioka et al., cannot be used to characterize;chirality in that way. An alternative measure of chirality for the;specific case of 1T-TiSe2 is suggested. DOI: 10.1103/PhysRevB.86.247101;2;0;0;0;2;1098-0121;WOS:000312292100006;;;J;Wan, Li;Iacovella, Christopher R.;Nguyen, Trung D.;Docherty, Hugh;Cummings, Peter T.;Confined fluid and the fluid-solid transition: Evidence from absolute;free energy calculations;PHYSICAL REVIEW B;86;21;214105;10.1103/PhysRevB.86.214105;DEC 11 2012;2012;The debate on whether an organic fluid nanoconfined by mica sheets will;undergo a fluid-to-solid transition as the fluid film thickness is;reduced below a critical value has lasted over two decades. Extensive;experimental and simulation investigations have thus far left this;question only partially addressed. In this work, we adapt and apply;absolute free energy calculations to analyze the phase behavior of a;simple model for nanoconfined fluids, consisting of spherical;Lennard-Jones (LJ) molecules confined between LJ solid walls, which we;use in combination with grand-canonical molecular dynamics simulations.;Absolute Helmholtz free energy calculations of the simulated;nanoconfined systems directly support the existence of order-disorder;phase transition as a function of decreasing wall separation, providing;results in close agreement with previous experiments and detailed;atomistic simulations. DOI: 10.1103/PhysRevB.86.214105;Iacovella, Christopher/D-2050-2011; Cummings, Peter/B-8762-2013;Cummings, Peter/0000-0002-9766-2216;5;0;0;0;5;1098-0121;WOS:000312290000001;;;J;Zaletel, Michael P.;Mong, Roger S. K.;Exact matrix product states for quantum Hall wave functions;PHYSICAL REVIEW B;86;24;245305;10.1103/PhysRevB.86.245305;DEC 11 2012;2012;We show that the model wave functions used to describe the fractional;quantum Hall effect have exact representations as matrix product states;(MPS). These MPS can be implemented numerically in the orbital basis of;both finite and infinite cylinders, which provides an efficient way of;calculating arbitrary observables. We extend this approach to the;charged excitations and numerically compute their Berry phases. Finally,;we present an algorithm for numerically computing the real-space;entanglement spectrum starting from an arbitrary orbital basis MPS,;which allows us to study the scaling properties of the real-space;entanglement spectra on infinite cylinders. The real-space entanglement;spectrum obeys a scaling form dictated by the edge conformal field;theory, allowing us to accurately extract the two entanglement;velocities of the Moore-Read state. In contrast, the orbital space;spectrum is observed to scale according to a complex set of power laws;that rule out a similar collapse. DOI: 10.1103/PhysRevB.86.245305;16;0;0;0;16;1098-0121;WOS:000312292100002;;;J;Berdiyorov, G. R.;Chao, X. H.;Peeters, F. M.;Wang, H. B.;Moshchalkov, V. V.;Zhu, B. Y.;Magnetoresistance oscillations in superconducting strips: A;Ginzburg-Landau study;PHYSICAL REVIEW B;86;22;224504;10.1103/PhysRevB.86.224504;DEC 10 2012;2012;Within the time-dependent Ginzburg-Landau theory we study the dynamic;properties of current-carrying superconducting strips in the presence of;a perpendicular magnetic field. We found pronounced voltage peaks as a;function of the magnetic field, the amplitude of which depends both on;sample dimensions and external parameters. These voltage oscillations;are a consequence of moving vortices, which undergo alternating static;and dynamic phases. At higher fields or for high currents, the;continuous motion of vortices is responsible for the monotonic;background on which the resistance oscillations due to the entry of;additional vortices are superimposed. Mechanisms for such;vortex-assisted resistance oscillations are discussed. Qualitative;changes in the magnetoresistance curves are observed in the presence of;random defects, which affect the dynamics of vortices in the system.;Zhu, Bei Yi/C-1506-2011; Moshchalkov, Victor/I-7232-2013; Wang, HB/M-7461-2013;2;0;0;0;2;1098-0121;WOS:000312064300004;;;J;Bogan, A.;Hatke, A. T.;Studenikin, S. A.;Sachrajda, A.;Zudov, M. A.;Pfeiffer, L. N.;West, K. W.;Microwave-induced resistance oscillations in tilted magnetic fields;PHYSICAL REVIEW B;86;23;235305;10.1103/PhysRevB.86.235305;DEC 10 2012;2012;We have studied the effect of an in-plane magnetic field on;microwave-induced resistance oscillations in a high mobility;two-dimensional electron system. We have found that the oscillation;amplitude decays exponentially with an in-plane component of the;magnetic field B-parallel to. While these findings cannot be accounted;for by existing theories, our analysis suggests that the decay can be;explained by a B-parallel to-induced correction to the quantum;scattering rate, which is quadratic in B-parallel to.;Zudov, Michael/A-3013-2008;7;1;0;0;7;1098-0121;WOS:000312064700005;;;J;Dahl, J.;Kuzmin, M.;Adell, J.;Balasubramanian, T.;Laukkanen, P.;Formation of polar InN with surface Fermi level near the valence band;maximum by means of ammonia nitridation;PHYSICAL REVIEW B;86;24;245304;10.1103/PhysRevB.86.245304;DEC 10 2012;2012;Development of InN films for devices is hindered due to metallic In;clusters, formed readily during growth, and unintentional n-type;conductivity of the nominally undoped films, including surface;electron-accumulation layers via the Fermi level pinning into the;conduction band. Plasma nitridation eliminates even large In clusters;from the surface by changing them to two-dimensional InN [Yamaguchi and;Nanishi, Appl. Phys. Expr. 2, 051001 (2009)]. Here we utilized a similar;approach, that is, nitridation of In-covered surfaces with ammonia (NH3);to grow thin, up to 25 nm thick polar InN films on Si(111) and GaN(0001);substrates. By means of scanning tunneling microscopy and spectroscopy,;as well as photoelectron spectroscopy, we show that this simple NH3;nitridation provides the hitherto not reported formation of polar;InN(000-1) films with the surface Fermi level close to the valence band;maximum, as recent calculations [Belabbes et al., Phys. Rev. B 84,;205304 (2011)] predict. DOI: 10.1103/PhysRevB.86.245304;1;0;0;0;1;1098-0121;WOS:000312065400006;;;J;Ghosh, Sankha;English, Niall J.;Ab initio study on optoelectronic properties of interstitially versus;substitutionally doped titania;PHYSICAL REVIEW B;86;23;235203;10.1103/PhysRevB.86.235203;DEC 10 2012;2012;Density functional theory calculations were performed for Cr, N, and C;monodoping in both rutile and anatase phases of crystalline titania. The;formation and binding energies, electronic structure, and optical;properties were determined. It was found that although C has a;predominant preference for occupying a lattice O-site, N has higher;preference for interstitial occupancy in the vicinity of an O atom in;anatase, whereas both prefer to maintain interstitial occupancy in;rutile, albeit with both N and C exhibiting a relatively higher;preference for anatase over rutile. Furthermore, Cr is more;energetically stable in the rutile phase relative to anatase for;substitutional doping, albeit with comparable formation energies for;both interstitial and substitutional doping. Interstitial C-impurities;were observed to occupy the oxygen lattice sites in anatase, but not in;rutile. In terms of N-doping, it was found that interstitial doping;exhibits higher visible light photoactivity than substitutional doping.;1;0;0;0;1;1098-0121;WOS:000312064700003;;;J;Howie, Ross T.;Scheler, Thomas;Guillaume, Christophe L.;Gregoryanz, Eugene;Proton tunneling in phase IV of hydrogen and deuterium;PHYSICAL REVIEW B;86;21;214104;10.1103/PhysRevB.86.214104;DEC 10 2012;2012;Using in situ optical spectroscopy we have investigated the temperature;stability of the mixed atomic and molecular phases IV of dense deuterium;and hydrogen. Through a series of low-temperature experiments at high;pressures, we observe phase III-to-IV transformation, imposing;constraints on the P-T phase diagrams. The spectral features of the;phase IV-III transition and differences in appearances of the isotopes;Raman spectra strongly indicate the presence of proton tunneling in;phase IV. No differences between isotopes were observed in absorption;spectroscopic studies, resulting in identical values for the band gap.;The extrapolation of the combined band gap yields 375 GPa as the minimum;transition pressure to the metallic state of hydrogen (deuterium). The;minute changes in optical spectra above 275 GPa might suggest the;presence of a new solid modification of hydrogen (deuterium), closely;related structurally to phase IV. DOI: 10.1103/PhysRevB. 86.214104;15;1;0;0;15;1098-0121;WOS:000312063700001;;;J;Hrahsheh, Fawaz;Hoyos, Jose A.;Vojta, Thomas;Rounding of a first-order quantum phase transition to a strong-coupling;critical point;PHYSICAL REVIEW B;86;21;214204;10.1103/PhysRevB.86.214204;DEC 10 2012;2012;We investigate the effects of quenched disorder on first-order quantum;phase transitions on the example of the N-color quantum Ashkin-Teller;model. By means of a strong-disorder renormalization group, we;demonstrate that quenched disorder rounds the first-order quantum phase;transition to a continuous one for both weak and strong coupling between;the colors. In the strong-coupling case, we find a distinct type of;infinite-randomness critical point characterized by additional internal;degrees of freedom. We investigate its critical properties in detail and;find stronger thermodynamic singularities than in the random transverse;field Ising chain. We also discuss the implications for higher spatial;dimensions as well as unusual aspects of our renormalization-group;scheme. DOI: 10.1103/PhysRevB.86.214204;Hoyos, Jose/F-2742-2012;2;0;0;0;2;1098-0121;WOS:000312063700002;;;J;Huevonen, D.;Zhao, S.;Ehlers, G.;Mansson, M.;Gvasaliya, S. N.;Zheludev, A.;Excitations in a quantum spin liquid with random bonds;PHYSICAL REVIEW B;86;21;214408;10.1103/PhysRevB.86.214408;DEC 10 2012;2012;We present the results of an inelastic neutron-scattering study on two;bond disordered quasi-two-dimensional quantum magnets;(C4H12N2)Cu-2(Cl1-xBrx)(6) with x = 0.035 and 0.075. We observe an;increase of spin gap, a reduction of magnon bandwidth, and a decrease of;magnon lifetimes compared to the x = 0 sample. Additional magnon damping;is observed at higher energies away from the zone center, which is found;to follow the density of single-particle states. DOI:;10.1103/PhysRevB.86.214408;Instrument, CNCS/B-4599-2012; Ehlers, Georg/B-5412-2008; Huvonen, Dan/A-6664-2008; Mansson, Martin/C-1134-2014;8;0;0;0;8;1098-0121;WOS:000312063700005;;;J;Hwang, Kyusung;Park, Kwon;Kim, Yong Baek;Influence of Dzyaloshinskii-Moriya interactions on magnetic structure of;a spin-1/2 deformed kagome lattice antiferromagnet;PHYSICAL REVIEW B;86;21;214407;10.1103/PhysRevB.86.214407;DEC 10 2012;2012;Motivated by the recent neutron-scattering experiment on Rb2Cu3SnF12;[Nature Phys. 6, 865 (2010)], we investigate the effect of;Dzyaloshinskii-Moriya interactions in a theoretical model for the;magnetic structure of this material. Considering the valence bond solid;ground state, which has a 12-site unit cell, we develop the bond;operator mean-field theory. It is shown that the Dzyaloshinskii-Moriya;interactions significantly modify the triplon dispersions around the;Gamma point and cause a shift of the spin-gap (the minimum triplon gap);position from the K to Gamma point in the first Brillouin zone. The spin;gap is also evaluated in exact diagonalization studies on a 24-site;cluster. We discuss a magnetic transition induced by the;Dzyaloshinskii-Moriya interactions in the bond operator framework.;Moreover, the magnetization process under external magnetic fields is;studied within the exact diagonalization approach. We find that the;results of both approaches are consistent with the experimental;findings. DOI: 10.1103/PhysRevB.86.214407;3;0;0;0;3;1098-0121;WOS:000312063700004;;;J;Ignacio, M.;Pierre-Louis, O.;Impalement dynamics and Brownian motion of solid islands on nanopillars;PHYSICAL REVIEW B;86;23;235410;10.1103/PhysRevB.86.235410;DEC 10 2012;2012;We study the dynamics of solid islands deposited on nanopillars using;kinetic Monte Carlo simulations. The islands are initially placed on the;top of the pillars, in the so-called Cassie-Baxter state. For high;pillars, the dynamics is divided into two phases. The first phase;corresponds to the deterministic and irreversible impalement of the;island. The dynamics of this phase is governed by surface diffusion.;Once the island has collapsed, a second phase is observed where the;island exhibits Brownian motion along the pillars, characterized by a;diffusion constant D-i and a kinetic coefficient K-i accounting for the;interaction of the island with the top of the pillars. The random walk;stops when the island reaches the bottom of the substrate, where it;sticks irreversibly. When the island wettability is small, the island;diffusion constant D-i is controlled by adatom diffusion, and scales as;the inverse of the number of atoms in the island. In contrast, for large;wettabilities, we observe that D-i oscillates as the island size is;increased. The minimum of the oscillations corresponds to;nucleation-limited dynamics, where D-i is independent of the island;size. We also determine the time for partial irreversible collapse on;shorter pillars, leading to the so-called Wenzel state. Finally, we;discuss the orders of magnitude of the typical duration of these;processes.;2;0;0;0;2;1098-0121;WOS:000312064700007;;;J;Jarlborg, T.;Barbiellini, B.;Markiewicz, R. S.;Bansil, A.;Different doping from apical and planar oxygen vacancies in;Ba2CuO4-delta and La2CuO4-delta: First-principles band structure;calculations;PHYSICAL REVIEW B;86;23;235111;10.1103/PhysRevB.86.235111;DEC 10 2012;2012;First-principles band structure calculations for large supercells of;Ba2CuO4-delta and La2CuO4-delta with different distributions and;concentrations of oxygen vacancies show that the effective doping on;copper sites strongly depends on where the vacancy is located. A vacancy;within the Cu layer produces a weak doping effect while a vacancy;located at an apical oxygen site acts as a stronger electron dopant on;the copper layers and gradually brings the electronic structure close to;that of La2-xSrxCuO4. These effects are robust and only depend;marginally on lattice distortions. Our results show that deoxygenation;can reduce the effect of traditional La/Sr or La/Nd substitutions. Our;study clearly identifies location of the dopant in the crystal structure;as an important factor in doping of the cuprate planes.;6;0;0;0;6;1098-0121;WOS:000312064700002;;;J;Kunimori, K.;Nakamura, M.;Nohara, H.;Tanida, H.;Sera, M.;Nishioka, T.;Matsumura, M.;Unusual magnetic order in CeT2Al10 (T = Ru, Os) in comparison with;localized NdFe2Al10;PHYSICAL REVIEW B;86;24;245106;10.1103/PhysRevB.86.245106;DEC 10 2012;2012;We have investigated the magnetic properties in the well localized;compound NdFe2Al10 and the Kondo semiconductor CeT2Al10 (T = Ru, Os) to;clarify the origin of the unusual magnetic order in CeT2Al10. In;NdFe2Al10, the experimental results of the magnetic properties could be;reproduced very well by the mean-field calculation for the;two-sublattice model. In CeT2Al10 we could reproduce the anisotropic;magnetic susceptibility in the paramagnetic region above 60-100 K very;well by the mean-field calculation for the two-sublattice model;introducing an anisotropic exchange interaction and the recently;determined crystalline electric field (CEF) level scheme from Strigari;et al. [Phys. Rev. B 86, 081105 (2012)]. However, in the;antiferromagnetic (AFM) ordered state, we could not reproduce the;experimental results at all in the framework of the mean-field;calculation for the two-sublattice model. We propose that although the;magnetic properties in the paramagnetic region above 60-100 K could be;understood well by a localized picture, the ordered state could not, and;that the c-f hybridization, especially along the a axis, is associated;with the unusual magnetic order in CeT2Al10. DOI:;10.1103/PhysRevB.86.245106;Tanida, Hiroshi/E-1878-2013;14;0;0;0;14;1098-0121;WOS:000312065400003;;;J;Lee, Jin Bae;Hong, Won G.;Kim, Hae Jin;Jaglicic, Z.;Jazbec, S.;Wencka, M.;Jelen, A.;Dolinsek, J.;Canted antiferromagnetism on a nanodimensional spherical surface;geometry: The case of MnCO3 small hollow nanospheres;PHYSICAL REVIEW B;86;22;224407;10.1103/PhysRevB.86.224407;DEC 10 2012;2012;Canted antiferromagnetism on a nanodimensional spherical surface;geometry was investigated on manganese carbonate MnCO3 small hollow;nanospheres of mean diameter 7.0 +/- 0.3 nm and shell thickness of 0.7;nm, by performing magnetic measurements and specific heat study, in;comparison to the bulk form of the same material. Contrary to the;expectation that small magnetic nanoparticles become superparamagnetic,;the phase transition to the canted antiferromagnetic (AFM) state in the;MnCO3 hollow nanospheres is preserved and retains, at a qualitative;level, all the features of the canted AFM state of the bulk material. At;a quantitative level, some significant differences between the hollow;nanospheres and the bulk were observed, which can all be explained by;the weakened interspin interactions in the hollow nanospheres due to;reduced atomic coordination by the neighboring atoms. This makes the;canted AFM structure of the hollow nanospheres more soft and fragile;with respect to external forces like the magnetic field, as compared to;the rigid and robust structure of the bulk material.;1;0;0;0;1;1098-0121;WOS:000312064300002;;;J;Levkivskyi, Ivan P.;Froehlich, Juerg;Sukhorukov, Eugene V.;Theory of fractional quantum Hall interferometers;PHYSICAL REVIEW B;86;24;245105;10.1103/PhysRevB.86.245105;DEC 10 2012;2012;Interference of fractionally charged quasiparticles is expected to lead;to Aharonov-Bohm oscillations with periods larger than the flux quantum.;However, according to the Byers-Yang theorem, observables of an;electronic system are invariant under an adiabatic insertion of a;quantum of singular flux. We resolve this seeming paradox by considering;a microscopic model of electronic interferometers made from a quantum;Hall liquid at filling factor 1/m with the shape of a Corbino disk. In;such interferometers, the quantum Hall edge states are utilized in place;of optical beams, the quantum point contacts play the role of beam;splitters connecting different edge channels, and Ohmic contacts;represent a source and drain of quasiparticle currents. Depending on the;position of Ohmic contacts, one distinguishes interferometers of;Fabry-Perot (FP) and Mach-Zehnder (MZ) type. An approximate ground state;of such interferometers is described by a Laughlin-type wave function,;and low-energy excitations are incompressible deformations of this;state. We construct a low-energy effective theory by restricting the;microscopic Hamiltonian of electrons to the space of incompressible;deformations and show that the theory of the quantum Hall edge so;obtained is a generalization of a chiral conformal field theory. In our;theory, a quasiparticle tunneling operator is found to be a;single-valued function of tunneling point coordinates, and its phase;depends on the topology determined by the positions of Ohmic contacts.;We describe strong coupling of the edge states to Ohmic contacts and the;resulting quasiparticle current through the interferometer with the help;of a master equation. We find that the coherent contribution to the;average quasiparticle current through MZ interferometers does not vanish;after summation over quasiparticle degrees of freedom. However, it;acquires oscillations with the electronic period, in agreement with the;Byers-Yang theorem. Importantly, our theory does not rely on any ad hoc;constructions, such as Klein factors, etc. When the magnetic flux;through an FP interferometer is varied with a modulation gate, current;oscillations have the quasiparticle periodicity, thus allowing for;spectroscopy of quantum Hall edge states. DOI:;10.1103/PhysRevB.86.245105;2;0;0;0;2;1098-0121;WOS:000312065400002;;;J;Li, Chun-Mei;Luo, Hu-Bin;Hu, Qing-Miao;Yang, Rui;Johansson, Borje;Vitos, Levente;Role of magnetic and atomic ordering in the martensitic transformation;of Ni-Mn-In from a first-principles study;PHYSICAL REVIEW B;86;21;214205;10.1103/PhysRevB.86.214205;DEC 10 2012;2012;The composition-dependent lattice parameters, crystal structure, elastic;properties, magnetic moment, and electronic structure of Ni2Mn1+xIn1-x;(0 <= x <= 0.6) are studied by using first-principles calculations. It;is shown that the martensitic phase transition (MPT) from cubic L2(1) to;tetragonal L1(0) accompanies theMn(Mn)-Mn-In ferromagnetic (FM) to;antiferromagnetic (AFM) transition, at around the critical composition x;= 0.32, in agreement with the experimental measurement. The Mn-In atomic;disorder leads to decreasing stability of the martensite relative to the;austenite, which depresses the MPT. The shear elastic constant C' of the;parent phase first decreases slightly with increasing x and then remains;almost unchanged above x = 0.32, indicating C' alone cannot account for;the increase of the MPT temperature with x. The total magnetic moments;for the L2(1) phase are in good agreement with those determined by;experiments, whereas for the L1(0) phase they are slightly larger than;the experimental data due to the possibleMn-In atomic disorder in the;sample. The calculated density of states demonstrate that the covalent;bonding between the minority spin states of Ni and In plays an important;role in both the magnetic and structural stability. DOI:;10.1103/PhysRevB.86.214205;Hu, Qing-Miao/D-3345-2014;5;0;0;0;5;1098-0121;WOS:000312063700003;;;J;Liu, Bin;Seko, Atsuto;Tanaka, Isao;Cluster expansion with controlled accuracy for the MgO/ZnO pseudobinary;system via first-principles calculations;PHYSICAL REVIEW B;86;24;245202;10.1103/PhysRevB.86.245202;DEC 10 2012;2012;Using the cluster analysis of the structure population (CASP) method,;error of cluster expansion (CE) can be controlled. Combining the CASP-CE;with a systematic set of first-principles total energies, a model;wide-gap pseudobinary system with simple crystal structures MgO-ZnO is;revisited. Ground-state structures are exhaustively searched for both;rocksalt and wurtzite structures. A few structures as yet unreported are;found. The vibrational contribution to the Gibbs free-energy is;evaluated by first-principles phonon calculations within the;quasiharmonic approximation. Monte Carlo simulations are then made to;compute grand potentials of two structures using the thermodynamic;integration. DOI: 10.1103/PhysRevB.86.245202;Tanaka, Isao/B-5941-2009; Liu, Bin/N-9955-2014;1;1;0;0;1;1098-0121;WOS:000312065400005;;;J;Liu, Pan;Santana, Juan A. Colon;Dai, Qilin;Wang, Xianjie;Dowben, Peter A.;Tang, Jinke;Sign of the superexchange coupling between next-nearest neighbors in EuO;PHYSICAL REVIEW B;86;22;224408;10.1103/PhysRevB.86.224408;DEC 10 2012;2012;The sign of the superexchange coupling J(2) between next-nearest;neighboring Eu2+ magnetic moments in EuO is a matter subject to debate.;We have obtained evidence that this coupling is of antiferromagnetic;nature (J(2) < 0). EuO thin films grown at different temperatures;suggest that lattice expansion results in enhancement of T-C as clearly;observed in stoichiometric EuO films grown on CaF2 substrates. Resonant;photoemission spectroscopy provides compelling evidence of strong;hybridization between O 2p and Eu 5d6s6p weighted bands, suggesting that;strong superexchange may be mediated by oxygen, thus consistent with the;observed antiferromagnetic behavior between the next-nearest neighboring;Eu atoms via nearest neighbor oxygen in EuO.;Dai, Qilin/K-1437-2013;2;0;0;0;2;1098-0121;WOS:000312064300003;;;J;Luisier, Mathieu;Atomistic modeling of anharmonic phonon-phonon scattering in nanowires;PHYSICAL REVIEW B;86;24;245407;10.1103/PhysRevB.86.245407;DEC 10 2012;2012;Phonon transport is simulated in ultrascaled nanowires in the presence;of anharmonic phonon-phonon scattering. A modified valence-force-field;model containing four types of bond deformation is employed to describe;the phonon band structure. The inclusion of five additional bond;deformation potentials allows us to account for anharmonic effects.;Phonon-phonon interactions are introduced through inelastic scattering;self-energies solved in the self-consistent Born approximation in the;nonequilibrium Green's function formalism. After calibrating the model;with experimental data, the thermal current, resistance, and;conductivity of < 100 >-, < 110 >-, and < 111 >-oriented Si nanowires;with different lengths and temperatures are investigated in the presence;of anharmonic phonon-phonon scattering and compared to their ballistic;limit. It is found that all the simulated thermal currents exhibit a;peak at temperatures around 200 K if phonon scattering is turned on;while they monotonically increase when this effect is neglected.;Finally, phonon transport through Si-Ge-Si nanowires is considered. DOI:;10.1103/PhysRevB.86.245407;12;1;0;0;12;1098-0121;WOS:000312065400007;;;J;Nemirovskii, Sergey K.;Fluctuations of the vortex line density in turbulent flows of quantum;fluids;PHYSICAL REVIEW B;86;22;224505;10.1103/PhysRevB.86.224505;DEC 10 2012;2012;We present an analytical study of fluctuations of the vortex line;density (VLD) in turbulent flows of;quantum fluids. Two cases are considered. The first is the;counterflowing (Vinen) turbulence, where the vortex lines are;disordered, and the evolution of quantity L(t) obeys the Vinen equation.;The second case is the fluctuations of the VLD in a single vortex;bundle, which develops inside the domain of the concentrated;normal-fluid vorticity. The dynamics of the vortex bundle is described;by the Hall-Vinen-Bekarevich-Khalatnikov (HVBK) equations. The latter;case is of special interest, because the set of the quantum vortex;bundles is believed to mimic classical hydrodynamic turbulence. In;steady states the VLD is related to the normal velocity as L = (rho;gamma/rho(s))(2)upsilon(2)(n) for the Vinen case. In the vortex bundle;case, which appears inside the domain of a concentrated vorticity of;normal fluid, the stationary quantity L can be found from the matching;of velocities and is described by L = vertical bar del x v(n)vertical;bar/kappa. In nonstationary situations, and particularly in the;fluctuating turbulent flow, there is a retardation between the;instantaneous value of the normal velocity and the quantity L. This;retardation tends to decrease in accordance with the inner dynamics,;which has a relaxation character. In both cases, the relaxation dynamics;of the VLD is related to fluctuations of the relative velocity. However,;for the Vinen case the rate of temporal change for L(t) is directly;dependent upon delta v(ns), whereas for HVBK dynamics it depends on del;x delta v(ns). Therefore, for the disordered case the spectrum coincides with the spectrum omega(-5/3). In the;case of the bundle arrangement, the spectrum of the VLD varies (at;different temperatures) from omega(1/3) to omega(-5/3) dependencies.;This conclusion may serve as a basis for the experimental determination;of what kind of turbulence is implemented in different types of;generation.;0;0;0;0;0;1098-0121;WOS:000312064300005;;;J;Peelaers, H.;Van de Walle, C. G.;Effects of strain on band structure and effective masses in MoS2;PHYSICAL REVIEW B;86;24;241401;10.1103/PhysRevB.86.241401;DEC 10 2012;2012;We use hybrid density functional theory to explore the band structure;and effective masses of MoS2, and the effects of strain on the;electronic properties. Strain allows engineering the magnitude as well;as the nature (direct versus indirect) of the band gap. Deformation;potentials that quantify these changes are reported. The calculations;also allow us to investigate the transition in band structure from bulk;to monolayer, and the nature and degeneracy of conduction-band valleys.;Investigations of strain effects on effective masses reveal that small;uniaxial stresses can lead to large changes in the hole effective mass.;DOI: 10.1103/PhysRevB.86.241401;Van de Walle, Chris/A-6623-2012;Van de Walle, Chris/0000-0002-4212-5990;56;3;0;0;56;1098-0121;WOS:000312065400001;;;J;Phien, Ho N.;Vidal, Guifre;McCulloch, Ian P.;Infinite boundary conditions for matrix product state calculations;PHYSICAL REVIEW B;86;24;245107;10.1103/PhysRevB.86.245107;DEC 10 2012;2012;We propose a formalism to study dynamical properties of a quantum;many-body system in the thermodynamic limit by studying a finite system;with "infinite boundary conditions" where both finite-size effects and;boundary effects have been eliminated. For one-dimensional systems,;infinite boundary conditions are obtained by attaching two boundary;sites to a finite system, where each of these two sites effectively;represents a semi-infinite extension of the system. One can then use;standard finite-size matrix product state techniques to study a region;of the system while avoiding many of the complications normally;associated with finite-size calculations such as boundary Friedel;oscillations. We illustrate the technique with an example of time;evolution of a local perturbation applied to an infinite;(translationally invariant) ground state, and use this to calculate the;spectral function of the S = 1 Heisenberg spin chain. This approach is;more efficient and more accurate than conventional simulations based on;finite-size matrix product state and density-matrix;renormalization-group approaches. DOI: 10.1103/PhysRevB.86.245107;McCulloch, Ian/A-6037-2011;McCulloch, Ian/0000-0002-8983-6327;6;0;0;0;6;1098-0121;WOS:000312065400004;;;J;Polyakov, O. P.;Corbetta, M.;Stepanyuk, O. V.;Oka, H.;Saletsky, A. M.;Sander, D.;Stepanyuk, V. S.;Kirschner, J.;Spin-dependent Smoluchowski effect;PHYSICAL REVIEW B;86;23;235409;10.1103/PhysRevB.86.235409;DEC 10 2012;2012;Electron charge near atomically sharp corrugations at the surfaces of a;solid tends to spill out and smoothen the abrupt variation of the;positions of the positively charged atomic nuclei. The reason is that;electrons are much less localized than nuclei. This has been discussed;already some 70 years ago by Smoluchowski [R. Smoluchowski, Phys. Rev.;60, 661 (1941)], and the corresponding effect of charge redistribution;near surface corrugations bears his name. The Smoluchowski effect;focuses on the total electron charge density. It neglects that;electrons-in addition to charge-also carry a spin. We discuss;spin-dependent electron spill out and demonstrate in a combined;theoretical and experimental work that compelling consequences for;spin-polarization and spin-dependent transport arise at the edges of;magnetic nanostructures due to the spin-dependent Smoluchowski effect.;We find a variation of the tunnel magnetoresistance ratio of more than;20% on a length scale of a few atomic diameters.;3;0;0;0;3;1098-0121;WOS:000312064700006;;;J;Rajeswaran, B.;Khomskii, D. I.;Zvezdin, A. K.;Rao, C. N. R.;Sundaresan, A.;Field-induced polar order at the Neel temperature of chromium in;rare-earth orthochromites: Interplay of rare-earth and Cr magnetism;PHYSICAL REVIEW B;86;21;214409;10.1103/PhysRevB.86.214409;DEC 10 2012;2012;We report field-induced switchable polarization (P similar to 0.2-0.8 mu;C/cm(2)) below the Neel temperature of chromium (T-N(Cr)) in weakly;ferromagnetic rare-earth orthochromites, RCrO3 (R = rare earth) but only;when the rare-earth ion is magnetic. Intriguingly, the polarization in;ErCrO3 (T-C = 133 K) disappears at a spin-reorientation (Morin);transition (T-SR similar to 22 K) below which the weak ferromagnetism;associated with the Cr sublattice also disappears, demonstrating the;crucial role of weak ferromagnetism in inducing the polar order.;Further, the polarization (P) is strongly influenced by an applied;magnetic field, indicating a strong magnetoelectric effect. We suggest;that the polar order occurs in RCrO3, due to the combined effect of the;poling field that breaks the symmetry and the exchange field on the R;ion from the Cr sublattice that stabilizes the polar state. We propose;that a similar mechanism could work in the isostructural rare-earth;orthoferrites RFeO3 as well. DOI: 10.1103/PhysRevB.86.214409;Athinarayanan, Sundaresan/B-2176-2010; Zvezdin, Anatoly/K-2072-2013;24;1;0;0;24;1098-0121;WOS:000312063700006;;;J;Rhim, Jun-Won;Park, Kwon;Self-similar occurrence of massless Dirac particles in graphene under a;magnetic field;PHYSICAL REVIEW B;86;23;235411;10.1103/PhysRevB.86.235411;DEC 10 2012;2012;Intricate interplay between the periodicity of the lattice structure and;that of the cyclotron motion gives rise to a well-known self-similar;fractal structure of the energy eigenvalue, known as the Hofstadter;butterfly, for an electron moving in lattice under magnetic field.;Connected with the n = 0 Landau level, the central band of the;Hofstadter butterfly is especially interesting in the honeycomb lattice.;While the entire Hofstadter butterfly can be in principle obtained by;solving Harper's equations numerically, the weak-field limit, most;relevant for experiment, is intractable owing to the fact that the size;of the Hamiltonian matrix, which needs to be diagonalized, diverges. In;this paper, we develop an effective Hamiltonian method that can be used;to provide an accurate analytic description of the central Hofstadter;band in the weak-field regime. One of the most important discoveries;obtained in this work is that massless Dirac particles always exist;inside the central Hofstadter band no matter how small the magnetic flux;may become. In other words, with its bandwidth broadened by the lattice;effect, the n = 0 Landau level contains massless Dirac particles within;itself. In fact, by carefully analyzing the self-similar recursive;pattern of the central Hofstadter band, we conclude that massless Dirac;particles should occur under arbitrary magnetic field. As a corollary,;the central Hofstadter band also contains a self-similar structure of;recursive Landau levels associated with such massless Dirac particles.;To assess the experimental feasibility of observing massless Dirac;particles inside the central Hofstadter band, we compute the width of;the central Hofstadter band as a function of magnetic field in the;weak-field regime.;5;0;0;0;5;1098-0121;WOS:000312064700008;;;J;Robinson, Zachary R.;Tyagi, Parul;Mowll, Tyler R.;Ventrice, Carl A., Jr.;Hannon, James B.;Argon-assisted growth of epitaxial graphene on Cu(111);PHYSICAL REVIEW B;86;23;235413;10.1103/PhysRevB.86.235413;DEC 10 2012;2012;The growth of graphene by catalytic decomposition of ethylene on Cu(111);in an ultrahigh vacuum system was investigated with low-energy electron;diffraction, low-energy electron microscopy, and atomic force;microscopy. Attempts to form a graphene overlayer using ethylene at;pressures as high as 10 mTorr and substrate temperatures as high as 900;degrees C resulted in almost no graphene growth. By using an argon;overpressure, the growth of epitaxial graphene on Cu(111) was achieved.;The suppression of graphene growth without the use of an argon;overpressure is attributed to Cu sublimation at elevated temperatures.;During the initial stages of growth, a random distribution of rounded;graphene islands is observed. The predominant rotational orientation of;the islands is within +/- 1 degrees of the Cu(111) substrate lattice.;Robinson, Zachary/B-5128-2013;11;1;0;0;11;1098-0121;WOS:000312064700010;;;J;Sheps, Tatyana;Brocious, Jordan;Corso, Brad L.;Guel, O. Tolga;Whitmore, Desire;Durkaya, Goeksel;Potma, Eric O.;Collins, Philip G.;Four-wave mixing microscopy with electronic contrast of individual;carbon nanotubes;PHYSICAL REVIEW B;86;23;235412;10.1103/PhysRevB.86.235412;DEC 10 2012;2012;We review an extensive study of the factors that influence the intensity;of coherent, nonlinear four-wave mixing (FWM) in carbon nanotubes, with;particular attention to the variability inherent to single-walled carbon;nanotubes (SWNTs). Through a combination of spatial imaging and;spectroscopy applied to hundreds of individual SWNTs in optoelectronic;devices, the FWM response is shown to vary systematically with;free-carrier concentration. This dependence is manifested both in the;intrinsic SWNT band structure and also by extrinsic and environmental;effects. We demonstrate the sensitivity of the SWNT FWM signal by;investigating SWNTs transferred from one substrate to another, before;and after the introduction of chemical damage, and with chemical and;electrostatic doping. The results demonstrate FWM as a sensitive;technique for interrogating SWNT optoelectronic properties.;3;0;0;0;3;1098-0121;WOS:000312064700009;;;J;Tian, Zhiting;Esfarjani, Keivan;Chen, Gang;Enhancing phonon transmission across a Si/Ge interface by atomic;roughness: First-principles study with the Green's function method;PHYSICAL REVIEW B;86;23;235304;10.1103/PhysRevB.86.235304;DEC 10 2012;2012;Knowledge on phonon transmittance as a function of phonon frequency and;incidence angle at interfaces is vital for multiscale modeling of heat;transport in nanostructured materials. Although thermal conductivity;reduction in nanostructured materials can usually be described by phonon;scattering due to interface roughness, we show how a Green's function;method in conjunction with the Landauer formalism suggests that;interface roughness induced by atomic mixing can increase phonon;transmission and interfacial thermal conductance. This is an attempt to;incorporate first-principles force constants derived from ab initio;density-functional theory (DFT) into Green's function calculation for;infinitely large three-dimensional crystal structure. We also;demonstrate the importance of accurate force constants by comparing the;phonon transmission and thermal conductance using force constants;obtained from semiempirical Stillinger-Weber potential and;first-principles DFT calculations.;Chen, Gang/J-1325-2014;Chen, Gang/0000-0002-3968-8530;14;0;0;0;14;1098-0121;WOS:000312064700004;;;J;Uhm, Sang Hoon;Yeom, Han Woong;Electron-phonon interaction of one-dimensional and two-dimensional;surface states in indium adlayers on the Si(111) surface;PHYSICAL REVIEW B;86;24;245408;10.1103/PhysRevB.86.245408;DEC 10 2012;2012;We performed angle-resolved photoelectron spectroscopy measurements on;one-and two-dimensional (1D and 2D) metallic surface states in indium;layers on the Si(111) surface as a function of temperature. The;temperature dependence of surface-state energy widths was used to;estimate the electron-phonon coupling constant lambda. The 2D metallic;surface states of the root 7 x root 3-In layer above one monolayer;exhibit lambda = 0.8 similar to 1.0, similar to the value of bulk indium;0.9. This is discussed in the light of a recent structure model with a;double indium layer and the relatively high superconducting transition;temperature of this surface. On the other hand, the lambda's of two 1D;surface states of the 4 x 1-In surface with one monolayer of indium are;much higher than that of root 7 x root 3-In, reaching 1.8, which is the;largest ever reported for a surface state. The origin of the enhanced;electron-phonon coupling and its relationship to the charge-density-wave;phase transition of this surface are discussed. DOI:;10.1103/PhysRevB.86.245408;1;0;0;0;1;1098-0121;WOS:000312065400008;;;J;Vekilova, O. Yu.;Simak, S. I.;Ponomareva, A. V.;Abrikosov, I. A.;Influence of Ni on the lattice stability of Fe-Ni alloys at multimegabar;pressures;PHYSICAL REVIEW B;86;22;224107;10.1103/PhysRevB.86.224107;DEC 10 2012;2012;The lattice stability trends of the primary candidate for Earth's core;material, the Fe-Ni alloy, were examined from first principles. We;employed the exact muffin-tin orbital method (EMTO) combined with the;coherent potential approximation (CPA) for the treatment of alloying;effects. It was revealed that high pressure reverses the trend in the;relative stabilities of the body-centered cubic (bcc), face-centered;cubic (fcc), and hexagonal close-packed (hcp) phases observed at ambient;conditions. In the low pressure region the increase of Ni concentration;in the Fe-Ni alloy enhances the bcc phase destabilization relative to;the more close-packed fcc and hcp phases. However, at 300 GPa (Earth's;core pressure), the effect of Ni addition is opposite. The reverse of;the trend is associated with the suppression of the ferromagnetism of Fe;when going from ambient pressures to pressure conditions corresponding;to those of Earth's core. The first-principles results are explained in;the framework of the canonical band model.;0;0;0;0;0;1098-0121;WOS:000312064300001;;;J;Wang, Kang;Light wave states in quasiperiodic metallic structures;PHYSICAL REVIEW B;86;23;235110;10.1103/PhysRevB.86.235110;DEC 10 2012;2012;We investigate the light wave states in the octagonal and decagonal;quasiperiodic metallic structures by considering their respective;approximants at different orders. The mechanisms underlying the light;wave behaviors are studied in relation to various structure parameters;and configurations. We show that the formation of the first passbands,;that delimit the photonic band gaps and determine the plasma gaps,;involves only the lowest frequency resonance modes inside the fat tiles,;and that light localization occurs due to resonances in high symmetry;local centers as well as in the fragments of such centers, formed by the;skinny tiles. The structure filling rate affects the localized state;frequencies relative to the first passbands, as well as the plasma;frequency levels, by modulating the frequency levels of the resonance;modes and the widths of the passbands. The results of this study can be;generalized to other metallic quasiperiodic and related structures.;1;0;0;0;1;1098-0121;WOS:000312064700001;;;J;Singh, Shashi B.;Yang, L. T.;Wang, Y. F.;Shao, Y. C.;Chiang, C. W.;Chiou, J. W.;Lin, K. T.;Chen, S. C.;Wang, B. Y.;Chuang, C. H.;Ling, D. C.;Pong, W. F.;Tsai, M. H.;Tsai, H. M.;Pao, C. W.;Shiu, H. W.;Chen, C. H.;Lin, H.-J.;Lee, J. F.;Yamane, H.;Kosugi, N.;Correlation between p-type conductivity and electronic structure of;Cr-deficient CuCr1-xO2 (x = 0-0.1);PHYSICAL REVIEW B;86;24;241103;10.1103/PhysRevB.86.241103;DEC 7 2012;2012;The correlation between the p-type hole conduction and the electronic;structures of Cr-deficient CuCr1-xO2 (x = 0-0.1) compounds was;investigated using O K-, Cu, and Cr L-3,L-2-edge x-ray absorption;near-edge structure (XANES), scanning photoelectron microscopy, and;x-ray emission spectroscopy measurements. XANES spectra reveal a gradual;increase in the Cu valence from Cu1+ to Cu2+ with increasing Cr;deficiency x, whereas, the valence of Cr remains constant as Cr3+. These;results indicate that the p-type conductivity in the CuCr1-xO2 samples;is enhanced by a Cu1+-O-Cu2+ rather than a Cr3+-Cr4+ or direct;Cu1+-O-Cu2+ holemechanism. Remarkable Cr-deficiency-induced changes in;the densities of Cu 3d, Cu 3d-O 2p, andO2p states at or near the;valence-band maximum or the Fermi level were also observed. In addition,;a crossover of conductionmechanism from thermally activated (TA) hopping;to a combination of TA and Mott's three-dimensional variable range;hopping occurs around 250 K.;Yamane, Hiroyuki/K-5297-2013;0;0;0;0;0;1098-0121;WOS:000312025700004;;;J;Bossy, Jacques;Ollivier, Jacques;Schober, Helmut;Glyde, H. R.;Excitations of amorphous solid helium;PHYSICAL REVIEW B;86;22;224503;10.1103/PhysRevB.86.224503;DEC 7 2012;2012;We present neutron scattering measurements of the dynamic structure;factor S(Q,omega) of amorphous solid helium confined in 47-angstrom pore;diameter MCM-41 at pressure 48.6 bars. At low temperature T = 0.05 K, we;observe S(Q,omega) of the confined quantum amorphous solid plus the bulk;polycrystalline solid between the MCM-41 powder grains. No liquidlike;phonon-roton modes, other sharply defined modes at low energy (omega <;1.0 meV), or modes unique to a quantum amorphous solid that might;suggest superflow are observed. Rather, the S(Q, omega) of confined;amorphous and bulk polycrystalline solid appear to be very similar. At;higher temperature (T > 1 K), the amorphous solid in the MCM-41 pores;melts to a liquid which has a broad S(Q,omega) peaked near omega similar;or equal to 0, characteristic of normal liquid He-4 under pressure.;Expressions for the S(Q,omega) of amorphous and polycrystalline solid;helium are presented and compared. In previous measurements of liquid;He-4 confined in MCM-41 at lower pressure, the intensity in the liquid;roton mode decreases with increasing pressure until the roton vanishes;at the solidification pressure (38 bars), consistent with no roton in;the solid observed here.;2;0;0;0;2;1098-0121;WOS:000321857700002;;;J;Joly, Yves;Collins, S. P.;Grenier, Stephane;Tolentino, Helio C. N.;De Santis, Maurizio;Birefringence and polarization rotation in resonant x-ray diffraction;PHYSICAL REVIEW B;86;22;220101;10.1103/PhysRevB.86.220101;DEC 7 2012;2012;Birefringence can contribute to x-ray resonant Bragg diffraction and;likely explains recent novel data collected on CuO. We prove these;statements using ab initio simulations which reproduce the experimental;polarization effects quantitatively. We show that an unrotated;polarization signal-ruled out in resonant magnetic scattering within the;electric dipole approximation-arises from the dynamic change in;polarization inside the material. We are able to reproduce all the;related behavior with circular polarization and its dependence on the;angle of rotation about the Bragg wave vector. We provide a tool to;disentangle the various physical origins of the polarization rotation,;providing a more complete understanding of the illuminated material.;TOLENTINO, HELIO/J-1894-2014; Grenier, Stephane/N-1986-2014;TOLENTINO, HELIO/0000-0003-4032-5988; Grenier,;Stephane/0000-0001-8370-7375;12;1;0;0;12;1098-0121;WOS:000321857700001;;;J;Kovacs, Istvan A.;Igloi, Ferenc;Cardy, John;Corner contribution to percolation cluster numbers;PHYSICAL REVIEW B;86;21;214203;10.1103/PhysRevB.86.214203;DEC 7 2012;2012;We study the number of clusters in two-dimensional (2d) critical;percolation, N-Gamma, which intersect a given subset of bonds, Gamma. In;the simplest case, when Gamma is a simple closed curve, N-Gamma is;related to the entanglement entropy of the critical diluted quantum;Ising model, in which Gamma represents the boundary between the;subsystem and the environment. Due to corners in Gamma there are;universal logarithmic corrections to N-Gamma, which are calculated in;the continuum limit through conformal in-variance, making use of the;Cardy-Peschel formula. The exact formulas are confirmed by large scale;Monte Carlo simulations. These results are extended to anisotropic;percolation where they confirm a result of discrete holomorphicity.;Kovacs, Istvan/A-8447-2013;5;0;0;0;5;1098-0121;WOS:000312023100003;;;J;Komsa, Hannu-Pekka;Krasheninnikov, Arkady V.;Effects of confinement and environment on the electronic structure and;exciton binding energy of MoS2 from first principles;PHYSICAL REVIEW B;86;24;241201;10.1103/PhysRevB.86.241201;DEC 7 2012;2012;Using GW first-principles calculations for few-layer and bulk MoS2, we;study the effects of quantum confinement on the electronic structure of;this layered material. By solving the Bethe-Salpeter equation, we also;evaluate the exciton energy in these systems. Our results are in;excellent agreement with the available experimental data. Exciton;binding energy is found to dramatically increase from 0.1 eV in the bulk;to 1.1 eV in the monolayer. The fundamental band gap increases as well,;so that the optical transition energies remain nearly constant. We also;demonstrate that environments with different dielectric constants have a;profound effect on the electronic structure of the monolayer. Our;results can be used for engineering the electronic properties of MoS2;and other transition-metal dichalcogenides and may explain the;experimentally observed variations in the mobility of monolayer MoS2.;Krasheninnikov, Arkady/M-3020-2013;Krasheninnikov, Arkady/0000-0003-0074-7588;50;4;0;0;50;1098-0121;WOS:000312025700003;;;J;Ciuchi, S.;Fratini, S.;Electronic transport and quantum localization effects in organic;semiconductors;PHYSICAL REVIEW B;86;24;245201;10.1103/PhysRevB.86.245201;DEC 7 2012;2012;We explore the charge transport mechanism in organic semiconductors;based on a model that accounts for the thermal intermolecular disorder;at work in pure crystalline compounds, as well as extrinsic sources of;disorder that are present in current experimental devices. Starting from;the Kubo formula, we describe a theoretical framework that relates the;time-dependent quantum dynamics of electrons to the frequency-dependent;conductivity. The electron mobility is then calculated through a;relaxation time approximation that accounts for quantum localization;corrections beyond Boltzmann theory, and allows us to efficiently;address the interplay between highly conducting states in the band range;and localized states induced by disorder in the band tails. The;emergence of a "transient localization" phenomenon is shown to be a;general feature of organic semiconductors that is compatible with the;bandlike temperature dependence of the mobility observed in pure;compounds. Carrier trapping by extrinsic disorder causes a crossover to;a thermally activated behavior at low temperature, which is;progressively suppressed upon increasing the carrier concentration, as;is commonly observed in organic field-effect transistors. Our results;establish a direct connection between the localization of the electronic;states and their conductive properties, formalizing phenomenological;considerations that are commonly used in the literature.;Fratini, Simone/A-4692-2009;Fratini, Simone/0000-0002-4750-3241;4;0;0;0;4;1098-0121;WOS:000312025700001;;;J;Huang, Bing;Lee, Hoonkyung;Defect and impurity properties of hexagonal boron nitride: A;first-principles calculation;PHYSICAL REVIEW B;86;24;245406;10.1103/PhysRevB.86.245406;DEC 7 2012;2012;In this paper, we have systematically studied the structural and;electronic properties of vacancy defects and carbon impurity in;hexagonal boron nitride (h-BN) by using both normal GGA calculations and;advanced hybrid functional calculations. Our calculations show that the;defect configurations and the local bond lengths around defects are;sensitive to their charge states. The highest negative defect charge;states are largely determined by the nearly-free-electron state at the;conduction band minimum of BN. Generally, the in-gap defect levels;obtained from hybrid functional calculations are much deeper than those;obtained from normal GGA calculations. The formation energies of neutral;defects calculated by hybrid functional and GGA are close to each other,;but the defect transition energy levels are quite different between GGA;and hybrid functional calculations. Finally, we show that the charged;defect configurations as well as the transition energy levels exhibit;interesting layer effects.;Huang, Bing/D-8941-2011;Huang, Bing/0000-0001-6735-4637;8;0;0;0;8;1098-0121;WOS:000312025700002;;;J;Maassen, T.;Vera-Marun, I. J.;Guimaraes, M. H. D.;van Wees, B. J.;Contact-induced spin relaxation in Hanle spin precession measurements;PHYSICAL REVIEW B;86;23;235408;10.1103/PhysRevB.86.235408;DEC 7 2012;2012;In the field of spintronics the "conductivity mismatch" problem remains;an important issue. Here the difference between the resistance of;ferromagnetic electrodes and a (high resistive) transport channel causes;injected spins to be backscattered into the leads and to lose their spin;information. We study the effect of the resulting contact-induced spin;relaxation on spin transport, in particular on nonlocal Hanle precession;measurements. As the Hanle line shape is modified by the contact-induced;effects, the fits to Hanle curves can result in incorrectly determined;spin transport properties of the transport channel. We quantify this;effect that mimics a decrease of the spin relaxation time of the channel;reaching more than four orders of magnitude and a minor increase of the;diffusion coefficient by less than a factor of two. Then we compare the;results to spin transport measurements on graphene from the literature.;We further point out guidelines for a Hanle precession fitting procedure;that allows the reliable extraction of spin transport properties from;measurements.;Vera-Marun, Ivan/A-4704-2013; Guimaraes, Marcos/K-1940-2013;Vera-Marun, Ivan/0000-0002-6347-580X;;14;1;0;0;14;1098-0121;WOS:000312024900002;;;J;Murch, K. W.;Ginossar, E.;Weber, S. J.;Vijay, R.;Girvin, S. M.;Siddiqi, I.;Quantum state sensitivity of an autoresonant superconducting circuit;PHYSICAL REVIEW B;86;22;220503;10.1103/PhysRevB.86.220503;DEC 7 2012;2012;When a frequency chirped excitation is applied to a classical high-Q;nonlinear oscillator, its motion becomes dynamically synchronized to the;drive and large oscillation amplitude is observed, provided the drive;strength exceeds the critical threshold for autoresonance. We;demonstrate that when such an oscillator is strongly coupled to a;quantized superconducting qubit, both the effective nonlinearity and the;threshold become a nontrivial function of the qubit-oscillator detuning.;Moreover, the autoresonant threshold is dependent on the quantum state;of the qubit and may be used to realize a high-fidelity, latching;readout whose speed is not limited by the oscillator Q.;1;0;0;0;1;1098-0121;WOS:000312024300001;;;J;Ondrejkovic, P.;Kempa, M.;Vysochanskii, Y.;Saint-Gregoire, P.;Bourges, P.;Rushchanskii, K. Z.;Hlinka, J.;Neutron scattering study of ferroelectric Sn2P2S6 under pressure;PHYSICAL REVIEW B;86;22;224106;10.1103/PhysRevB.86.224106;DEC 7 2012;2012;Ferroelectric phase transition in the semiconductor Sn2P2S6 single;crystal has been studied by means of neutron scattering in the;pressure-temperature range adjacent to the anticipated tricritical;Lifshitz point (p approximate to 0.18 GPa, T approximate to 296 K). The;observations reveal a direct ferroelectric-paraelectric phase transition;in the whole investigated pressure range (0.18-0.6 GPa). These results;are in a clear disagreement with phase diagrams assumed in numerous;earlier works, according to which a hypothetical intermediate;incommensurate phase extends over several or even tens of degrees in the;0.5 GPa pressure range. Temperature dependence of the anisotropic;quasielastic diffuse scattering suggests that polarization fluctuations;present above T-C are strongly reduced in the ordered phase. Still, the;temperature dependence of the ((2) over bar 00) Bragg reflection;intensity at p = 0.18 GPa can be remarkably well modeled assuming the;order-parameter amplitude growth according to the power law with;logarithmic corrections predicted for a uniaxial ferroelectric;transition at the tricritical Lifshitz point.;Hlinka, Jiri/G-5985-2014; Ondrejkovic, Petr/G-6654-2014; Kempa, Martin/G-8830-2014;1;0;0;0;1;1098-0121;WOS:000312024300002;;;J;Svindrych, Z.;Janu, Z.;Kozlowski, A.;Honig, J. M.;Low-temperature magnetic anomaly in magnetite;PHYSICAL REVIEW B;86;21;214406;10.1103/PhysRevB.86.214406;DEC 7 2012;2012;We have studied experimentally the responses of high-quality single;crystals of stoichiometric synthetic magnetite to applied weak dc and ac;magnetic fields in the range of 6-60 K, far below the Verwey transition.;The results can be compared to so-called magnetic after effects (MAE);measurements, which are the most extensive magnetic measurements of;magnetite at these temperatures. We present a novel point of view on the;relaxation phenomena encountered at these temperatures-the;low-temperature anomaly, addressing the striking difference between the;results of conventional ac susceptibility measurements and those;accompanying MAE measurements, i.e., periodic excitations with strong;magnetic pulses. We also draw a connection between this anomaly and the;so-called glasslike transition, and discuss possible mechanisms;responsible for these effects.;janu, zdenek/G-9113-2014;0;0;0;0;0;1098-0121;WOS:000312023100001;;;J;Tarantini, C.;Lee, S.;Kametani, F.;Jiang, J.;Weiss, J. D.;Jaroszynski, J.;Folkman, C. M.;Hellstrom, E. E.;Eom, C. B.;Larbalestier, D. C.;Artificial and self-assembled vortex-pinning centers in superconducting;Ba(Fe1-xCox)(2)As-2 thin films as a route to obtaining very high;critical-current densities;PHYSICAL REVIEW B;86;21;214504;10.1103/PhysRevB.86.214504;DEC 7 2012;2012;We report on the superior vortex pinning of single-and multilayer;Ba(Fe1-xCox)(2)As-2 thin films with self-assembled c-axis and;artificially introduced ab-plane pins. Ba(Fe1-xCox)(2)As-2 can accept a;very high density of pins (15-20 vol %) without T-c suppression. The;matching field is greater than 12 T, producing a significant enhancement;of the critical current density J(c), an almost isotropic J(c) (theta,;20 T) > 10(5) A/cm(2), and global pinning force density F-p of similar;to 50 GN/m(3). This scenario strongly differs from the high-temperature;superconducting cuprates where the addition of pins without Tc;suppression is limited to 2-4 vol %, leading to small H-Irr enhancements;and improved J(c) only below 3-5 T.;Lee, Sanghan/C-8876-2012; Eom, Chang-Beom/I-5567-2014;7;2;0;0;7;1098-0121;WOS:000312023100002;;;J;Xia, Junchao;Carter, Emily A.;Density-decomposed orbital-free density functional theory for covalently;bonded molecules and materials;PHYSICAL REVIEW B;86;23;235109;10.1103/PhysRevB.86.235109;DEC 7 2012;2012;We propose a density decomposition scheme using a Wang-Govind-Carter-;(WGC-) based kinetic energy density functional (KEDF) to accurately and;efficiently simulate various covalently bonded molecules and materials;within orbital-free (OF) density functional theory (DFT). By using a;local, density-dependent scale function, the total density is decomposed;into a highly localized density within covalent bond regions and a;flattened delocalized density, with the former described by semilocal;KEDFs and the latter treated by the WGC KEDF. The new model predicts;reasonable equilibrium volumes, bulk moduli, and phase-ordering energies;for various semiconductors compared to Kohn-Sham (KS) DFT benchmarks.;The decomposition formalism greatly improves numerical stability and;accuracy, while retaining computational speed compared to simply;applying the original WGC KEDF to covalent materials. The surface energy;of Si(100) and various diatomic molecule properties can be stably;calculated and also agree well with KSDFT benchmarks. This;linear-scaled, computationally efficient, density-partitioned,;multi-KEDF scheme opens the door to large-scale simulations of;molecules, semiconductors, and insulators with OFDFT.;7;0;0;0;7;1098-0121;WOS:000312024900001;;;J;Zhao, Yang;Gong, Shou-Shu;Wang, Yong-Jun;Su, Gang;Low-energy effective theory and two distinct critical phases in a;spin-1/2 frustrated three-leg spin tube;PHYSICAL REVIEW B;86;22;224406;10.1103/PhysRevB.86.224406;DEC 7 2012;2012;Motivated by the crystal structures of [(CuCl(2)tachH)(3)Cl]Cl-2 and;Ca3Co2O6, we develop a low-energy effective theory using the;bosonization technique for a spin-1/2 frustrated three-leg spin tube;with trigonal prism units in two limit cases. The features obtained with;the effective theory are numerically elucidated by the density matrix;renormalization group method. Three different quantum phases in the;ground state of the system, say, one gapped dimerized phase and two;distinct gapless phases, are identified, where the two gapless phases;are found to have the conformal central charge c = 1 and 3/2,;respectively. Spin gaps, spin and dimer correlation functions, and the;entanglement entropy are obtained. In particular, it is disclosed that;the critical phase with c = 3/2 is the consequence of spin frustrations,;which might belong to the SU(2)(k=2) Wess-Zumino-Witten-Novikov;universality class, and is induced by the twist term in the bosonized;Hamiltonian density.;Su, Gang/G-6092-2011;Su, Gang/0000-0002-8149-4342;1;1;0;0;1;1098-0121;WOS:000312024300003;;;J;Vucicevic, J.;Goerbig, M. O.;Milovanovic, M. V.;d-wave superconductivity on the honeycomb bilayer;PHYSICAL REVIEW B;86;21;214505;10.1103/PhysRevB.86.214505;DEC 7 2012;2012;We introduce a microscopic model on the honeycomb bilayer, which in the;small-momentum limit captures the usual (quadratic dispersion in the;kinetic term) description of bilayer graphene. In the limit of strong;interlayer hopping it reduces to an effective honeycomb monolayer model;with also third-neighbor hopping. We study interaction effects in this;effective model, focusing on possible superconducting instabilities. We;find d(x2-y2) superconductivity in the strong-coupling limit of an;effective tJ -model-like description that gradually transforms into d +;id time-reversal symmetry-breaking superconductivity at weak couplings.;In this limit the small-momentum order-parameter expansion is (k(x) +;ik(y) )(2) [or (k(x) + ik(y) )(2)] in both valleys of the effective;low-energy description. The relevance of our model and investigation for;the physics of bilayer graphene is also discussed.;5;0;0;0;5;1098-0121;WOS:000312023100004;;;J;Etzioni, Yoav;Horovitz, Baruch;Le Doussal, Pierre;Rings and Coulomb boxes in dissipative environments;PHYSICAL REVIEW B;86;23;235406;10.1103/PhysRevB.86.235406;DEC 6 2012;2012;We study a particle on a ring in the presence of a dissipative;Caldeira-Leggett environment and derive its response to a dc field. We;show how this non-equilibrium response is related to a flux averaged;equilibrium response. We find, through a two-loop renormalization group;analysis, that a large dissipation parameter eta flows to a fixed point;eta(R) = (h) over bar/(2 pi). We also reexamine the mapping of this;problem to that of the Coulomb box and show that the relaxation;resistance, of recent interest, is quantized for large eta. For finite;eta > eta(R) we find that a certain average of the relaxation resistance;is quantized. We propose a Coulomb-box experiment to measure a quantized;noise. DOI: 10.1103/PhysRevB.86.235406;1;0;0;0;1;1098-0121;WOS:000312024600004;;;J;Fontana, Yannik;Grzela, Grzegorz;Bakkers, Erik P. A. M.;Rivas, Jaime Gomez;Mapping the directional emission of quasi-two-dimensional photonic;crystals of semiconductor nanowires using Fourier microscopy;PHYSICAL REVIEW B;86;24;245303;10.1103/PhysRevB.86.245303;DEC 6 2012;2012;Controlling the dispersion and directionality of the emission of;nanosources is one of the major goals of nanophotonics research. This;control will allow the development of highly efficient nanosources even;at the single-photon level. One of the ways to achieve this goal is to;couple the emission to Bloch modes of periodic structures. Here, we;present the first measurements of the directional emission from nanowire;photonic crystals by using Fourier microscopy. With this technique, we;efficiently collect and resolve the directional emission of nanowires;within the numerical aperture of a microscope objective. The light;emission from a heterostructure grown in each nanowire is governed by;the photonic (Bloch) modes of the photonic crystal. We also demonstrate;that the directionality of the emission can be easily controlled by;infiltrating the photonic crystal with a high refractive index liquid.;This work opens new possibilities for the control of the emission of;sources in nanowires.;5;0;0;0;5;1098-0121;WOS:000312025300005;;;J;Fujimori, Shin-ichi;Ohkochi, Takuo;Okane, Tetsuo;Saitoh, Yuji;Fujimori, Atsushi;Yamagami, Hiroshi;Haga, Yoshinori;Yamamoto, Etsuji;Onuki, Yoshichika;Itinerant nature of U 5f states in uranium mononitride revealed by;angle-resolved photoelectron spectroscopy;PHYSICAL REVIEW B;86;23;235108;10.1103/PhysRevB.86.235108;DEC 6 2012;2012;The electronic structure of the antiferromagnet uranium nitride (UN) has;been studied by angle-resolved photoelectron spectroscopy (ARPES) using;soft x-rays (h nu = 420-520 eV). Strongly dispersive bands with large;contributions from the U 5f states were observed in ARPES spectra and;form Fermi surfaces. The band structure as well as the Fermi surfaces in;the paramagnetic phase are well explained by the band-structure;calculation treating all the U 5f electrons as being itinerant,;suggesting that an itinerant description of the U 5f states is;appropriate for this compound. On the other hand, changes in the;spectral function due to the antiferromagnetic transition were very;small. The shapes of the Fermi surfaces in a paramagnetic phase are;highly three-dimensional, and the nesting of Fermi surfaces is unlikely;as the origin of the magnetic ordering. DOI: 10.1103/PhysRevB.86.235108;2;0;0;0;2;1098-0121;WOS:000312024600002;;;J;Hosseini, Mir Vahid;Zareyan, Malek;Unconventional superconducting states of interlayer pairing in bilayer;and trilayer graphene;PHYSICAL REVIEW B;86;21;214503;10.1103/PhysRevB.86.214503;DEC 6 2012;2012;We develop a theory for interlayer pairing of chiral electrons in;graphene materials which results in an unconventional superconducting;state with an s-wave spin-triplet order parameter. In a pure bilayer;graphene, this superconductivity exhibits a gapless property with an;exotic effect of temperature-induced condensation causing an increase of;the pairing amplitude with increasing temperature. We find that a finite;doping opens a gap in the excitation spectrum and weakens this anomalous;temperature dependence. We further explore the possibility of realizing;a variety of pairing patterns with different topologies of the Fermi;surface, by tuning the difference in the doping of the two layers. In;trilayer graphene, the interlayer superconductivity is characterized by;a two-component order parameter which can be used to define two distinct;phases in which only one of the components is nonvanishing. For ABA;stacking the stable state is determined by a competition between these;two phases. On variation of the relative amplitude of the corresponding;coupling strength, a first-order phase transition can occur between;these two phases. For ABC stacking, we find that the two phases coexist;with the possibility of a similar phase transition, which turns out to;be second order. DOI: 10.1103/PhysRevB.86.214503;1;0;0;0;1;1098-0121;WOS:000312022700003;;;J;Kajihara, Y.;Inui, M.;Matsuda, K.;Nagao, T.;Ohara, K.;Density fluctuations at the continuous liquid-liquid phase transition in;chalcogen systems;PHYSICAL REVIEW B;86;21;214202;10.1103/PhysRevB.86.214202;DEC 6 2012;2012;We have carried out density and small-angle x-ray scattering;measurements on a typical liquid chalcogen (Te, Se) system to;investigate its continuous liquid-liquid phase transition. With;increasing temperature, the zero-wave-number structure factor S(0) shows;a maximum in the middle of the transition region where the density;exhibits negative thermal expansion. This is direct evidence of density;fluctuations induced by the liquid-liquid phase transition. When the;sample is pressurized to 100 MPa, the density and S(0) curves shift to;the lower temperature side, which is consistent with the shift of the;structural transition. We discuss the similarity between liquid Te and;liquid water from the viewpoint of fluctuations induced by the;liquid-liquid transition. DOI: 10.1103/PhysRevB.86.214202;1;0;0;0;1;1098-0121;WOS:000312022700001;;;J;Khuntia, P.;Strydom, A. M.;Wu, L. S.;Aronson, M. C.;Steglich, F.;Baenitz, M.;Field-tuned critical fluctuations in YFe2Al10: Evidence from;magnetization, Al-27 NMR, and NQR investigations;PHYSICAL REVIEW B;86;22;220401;10.1103/PhysRevB.86.220401;DEC 6 2012;2012;We report magnetization, specific heat, and NMR investigations on;YFe2Al10 over a wide range of temperature and magnetic field and zero;field (NQR) measurements. Magnetic susceptibility, specific heat, and;spin-lattice relaxation rate divided by T (1/T1T) follow a weak power;law (similar to T-0.4) temperature dependence, which is a signature of;the critical fluctuations of Fe moments. The value of the;Sommerfeld-Wilson ratio and the linear relation between 1/T1T and.;suggest the existence of ferromagnetic correlations in this system. No;magnetic ordering down to 50 mK in C-p(T)/T and the unusual T and H;scaling of the bulk and NMR data are associated with a magnetic;instability which drives the system to quantum criticality. The magnetic;properties of the system are tuned by field wherein ferromagnetic;fluctuations are suppressed and a crossover from quantum critical to;Fermi-liquid behavior is observed with increasing magnetic field.;Khuntia, Panchanan /E-4270-2010;5;1;0;0;5;1098-0121;WOS:000312023600001;;;J;Marsh, J.;Camley, R. E.;Two-wave mixing in nonlinear magnetization dynamics: A perturbation;expansion of the Landau-Lifshitz-Gilbert equation;PHYSICAL REVIEW B;86;22;224405;10.1103/PhysRevB.86.224405;DEC 6 2012;2012;Recent experiments have shown that two electromagnetic waves can be;mixed together by a nonlinear process in magnetic materials and can;produce a wide variety of output waves, each with a different frequency.;A perturbation expansion of the Landau-Lifschitz-Gilbert equation is;presented which provides qualitative and quantitative understanding of;this process. The results of this expansion are compared to both;experiment and direct numerical solutions.;1;0;0;0;1;1098-0121;WOS:000312023600004;;;J;Norris, Scott A.;Stress-induced patterns in ion-irradiated silicon: Model based on;anisotropic plastic flow;PHYSICAL REVIEW B;86;23;235405;10.1103/PhysRevB.86.235405;DEC 6 2012;2012;We present a model for the effect of stress on thin amorphous films that;develop atop ion-irradiated silicon, based on the mechanism of;ion-induced anisotropic plastic flow. Using only parameters directly;measured or known to high accuracy, the model exhibits remarkably good;agreement with the wavelengths of experimentally observed patterns and;agrees qualitatively with limited data on ripple propagation speed. The;predictions of the model are discussed in the context of other;mechanisms recently theorized to explain the wavelengths, including;extensive comparison with an alternate model of stress. DOI:;10.1103/PhysRevB.86.235405;14;0;0;0;14;1098-0121;WOS:000312024600003;;;J;Ostlin, A.;Chioncel, L.;Vitos, L.;One-particle spectral function and analytic continuation for many-body;implementation in the exact muffin-tin orbitals method;PHYSICAL REVIEW B;86;23;235107;10.1103/PhysRevB.86.235107;DEC 6 2012;2012;We investigate one of the most common analytic continuation techniques;in condensed matter physics, namely the Pade approximant. Aspects;concerning its implementation in the exact muffin-tin orbitals (EMTO);method are scrutinized with special regard towards making it stable and;free of artificial defects. The electronic structure calculations are;performed for solid hydrogen, and the performance of the analytical;continuation is assessed by monitoring the density of states constructed;directly and via the Pade approximation. We discuss the difference;between the k-integrated and k-resolved analytical continuations, as;well as describing the use of random numbers and pole residues to;analyze the approximant. It is found that the analytic properties of the;approximant can be controlled by appropriate modifications, making it a;robust and reliable tool for electronic structure calculations. At the;end, we propose a route to perform analytical continuation for the;EMTO+dynamical mean field theory method. DOI: 10.1103/PhysRevB.86.235107;0;0;0;0;0;1098-0121;WOS:000312024600001;;;J;Rauch, D.;Suellow, S.;Bleckmann, M.;Klemke, B.;Kiefer, K.;Kim, M. S.;Aronson, M. C.;Bauer, E.;Magnetic phase diagram of CePt3B1-xSix;PHYSICAL REVIEW B;86;24;245104;10.1103/PhysRevB.86.245104;DEC 6 2012;2012;We present a study of the main bulk properties (susceptibility,;magnetization, resistivity, and specific heat) of CePt3B1-xSix, an;alloying system that crystallizes in a noncentrosymmetric lattice, and;derive the magnetic phase diagram. The materials at the end point of the;alloying series have previously been studied, with CePt3B established as;a material with two different magnetic phases at low temperatures;(antiferromagnetic below T-N = 7.8 K, weakly ferromagnetic below T-C;approximate to 5 K), while CePt3Si is a heavy fermion superconductor;(T-c = 0.75 K) coexisting with antiferromagnetism (T-N = 2.2 K). From;our experiments we conclude that the magnetic phase diagram is divided;into two regions. In the region of low Si content (up to x similar to;0.7) the material properties resemble those of CePt3B. Upon increasing;the Si concentration further the magnetic ground state continuously;transforms into that of CePt3Si. In essence, we argue that CePt3B can be;understood as a low pressure variant of CePt3Si.;Kiefer, Klaus/J-3544-2013; Klemke, Bastian/J-4746-2013;Kiefer, Klaus/0000-0002-5178-0495; Klemke, Bastian/0000-0003-4560-6025;0;0;0;0;0;1098-0121;WOS:000312025300004;;;J;Schoenecker, Stephan;Richter, Manuel;Koepernik, Klaus;Eschrig, Helmut;Ferromagnetic elements by epitaxial growth: A density functional;prediction (vol 85, 024407, 2012);PHYSICAL REVIEW B;86;21;219901;10.1103/PhysRevB.86.219901;DEC 6 2012;2012;0;0;0;0;0;1098-0121;WOS:000312022700004;;;J;Sedlmeier, Katrin;Elsaesser, Sebastian;Neubauer, David;Beyer, Rebecca;Wu, Dan;Ivek, Tomislav;Tomic, Silvia;Schlueter, John A.;Dressel, Martin;Absence of charge order in the dimerized kappa-phase BEDT-TTF salts;PHYSICAL REVIEW B;86;24;245103;10.1103/PhysRevB.86.245103;DEC 6 2012;2012;Utilizing infrared vibrational spectroscopy we have investigated;dimerized two-dimensional organic salts in order to search for possible;charge redistribution that might constitute electronic dipoles and;ferroelectricity: the quantum spin liquid kappa-(BEDT-TTF)(2)Cu-2(CN)(3);[BEDT-TTF: bis-(ethylenedithio)tetrathiafulvalene], the;antiferromagnetic Mott insulator kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Cl, and;the superconductor kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Br. None of them;exhibit any indication of charge disproportionation. Upon cooling to low;temperatures all BEDT-TTF molecules remain homogeneously charged within;+/- 0.005e. No modification in the charge distribution is observed;around T = 6 K where a low-temperature anomaly has been reported for the;spin-liquid material kappa-(BEDT-TTF)(2)Cu-2(CN)(3). In this compound;the in-plane optical response and vibrational coupling are rather;anisotropic, indicating that the tilt of the BEDT-TTF molecules in c;direction and their coupling to the anion layers has to be considered in;the explanation of the electromagnetic properties.;Dressel, Martin/D-3244-2012; Ivek, Tomislav/D-5298-2011; Tomic, Silvia/D-5466-2011;14;0;0;0;14;1098-0121;WOS:000312025300003;;;J;Siloi, I.;Troiani, F.;Towards the chemical tuning of entanglement in molecular nanomagnets;PHYSICAL REVIEW B;86;22;224404;10.1103/PhysRevB.86.224404;DEC 6 2012;2012;Antiferromagnetic spin rings represent prototypical realizations of;highly correlated, low-dimensional systems. Here we theoretically show;how the introduction of magnetic defects by controlled chemical;substitutions results in a strong spatial modulation of spin-pair;entanglement within each ring. Entanglement between local degrees of;freedom (individual spins) and collective ones (total ring spins) are;shown to coexist in exchange-coupled ring dimers, as can be deduced from;general symmetry arguments. We verify the persistence of these features;at finite temperatures, and discuss them in terms of experimentally;accessible observables.;Troiani, Filippo/B-4787-2011;5;0;0;0;5;1098-0121;WOS:000312023600003;;;J;Sreenivasulu, G.;Petrov, V. M.;Fetisov, L. Y.;Fetisov, Y. K.;Srinivasan, G.;Magnetoelectric interactions in layered composites of piezoelectric;quartz and magnetostrictive alloys;PHYSICAL REVIEW B;86;21;214405;10.1103/PhysRevB.86.214405;DEC 6 2012;2012;Mechanical strain mediated magnetoelectric effects are studied in;bilayers and trilayers of piezoelectric quartz and magnetostrictive;permendur (P), an alloy of Fe-Co-V. It is shown that the magnetoelectric;voltage coefficient (MEVC), proportional to the ratio of the;piezoelectric coupling coefficient to the permittivity, is higher in;quartz-based composites than for traditional ferroelectrics-based ME;composites. In bilayers of X-cut single crystal quartz and permendur,;the MEVC varies from 1.5 V/cm Oe at 20 Hz to similar to 185 V/cm Oe at;bending resonance or electromechanical resonance corresponding to;longitudinal acoustic modes. In symmetric X-cut quartz-P trilayers, the;MEVC similar to 4.8 V/cm Oe at 20 Hz and similar to 175 V/cm Oe at;longitudinal acoustic resonance. Trilayers of Y-cut quartz and permendur;show ME coupling under a shear strain with an MEVC that is an order of;magnitude smaller than for longitudinal strain in samples with X-cut;quartz. A model for low-frequency and resonance ME effects which allows;for explicit expressions of MEVC and resonance frequencies is provided;and calculated. MEVCs are in general agreement with measured values.;Magnetoelectric composites with quartz have the desired characteristics;such as the absence of ferroelectric hysteresis and pyroelectric losses;and could potentially replace ferroelectrics in composite-based magnetic;sensors, transducers, and high-frequency devices. DOI:;10.1103/PhysRevB.86.214405;Gollapudi, Sreenivasulu/G-9832-2012;Gollapudi, Sreenivasulu/0000-0002-6136-7119;8;0;0;0;8;1098-0121;WOS:000312022700002;;;J;Syzranov, S. V.;Yevtushenko, O. M.;Efetov, K. B.;Fermionic and bosonic ac conductivities at strong disorder;PHYSICAL REVIEW B;86;24;241102;10.1103/PhysRevB.86.241102;DEC 6 2012;2012;We study the ac conduction in a system of fermions or bosons strongly;localized in a disordered array of sites with short-range interactions;at frequencies larger than the intersite tunneling but smaller than the;characteristic fluctuation of the on-site energy. While the main;contribution sigma(0)(omega) to the conductivity comes from local;dipole-type excitations on close pairs of sites, coherent processes on;three or more sites lead to an interference correction sigma(1)(omega),;which depends on the statistics of the charge carriers and can be;suppressed by a magnetic field. For bosons the correction is always;positive, while for fermions it can be positive or negative depending on;whether the conduction is dominated by effective single-particle or;single-hole processes. We calculate the conductivity explicitly assuming;a constant density of states of single-site excitations. Independently;of the statistics, sigma(0)(omega) = const. For bosons, sigma(1)(omega);proportional to log(C/omega). For fermions, sigma(1)(omega) proportional;to log[max(A,omega)/omega] - log[max(B,omega)/omega], where the first;and the second term are, respectively, the particle and hole;contributions, A and B being the particle and hole energy cutoffs. The;ac magnetoresistance has the same sign as sigma(1)(omega).;Efetov, Konstantin/H-8852-2013;0;0;0;0;0;1098-0121;WOS:000312025300001;;;J;Troeppner, C.;Schmitt, T.;Reuschl, M.;Hammer, L.;Schneider, M. A.;Mittendorfer, F.;Redinger, J.;Podloucky, R.;Weinert, M.;Incommensurate Moire overlayer with strong local binding: CoO(111);bilayer on Ir(100);PHYSICAL REVIEW B;86;23;235407;10.1103/PhysRevB.86.235407;DEC 6 2012;2012;Incommensurate relaxed overlayer Moire structures are often interpreted;as systems with weak lateral variations of the binding potential and;thus no structural modulations in the overlayer material. We discuss;here the example of a CoO(111) bilayer on Ir(100), which is a relaxed;overlayer with strong structural response to the lateral modulation of;interface properties but nevertheless is incommensurate. By means of;density functional theory (DFT) calculations, we quantitatively;reproduce all the structural parameters of the CoO(111) bilayer on;Ir(100) as proposed by a recent low-energy electron diffraction analysis;[Ebensperger et al., Phys. Rev. B 81, 235405 (2010)]. The calculations;predict energetic degeneracies with respect to registry shifts of the;CoO(111) film along [01 (1) over bar]. Large-scale, low-temperature;scanning tunneling microscopy topographies reveal that the true;structure of the film is incommensurate in this direction, exhibiting a;one-dimensional Moire pattern with a period of about 9.4 a(Ir). From DFT;calculations for limiting (periodic) models, we can sample the potential;landscape of the cobalt and oxygen atoms in the Moire structure across;the Ir(100) unit cell. We find that despite the non-commensurability of;the film, the binding to the substrate is site specific with strong;attraction and repulsion points for both cobalt and oxygen atoms,;leading to severe local distortions in the film. The lateral modulation;of the structural elements within the oxide film can be understood as a;combination of the lateral variation in the Co-Ir binding potential and;additional O-Ir binding. DOI: 10.1103/PhysRevB.86.235407;Schneider, M. Alexander/C-6241-2013; Hammer, Lutz/D-9863-2013; Schneider, M. Alexander/B-4444-2012; Mittendorfer, Florian/L-5929-2013;Schneider, M. Alexander/0000-0002-8607-3301;;3;0;0;0;3;1098-0121;WOS:000312024600005;;;J;Tyunina, M.;Dejneka, A.;Chvostova, D.;Levoska, J.;Plekh, M.;Jastrabik, L.;Phase transitions in ferroelectric Pb0.5Sr0.5TiO3 films probed by;spectroscopic ellipsometry;PHYSICAL REVIEW B;86;22;224105;10.1103/PhysRevB.86.224105;DEC 6 2012;2012;Phase transitions occurring in 130-nm-thick films of;perovskite-structure ferroelectric Pb0.5Sr0.5TiO3 are experimentally;studied by combining spectroscopic ellipsometry and low-frequency;dielectric analysis. Polycrystalline and polydomain epitaxial films with;relaxed misfit strain and columnar microstructure are investigated. The;paraelectric and the ferroelectric states, and the temperatures and;widths of the paraelectric-to-ferroelectric phase transitions, are;identified from the temperature evolution of refractive index measured;in transparency range. The temperatures at which transitions start on;cooling are found to be considerably higher than the temperatures of the;dielectric peaks. In contrast to the broad dielectric peaks, the;transition width of 60 K in the polycrystalline film and that of 20 K in;the polydomain epitaxial film are revealed. The discrepancies between;optical and dielectric data are explained by the influence of extrinsic;factors on the low-frequency response of the thin-film capacitors. It is;suggested that fundamental mechanisms of ferroelectric phase transitions;in thin films can be revealed by studies of thermo-optical properties.;Dejneka, Alexandr/G-6384-2014; Jastrabik, Lubomir /H-1217-2014; Chvostova, Dagmar/G-9360-2014;6;0;0;0;6;1098-0121;WOS:000312023600002;;;J;Zeng, Hualing;Zhu, Bairen;Liu, Kai;Fan, Jiahe;Cui, Xiaodong;Zhang, Q. M.;Low-frequency Raman modes and electronic excitations in atomically thin;MoS2 films;PHYSICAL REVIEW B;86;24;241301;10.1103/PhysRevB.86.241301;DEC 6 2012;2012;Atomically thin MoS2 crystals have been recognized as;quasi-two-dimensional semiconductors with remarkable physical;properties. We report our Raman scattering measurements on multilayer;and monolayer MoS2, especially in the low-frequency range (<50 cm(-1)).;We find two low-frequency Raman modes with a contrasting thickness;dependence. When increasing the number of MoS2 layers, one mode shows a;significant increase in frequency while the other decreases following a;1/N (N denotes the number of unit layers) trend. With the aid of;first-principles calculations we assign the former as the shear mode;E-2g(2). The latter is distinguished as the compression vibrational;mode, similar to the surface vibration of other epitaxial thin films.;The opposite evolution of the two modes with thickness demonstrates;vibrational modes in an atomically thin crystal as well as a more;precise way to characterize the thickness of atomically thin MoS2 films.;In addition, we observe a broad feature around 38 cm(-1) (5 meV) which;is visible only under near-resonance excitation and pinned at a fixed;energy, independent of thickness. We interpret the feature as an;electronic Raman scattering associated with the spin-orbit coupling;induced splitting in a conduction band at K points in their Brillouin;zone.;Liu, Kai/K-4157-2012; Cui, Xiaodong/C-2023-2009; Zeng, Hualing/J-4411-2014;Cui, Xiaodong/0000-0002-2013-8336;;19;1;0;0;19;1098-0121;WOS:000312025300002;;;J;Anand, V. K.;Johnston, D. C.;Observation of a phase transition at 55 K in single-crystal CaCu1.7As2;PHYSICAL REVIEW B;86;21;214501;10.1103/PhysRevB.86.214501;DEC 5 2012;2012;We present the structural, magnetic, thermal and ab-plane electronic;transport properties of single crystals of CaCu1.7As2 grown by the;self-flux technique that were investigated by powder x-ray diffraction,;magnetic susceptibility chi, isothermal magnetization M, specific heat;C-p, and electrical resistivity rho measurements as a function of;temperature T and magnetic field H. X-ray diffraction analysis of;crushed crystals at room temperature confirm the collapsed tetragonal;ThCr2Si2-type structure with similar to 15% vacancies on the Cu sites as;previously reported, corresponding to the composition CaCu1.7As2. The;chi(T) data are diamagnetic, anisotropic, and nearly independent of T.;The chi is larger in the ab plane than along the c axis, as also;observed previously for SrCu2As2 and for pure and doped BaFe2As2. The;C-p(T) and rho(T) data indicate metallic sp-band character. In contrast;to the rho(T) and C-p(T) data that do not show any evidence for phase;transitions below 300 K, the rho(T) data exhibit a sharp decrease on;cooling below a temperature T-t = 54-56 K, depending on the crystal. The;chi(T) data show no hysteresis on warming and cooling through T-t and;the transition thus appears to be second order. The phase transition may;arise from spatial ordering of the vacancies on the Cu sublattice. The;T-t is found to be independent of H for H <= 8 T. A positive;magnetoresistance is observed below T-t that increases with decreasing T;and attains a value in H = 8.0 T of 8.7% at T = 1.8 K.;Anand, Vivek Kumar/J-3381-2013;Anand, Vivek Kumar/0000-0003-2023-7040;5;0;0;0;5;1098-0121;WOS:000311910400003;;;J;Avetisyan, Siranush;Pietilaeinen, Pekka;Chakraborty, Tapash;Strong enhancement of Rashba spin-orbit coupling with increasing;anisotropy in the Fock-Darwin states of a quantum dot (vol 85, 153301,;2012);PHYSICAL REVIEW B;86;23;239901;10.1103/PhysRevB.86.239901;DEC 5 2012;2012;1;0;0;0;1;1098-0121;WOS:000311911500005;;;J;Berman, Oleg L.;Kezerashvili, Roman Ya.;Ziegler, Klaus;Superfluidity and collective properties of excitonic polaritons in;gapped graphene in a microcavity;PHYSICAL REVIEW B;86;23;235404;10.1103/PhysRevB.86.235404;DEC 5 2012;2012;We predict the formation and superfluidity of polaritons in an optical;microcavity formed by excitons in gapped graphene embedded there and;microcavity photons. The Rabi splitting related to the creation of an;exciton in a graphene layer in the presence of the band gap is obtained.;It is demonstrated that the Rabi splitting decreases when the energy gap;increases, while the larger value of the dielectric constant of the;microcavity gives a smaller value for the Rabi splitting. The analysis;of collective excitations as well as the sound velocity is presented. We;show that the superfluid density n(s) and temperature of the;Kosterlitz-Thouless phase transition T-c are decreasing functions of the;energy gap.;2;0;0;0;2;1098-0121;WOS:000311911500004;;;J;Bernu, S.;Fertey, P.;Itie, J. -P.;Berger, H.;Foury-Leylekian, P.;Pouget, J. -P.;Vanishing of the metal-insulator Peierls transition in pressurized BaVS3;PHYSICAL REVIEW B;86;23;235105;10.1103/PhysRevB.86.235105;DEC 5 2012;2012;BaVS3 presents a metal-to-insulator (MI) transition at ambient pressure;due to the stabilization of a 2k(F) commensurate charge density wave;(CDW) Peierls ground state built on the dz(2) V orbitals. The MI;transition vanishes under pressure at a quantum critical point (QCP);where the electronic properties exhibit a non-Fermi liquid behavior. In;this paper, we determine the CDW phase diagram under pressure and show;that it combines both the vanishing of the second-order Peierls;transition and a commensurate-incommensurate first-order delocking;transition of the 2k(F) wave vector. We explain quantitatively the drop;of the MI critical temperature by the decrease of the electron-hole pair;lifetime of the CDW condensate due to an enhancement of the;hybridization between the dz(2) and e(t(2g)) levels of the V under;pressure.;0;0;0;0;0;1098-0121;WOS:000311911500001;;;J;Bobaru, S.;Gaudry, E.;de Weerd, M. -C.;Ledieu, J.;Fournee, V.;Competing allotropes of Bi deposited on the Al13Co4(100) alloy surface;PHYSICAL REVIEW B;86;21;214201;10.1103/PhysRevB.86.214201;DEC 5 2012;2012;The growth and stability of Bi thin films on the Al13Co4(100) surface;has been investigated from the submonolayer to high-coverage regime by;scanning tunneling microscopy (STM) and low-energy electron diffraction;(LEED) for temperatures ranging from 57 to 633 K. Initially, Bi;adsorption leads to the formation of a pseudomorphic monolayer, followed;by the growth of islands of different heights with increasing coverage.;The in-plane structure, island height, and island morphology indicate;that these islands adopt either a pseudocubic (110) or hexagonal (111);orientation normal to the surface. The (110)-oriented islands correspond;to bilayer stacking (either two or four monolayers in height) while the;(111)-oriented islands correspond to either three-or four-layer;stacking. The in-plane orientation of (110) islands with respect to the;substrate is random, while (111) islands adopt one of four possible;orientations. In addition, the (111) islands show a moire structure. The;fact that Bi islands grow with either (110) or (111) orientation;simultaneously on the same substrate relates to a subtle energy balance;between both orientations according to ab initio calculations, allowing;both structures to coexist. The island density dependence versus both;deposition temperature and flux, their most frequent structure type,;reshaping effects, and chemical reactivity of the different allotropes;are also discussed in this paper.;Gaudry, Emilie/G-9682-2011; Ledieu, Julian/F-1430-2010;2;0;0;0;2;1098-0121;WOS:000311910400002;;;J;Czarnik, Piotr;Cincio, Lukasz;Dziarmaga, Jacek;Projected entangled pair states at finite temperature: Imaginary time;evolution with ancillas;PHYSICAL REVIEW B;86;24;245101;10.1103/PhysRevB.86.245101;DEC 5 2012;2012;A projected entangled pair state (PEPS) with ancillas is evolved in;imaginary time. This tensor network represents a thermal state of a;two-dimensional (2D) lattice quantum system. A finite-temperature phase;diagram of the 2D quantum Ising model in a transverse field is obtained;as a benchmark application.;2;0;0;0;2;1098-0121;WOS:000311912300002;;;J;de Jong, Maarten;Olmsted, David L.;van de Walle, Axel;Asta, Mark;First-principles study of the structural and elastic properties of;rhenium-based transition-metal alloys;PHYSICAL REVIEW B;86;22;224101;10.1103/PhysRevB.86.224101;DEC 5 2012;2012;Structural, energetic, and elastic properties of hexagonal-close-packed;rhenium-based transition-metal alloys are computed by density-functional;theory. The practical interest in these materials stems from the;attractive combination of mechanical properties displayed by rhenium for;structural applications requiring the combination of high melting;temperature and low-temperature ductility. Single-crystal elastic;constants, atomic volumes, axial c/a ratios, and dilute heats of;solution for Re-X alloys are computed, considering all possible;transition-metal solute species X. Calculated elastic constants are used;to compute values of a commonly considered intrinsic-ductility parameter;K/G, where K is the bulk modulus and G denotes the Voigt average of the;shear modulus, as well as the anisotropies in the Young's modulus and;shear modulus. The calculated properties show clear trends as a function;of d-band filling, which can be rationalized through tight-binding;theory. The results indicate that solutes to the left of rhenium in the;periodic table show a tendency to increase the intrinsic ductility;parameter, a trend that correlates with an increase of the c/a ratio;towards the ideal value associated optimal close packing. The Young's;modulus shows a trend towards increasing isotropy with alloying of;solutes X to the left of Re, while the shear modulus shows the opposite;trend but with an overall weaker dependence on solute additions. DOI:;10.1103/PhysRevB.86.224101;van de Walle, Axel/L-5676-2013;van de Walle, Axel/0000-0002-3415-1494;0;0;0;0;0;1098-0121;WOS:000311910900001;;;J;Fingerhut, Benjamin P.;Richter, Marten;Luo, Jun-Wei;Zunger, Alex;Mukamel, Shaul;Dissecting biexciton wave functions of self-assembled quantum dots by;double-quantum-coherence optical spectroscopy;PHYSICAL REVIEW B;86;23;235303;10.1103/PhysRevB.86.235303;DEC 5 2012;2012;Biexcitons feature prominently in various scenarios for utilization of;quantum dots (QDs) for enhancing the efficiencies of solar cells, and;for the generation of entangled photon pairs in single QD sources.;Two-dimensional double quantum coherence (2D-DQC) nonlinear optical;spectra provide novel spectroscopic signatures of such states beyond;global intensity and lifetime characteristics which are available by;more conventional techniques. We report the simulation of a prototype;2D-DQC optical experiment of a self-assembled InAs/GaAs dot. The;simulations consider the QD in different charged states and are based on;a state-of-the-art atomistic many-body pseudopotential method for the;calculation of the electronic structure and transition dipole matrix;elements. Comparison of the spectra of negatively charged, neutral, and;positively charged QD reveals optical signatures of their electronic;excitations. This technique directly accesses the biexciton (XX);energies as well as the projections of their wave functions on the;single-exciton manifold. These signals also provide a unique tool for;probing the charged state of the QD and thus the occupation of the;quantum state. Signatures of Pauli blockade of the creation of certain;single and two excitons due to charges on the particles are observed.;For all quantum states of the QD, the spectra reveal a strong;multiconfiguration character of the biexciton wave functions. Peak;intensities can be explained by interference of the contributing;Liouville space pathways.;Zunger, Alex/A-6733-2013; LUO, JUNWEI/B-6545-2013; LUO, JUN-WEI/A-8491-2010; Richter, Marten/B-7790-2008;Richter, Marten/0000-0003-4160-1008;2;0;0;0;2;1098-0121;WOS:000311911500003;;;J;Haskins, Justin B.;Moriarty, John A.;Hood, Randolph Q.;Polymorphism and melt in high-pressure tantalum;PHYSICAL REVIEW B;86;22;224104;10.1103/PhysRevB.86.224104;DEC 5 2012;2012;Recent small-cell (<150 atom) quantum molecular dynamics (QMD);simulations for Ta based on density functional theory (DFT) have;predicted a hexagonal omega (hex-omega)phase more stable than the normal;bcc phase at high temperature (T) and pressure (P) above 70 GPa [;Burakovsky et al., Phys. Rev. Lett. 104, 255702 (2010)]. Here we examine;possible high-T, P polymorphism in Ta with complementary DFT-based model;generalized pseudopotential theory (MGPT) multi-ion interatomic;potentials, which allow accurate treatment of much larger system sizes;(up to similar to 80000 atoms). We focus on candidate bcc, A15, fcc,;hcp, and hex-omega phases for the high-T, P phase diagram to 420 GPa,;studying the mechanical and relative thermodynamic stability of these;phases for both small and large computational cells. Our MGPT potentials;fully capture the T = 0 DFT energetics of these phases, while MGPT-MD;simulations demonstrate that the higher-energy fcc, hcp, and hex-omega;structures are only mechanically stabilized at high temperature by;large, size-dependent, anharmonic vibrational effects, with the;stability of the hex-omega phase also being found to be a sensitive;function of its c/a ratio. Both two-phase and Z-method melting;techniques have been used in MGPT-MD simulations to determine relative;phase stability and its size dependence. In the large-cell limit, the;two-phase method yields accurate equilibrium melt curves for all five;phases, with bcc producing the highest melt temperatures at all;pressures and hence being the most stable phase of those considered. The;two-phase bcc melt curve is also in good agreement with dynamic;experimental data as well as with the MGPT melt curve calculated from;bcc and liquid free energies. In contrast, we find that the Z method;produces only an upper bound to the equilibrium melt curve in the;large-cell limit. For the bcc and hex-omega structures, however, this is;a close upper bound within 5% of the two-phase results, although for the;A15, fcc, and hcp structures, the Z-melt curves are 25%-35% higher in;temperature than the two-phase results. Nonetheless, the Z method has;allowed us to study melt size effects in detail. We find these effects;to be either small or modest for the cubic bcc, A15, and fcc structures,;but to have a large impact on the hexagonal hcp and hex-omega melt;curves, which are dramatically pushed above that of bcc for simulation;cells less than 150 atoms. The melt size effects are driven by and;closely correlated with similar size effects on the mechanical stability;and the vibrational anharmonicity. We further show that for the same;simulation cell sizes and choice of c/a ratio, the MGPT-MD bcc and;hex-omega melt curves are in good agreement with the QMD results, so the;QMD prediction is confirmed in the small-cell limit. But in the;large-cell limit, the MGPT-MD hex-omega melt curve is always lowered;below that of bcc for any choice of c/a, so bcc is the most stable;phase. We conclude that for the non-bcc Ta phases studied, one requires;simulation cells of at least 250-500 atoms to be free of size effects;impacting mechanical and thermodynamic phase stability. DOI:;10.1103/PhysRevB.86.224104;8;0;0;0;8;1098-0121;WOS:000311910900004;;;J;Iwazaki, Yoshiki;Suzuki, Toshimasa;Mizuno, Youichi;Tsuneyuki, Shinji;Doping-induced phase transitions in ferroelectric BaTiO3 from;first-principles calculations;PHYSICAL REVIEW B;86;21;214103;10.1103/PhysRevB.86.214103;DEC 5 2012;2012;Carrier-electron-induced phase transition from tetragonal to cubic;phases in BaTiO3 is studied using first-principles calculation. Our;results show that the disappearance of the ferroelectric phase is an;intrinsic effect resulting from carrier electron doping in BaTiO3. We;further clarify that the lattice disorder induced by donor dopants such;as oxygen vacancies and substitutionally doped Nb5+ at Ti4+ sites;accelerates the disappearance of the tetragonal phase in BaTiO3.;7;0;0;0;7;1098-0121;WOS:000311910400001;;;J;Koshelev, A. E.;Phase diagram of Josephson junction between s and s(+/-) superconductors;in the dirty limit;PHYSICAL REVIEW B;86;21;214502;10.1103/PhysRevB.86.214502;DEC 5 2012;2012;The s(+/-) state in which the order parameter has different signs in;different bands is a leading candidate for the superconducting state in;the iron-based superconductors. We investigate a Josephson junction;between s and s(+/-) superconductors within microscopic theory.;Frustration, caused by interaction of the s-wave gap parameter with the;opposite-sign gaps of the s(+/-) superconductor, leads to nontrivial;phase diagram. When the partial Josephson coupling energy between the;s-wave superconductor and one of the s(+/-) bands dominates, s-wave gap;parameter aligns with the order parameter in this band. In this case,;the partial Josephson energies have different signs corresponding to;signs of the gap parameters. In the case of strong frustration,;corresponding to almost complete compensation of the total Josephson;energy, a nontrivial time-reversal-symmetry breaking (TRSB) state;realizes. In this state, all gap parameters become essentially complex.;As a consequence, this state provides realization for so-called;phi-junction with finite phase difference in the ground state. The width;of the TRSB state region is determined by the second harmonic in;Josephson current, proportional to sin(2 phi f), which appears in the;second order with respect to the boundary transparency. Using the;microscopic theory, we establish a range of parameters where different;states are realized. Our analysis shows insufficiency of the simple;phenomenological approach for treatment of this problem.;Koshelev, Alexei/K-3971-2013;Koshelev, Alexei/0000-0002-1167-5906;3;0;0;0;3;1098-0121;WOS:000311910400004;;;J;Krueger, Peter;Koutiri, Issam;Bourgeois, Sylvie;First-principles study of hexagonal tungsten trioxide: Nature of lattice;distortions and effect of potassium doping;PHYSICAL REVIEW B;86;22;224102;10.1103/PhysRevB.86.224102;DEC 5 2012;2012;A density functional theory study is reported on pure and potassium;doped tungsten trioxide. The nature of lattice distortions in the;hexagonal phase is analyzed and a new symmetry group is proposed. The;structure and stability of cubic, monoclinic, and hexagonal phases is;studied as a function of potassium doping and an approximate phase;diagram is derived. KxWO3 undergoes a monoclinic to hexagonal phase;transition at x similar to 3%. DOI: 10.1103/PhysRevB.86.224102;1;0;0;0;1;1098-0121;WOS:000311910900002;;;J;Landsgesell, S.;Abou-Ras, D.;Alber, D.;Prokes, K.;Wolf, T.;Direct evidence of chemical and crystallographic phase separation in;K0.65Fe1.74Se2;PHYSICAL REVIEW B;86;22;224502;10.1103/PhysRevB.86.224502;DEC 5 2012;2012;In the present work, we report on a chemical phase separation in;crystalline superconducting K0.65Fe1.74Se2, investigated by means of;magnetization experiments, scanning electron microscopy, electron;backscatter diffraction, and energy-dispersive x-ray spectrometry. It is;shown that the crystal consists of platelets oriented in < 100 > with an;approximated volume fraction of about 30% in the surrounding < 001 >;oriented matrix. The platelets (the matrix) are depleted in K (Fe) and;enriched in Fe (K). Chemical phase separation is demonstrated by a;stable, antiferromagnetic K0.8Fe1.6Se2 matrix, and KxFe2-y Se-2;platelets inducing superconductivity. This time-driven, chemical phase;separation is therefore responsible for various coexistent magnetic and;electrical properties measured in KxFeySe2 samples. DOI:;10.1103/PhysRevB.86.224502;Landsgesell, Sven/B-1467-2013; Prokes, Karel/J-5438-2013;Landsgesell, Sven/0000-0002-2469-3548; Prokes, Karel/0000-0002-7034-1738;10;0;0;0;10;1098-0121;WOS:000311910900005;;;J;Liu, Wei;Carrasco, Javier;Santra, Biswajit;Michaelides, Angelos;Scheffler, Matthias;Tkatchenko, Alexandre;Benzene adsorbed on metals: Concerted effect of covalency and van der;Waals bonding;PHYSICAL REVIEW B;86;24;245405;10.1103/PhysRevB.86.245405;DEC 5 2012;2012;The adsorption of aromatic molecules on metal surfaces plays a key role;in condensed matter physics and functional materials. Depending on the;strength of the interaction between the molecule and the surface, the;binding is typically classified as either physisorption or;chemisorption. Van der Waals (vdW) interactions contribute significantly;to the binding in physisorbed systems, but the role of the vdW energy in;chemisorbed systems remains unclear. Here we study the interaction of;benzene with the (111) surface of transition metals, ranging from weak;adsorption (Ag and Au) to strong adsorption (Pt, Pd, Ir, and Rh). When;vdW interactions are accurately accounted for, the barrier to adsorption;predicted by standard density-functional theory (DFT) calculations;essentially vanishes, producing a metastable precursor state on Pt and;Ir surfaces. Notably, vdW forces contribute more to the binding of;covalently bonded benzene than they do when benzene is physisorbed.;Comparison to experimental data demonstrates that some of the recently;developed methods for including vdW interactions in DFT allow;quantitative treatment of both weakly and strongly adsorbed aromatic;molecules on metal surfaces, extending the already excellent performance;found for molecules in the gas phase.;Michaelides, Angelos/K-8727-2012; Santra, Biswajit/C-4818-2008; Tkatchenko, Alexandre/E-7148-2011;Santra, Biswajit/0000-0003-3609-2106; Tkatchenko,;Alexandre/0000-0002-1012-4854;52;2;0;0;52;1098-0121;WOS:000311912300005;;;J;Ou, Xin;Koegler, Reinhard;Zhou, Hong-Bo;Anwand, Wolfgang;Grenzer, Joerg;Huebner, Rene;Voelskow, Matthias;Butterling, Maik;Zhou, Shengqiang;Skorupa, Wolfgang;Release of helium from vacancy defects in yttria-stabilized zirconia;under irradiation;PHYSICAL REVIEW B;86;22;224103;10.1103/PhysRevB.86.224103;DEC 5 2012;2012;Fission gas retention or release has a critical impact on the function;of advanced nuclear materials. Helium trapping in, and release from,;radiation defects induced by neutrons and by a decay in YSZ;(yttria-stabilized zirconia) is experimentally simulated using;synchronized Zr+ and He+ dual ion beam irradiation. The measured damage;profiles consist of two peaks which agree well with the calculated;profiles of implantation induced excess point defects. This special;implantation related effect has to be carefully considered in the;evaluation of experimental investigations which simulate isotropic;irradiation effects such as a decay. First-principles calculations show;that helium is energetically favorable to be trapped by Zr vacancies in;YSZ. Implanted helium alone in YSZ is accumulated in undesirable helium;bubbles and results in local surface swelling and lift-off. However,;under dual beam irradiation helium is released from vacancy defects and;is out-diffused at room temperature. Helium is mobilized by a;vacancy-assisted trapping/detrapping mechanism induced by the;simultaneous Zr+ ion implantation. This behavior avoids the deleterious;helium bubble formation and contributes to the suitable application;characteristics of YSZ which result in its excellent radiation hardness.;DOI: 10.1103/PhysRevB.86.224103;Zhou, Shengqiang/C-1497-2009;Zhou, Shengqiang/0000-0002-4885-799X;3;0;2;0;3;1098-0121;WOS:000311910900003;;;J;Pauly, C.;Bihlmayer, G.;Liebmann, M.;Grob, M.;Georgi, A.;Subramaniam, D.;Scholz, M. R.;Sanchez-Barriga, J.;Varykhalov, A.;Bluegel, S.;Rader, O.;Morgenstern, M.;Probing two topological surface bands of Sb2Te3 by spin-polarized;photoemission spectroscopy;PHYSICAL REVIEW B;86;23;235106;10.1103/PhysRevB.86.235106;DEC 5 2012;2012;Using high-resolution spin-and angle-resolved photoemission;spectroscopy, we map the electronic structure and spin texture of the;surface states of the topological insulator Sb2Te3. In combination with;density functional calculations (DFT), we directly show that Sb2Te3;exhibits a partially occupied, single spin-Dirac cone around the Fermi;energy E-F, which is topologically protected. DFT obtains a spin;polarization of the occupied Dirac cone states of 80-90%, which is in;reasonable agreement with the experimental data after careful background;subtraction. Furthermore, we observe a strongly spin-orbit split surface;band at lower energy. This state is found at E - E-F similar or equal to;-0.8 eV at the (Gamma) over bar point, disperses upward, and disappears;at about E - E-F = -0.4 eV into two different bulk bands. Along the;(Gamma) over bar-(K) over bar direction, the band is located within a;spin-orbit gap. According to an argument given by Pendry and Gurman in;1975, such a gap must contain a surface state, if it is located away;from the high-symmetry points of the Brillouin zone. Thus, the novel;spin-split state is protected by symmetry, too.;Bihlmayer, Gustav/G-5279-2013; Rader, Oliver/H-8498-2013; Sanchez-Barriga, Jaime/I-3493-2013; Varykhalov, Andrei/I-3571-2013; Blugel, Stefan/J-8323-2013; Liebmann, Marcus/G-6254-2012; Morgenstern, Markus/K-7785-2013;Bihlmayer, Gustav/0000-0002-6615-1122; Rader,;Oliver/0000-0003-3639-0971; Sanchez-Barriga, Jaime/0000-0001-9947-6700;;Varykhalov, Andrei/0000-0002-7901-3562; Blugel,;Stefan/0000-0001-9987-4733; Liebmann, Marcus/0000-0003-4787-0129;;Morgenstern, Markus/0000-0002-3993-6880;15;0;0;0;15;1098-0121;WOS:000311911500002;;;J;Silveirinha, Mario G.;Engheta, Nader;Metamaterial-inspired model for electron waves in bulk semiconductors;PHYSICAL REVIEW B;86;24;245302;10.1103/PhysRevB.86.245302;DEC 5 2012;2012;Based on an analogy with electromagnetic metamaterials, we develop an;effective medium description for the propagation of electron matter;waves in bulk semiconductors with a zinc-blende structure. It is;formally demonstrated that even though departing from a different;starting point, our theory gives results for the energy stationary;states consistent with Bastard's envelope-function approximation in the;long-wavelength limit. Using the proposed approach, we discuss the time;evolution of a wave packet in a bulk semiconductor with a zero-gap and;linear energy-momentum dispersion.;4;0;0;0;4;1098-0121;WOS:000311912300004;;;J;Valla, T.;Ji, Huiwen;Schoop, L. M.;Weber, A. P.;Pan, Z. -H.;Sadowski, J. T.;Vescovo, E.;Fedorov, A. V.;Caruso, A. N.;Gibson, Q. D.;Muechler, L.;Felser, C.;Cava, R. J.;Topological semimetal in a Bi-Bi2Se3 infinitely adaptive superlattice;phase;PHYSICAL REVIEW B;86;24;241101;10.1103/PhysRevB.86.241101;DEC 5 2012;2012;We report spin-and angle-resolved photoemission studies of a topological;semimetal from the infinitely adaptive series between elemental Bi and;Bi2Se3. The compound, based on Bi4Se3, is a 1:1 natural superlattice of;alternating Bi-2 layers and Bi2Se3 layers; the inclusion of S allows the;growth of large crystals, with the formula Bi4Se2.6S0.4. The crystals;cleave along the interfaces between the Bi-2 and Bi2Se3 layers, with the;surfaces obtained having alternating Bi or Se termination. The resulting;terraces, observed by photoemission electron microscopy, create avenues;suitable for the study of one-dimensional topological physics. The;electronic structure, determined by spin-and angle-resolved;photoemission spectroscopy, shows the existence of a surface state that;forms a large, hexagonally shaped Fermi surface around the Gamma point;of the surface Brillouin zone, with the spin structure indicating that;this material is a topological semimetal.;Felser, Claudia/A-5779-2009; Schoop, Leslie/A-4627-2013; Muchler, Lukas/A-4628-2013; Ji, Huiwen/O-5145-2014;Schoop, Leslie/0000-0003-3459-4241;;15;2;0;0;15;1098-0121;WOS:000311912300001;;;J;Witczak-Krempa, William;Ghaemi, Pouyan;Senthil, T.;Kim, Yong Baek;Universal transport near a quantum critical Mott transition in two;dimensions;PHYSICAL REVIEW B;86;24;245102;10.1103/PhysRevB.86.245102;DEC 5 2012;2012;We discuss the universal-transport signatures near a zero-temperature;continuous Mott transition between a Fermi liquid and a quantum spin;liquid in two spatial dimensions. The correlation-driven transition;occurs at fixed filling and involves fractionalization of the electron:;upon entering the spin liquid, a Fermi surface of neutral spinons;coupled to an internal gauge field emerges. We present a controlled;calculation of the value of the zero-temperature universal resistivity;jump predicted to occur at the transition. More generally, the behavior;of the universal scaling function that collapses the temperature-and;pressure-dependent resistivity is derived, and is shown to bear a strong;imprint of the emergent gauge fluctuations. We further predict a;universal jump of the thermal conductivity across the Mott transition,;which derives from the breaking of conformal invariance by the damped;gauge field, and leads to a violation of the Wiedemann-Franz law in the;quantum critical region. A connection to the quasitriangular organic;salts is made, where such a transition might occur. Finally, we present;some transport results for the pure rotor O(N) conformal field theory.;10;0;0;0;10;1098-0121;WOS:000311912300003;;;J;Apostolov, Stanislav;Levchenko, Alex;Josephson current and density of states in proximity circuits with;s(+)-superconductors;PHYSICAL REVIEW B;86;22;224501;10.1103/PhysRevB.86.224501;DEC 4 2012;2012;We study the emergent proximity effect in mesoscopic circuits that;involve a conventional superconductor and an unconventional pnictide;superconductor separated by a diffusive normal or ferromagnetic wire.;The focus is placed on revealing signatures of the proposed s(+)-state;of pnictides from the proximity-induced density of states and Josephson;current. We find analytically a universal result for the density of;states that exhibits both the Thouless gap at low energies and peculiar;features near the superconducting gap edges at higher energies. The;latter may be used to discriminate between s(+)- and s(++) symmetry;scenarios in scanning tunneling spectroscopy experiments. We also;calculate Josephson current-phase relationships for different junction;configurations, which are found to display robust 0-pi transitions for a;wide range of parameters.;3;0;0;0;3;1098-0121;WOS:000311910600005;;;J;Balci, Sinan;Kocabas, Coskun;Ates, Simge;Karademir, Ertugrul;Salihoglu, Omer;Aydinli, Atilla;Tuning surface plasmon-exciton coupling via thickness dependent plasmon;damping;PHYSICAL REVIEW B;86;23;235402;10.1103/PhysRevB.86.235402;DEC 4 2012;2012;In this paper, we report experimental and theoretical investigations on;tuning of the surface plasmon-exciton coupling by controlling the;plasmonic mode damping, which is defined by the plasmonic layer;thickness. The results reveal the formation of plasmon-exciton hybrid;state characterized by a tunable Rabi splitting with energies ranging;from 0 to 150 meV. Polarization-dependent spectroscopic reflection;measurements were employed to probe the dispersion of the coupled;system. The transfer matrix method and analytical calculations were used;to model the self-assembled J-aggregate/metal multilayer structures in;excellent agreement with experimental observations.;Kocabas, Coskun/C-6018-2013;6;0;0;0;6;1098-0121;WOS:000311911100002;;;J;Belashchenko, K. D.;Glasbrenner, J. K.;Wysocki, A. L.;Spin injection from a half-metal at finite temperatures;PHYSICAL REVIEW B;86;22;224402;10.1103/PhysRevB.86.224402;DEC 4 2012;2012;Spin injection from a half-metallic electrode in the presence of thermal;spin disorder is analyzed using a combination of random matrix theory,;spin-diffusion theory, and explicit simulations for the tight-binding;s-d model. It is shown that efficient spin injection from a half-metal;is possible as long as the effective resistance of the normal metal does;not exceed a characteristic value, which does not depend on the;resistance of the half-metallic electrode but, rather, is controlled by;spin-flip scattering at the interface. This condition can be formulated;as alpha less than or similar to l/l(sf)(N) T-c(-1) where a is the;relative deviation of the magnetization from saturation, l and l(sf)(N);are the mean-free path and the spin-diffusion length in the nonmagnetic;channel, and T-c is the transparency of the tunnel barrier at the;interface (if present). The general conclusions are confirmed by;tight-binding s-d model calculations. A rough estimate suggests that;efficient spin injection from true half-metallic ferromagnets into;silicon or copper may be possible at room temperature across a;transparent interface.;Wysocki, Aleksander/D-6928-2013;1;0;0;0;1;1098-0121;WOS:000311910600003;;;J;Bessas, D.;Sergueev, I.;Wille, H. -C.;Persson, J.;Ebling, D.;Hermann, R. P.;Lattice dynamics in Bi2Te3 and Sb2Te3: Te and Sb density of phonon;states;PHYSICAL REVIEW B;86;22;224301;10.1103/PhysRevB.86.224301;DEC 4 2012;2012;The lattice dynamics in Bi2Te3 and Sb2Te3 were investigated both;microscopically and macroscopically using Sb-121 and Te-125 nuclear;inelastic scattering, x-ray diffraction, and heat capacity measurements.;In combination with earlier inelastic neutron scattering data, the;element-specific density of phonon states was obtained for both;compounds and phonon polarization analysis was carried out for Bi2Te3. A;prominent peak in the Te specific density of phonon states at 13 meV,;that involves mainly in-plane vibrations, is mostly unaffected upon;substitution of Sb with Bi revealing vibrations with essentially Te;character. A significant softening is observed for the density of;vibrational states of Bi with respect to Sb, consistently with the mass;homology relation in the long-wavelength limit. In order to explain the;energy mismatch in the optical phonon region, a similar to 20% force;constant softening of the Sb-Te bond with respect to the Bi-Te bond is;required. The reduced average speed of sound at 20 K in Bi2Te3, 1.75(1);km/s, compared to Sb2Te3, 1.85(4) km/s, is not only related to the;larger mass density but also to a larger Debye level. The observed low;lattice thermal conductivity at 295 K, 2.4 Wm(-1)K(-1) for Sb2Te3 and;1.6 Wm(-1)K(-1) for Bi2Te3, cannot be explained by anharmonicity alone;given the rather modest Gruneisen parameters, 1.7(1) for Sb2Te3 and;1.5(1) for Bi2Te3, without accounting for the reduced speed of sound and;more importantly the low acoustic cutoff energy.;Wille, Hans-Christian/C-3881-2013; Hermann, Raphael/F-6257-2013; Bessas, Dimitrios/I-5262-2013;Hermann, Raphael/0000-0002-6138-5624; Bessas,;Dimitrios/0000-0003-0240-2540;5;0;1;0;5;1098-0121;WOS:000311910600002;;;J;de Resseguier, T.;Lescoute, E.;Loison, D.;Influence of elevated temperature on the wave propagation and spallation;in laser shock-loaded iron;PHYSICAL REVIEW B;86;21;214102;10.1103/PhysRevB.86.214102;DEC 4 2012;2012;Laser shock experiments have been performed on preheated iron samples to;address the role of initial temperature on the elastic limit, wave;propagation, and spall fracture in this metal over the temperature range;300-1000 K at very high expansion rates of the order of 3 x 10(6) s(-1).;Time-resolved measurements of the free-surface velocity indicate a;slight, roughly linear decrease of the spall strength with increasing;temperature, accompanied by a clear change from brittle to ductile;fracture behavior evidenced from post-shot examination of the recovered;samples. The results are discussed on the basis of simulations;accounting for laser-matter interaction, pressure wave propagation, and;subsequent polymorphic transformations throughout the sample thickness.;Over the explored range of loading conditions, the occurrence of such;transformations prior to spallation, which takes place near the;free-surface under tensile loading after reversion to the alpha phase,;does not seem to strongly affect dynamic fracture.;loison, didier/N-2122-2014;3;0;0;0;3;1098-0121;WOS:000311910100001;;;J;Ellis, David S.;Uchiyama, Hiroshi;Tsutsui, Satoshi;Sugimoto, Kunihisa;Kato, Kenichi;Ishikawa, Daisuke;Baron, Alfred Q. R.;Phonon softening and dispersion in EuTiO3;PHYSICAL REVIEW B;86;22;220301;10.1103/PhysRevB.86.220301;DEC 4 2012;2012;We measured phonon dispersion in single-crystal EuTiO3 using inelastic;x-ray scattering. Astructural transition to an antiferrodistortive phase;was found at a critical temperature T-0 = 287 +/- 1K using powder and;single-crystal x-ray diffraction. Clear softening of the zone boundary;R-point q = (0.5 0.5 0.5) acoustic phonon shows this to be a displacive;transition. The mode energy plotted against reduced temperature could be;seen to nearly overlap that of SrTiO3, suggesting a universal scaling;relation. Phonon dispersion was measured along Gamma-X (0 0 0) -> (0.5 0;0). Mode eigenvectors were obtained from a shell model consistent with;the q dependence of intensity and energy, which also showed that the;dispersion is nominally the same as in SrTiO3 at room temperature, but;corrected for mass. The lowest-energy optical mode, determined to be of;Slater character, softens approximately linearly with temperature until;the 70-100 K range where the softening stops, and at low temperature,;the mode disperses linearly near the zone center.;7;0;0;0;7;1098-0121;WOS:000311910600001;;;J;Fock, J.;Leijnse, M.;Jennum, K.;Zyazin, A. S.;Paaske, J.;Hedegard, P.;Nielsen, M. Brondsted;van der Zant, H. S. J.;Manipulation of organic polyradicals in a single-molecule transistor;PHYSICAL REVIEW B;86;23;235403;10.1103/PhysRevB.86.235403;DEC 4 2012;2012;Inspired by cotunneling spectroscopy of spin-states in a single;OPE5-based molecule, we investigate the prospects for electric control;of magnetism in purely organic molecules contacted in a three-terminal;geometry. Using the gate electrode, the molecule is reversibly switched;between three different redox states, with magnetic spectra revealing;both ferromagnetic and antiferromagnetic exchange couplings on the;molecule. These observations are shown to be captured by an effective;low-energy Heisenberg model, which we substantiate microscopically by a;simple valence bond description of the molecule. These preliminary;findings suggest an interesting route towards functionalized all-organic;molecular magnetism.;Fock, Jeppe/A-9074-2011;Fock, Jeppe/0000-0002-7515-4026;3;0;0;0;3;1098-0121;WOS:000311911100003;;;J;Li, P. H. Y.;Bishop, R. F.;Campbell, C. E.;Farnell, D. J. J.;Goetze, O.;Richter, J.;Spin-1/2 Heisenberg antiferromagnet on an anisotropic kagome lattice;PHYSICAL REVIEW B;86;21;214403;10.1103/PhysRevB.86.214403;DEC 4 2012;2012;We use the coupled-cluster method to study the zero-temperature;properties of an extended two-dimensional Heisenberg antiferromagnet;formed from spin-1/2 moments on an infinite spatially anisotropic kagome;lattice of corner-sharing isosceles triangles, with nearest-neighbor;bonds only. The bonds have exchange constants J(1) > 0 along two of the;three lattice directions and J(2) = kappa J(1) > 0 along the third. In;the classical limit, the ground-state (GS) phase for kappa < 1/2 has;collinear ferrimagnetic (Neel') order where the J(2)-coupled chain spins;are ferromagnetically ordered in one direction with the remaining spins;aligned in the opposite direction, while for kappa > 1/2 there exists an;infinite GS family of canted ferrimagnetic spin states, which are;energetically degenerate. For the spin-1/2 case, we find that quantum;analogs of both these classical states continue to exist as stable GS;phases in some regions of the anisotropy parameter kappa, namely, for 0;< kappa < kappa(c1) for the Neel' state and for (at least part of) the;region kappa > kappa(c2) for the canted phase. However, they are now;separated by a paramagnetic phase without either sort of magnetic order;in the region kappa(c1) < kappa < kappa(c2), which includes the;isotropic kagome point kappa = 1 where the stable GS phase is now;believed to be a topological (Z(2)) spin liquid. Our best numerical;estimates are kappa(c1) = 0.515 +/- 0.015 and kappa(c2) = 1.82 +/- 0.03.;Richter, Johannes/A-6339-2009; Bishop, Raymond/D-9715-2012;Bishop, Raymond/0000-0001-5565-0658;4;0;0;0;4;1098-0121;WOS:000311910100002;;;J;Monozon, B. S.;Schmelcher, P.;Bound and resonant impurity states in a narrow gapped armchair graphene;nanoribbon;PHYSICAL REVIEW B;86;24;245404;10.1103/PhysRevB.86.245404;DEC 4 2012;2012;An analytical study of discrete and resonant impurity quasi-Coulomb;states in a narrow gapped armchair graphene nanoribbon (GNR) is;performed. We employ the adiabatic approximation assuming that the;motions parallel ("slow") and perpendicular ("fast") to the boundaries;of the ribbon are separated adiabatically. The energy spectrum comprises;a sequence of series of quasi-Rydberg levels relevant to the slow motion;adjacent from the low energies to the size-quantized levels associated;with the fast motion. Only the series attributed to the ground;size-quantized subband is really discrete, while others corresponding to;the excited subbands consist of quasidiscrete (Fano resonant) levels of;nonzero energetic widths, caused by the coupling with the states of the;continuous spectrum branching from the low lying subbands. In the;two-and three-subband approximation the spectrum of the complex energies;of the impurity electron is derived in an explicit form. Narrowing the;GNR leads to an increase of the binding energy and the resonant width;both induced by the finite width of the ribbon. Displacing the impurity;center from the midpoint of the GNR causes the binding energy to;decrease, while the resonant width of the first excited Rydberg series;increases. As for the second excited series, their widths become;narrower with the shift of the impurity. A successful comparison of our;analytical results with those obtained by other theoretical and;experimental methods is presented. Estimates of the binding energies and;the resonant widths taken for the parameters of typical GNRs show that;not only the strictly discrete but also some resonant states are quite;stable and could be studied experimentally in doped GNRs.;Monozon, Boris/E-6412-2012; Schmelcher, Peter/D-9592-2014;Schmelcher, Peter/0000-0002-2637-0937;0;0;0;0;0;1098-0121;WOS:000311911900002;;;J;Thiaville, Andre;Vukadinovic, Nicolas;Acher, Olivier;Sum rule for the magnetic permeability of arbitrary textures;PHYSICAL REVIEW B;86;21;214404;10.1103/PhysRevB.86.214404;DEC 4 2012;2012;The f-sum rule for the magnetic permeability, derived previously for an;assembly of isolated macrospins, is generalized for an arbitrary;nonuniform three-dimensional magnetization texture, in which the;magnetizations at different points are coupled by exchange and;magnetostatic interactions. The sum value depends only on the magnetic;texture at rest. It has no direct contribution from the exchange energy,;but depends on the anisotropy, applied field, and demagnetizing;energies. The derived formula is tested against numerical calculations;for several complex and very different magnetization structures. This;generalized sum rule should be useful for experiments, numerical;simulations, and metrology.;1;0;0;0;1;1098-0121;WOS:000311910100003;;;J;Troc, R.;Gajek, Z.;Pikul, A.;Dualism of the 5f electrons of the ferromagnetic superconductor UGe2 as;seen in magnetic, transport, and specific-heat data;PHYSICAL REVIEW B;86;22;224403;10.1103/PhysRevB.86.224403;DEC 4 2012;2012;Single-crystalline UGe2 was investigated by means of magnetic;susceptibility, magnetization, electrical resistivity,;magnetoresistivity, and specific-heat measurements, all carried out in;wide temperature and magnetic-field ranges. An analysis of the obtained;data points out the dual behavior of the 5f electrons in this compound,;i. e., possessing simultaneously local and itinerant characters in two;substates. The magnetic and thermal characteristics of the compound were;modeled using the effective crystal field (CF) in the intermediate;coupling scheme and initial parameters obtained in the angular overlap;model. Various configurations of the localized 5f(n) (n = 1, 2, and 3);electrons on the uranium ion have been probed. The best results were;obtained for the 5f(2) (U4+) configuration. The CF parameters obtained;in the paramagnetic region allowed us to reproduce satisfactorily the;experimental findings in the whole temperature range including also the;magnitude of the ordered magnetic moment of uranium at low temperature.;The electrical resistivity data after subtraction of the phonon;contribution reveal the presence of a Kondo-like interaction in UGe2;supporting the idea of partial localization of the 5f electrons in UGe2.;On the other hand, magnetoresistivity and an excess of specific heat;originated from the hybridized (itinerant) part of 5f states, apparent;around the characteristic temperature T*, give a distinct signature for;the presence of the coupled charge-density wave and spin-density wave;fluctuations over all the ferromagnetic region with a maximum at T*,;postulated earlier in the literature.;7;0;0;0;7;1098-0121;WOS:000311910600004;;;J;Williams, T. J.;Yamani, Z.;Butch, N. P.;Luke, G. M.;Maple, M. B.;Buyers, W. J. L.;Neutron scattering study of URu2-xRexSi2 (x=0.10): Driving order towards;quantum criticality;PHYSICAL REVIEW B;86;23;235104;10.1103/PhysRevB.86.235104;DEC 4 2012;2012;We report inelastic neutron scattering measurements in the hidden order;state of URu2-xRexSi2 with x = 0.10. We observe that towards the;ferromagnetic quantum critical point induced by the negative chemical;pressure of Re doping, the gapped incommensurate fluctuations are robust;and comparable in intensity to the parent material. As the Re doping;moves the system toward the quantum critical point, the commensurate;spin fluctuations related to hidden order weaken, display a shortened;lifetime, and slow down. Halfway to the quantum critical point, the;hidden order phase survives, albeit weakened, in contrast to its;destruction by hydrostatic pressure and by positive chemical pressure;from Rh doping.;yamani, zahra/B-7892-2012; Luke, Graeme/A-9094-2010;0;0;0;0;0;1098-0121;WOS:000311911100001;;;J;Wolfowicz, Gary;Simmons, Stephanie;Tyryshkin, Alexei M.;George, Richard E.;Riemann, Helge;Abrosimov, Nikolai V.;Becker, Peter;Pohl, Hans-Joachim;Lyon, Stephen A.;Thewalt, Mike L. W.;Morton, John J. L.;Decoherence mechanisms of Bi-209 donor electron spins in isotopically;pure Si-28;PHYSICAL REVIEW B;86;24;245301;10.1103/PhysRevB.86.245301;DEC 4 2012;2012;Bismuth (Bi-209) is the deepest group V donor in silicon and possesses;the most extreme characteristics such as a 9/2 nuclear spin and a 1.5;GHz hyperfine coupling. These lead to several potential advantages for a;Si:Bi donor electron spin qubit compared to the more common phosphorus;donor. Most previous studies on Si: Bi have been performed using natural;silicon where linewidths and electron spin coherence times are limited;by the presence of Si-29 impurities. Here, we describe electron spin;resonance (ESR) and electron nuclear double resonance (ENDOR) studies on;Bi-209 in isotopically pure Si-28. ESR and ENDOR linewidths, transition;probabilities, and coherence times are understood in terms of the spin;Hamiltonian parameters showing a dependence on field and m(I) of the;Bi-209 nuclear spin. We explore various decoherence mechanisms;applicable to the donor electron spin, measuring coherence times up to;700 ms at 1.7 K at X band, comparable with Si-28:P. Importantly, the;coherence times we measure follow closely to the calculated field;gradients of the transition frequencies (df/dB), providing a strong;motivation to explore "clock" transitions where coherence lifetimes;could be further enhanced.;Morton, John/I-3515-2013;6;1;0;0;6;1098-0121;WOS:000311911900001;;;J;Armbruster, Oskar;Lungenschmied, Christoph;Bauer, Siegfried;Investigation of trap states and mobility in organic semiconductor;devices by dielectric spectroscopy: Oxygen-doped P3HT:PCBM solar cells;PHYSICAL REVIEW B;86;23;235201;10.1103/PhysRevB.86.235201;DEC 3 2012;2012;We investigate the dielectric response of solar cell devices based on;oxygen-doped poly(3-hexylthiophene):[6,6]-phenyl-C-61-butyric acid;methyl ester (P3HT:PCBM) blends as a function of temperature between 133;K and 303 K. The spectra are analyzed using a recently introduced model;[O. Armbruster, C. Lungenschmied, and S. Bauer, Phys. Rev. B 84, 085208;(2011)] which is based on a trapping and reemission mechanism of charge;carriers. A dominating trap depth of 130 meV is determined and the;broadening of this trap level identified as purely thermal. In addition;we estimate the density of charge carriers after doping as well as their;mobility. We show that the concentration of mobile holes approximately;doubles by heating the device from the lowest to the highest measured;temperature. This is indicative of a second, shallow trap level of;approximately 14 meV. Dielectric spectroscopy hence proves to be a;valuable tool to assess device parameters such as dopant concentration,;charge carrier transport characteristics, and mobility which are of;crucial interest for understanding degradation in organic semiconductor;devices.;Bauer, Siegfried/A-2354-2009; Armbruster, Oskar/G-1154-2014;Armbruster, Oskar/0000-0002-4235-4451;3;0;0;0;3;1098-0121;WOS:000311806300004;;;J;Chen, Bo;Abbey, Brian;Dilanian, Ruben;Balaur, Eugeniu;van Riessen, Grant;Junker, Mark;Tran, Chanh Q.;Jones, Michael W. M.;Peele, Andrew G.;McNulty, Ian;Vine, David J.;Putkunz, Corey T.;Quiney, Harry M.;Nugent, Keith A.;Diffraction imaging: The limits of partial coherence;PHYSICAL REVIEW B;86;23;235401;10.1103/PhysRevB.86.235401;DEC 3 2012;2012;Coherent diffraction imaging (CDI) typically requires that the source;should be highly coherent both laterally and longitudinally. In this;paper, we demonstrate that lateral and longitudinal partial coherence;can be successfully included in a CDI reconstruction algorithm;simultaneously using experimental x-ray data. We study the interplay;between lateral partial coherence and longitudinal partial coherence and;their relative influence on CDI. We compare our results against the;coherence criteria published by Spence et al. [Spence et al.,;Ultramicroscopy 101, 149 (2004)] and show that for iterative ab initio;phase-recovery algorithms based on those typically used in CDI and in;cases where the coherence properties are known, we are able to relax the;minimal coherence requirements by a factor of 2 both laterally and;longitudinally, potentially yielding significant reduction in exposure;time.;Jones, Michael/M-6895-2013; Abbey, Brian/D-3274-2011;Jones, Michael/0000-0002-0720-8715;;5;1;0;0;5;1098-0121;WOS:000311806300008;;;J;Gawarecki, Krzysztof;Lueker, Sebastian;Reiter, Doris E.;Kuhn, Tilmann;Glaessl, Martin;Axt, Vollrath Martin;Grodecka-Grad, Anna;Machnikowski, Pawel;Dephasing in the adiabatic rapid passage in quantum dots: Role of;phonon-assisted biexciton generation;PHYSICAL REVIEW B;86;23;235301;10.1103/PhysRevB.86.235301;DEC 3 2012;2012;We study the evolution of an exciton confined in a quantum dot;adiabatically controlled by a frequency-swept (chirped) laser pulse in;the presence of carrier-phonon coupling. We focus on the dynamics;induced by a linearly polarized beam and analyze the decoherence due to;phonon-assisted biexciton generation. We show that if the biexciton;state is shifted down by a few meV, as is typically the case, then the;resulting decoherence is strong even at low temperatures. As a result,;efficient state preparation is restricted to a small parameter area;corresponding to low temperatures, positive chirps, and moderate pulse;areas.;Kuhn, Tilmann/C-1190-2008;6;0;0;0;6;1098-0121;WOS:000311806300006;;;J;Hellstrom, Matti;Spangberg, Daniel;Hermansson, Kersti;Broqvist, Peter;Cu dimer formation mechanism on the ZnO(10(1)over-bar0) surface;PHYSICAL REVIEW B;86;23;235302;10.1103/PhysRevB.86.235302;DEC 3 2012;2012;The formation of Cu dimers on the ZnO(10 (1) over bar0) surface has been;studied using hybrid density functional theory. Depending on the;adsorption site, Cu atoms are found to adsorb with either oxidation;state 0 or +1. In the latter case, the Cu atom has donated an electron;to the ZnO conduction band. The two modes of adsorption display similar;stability at low coverages, while at higher coverages the neutral;species is more stable. Single Cu atoms diffuse across the ZnO(10 (1);over bar0) surface with small barriers of migration (0.3-0.4 eV) along;ZnO[1 (2) over bar 10], repeatedly switching their oxidation states,;while the barrier along ZnO[0001] is significantly higher (>1.5 eV). The;formation of a Cu dimer from two adsorbed Cu atoms is energetically;favorable with two competing structures of similar stability, both being;charge neutral. The minimum energy paths for Cu atom diffusion and dimer;formation are characterized by at least one of the two Cu atoms being in;oxidation state 0.;5;0;0;0;5;1098-0121;WOS:000311806300007;;;J;Huang, Yu-Kun;Chen, Pochung;Kao, Ying-Jer;Accurate computation of low-temperature thermodynamics for quantum spin;chains;PHYSICAL REVIEW B;86;23;235102;10.1103/PhysRevB.86.235102;DEC 3 2012;2012;We apply the biorthonormal transfer-matrix renormalization group (BTMRG);[Huang, Phys. Rev. E 83, 036702 (2011)] to study low-temperature;properties of quantum spin chains. Simulations on anisotropic Heisenberg;spin-1/2 chains demonstrate that the BTMRG outperforms the conventional;transfer-matrix renormalization group by successfully accessing far;lower temperature than previously reported, while retaining the same;level of accuracy. The power of the method is further illustrated by the;calculation of the low-temperature specific heat for a frustrated spin;chain.;Kao, Ying Jer/B-5297-2009; Chen, Pochung/G-1241-2010;Kao, Ying Jer/0000-0002-3329-6018;;4;0;0;0;4;1098-0121;WOS:000311806300002;;;J;Kim, Jin Hee;Rhyee, Jong-Soo;Kwon, Yong Seung;Magnon gap formation and charge density wave effect on thermoelectric;properties in the SmNiC2 compound;PHYSICAL REVIEW B;86;23;235101;10.1103/PhysRevB.86.235101;DEC 3 2012;2012;We studied the electrical, thermal, and thermoelectric properties of the;polycrystalline compound of SmNiC2. The electrical resistivity and;magnetization measurement show the interplay between the charge density;wave at T-CDW = 150 K and the ferromagnetic ordering of T-c = 18 K.;Below the ferromagnetic transition temperature, we observed the magnon;gap formation of Delta similar or equal to 4.3- 4.4 meV by rho(T) and;C-p (T) measurements. The charge density wave is attributed to the;increase of the Seebeck coefficient resulting in the increase of the;power factor S-2 sigma. The thermal conductivity anomalously increases;with increasing temperature along the whole measured temperature range,;which implies the weak attribution of Umklapp phonon scattering. The;thermoelectric figure of merit ZT significantly increases due to the;increase of the power factor at T-CDW = 150 K. Here we argue that the;competing interaction between electron-phonon and electron-magnon;couplings exhibits the unconventional behavior of electrical and thermal;properties.;6;0;1;0;6;1098-0121;WOS:000311806300001;;;J;Osorio-Guillen, J. M.;Larrauri-Pizarro, Y. D.;Dalpian, G. M.;Pressure-induced metal-insulator transition and absence of magnetic;order in FeGa3 from a first-principles study;PHYSICAL REVIEW B;86;23;235202;10.1103/PhysRevB.86.235202;DEC 3 2012;2012;The intermetallic compound FeGa3 is a narrow-gap semiconductor with a;measured gap between 0.2 and 0.6 eV. The presence of iron d states on;the top of the valence band and on the bottom of the conduction band,;together with its moderate electronic correlation (U/W similar to 0.6),;have led to the question of whether there is magnetic order in this;compound. We have examined the possible presence of magnetism in FeGa3;as well as its electronic structure at high pressures, using the density;functional theory (DFT) + U method with the intermediated;double-counting scheme. We have found that for an optimized value of the;Yukawa screening length., there is no magnetic moment on the iron ions;(mu = 0), implying that FeGa3 is nonmagnetic. We have also found that;around a pressure of 25 GPa a metal-insulator transition takes place.;Osorio-Guillen, Jorge/B-7587-2008; Dalpian, Gustavo/B-9746-2008;Osorio-Guillen, Jorge/0000-0002-7384-8999;;3;0;0;0;3;1098-0121;WOS:000311806300005;;;J;Yuan, Xun;Zhang, Yubo;Abtew, Tesfaye A.;Zhang, Peihong;Zhang, Wenqing;VO2: Orbital competition, magnetism, and phase stability;PHYSICAL REVIEW B;86;23;235103;10.1103/PhysRevB.86.235103;DEC 3 2012;2012;The relative phase stability of VO2 is one of the most fundamental;issues concerning the metal-insulator transition in this material but;has been so far largely unexplored theoretically. We investigate the;relative stability of various phases of VO2 using different levels of;energy functionals within density functional theory (DFT). It is found;that straightforward applications of several popular energy functionals,;including the Heyd-Scuseria-Ernzerhof (HSE) hybrid functional, result in;a wrong prediction for the ground state of VO2. In particular, although;the HSE and DFT + U methods are able to produce a band gap in the M-1;phase, they strongly favor the formation of local magnetic moments, a;result that clearly disagrees with experiments. We also examine the;effect of the occupation and the redistribution of the d derived t(2g);(i.e., d(xz), d(yz), and d(x2-y2)) orbitals of V atoms on the calculated;relative phase stability of VO2. We find that a small change in d;occupation can result in a drastically different theoretical prediction.;With the introduction of an orbital-dependent potential, a complete;separation between the d(x2-y2) derived valence band and d(xz) and d(yz);derived conduction bands in the M-1 phase is achieved, resulting in a;slight redistribution of the d occupation and a more faithful account of;the polarization of the t(2g) orbitals. This slight rearrangement of the;d occupation also leads to a relative phase stability of VO2 ( including;structural and magnetic phases) that agrees well with experiment.;Zhang, Wenqing/K-1236-2012; Zhang, Peihong/D-2787-2012;4;0;0;0;4;1098-0121;WOS:000311806300003;;;J;Campi, Davide;Bernasconi, Marco;Benedek, Giorgio;Electronic properties and lattice dynamics of the As(111) surface;PHYSICAL REVIEW B;86;24;245403;10.1103/PhysRevB.86.245403;DEC 3 2012;2012;The bulk and surface electronic and structural properties of As(111);have been studied with first-principles methods. The inclusion of;spin-orbit interaction reveals that As shares the same topologically;nontrivial order of the bulk electronic bands of Sb which gives rise to;two spin-polarized surface states connecting valence-like and;conduction-like states. Bulk and surface phonons have been calculated by;means of density functional perturbation theory. The surface phonon;bands reveal features related to a remarkable stiffening of the surface;bilayer with respect to the bulk ones similarly to what is measured for;the Bi(111) and to what is expected for the Sb(111) surface.;DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;1;0;0;0;1;1098-0121;WOS:000311806500003;;;J;Chakraborty, Akash;Wenk, Paul;Bouzerar, Richard;Bouzerar, Georges;Spontaneous magnetization in the presence of nanoscale inhomogeneities;in diluted magnetic systems;PHYSICAL REVIEW B;86;21;214402;10.1103/PhysRevB.86.214402;DEC 3 2012;2012;The presence of nanoscale inhomogeneities has been experimentally;evidenced in several diluted magnetic systems, which in turn often leads;to interesting physical phenomena. However, a proper theoretical;understanding of the underlying physics is lacking in most of the cases.;Here, we present a detailed and comprehensive theoretical study of the;effects of nanoscale inhomogeneities on the temperature-dependent;spontaneous magnetization in diluted magnetic systems, which is found to;exhibit an unusual and unconventional behavior. The effects of impurity;clustering on the magnetization response have hardly been studied until;now. We show that nanosized clusters of magnetic impurities can lead to;drastic effects on the magnetization compared to that of homogeneously;diluted compounds. The anomalous nature of the magnetization curves;strongly depends on the relative concentration of the inhomogeneities as;well as the effective range of the exchange interactions. In addition,;we also provide a systematic discussion of the nature of the;distributions of the local magnetizations.;3;0;0;0;3;1098-0121;WOS:000311805500004;;;J;Dmitriev, A. P.;Gornyi, I. V.;Polyakov, D. G.;Coulomb drag between ballistic quantum wires;PHYSICAL REVIEW B;86;24;245402;10.1103/PhysRevB.86.245402;DEC 3 2012;2012;We develop a kinetic equation description of Coulomb drag between;ballistic one-dimensional electron systems, which enables us to;demonstrate that equilibration processes between right- and left-moving;electrons are crucially important for establishing dc drag. In;one-dimensional geometry, this type of equilibration requires either;backscattering near the Fermi level or scattering with small-momentum;transfer near the bottom of the electron spectrum. Importantly, pairwise;forward scattering in the vicinity of the Fermi surface alone is not;sufficient to produce a nonzero dc drag resistivity rho(D), in contrast;to a number of works that have studied Coulomb drag due to this;mechanism of scattering before. We show that slow equilibration between;two subsystems of electrons of opposite chirality, "bottlenecked" by;inelastic collisions involving cold electrons near the bottom of the;conduction band, leads to a strong suppression of Coulomb drag, which;results in an activation dependence of rho(D) on temperature, instead of;the conventional power law. We demonstrate the emergence of a drag;regime in which rho(D) does not depend on the strength of interwire;interactions, while depending strongly on the strength of interactions;inside the wires.;4;0;0;0;4;1098-0121;WOS:000311806500002;;;J;Etz, Corina;Costa, Marcio;Eriksson, Olle;Bergman, Anders;Accelerating the switching of magnetic nanoclusters by anisotropy-driven;magnetization dynamics;PHYSICAL REVIEW B;86;22;224401;10.1103/PhysRevB.86.224401;DEC 3 2012;2012;In this work, the magnetization dynamics of clusters supported on;nonmagnetic substrates is shown to exhibit a complex response when;subjected to external magnetic fields. The field-driven magnetization;reversal of small Co clusters deposited on a Cu(111) surface has been;studied by means of first-principles calculations and atomistic spin;dynamics simulations. For applied fields ranging from 1 to 10 Tesla, we;observe a coherent magnetization reversal with switching times in the;range of several tenths of picoseconds to several nanoseconds, depending;on the field strength. We find a nonmonotonous dependence of the;switching times with respect to the strength of the applied field, which;we prove has its origin in the complex magnetic anisotropy landscape of;these low-dimensional systems. This effect is shown to be stable for;temperatures around 10 K, and is possible to realize over a range of;exchange interactions and anisotropy landscapes. Possible experimental;routes to achieve this unique switching behavior are discussed.;Bergman, Anders/H-7996-2012; Etz, Corina/E-3112-2014; Eriksson, Olle/E-3265-2014;Bergman, Anders/0000-0002-5134-1978;;3;1;0;0;3;1098-0121;WOS:000311805700003;;;J;Harada, S.;Zhou, J. J.;Yao, Y. G.;Inada, Y.;Zheng, Guo-qing;Abrupt enhancement of noncentrosymmetry and appearance of a spin-triplet;superconducting state in Li-2(Pd1-xPtx)(3)B beyond x=0.8;PHYSICAL REVIEW B;86;22;220502;10.1103/PhysRevB.86.220502;DEC 3 2012;2012;We report synthesis, Pt-195, B-11, and Li-7 NMR measurements, and;first-principles band calculations for noncentrosymmetric;superconductors Li-2(Pd1-xPtx)(3)B (x = 0, 0.2, 0.5, 0.8, 0.84, 0.9, and;1). For 0 <= x <= 0.8, the spin-lattice relaxation rate 1/T-1 shows a;clear coherence peak just below T-c, decreasing exponentially at low;temperature, and the Knight shift K-195 decreases below Tc. For x = 0.9;and 1.0, in contrast, 1/T-1 shows no coherence peak but a T-3 variation;and K-195 remains unchanged across T-c. These results indicate that the;superconducting state changes drastically from a spin-singlet dominant;to a spin-triplet dominant state at x = 0.8. We find that the distortion;of B(Pt,Pd)(6) increases abruptly above x = 0.8, which leads to an;abrupt enhancement of the asymmetric spin-orbit coupling as confirmed by;band calculation. Such structure distortion that enhances the extent of;inversion-symmetry breaking is primarily responsible for the pairing;symmetry evolution. The insight obtained here provides a guideline for;searching for noncentrosymmetric superconductors with a large;spin-triplet component.;Yao, Yugui/A-8411-2012; Zheng, Guo-qing/B-1524-2011;6;0;0;0;6;1098-0121;WOS:000311805700002;;;J;Huang, C. L.;Fritsch, V.;Kittler, W.;v. Loehneysen, H.;Low-temperature properties of CeAu2Ge2 single crystals grown from Au-Ge;and Sn flux;PHYSICAL REVIEW B;86;21;214401;10.1103/PhysRevB.86.214401;DEC 3 2012;2012;The specific heat of CeAu2Ge2 single crystals grown from Au-Ge (AGF) or;Sn flux (SF) was measured at temperatures T between 1.8 and 200 K. Two;magnetic transitions are observed in the zero-field specific heat at;12.1 and 14.5 K in the AGF sample, while only a single sharp transition;at 9.2 K is seen in the SF sample, confirming our recent susceptibility;results [Fritsch et al., Phys. Rev. B 84, 104446 (2011)]. We observe;several field-induced transitions in the magnetoresistance of the AGF;sample measured at 1.6 and 2.3 K in accordance with the B-T phase;diagram constructed from isothermal magnetization curves M(B). In;addition, we have measured M(B) under hydrostatic pressure P up to 10.5;kbar. The Neel temperature T-N increases linearly with P at a small rate;of 0.049 K/kbar, which suggests that, if T-N(P) is attributed to a pure;volume effect, this compound is close to the maximum transition;temperature of the Doniach diagram. The transition fields B-M between;the field-induced phases increase linearly with P as well. The;comparable Gruneisen parameters of T-N and B-M indicate that the energy;scale depending on the sample's volume is given by the antiferromagnetic;correlations and not by the Kondo effect. We discuss possible reasons;for the different magnetic behavior of AGF and SF samples.;Huang, Chien-Lung/O-2028-2013;2;0;0;0;2;1098-0121;WOS:000311805500003;;;J;Jadczak, J.;Kubisa, M.;Ryczko, K.;Bryja, L.;Potemski, M.;High magnetic field spin splitting of excitons in asymmetric GaAs;quantum wells;PHYSICAL REVIEW B;86;24;245401;10.1103/PhysRevB.86.245401;DEC 3 2012;2012;Low-temperature photoluminescence from high-quality GaAs quantum wells,;asymmetrically doped with carbon, are investigated under high magnetic;fields (up to 20 T) directed along the [001] growth axis. At higher;fields, in the sigma(-) polarized emission, we observe two well-resolved;lines which are attributed to the recombination of neutral (X) and;charged (X+) excitons. In contrast, only the neutral exciton line is;observed for the sigma(+) polarization. From the difference of the X;line positions for the two polarizations we determine the effective;Zeeman splitting of neutral excitons and then the g factor g(h) of;confined holes. We find that g(h) depends substantially on the well size;and changes the sign at moderate magnetic fields. To explain the;experimental results, the valence Landau levels are calculated using the;Luttinger model beyond the axial approximation. We demonstrate that;mainly the excited hole levels contribute to the excitonic state at;higher magnetic fields. Due to their light-hole character, resulting;from the valence-band mixing, the excited hole states have a sizable;overlap with the electron states confined far from the doped barrier.;The calculated values of g(h) are in an excellent quantitative agreement;with the experimental data.;2;0;0;0;2;1098-0121;WOS:000311806500001;;;J;Lane, Nina J.;Vogel, Sven C.;Hug, Gilles;Togo, Atsushi;Chaput, Laurent;Hultman, Lars;Barsoum, Michel W.;Neutron diffraction measurements and first-principles study of thermal;motion of atoms in select M(n+1)AX(n) and binary MX transition-metal;carbide phases;PHYSICAL REVIEW B;86;21;214301;10.1103/PhysRevB.86.214301;DEC 3 2012;2012;Herein, we compare the thermal vibrations of atoms in select ternary;carbides with the formula M(n+1)AX(n) ("MAX phases," M = Ti, Cr; A = Al,;Si, Ge; X = C, N) as determined from first-principles phonon;calculations to those obtained from high-temperature neutron powder;diffraction studies. The transition metal carbides TiC, TaC, and WC are;also studied to test our methodology on simpler carbides. Good;qualitative and quantitative agreement is found between predicted and;experimental values for the binary carbides. For all the MAX phases;studied-Ti3SiC2, Ti3GeC2, Ti2AlN, Cr2GeC and Ti4AlN3-density functional;theory calculations predict that the A element vibrates with the highest;amplitude and does so anisotropically with a higher amplitude within the;basal plane, which is in line with earlier results from high-temperature;neutron diffraction studies. In some cases, there are quantitative;differences in the absolute values between the theoretical and;experimental atomic displacement parameters (ADPs), such as reversal of;anisotropy or a systematic offset of temperature-dependent ADPs. The;mode-dependent Gruneisen parameters are also computed to explore the;anharmonicity in the system.;Lujan Center, LANL/G-4896-2012;4;0;0;0;4;1098-0121;WOS:000311805500002;;;J;Niemann, R.;Baro, J.;Heczko, O.;Schultz, L.;Faehler, S.;Vives, E.;Manosa, L.;Planes, A.;Tuning avalanche criticality: Acoustic emission during the martensitic;transformation of a compressed Ni-Mn-Ga single crystal;PHYSICAL REVIEW B;86;21;214101;10.1103/PhysRevB.86.214101;DEC 3 2012;2012;The propagation of a phase front during a thermally induced martensitic;transition is discontinuous due to pinning at various defects, an effect;which results in acoustic emission. Here we analyze the consequences of;an applied compressive stress exemplarily on a Ni50.4Mn27.9Ga21.7 single;crystal. Our experiments show that the distribution of the energies of;the acoustic emission events follows a power law for more than three;decades. This indicates that the transition exhibits avalanche;criticality. The exponent characterizing the distribution of energies;depends on the applied stress, and decreases from 1.9 +/- 0.1 at zero;stress to 1.5 +/- 0.2 at stress above 3 MPa. This decrease could be;attributed to the reduced multiplicity of variants possible under;uniaxial compression.;Niemann, Robert/F-3634-2012; Schultz, Ludwig/B-3383-2010; Manosa, Lluis/D-8579-2014; Heczko, Oleg/G-9355-2014; Vives, Eduard/I-4821-2014;Manosa, Lluis/0000-0002-1182-2670; Vives, Eduard/0000-0002-5916-7214;4;0;0;0;4;1098-0121;WOS:000311805500001;;;J;Usui, Hidetomo;Suzuki, Katsuhiro;Kuroki, Kazuhiko;Minimal electronic models for superconducting BiS2 layers;PHYSICAL REVIEW B;86;22;220501;10.1103/PhysRevB.86.220501;DEC 3 2012;2012;We construct minimal electronic models for a newly discovered;superconductor LaO1-xFxBiS2 (T-c = 10.6 K) possessing BiS2 layers based;on a first-principles band calculation. First, we obtain a model;consisting of two Bi 6p and two S 3p orbitals, which give nearly;electron-hole symmetric bands. Further focusing on the bands that;intersect the Fermi level, we obtain a model with two p orbitals. The;two bands (per BiS2 layer) have a quasi-one-dimensional character with a;double minimum dispersion, which gives good nesting of the Fermi;surface. At around x similar to 0.5 the topology of the Fermi surface;changes, so that the density of states at the Fermi level becomes large.;Possible pairing states are discussed.;42;0;0;0;42;1098-0121;WOS:000311805700001;;;J;Cammarata, Antonio;Rondinelli, James M.;Spin-assisted covalent bond mechanism in "charge-ordering" perovskite;oxides;PHYSICAL REVIEW B;86;19;195144;10.1103/PhysRevB.86.195144;NOV 30 2012;2012;First-principles density functional calculations on the metal-insulator;transition (MIT) in perovskite CaFeO3 point to local ferromagnetic;coupling as the microscopic origin for the electronic "charge order";transition. Our atomic, electronic, and magnetic structure analyses;reveal that the MIT results from a spin-assisted covalent bonding;mechanism between the O 2p and Fe 3d states with anisotropic Fe-O bonds;and negligible intersite Fe-Fe charge transfer. We suggest that control;of the lattice distortions, which mediate the covalent bond formation,;in oxides containing late transition-metal row cations in high valence;states provides a platform to tailor electronic transitions.;Rondinelli, James/A-2071-2009; Cammarata, Antonio/A-4883-2014;Rondinelli, James/0000-0003-0508-2175; Cammarata,;Antonio/0000-0002-5691-0682;7;0;0;0;7;1098-0121;WOS:000311715000003;;;J;Clem, John R.;Kogan, V. G.;Kinetic impedance and depairing in thin and narrow superconducting films;PHYSICAL REVIEW B;86;17;174521;10.1103/PhysRevB.86.174521;NOV 30 2012;2012;We use both Eilenberger-Usadel and Ginzburg-Landau (GL) theory to;calculate the superfluid's temperature-dependent kinetic inductance for;all currents up to the depairing current in thin and narrow;superconducting films. The calculations apply to BCS weak-coupling;superconductors with isotropic gaps and transport mean-free paths much;less than the BCS coherence length. The kinetic inductance is calculated;for the response to a small alternating current when the film is;carrying a dc bias current. In the slow-experiment/fast-relaxation;limit, in which the superconducting order parameter quasistatically;follows the time-dependent current, the kinetic inductance diverges as;the bias current approaches the depairing value. However, in the;fast-experiment/slow-relaxiation limit, in which the the superconducting;order parameter remains fixed at a value corresponding to the dc bias;current, the kinetic inductance rises to a finite value at the depairing;current. We then use time-dependent GL theory to calculate the kinetic;impedance of the superfluid, which includes not only the kinetic;reactance, but also the kinetic resistance of the superfluid arising;from dissipation due to order-parameter relaxation. The kinetic;resistance is largest for angular frequencies omega obeying omega tau(s);> 1, where tau(s) is the order-parameter relaxation time, and for bias;currents close to the depairing current. We also include the normal;fluid's contribution to dissipation in deriving an expression for the;total kinetic impedance. The Appendices contain many details about the;temperature-dependent behavior of superconductors carrying current up to;the depairing value.;3;0;0;0;3;1098-0121;WOS:000311714600005;;;J;Cohn, J. L.;Boynton, P.;Trivino, J. S.;Trastoy, J.;White, B. D.;dos Santos, C. A. M.;Neumeier, J. J.;Stoichiometry, structure, and transport in the quasi-one-dimensional;metal Li0.9Mo6O17;PHYSICAL REVIEW B;86;19;195143;10.1103/PhysRevB.86.195143;NOV 30 2012;2012;A correlation between lattice parameters, oxygen composition, and the;thermoelectric and Hall coefficients is presented for single-crystal;Li0.9Mo6O17, a quasi-one-dimensional (Q1D) metallic compound. The;possibility that this compound is a compensated metal is discussed in;light of a substantial variability observed in the literature for these;transport coefficients.;1;0;0;0;1;1098-0121;WOS:000311715000002;;;J;Crepaldi, A.;Ressel, B.;Cilento, F.;Zacchigna, M.;Grazioli, C.;Berger, H.;Bugnon, Ph.;Kern, K.;Grioni, M.;Parmigiani, F.;Ultrafast photodoping and effective Fermi-Dirac distribution of the;Dirac particles in Bi2Se3;PHYSICAL REVIEW B;86;20;205133;10.1103/PhysRevB.86.205133;NOV 30 2012;2012;We exploit time- and angle-resolved photoemission spectroscopy to;determine the evolution of the out-of-equilibrium electronic structure;of the topological insulator Bi2Se3. The response of the Fermi-Dirac;distribution to ultrashort IR laser pulses has been studied by modeling;the dynamics of hot electrons after optical excitation. We disentangle a;large increase in the effective temperature (T*) from a shift of the;chemical potential (mu*), which is consequence of the ultrafast;photodoping of the conduction band. The relaxation dynamics of T* and;mu* are k independent and these two quantities uniquely define the;evolution of the excited charge population. We observe that the energy;dependence of the nonequilibrium charge population is solely determined;by the analytical form of the effective Fermi-Dirac distribution.;14;1;0;0;14;1098-0121;WOS:000311715100007;;;J;Dumlich, Heiko;Reich, Stephanie;Nanotube bundles and tube-tube orientation: A van der Waals density;functional study (vol 84, 064121, 2011);PHYSICAL REVIEW B;86;17;179905;10.1103/PhysRevB.86.179905;NOV 30 2012;2012;0;0;0;0;0;1098-0121;WOS:000311714600007;;;J;Fukutani, Keisuke;Hayashi, Hirokazu;Yakovkin, Ivan N.;Habuchi, Takafumi;Hirayama, Daisuke;Jiang, Jian;Iwasawa, Hideaki;Shimada, Kenya;Losovyj, Ya. B.;Dowben, Peter A.;Enhanced electron-phonon coupling at the Au/Mo(112) surface;PHYSICAL REVIEW B;86;20;205432;10.1103/PhysRevB.86.205432;NOV 30 2012;2012;A detailed investigation of the electronic structure and electron-phonon;coupling for a Au monolayer on the Mo(112) surface is presented. The;electronic states of bulk Mo and the (112) surface-derived states are;seen to strongly hybridize with those of the Au overlayer, resulting in;the formation of surface resonance states localized near the surface and;the interface of Au/Mo(112). The experimentally extracted self-energy;due to the electron-phonon coupling on one of the surface resonance;bands gives a good quantitative agreement with the calculations. The;strength of electron-phonon coupling for Au/Mo(112) is discussed in;terms of the mass enhancement factor and is considerably larger than for;the Mo(112) surface. Such an increase in the mass enhancement factor in;the vicinity of the Fermi level likely derives from the soft surface;phonon modes created upon Au adsorption.;2;0;0;0;2;1098-0121;WOS:000311715100011;;;J;Hamada, Ikutaro;Adsorption of water on graphene: A van der Waals density functional;study;PHYSICAL REVIEW B;86;19;195436;10.1103/PhysRevB.86.195436;NOV 30 2012;2012;The van der Waals density functional (vdW-DF) was used to investigate;the interaction of a water monomer with graphene. It was found that a;variant of vdW-DF [Hamada and Otani, Phys. Rev. B 82, 153412 (2010)];predicts geometries and energetics of water on graphene which are in;good agreement with those obtained using more elaborate random-phase;approximation and quantum Monte Carlo approaches. Interfacial electronic;structures were also analyzed in detail.;Hamada, Ikutaro/E-8040-2010;Hamada, Ikutaro/0000-0001-5112-2452;12;1;0;0;12;1098-0121;WOS:000311715000010;;;J;Hofmann, D.;Kuemmel, S.;Integer particle preference during charge transfer in Kohn-Sham theory;PHYSICAL REVIEW B;86;20;201109;10.1103/PhysRevB.86.201109;NOV 30 2012;2012;We investigate the static and dynamic charge transfer that is triggered;by external electric fields in model molecular wires. A self-interaction;correction in Kohn-Sham density functional theory leads to the desired;integer electron transfers that do not occur with standard functionals;which miss Coulomb blockade effects. Analysis of the multiplicative;exchange-correlation potential in stationary cases and during real-time;propagation shows how the local exchange-correlation potential builds up;step and reverse-step structures that enforce the integer particle;preference. The role of spin-symmetry breaking is discussed.;Kummel, Stephan/K-5634-2014;8;0;0;0;8;1098-0121;WOS:000311715100002;;;J;Illg, Christian;Meyer, Bernd;Faehnle, Manfred;Frequencies and polarization vectors of phonons: Results from force;constants which are fitted to experimental data or calculated ab initio;PHYSICAL REVIEW B;86;17;174309;10.1103/PhysRevB.86.174309;NOV 30 2012;2012;The properties of phonons may be calculated from the dynamical matrix;which is determined by force constants. Often the force constants are;obtained by fitting them to experimental phonon frequencies, e. g., for;wave vectors q on high-symmetry directions of the Brillouin zone. It is;well known that these force constants do not necessarily lead to correct;frequencies for wave vectors for nonsymmetrical q and to correct;polarization vectors. In the present paper this is demonstrated by;comparing for fcc Ni, fcc Al, and bcc Fe the frequencies and;polarization vectors calculated from fitted force constants with the;results from ab initio calculated force constants. However, for most;regions of the Brillouin zone the differences between the results;obtained from the two sets of force constants are not large.;1;0;0;0;1;1098-0121;WOS:000311714600003;;;J;Iori, Federico;Rodolakis, Fanny;Gatti, Matteo;Reining, Lucia;Upton, M.;Shvyd'ko, Y.;Rueff, Jean-Pascal;Marsi, Marino;Low-energy excitations in strongly correlated materials: A theoretical;and experimental study of the dynamic structure factor in V2O3;PHYSICAL REVIEW B;86;20;205132;10.1103/PhysRevB.86.205132;NOV 30 2012;2012;This work contains an experimental and theoretical study of the dynamic;structure factor at large momentum transfer vertical bar Q vertical bar;similar to 4 angstrom(-1) of the strongly correlated transition-metal;oxide V2O3. We focus in particular on the transitions between d states;that give rise to the spectra below 6 eV. We show that the main peak in;this energy range is mainly due to t(2g) -> e(g)(sigma) transitions, and;that it carries a signature of the phase transition between the;paramagnetic insulator and the paramagnetic metal that can already be;understood from the joint density of states calculated at the level of;the static local density approximation. Instead, in order to obtain;theoretical spectra that are overall similar to the measured ones, we;have to go beyond the static approximation and include at least crystal;local field effects. The latter turn out to be crucial in order to;eliminate a spurious peak and hence allow a safe comparison between;theory and experiment, including an analysis of the strong anisotropy of;the spectra.;CSIC-UPV/EHU, CFM/F-4867-2012; Iori, Federico/E-5372-2013; DONOSTIA INTERNATIONAL PHYSICS CTR., DIPC/C-3171-2014;Iori, Federico/0000-0002-7677-3435;;4;0;0;0;4;1098-0121;WOS:000311715100006;;;J;Kharitonov, Maxim;Antiferromagnetic state in bilayer graphene;PHYSICAL REVIEW B;86;19;195435;10.1103/PhysRevB.86.195435;NOV 30 2012;2012;Motivated by the recent experiment of Velasco Jr. et al. [J. Velasco Jr.;et al., Nat. Nanotechnology 7, 156 (2012)], we develop a mean-field;theory of the interaction-induced antiferromagnetic (AF) state in;bilayer graphene at charge neutrality point at arbitrary perpendicular;magnetic field B. We demonstrate that the AF state can persist at all B.;At higher B, the state continuously crosses over to the AF phase of the;nu = 0 quantum Hall ferromagnet, recently argued to be realized in the;insulating nu = 0 state. The mean-field quasiparticle gap is finite at B;= 0 and grows with increasing B, becoming quasilinear in the quantum;Hall regime, in accord with the reported behavior of the transport gap.;By adjusting the two free parameters of the model, we obtain a;simultaneous quantitative agreement between the experimental and;theoretical values of the key parameters of the gap dependence-its;zero-field value and slope at higher fields. Our findings suggest that;the insulating state observed in bilayer graphene in Ref. 1 is;antiferromagnetic (canted, once the Zeeman effect is taken into account);at all magnetic fields.;19;1;0;0;19;1098-0121;WOS:000311715000009;;;J;Klos, J. W.;Kumar, D.;Romero-Vivas, J.;Fangohr, H.;Franchin, M.;Krawczyk, M.;Barman, A.;Effect of magnetization pinning on the spectrum of spin waves in;magnonic antidot waveguides;PHYSICAL REVIEW B;86;18;184433;10.1103/PhysRevB.86.184433;NOV 30 2012;2012;We study the spin-wave spectra in magnonic antidot waveguides (MAWs) for;two limiting cases (strong and negligible) of the surface anisotropy at;the ferromagnet/air interface. The MAWs under investigation have the;form of a thin stripe of permalloy with a single row of periodically;arranged antidots in the middle. The introduction of a magnetization;pinning at the edges of the permalloy stripe and the edges of antidots;is found to modify the spin-wave spectrum. This effect is shown to be;necessary for magnonic gaps to open in the considered systems. Our study;demonstrates that the surface anisotropy can be crucial in the practical;applications of MAWs and related structures and in the interpretation of;experimental results in one-and two-dimensional magnonic crystals. We;used three different numerical methods, i.e., plane waves method (PWM),;finite difference method, and finite element method to validate the;results. We showed that PWM in the present formulation assumes pinned;magnetization, while in micromagnetic simulations special care must be;taken to introduce pinning.;Fangohr, Hans/C-6367-2008; Klos, Jaroslaw/G-9728-2012;Fangohr, Hans/0000-0001-5494-7193; Klos, Jaroslaw/0000-0002-5858-2950;13;2;0;0;13;1098-0121;WOS:000311714700002;;;J;Kolata, K.;Koester, N. S.;Chernikov, A.;Drexler, M. J.;Gatti, E.;Cecci, S.;Chrastina, D.;Isella, G.;Guzzi, M.;Chatterjee, S.;Dephasing in Ge/SiGe quantum wells measured by means of coherent;oscillations;PHYSICAL REVIEW B;86;20;201303;10.1103/PhysRevB.86.201303;NOV 30 2012;2012;We present a dephasing time analysis of the excitonic resonances in;Ge/SiGe quantum wells for various lattice temperatures by coherent;oscillation spectroscopy (COS). The results are compared to the;linewidths of the excitonic resonances determined from linear absorption;measurements. Additionally, COS is applied to different samples with;varying linewidth, identifying one sample with a dominating;homogeneously broadened 1s excitonic resonance down to 7 K.;Chatterjee, Sangam/E-3124-2012;2;0;0;0;2;1098-0121;WOS:000311715100003;;;J;Lang, Li-Jun;Chen, Shu;Majorana fermions in density-modulated p-wave superconducting wires;PHYSICAL REVIEW B;86;20;205135;10.1103/PhysRevB.86.205135;NOV 30 2012;2012;We study the p-wave superconducting wire with a periodically modulated;chemical potential and show that the Majorana edge states are robust;against the periodic modulation. We find that the critical amplitude of;modulated potential, at which the Majorana edge fermions and topological;phase disappear, strongly depends on the phase shifts. For some specific;values of the phase shift, the critical amplitude tends to infinity. The;existence of Majorana edge fermions in the open chain can be;characterized by a topological Z(2) invariant of the bulk system, which;can be applied to determine the phase boundary between the topologically;trivial and nontrivial superconducting phases. We also demonstrate the;existence of the zero-energy peak in the spectral function of the;topological superconducting phase, which is only sensitive to the open;boundary condition but robust against the disorder.;Lang, Li-Jun/C-2815-2014;Lang, Li-Jun/0000-0001-6038-8340;11;0;0;0;11;1098-0121;WOS:000311715100009;;;J;Lazicki, Amy;Dewaele, Agnes;Loubeyre, Paul;Mezouar, Mohamed;High-pressure-temperature phase diagram and the equation of state of;beryllium;PHYSICAL REVIEW B;86;17;174118;10.1103/PhysRevB.86.174118;NOV 30 2012;2012;X-ray diffraction of beryllium in a laser-heated diamond anvil cell;provides experimental insight into its behavior at high pressure and;temperature. We measure the cold compression of Be in helium and NaCl;pressure media up 192 GPa, and its thermal expansion up to 82 GPa and;2630 K. The new measurements form a P-V-T data set which is fit by the;Vinet-Debye form to establish a Be experimental equation of state. We;compare the results to several theoretical models. The crystal structure;of Be is determined up to 205 GPa and 4000 K; no evidence for the;predicted high-temperature transition to a cubic phase is found.;Finally, the maximum temperature stability of the solid phase along;isobaric heating ramps gives a lower bound for the melting curve.;5;0;0;0;5;1098-0121;WOS:000311714600002;;;J;Li, J.;Ekuma, C. E.;Vekhter, I.;Jarrell, M.;Moreno, J.;Stadler, S.;Karki, A. B.;Jin, R.;Physical properties of Ba2Mn2Sb2O single crystals;PHYSICAL REVIEW B;86;19;195142;10.1103/PhysRevB.86.195142;NOV 30 2012;2012;We report both experimental and theoretical investigations of the;physical properties of Ba2Mn2Sb2O single crystals. This material;exhibits a hexagonal structure with lattice constants a = 4.7029(15) A;and c = 19.9401(27) A, as obtained from powder x-ray diffraction;measurements, and in agreement with structural optimization through;density functional theory (DFT) calculations. The magnetic;susceptibility and specific heat show anomalies at T-N = 60 K,;consistent with antiferromagnetic ordering. However, the magnitude of;T-N is significantly smaller than the Curie-Weiss temperature (vertical;bar Theta(CW)vertical bar approximate to 560 K), suggesting a magnetic;system of reduced dimensionality. The temperature dependence of both the;in-plane and out-of-plane resistivity changes from activated at T > T-x;similar to 200 K to logarithmic at T < T-x. Correspondingly, the;magnetic susceptibility displays a bump at T-x. DFT calculations at the;DFT + U level support the experimental observation of an;antiferromagnetic ground state.;Vekhter, Ilya/M-1780-2013; Moreno, Juana/D-5882-2012;0;0;0;0;0;1098-0121;WOS:000311715000001;;;J;Mafra, D. L.;Kong, J.;Sato, K.;Saito, R.;Dresselhaus, M. S.;Araujo, P. T.;Using gate-modulated Raman scattering and electron-phonon interactions;to probe single-layer graphene: A different approach to assign phonon;combination modes;PHYSICAL REVIEW B;86;19;195434;10.1103/PhysRevB.86.195434;NOV 30 2012;2012;Gate-modulated and laser-dependent Raman spectroscopy have been widely;used to study q = 0 zone center phonon modes, their self-energy, and;their coupling to electrons in graphene systems. In this work we use;gate-modulated Raman of q not equal 0 phonons as a technique to;understand the nature of five second-order Raman combination modes;observed in the frequency range of 1700-2300 cm(-1) of single-layer;graphene (SLG). Anomalous phonon self-energy renormalization phenomena;are observed in all five combination modes within this intermediate;frequency region, which can clearly be distinguished from one another.;By combining the anomalous phonon renormalization effect with the double;resonance Raman theory, which includes both phonon dispersion relations;and angular dependence of the electron-phonon scattering matrix;elements, and by comparing it to the experimentally obtained phonon;dispersion, measured by using different laser excitation energies, we;can assign each Raman peak to the proper phonon combination mode. This;approach should also shed light on the understanding of more complex;structures such as few-layer graphene (FLG) and its stacking orders as;well as other two-dimensional (2D)-like materials.;Sato, Kentaro/B-7163-2008; Saito, Riichiro/B-1132-2008;Sato, Kentaro/0000-0001-6706-2175;;5;2;1;0;5;1098-0121;WOS:000311715000008;;;J;Mazza, Giacomo;Fabrizio, Michele;Dynamical quantum phase transitions and broken-symmetry edges in the;many-body eigenvalue spectrum;PHYSICAL REVIEW B;86;18;184303;10.1103/PhysRevB.86.184303;NOV 30 2012;2012;Many-body models undergoing a quantum phase transition to a;broken-symmetry phase that survives up to a critical temperature must;possess, in the ordered phase, symmetric as well as nonsymmetric;eigenstates. We predict, and explicitly show in the fully connected;Ising model in a transverse field, that these two classes of eigenstates;do not overlap in energy, and therefore that an energy edge exists;separating low-energy symmetry-breaking eigenstates from high-energy;symmetry-invariant ones. This energy is actually responsible, as we;show, for the dynamical phase transition displayed by this model under a;sudden large increase of the transverse field. A second situation we;consider is the opposite, where the symmetry-breaking eigenstates are;those in the high-energy sector of the spectrum, whereas the low-energy;eigenstates are symmetric. In that case too a special energy must exist;marking the boundary and leading to unexpected out-of-equilibrium;dynamical behavior. An example is the fermonic repulsive Hubbard model;Hamiltonian H. Exploiting the trivial fact that the high-energy spectrum;of H is also the low-energy one of -H, we conclude that the high-energy;eigenstates of the Hubbard model are superfluid. Simulating in a;time-dependent Gutzwiller approximation the time evolution of a;high-energy BCS-like trial wave function, we show that a small;superconducting order parameter will actually grow in spite of the;repulsive nature of the interaction.;fabrizio, michele/N-3762-2014;2;0;0;0;2;1098-0121;WOS:000311714700001;;;J;Mueller, T.;Aharonovich, I.;Wang, Z.;Yuan, X.;Castelletto, S.;Prawer, S.;Atatuere, M.;Phonon-induced dephasing of chromium color centers in diamond;PHYSICAL REVIEW B;86;19;195210;10.1103/PhysRevB.86.195210;NOV 30 2012;2012;We report on the coherence properties of single photons from;chromium-based color centers in diamond. We use field-correlation and;spectral line-shape measurements to reveal the interplay between slow;spectral wandering and fast dephasing mechanisms as a function of;temperature. The zero-phonon transition frequency and its linewidth;follow a power-law dependence on temperature, which is consistent with;direct electron-phonon coupling and phonon-modulated Coulomb coupling to;nearby impurities, which are the predominant fast dephasing mechanisms;for these centers. Further, the observed reduction in the quantum yield;for photon emission as a function of temperature suggests the opening of;additional nonradiative channels through thermal activation to;higher-energy states and indicates a near-unity quantum efficiency at 4;K.;castelletto, stefania/G-1516-2011; McKenzie, Warren/J-2137-2014;3;0;0;0;3;1098-0121;WOS:000311715000007;;;J;Murthy, Ganpathy;Shankar, R.;Hamiltonian theory of fractionally filled Chern bands;PHYSICAL REVIEW B;86;19;195146;10.1103/PhysRevB.86.195146;NOV 30 2012;2012;There is convincing numerical evidence that fractional quantum-Hall-like;ground states arise in fractionally filled Chern bands. Here, we show;that the Hamiltonian theory of composite fermions (CF) can be as useful;in describing these states as it was in describing the fractional;quantum Hall effect (FQHE) in the continuum. We are able to introduce;CFs into the fractionally filled Chern-band problem in two stages.;First, we construct an algebraically exact mapping which expresses the;electron density projected to the Chern band rho(FCB) as a sum of;Girvin-MacDonald-Platzman density operators rho(GMP) that obey the;magnetic translation algebra. Next, following our Hamiltonian treatment;of the FQH problem, we rewrite the operators rho(GMP) in terms of CF;variables which reproduce the same algebra. This naturally produces a;unique Hartree-Fock ground state for the CFs, which can be used as a;springboard for computing gaps, response functions,;temperature-dependent phenomena, and the influence of disorder. We give;two concrete examples, one of which has no analog in the continuum FQHE;with nu = 1/5 and sigma(xy) = 2/5. Our approach can be easily extended;to fractionally filled, strongly interacting two-dimensional;time-reversal-invariant topological insulators.;15;0;0;0;15;1098-0121;WOS:000311715000005;;;J;Ovsyannikov, Sergey V.;Morozova, Natalia V.;Karkin, Alexander E.;Shchennikov, Vladimir V.;High-pressure cycling of hematite alpha-Fe2O3: Nanostructuring, in situ;electronic transport, and possible charge disproportionation;PHYSICAL REVIEW B;86;20;205131;10.1103/PhysRevB.86.205131;NOV 30 2012;2012;We studied electronic transport properties of hematite (alpha-Fe2O3) at;room temperature under cycling of high pressure up to similar to 22 GPa.;The original samples and those recovered after high-pressure experiments;were examined by x-ray diffraction and Raman and optical absorption;spectroscopy. At ambient pressure the original samples were also;characterized by temperature measurements of electrical and;galvanomagnetic properties. Upon compression, the original single;crystals underwent a sluggish structural deconfinement starting above 5;GPa into a nanometric state. Above 5-7 GPa, the nanostructured hematite;showed a reversible transition to a state with enhanced electrical;conductivity and moderate values of thermoelectric power (Seebeck;effect) of about -150 mu V/K. This electronic phase corresponds to;neither conventional trivalent oxidation state of the iron ions in;hematite nor metallic conductivity. Analysis of the electronic transport;data in the frameworks of two models, of polaron hopping, and of;intrinsic semiconductor conductivity, revealed a change from the;electron conductivity to two-band electrical conductivity and suggested;that the observed enhancement of the electrical properties in;nanocrystalline alpha-Fe2O3 above 5-7 GPa is related to the;mixed-valence state of the iron ions. Since alpha-Fe2O3 is believed to;undergo a "spin-flop" (Morin) transition near 2-5 GPa at room;temperature, we discuss potential contributions of magnetoelastic and;other effects to the observed high-pressure properties of hematite.;Ovsyannikov, Sergey/J-7802-2012; Morozova, Natalia/J-3568-2013; Karkin, Alexander/J-6712-2013; Shchennikov, Vladimir/J-8533-2013;Morozova, Natalia/0000-0002-2377-1372; Karkin,;Alexander/0000-0003-0464-4762; Shchennikov, Vladimir/0000-0003-2887-1652;4;0;0;0;4;1098-0121;WOS:000311715100005;;;J;Pielawa, Susanne;Berg, Erez;Sachdev, Subir;Frustrated quantum Ising spins simulated by spinless bosons in a tilted;lattice: From a quantum liquid to antiferromagnetic order;PHYSICAL REVIEW B;86;18;184435;10.1103/PhysRevB.86.184435;NOV 30 2012;2012;We study spinless bosons in a decorated square lattice with a;near-diagonal tilt. The resonant subspace of the tilted Mott insulator;is described by an effective Hamiltonian of frustrated quantum Ising;spins on a nonbipartite lattice. This generalizes an earlier proposal;for the unfrustrated quantum Ising model in one dimension which was;realized in a recent experiment on ultracold Rb-87 atoms in an optical;lattice. Very close to diagonal tilt, we find a quantum liquid state;which is continuously connected to the paramagnet. Frustration can be;reduced by increasing the tilt angle away from the diagonal, and the;system undergoes a transition to an antiferromagnetically ordered state.;Using quantum Monte Carlo simulations and exact diagonalization, we find;that for realistic system sizes the antiferromagnetic order appears to;be quasi-one-dimensional, however, in the thermodynamic limit the order;is two-dimensional.;Sachdev, Subir/A-8781-2013;Sachdev, Subir/0000-0002-2432-7070;1;0;0;0;1;1098-0121;WOS:000311714700004;;;J;Popov, V. V.;Polischuk, O. V.;Davoyan, A. R.;Ryzhii, V.;Otsuji, T.;Shur, M. S.;Plasmonic terahertz lasing in an array of graphene nanocavities;PHYSICAL REVIEW B;86;19;195437;10.1103/PhysRevB.86.195437;NOV 30 2012;2012;We propose a novel concept of terahertz lasing based on stimulated;generation of plasmons in a planar array of graphene resonant;micro/nanocavities strongly coupled to terahertz radiation. Due to the;strong plasmon confinement and superradiant nature of terahertz emission;by the array of plasmonic nanocavities, the amplification of terahertz;waves is enhanced by many orders of magnitude at the plasmon resonance;frequencies. We show that the lasing regime is ensured by the balance;between the plasmon gain and plasmon radiative damping.;Davoyan, Artur/K-8567-2013;Davoyan, Artur/0000-0002-4662-1158;15;0;0;0;15;1098-0121;WOS:000311715000011;;;J;Romanov, Sergei G.;Vogel, Nicolas;Bley, Karina;Landfester, Katharina;Weiss, Clemens K.;Orlov, Sergej;Korovin, Alexander V.;Chuiko, Gennady P.;Regensburger, Alois;Romanova, Alexandra S.;Kriesch, Arian;Peschel, Ulf;Probing guided modes in a monolayer colloidal crystal on a flat metal;film;PHYSICAL REVIEW B;86;19;195145;10.1103/PhysRevB.86.195145;NOV 30 2012;2012;Two-dimensional slab hybrid metal-dielectric photonic crystals, which;are prepared by assembling polymer colloidal spheres into closely packed;monolayers of hexagonal symmetry on a gold-coated glass substrate, show;an improved confinement of light compared with a colloidal monolayer on;a glass substrate. We demonstrated that the optical response of such;hybrid crystals consists of diffractively coupled waveguiding modes,;Fabry-Perot resonances, and Mie resonances. Correspondingly, two major;mechanisms, namely, band transport and hopping of localized excitations,;participate in the in-plane light transport in such hybrid crystals.;Weiss, Clemens/C-9932-2009; Peschel, Ulf/C-3356-2013; Romanov, Sergei/H-6868-2013; Kriesch, Arian/A-7337-2011;Weiss, Clemens/0000-0001-8559-0385; Romanov, Sergei/0000-0003-0546-9505;;Kriesch, Arian/0000-0002-8347-0344;6;1;0;0;6;1098-0121;WOS:000311715000004;;;J;Schoop, Leslie;Muechler, Lukas;Schmitt, Jennifer;Ksenofontov, Vadim;Medvedev, Sergey;Nuss, Juergen;Casper, Frederick;Jansen, Martin;Cava, R. J.;Felser, Claudia;Effect of pressure on superconductivity in NaAlSi;PHYSICAL REVIEW B;86;17;174522;10.1103/PhysRevB.86.174522;NOV 30 2012;2012;The ternary superconductor NaAlSi, isostructural with LiFeAs, the "111";iron pnictide superconductor, is investigated under pressure. The;structure remains stable up to 15 GPa. Resistivity and susceptibility;measurements show an increase of T-c up to 2 GPa, followed by a decrease;until superconductivity disappears at 4.8 GPa. Band structure;calculations show that pressure should have a negligible effect on the;electronic structure and the Fermi surface and thus the disappearance of;superconductivity under pressure must have a different origin. We;compare the electronic structure of NaAlSi under pressure with that of;nonsuperconducting isostructural NaAlGe.;Felser, Claudia/A-5779-2009; Casper, Frederick/A-5782-2009; Nuss, Juergen/G-2711-2010; Muchler, Lukas/A-4628-2013; Schoop, Leslie/A-4627-2013;Nuss, Juergen/0000-0002-0679-0184; Schoop, Leslie/0000-0003-3459-4241;1;0;0;0;1;1098-0121;WOS:000311714600006;;;J;Schwier, E. F.;Scherwitzl, R.;Vydrova, Z.;Garcia-Fernandez, M.;Gibert, M.;Zubko, P.;Garnier, M. G.;Triscone, J. -M.;Aebi, P.;Unusual temperature dependence of the spectral weight near the Fermi;level of NdNiO3 thin films;PHYSICAL REVIEW B;86;19;195147;10.1103/PhysRevB.86.195147;NOV 30 2012;2012;We investigate the behavior of the spectral weight near the Fermi level;of NdNiO3 thin films as a function of temperature across the;metal-to-insulator transition (MIT) by means of ultraviolet;photoelectron spectroscopy. The spectral weight was found to exhibit;thermal hysteresis, similar to that of the dc conductivity. A detailed;analysis of the temperature dependence reveals two distinct regimes of;spectral loss close to the Fermi level. The temperature evolution of one;regime is found to be independent of the MIT.;Garcia-Fernandez, Mirian/B-6018-2013; Zubko, Pavlo/B-5496-2009;Zubko, Pavlo/0000-0002-7330-3163;2;0;0;0;2;1098-0121;WOS:000311715000006;;;J;Sen, Arnab;Damle, Kedar;Moessner, R.;Vacancy-induced spin textures and their interactions in a classical spin;liquid;PHYSICAL REVIEW B;86;20;205134;10.1103/PhysRevB.86.205134;NOV 30 2012;2012;Motivated by experiments on the archetypal frustrated magnet;SrCr9pGa12-9pO19 (SCGO), we study the classical Heisenberg model on the;pyrochlore slab (kagome bilayer) lattice with site dilution x = 1 - p.;This allows us to address generic aspects of the physics of nonmagnetic;vacancies in a classical spin liquid. We explicitly demonstrate that the;pure (x = 0) system remains a spin liquid down to the lowest;temperatures, with an unusual nonmonotonic temperature dependence of the;susceptibility, which even turns diamagnetic for the apical spins;between the two kagome layers. For x > 0 but small, the low-temperature;magnetic response of the system is most naturally described in terms of;the properties of spatially extended spin textures that cloak an;"orphan" S = 3/2 Cr3+ spin in direct proximity to a pair of missing;sites belonging to the same triangular simplex. In the T -> 0 limit,;these orphan-texture complexes each carry a net magnetization that is;exactly half the magnetic moment of an individual spin of the undiluted;system. Furthermore, we demonstrate that they interact via an entropic;temperature-dependent pairwise exchange interaction J(eff) (T,(r) over;right arrow) similar to T J ((r) over right arrow root T) that has a;logarithmic form at short distances and decays exponentially beyond a;thermal correlation length xi(T) similar to 1/root T. The sign of J(eff);depends on whether the two orphan spins belong to the same kagome layer;or not. We provide a detailed analytical account of these properties;using an effective field theory approach specifically tailored for the;problem at hand. These results are in quantitative agreement with;large-scale Monte Carlo numerics.;3;1;0;0;3;1098-0121;WOS:000311715100008;;;J;Solanki, Ravindra Singh;Mishra, S. K.;Senyshyn, Anatoliy;Ishii, I.;Moriyoshi, Chikako;Suzuki, Takashi;Kuroiwa, Yoshihiro;Pandey, Dhananjai;Antiferrodistortive phase transition in pseudorhombohedral;(Pb0.94Sr0.06)( Zr0.550Ti0.450)O-3: A combined synchrotron x-ray and;neutron powder diffraction study;PHYSICAL REVIEW B;86;17;174117;10.1103/PhysRevB.86.174117;NOV 30 2012;2012;The controversies about the structure of the true ground state of;pseudorhombohedral compositions of Pb(ZrxTi1-x)O-3 (PZT) are addressed;using a 6% Sr2+ substituted sample with x = 0.550. Sound velocity;measurements reveal a phase transition at T-c similar to 279 K. The;temperature dependence of full width at half maximum of (h00)(pc) peaks;and the unit cell volume also show anomalies around 279 K even though;there is no indication of any change of space group in the synchrotron;x-ray powder diffraction (SXRD) patterns. The neutron powder diffraction;patterns reveal appearance of superlattice peaks below T-c similar to;279 K, confirming the existence of an antiferrodistortive phase;transition. The Rietveld analysis of the room-temperature and;low-temperature SXRD data below T-c shows that the structure corresponds;to single monoclinic phase in the Cm space group while the analysis of;neutron powder diffraction data reveals that the structure of the;ground-state phase below T-c corresponds to the Cc space group. Our;analysis shows that the structural models for the ground-state phase;based on the R3c space group with or without the coexistence of the;room-temperature monoclinic phase in the Cm space group can be rejected.;SOLANKI, RAVINDRA /H-7221-2013; Senyshyn, Anatoliy/C-8267-2014;Senyshyn, Anatoliy/0000-0002-1473-8992;3;0;0;0;3;1098-0121;WOS:000311714600001;;;J;Steinke, N. -J.;Moore, T. A.;Mansell, R.;Bland, J. A. C.;Barnes, C. H. W.;Nonuniversal dynamic magnetization reversal in the Barkhausen-dominated;and mesofrequency regimes;PHYSICAL REVIEW B;86;18;184434;10.1103/PhysRevB.86.184434;NOV 30 2012;2012;Dynamic magnetization reversal in the mesofrequency range is studied by;ac magneto-optical Kerr effect (ac-MOKE) and ac anisotropic;magnetoresistance (ac-AMR) magnetometry in a series of epitaxial and;polycrystalline thin magnetic films. The dynamic coercive field was;found to scale as a power law with scaling exponents <= 1/2 depending on;the ferromagnetic material. In addition, there is a low sweep rate;regime in which the dynamic coercivity reaches a minimum. These findings;are explained in the context of reversal proceeding by motion of a few;domain walls (similar to 1). At dc and low field sweep rates the;reversal proceeds between local pinning sites via Barkhausen avalanches;and the overall reversal speed is strongly dependent on the field sweep;rate. At higher field sweep rates a continuous motion regime is entered;in which the reversal velocity depends linearly on the applied field;sweep rate and only an average pinning force is experienced by the wall.;The fit of the dynamic coercivity vs applied field sweep rate allows the;determination of the average nonlocal pinning field. The nonuniversal;scaling exponent can be explained using recently developed models and;introducing a field rate-dependent number of active domain walls.;Mansell, Rhodri/A-1450-2013;2;0;0;0;2;1098-0121;WOS:000311714700003;;;J;Stoffel, M.;Fagot-Revurat, Y.;Tejeda, A.;Kierren, B.;Nicolaou, A.;Le Fevre, P.;Bertran, F.;Taleb-Ibrahimi, A.;Malterre, D.;Electron-phonon coupling on strained Ge/Si(111)-(5x5) surfaces;PHYSICAL REVIEW B;86;19;195438;10.1103/PhysRevB.86.195438;NOV 30 2012;2012;We investigate the structural and electronic properties of strained;Ge/Si(111)-(5 x 5) surfaces by means of scanning tunneling microscopy;and high-resolution angle-resolved photoemission spectroscopy. The;homogeneous (5 x 5) reconstructed overlayers are characterized by three;electronic surface states, similar to the Si(111)-(7 x 7) surface. The;dispersion of the dangling bond related surface state exhibits the same;periodicity as that of the (5 x 5) reconstruction. Moreover, a careful;analysis of the shape and width of this surface state provides striking;evidence of electron-phonon coupling at low temperatures. By considering;the spectral function within a simple Debye model, we determine both the;Debye energy and the electron-phonon coupling strength. The latter value;is further confirmed by analyzing the temperature-dependent phonon;broadening of the dangling bond related surface state linewidth.;BERTRAN, Francois/B-7515-2008; Tejeda, Antonio/C-4711-2014;BERTRAN, Francois/0000-0002-2416-0514; Tejeda,;Antonio/0000-0003-0125-4603;1;0;0;0;1;1098-0121;WOS:000311715000012;;;J;Turek, I.;Kudrnovsky, J.;Carva, K.;Magnetic anisotropy energy of disordered tetragonal Fe-Co systems from;ab initio alloy theory;PHYSICAL REVIEW B;86;17;174430;10.1103/PhysRevB.86.174430;NOV 30 2012;2012;We present results of systematic fully relativistic first-principles;calculations of the uniaxial magnetic anisotropy energy (MAE) of a;disordered and partially ordered tetragonal Fe-Co alloy using the;coherent potential approximation (CPA). This alloy has recently become a;promising system for thin ferromagnetic films with a perpendicular;magnetic anisotropy. We find that existing theoretical approaches to;homogeneous random bulk Fe-Co alloys, based on a simple virtual crystal;approximation (VCA), overestimate the maximum MAE values obtained in the;CPA by a factor of 4. This pronounced difference is ascribed to the;strong disorder in the minority spin channel of real alloys, which is;neglected in the VCA and which leads to a broadening of the d-like;eigenstates at the Fermi energy and to the reduction of the MAE. The;ordered Fe-Co alloys with a maximum L1(0)-like atomic long-range order;can exhibit high values of the MAE, which, however, get dramatically;reduced by small perturbations of the perfect order.;Carva, Karel/A-3703-2008; Turek, Ilja/G-5553-2014; KUDRNOVSKY, Josef/G-5581-2014;KUDRNOVSKY, Josef/0000-0002-9968-6748;10;0;0;0;10;1098-0121;WOS:000311714600004;;;J;Uppstu, Andreas;Harju, Ari;High-field magnetoresistance revealing scattering mechanisms in graphene;PHYSICAL REVIEW B;86;20;201409;10.1103/PhysRevB.86.201409;NOV 30 2012;2012;We show that the type of charge carrier scattering significantly affects;the high-field magnetoresistance of graphene nanoribbons. This effect;has the potential to be used in identifying the scattering mechanisms in;graphene. The results also provide an explanation for the experimentally;found, intriguing differences in the behavior of the magnetoresistance;of graphene Hall bars placed on different substrates. Additionally, our;simulations indicate that the peaks in the longitudinal resistance tend;to become pinned to fractionally quantized values, as different;transport modes have very different scattering properties.;Harju, Ari/C-2828-2009;Harju, Ari/0000-0002-2233-2896;1;0;0;0;1;1098-0121;WOS:000311715100004;;;J;White, Alexander J.;Sukharev, Maxim;Galperin, Michael;Molecular nanoplasmonics: Self-consistent electrodynamics in;current-carrying junctions;PHYSICAL REVIEW B;86;20;205324;10.1103/PhysRevB.86.205324;NOV 30 2012;2012;We consider a biased molecular junction subjected to an external;time-dependent electromagnetic field. We discuss local field formation;due to both surface plasmon-polariton excitations in the contacts and;the molecular response. Employing realistic parameters we demonstrate;that such self-consistent treatment is crucial for the proper;description of the junction transport characteristics.;White, Alexander/D-8754-2014;White, Alexander/0000-0002-7771-3899;3;0;0;0;3;1098-0121;WOS:000311715100010;;;J;Wierschem, Keola;Kato, Yasuyuki;Nishida, Yusuke;Batista, Cristian D.;Sengupta, Pinaki;Magnetic and nematic orderings in spin-1 antiferromagnets with;single-ion anisotropy;PHYSICAL REVIEW B;86;20;201108;10.1103/PhysRevB.86.201108;NOV 30 2012;2012;We study a spin-1 Heisenberg model with exchange interaction J, uniaxial;single-ion exchange anisotropy D, and Zeeman coupling to a magnetic;field B parallel to the symmetry axis. We compute the (D/J, B/J) quantum;phase diagram for square and simple cubic lattices by combining;analytical and quantum Monte Carlo approaches, and find a transition;between XY antiferromagnetic and ferronematic phases that spontaneously;break the U(1) symmetry of the model. In the language of bosonic gases,;this is a transition between a Bose-Einstein condensate (BEC) of single;bosons and a BEC of pairs. Our work opens up new avenues for measuring;this transition in real magnets.;8;0;0;0;8;1098-0121;WOS:000311715100001;;;J;Wu, Chien-Te;Valls, Oriol T.;Halterman, Klaus;Proximity effects in conical-ferromagnet/superconductor bilayers;PHYSICAL REVIEW B;86;18;184517;10.1103/PhysRevB.86.184517;NOV 30 2012;2012;We present a study of various aspects of proximity effects in F/S;(ferromagnet/superconductor) bilayers, where F has a spiral magnetic;texture such as that found in holmium, erbium, and other materials, and;S is a conventional s-wave superconductor. We numerically solve the;Bogoliubov-de Gennes (BdG) equations self-consistently and use the;solutions to compute physical quantities relevant to the proximity;effects in these bilayers. We obtain the relation between the;superconducting transition temperature T-c and the thicknesses d(F) of;the magnetic layer by solving the linearized BdG equations. We find that;the T-c (d(F)) curves include multiple oscillations. Moreover, the;system may be reentrant not only with d(F), as is the case when the;magnet is uniform, but also with temperature T : the superconductivity;disappears in certain ranges of d(F) or T. The T reentrance reported;here occurs when d(F) is larger than the spatial period of the conical;exchange field. We compute the condensation free energies and entropies;from the full BdG equations and find the results are in agreement with;T-c values obtained by linearization. The inhomogeneous nature of the;magnet makes it possible for all odd triplet pairing components to be;induced. We have investigated their properties and found that, as;compared to the singlet amplitude, both the m = 0 and +/- 1 triplet;components exhibit long-range penetration. For nanoscale bilayers, the;proximity lengths for both layers are also obtained. These lengths;oscillate with d(F) and they are found to be long range on both sides.;These results are shown to be consistent with recent experiments. We;also calculate the reverse proximity effect described by the;three-dimensional local magnetization, and the local density of states,;which reveals important energy-resolved signatures associated with the;proximity effects.;6;0;0;0;6;1098-0121;WOS:000311714700005;;;J;Altarelli, M.;Kurta, R. P.;Vartanyants, I. A.;X-ray cross-correlation analysis and local symmetries of disordered;systems: General theory (vol 82, 104207, 2010);PHYSICAL REVIEW B;86;17;179904;10.1103/PhysRevB.86.179904;NOV 29 2012;2012;1;0;0;0;1;1098-0121;WOS:000311693600006;;;J;Beheshtian, J.;Sadeghi, A.;Neek-Amal, M.;Michel, K. H.;Peeters, F. M.;Induced polarization and electronic properties of carbon-doped boron;nitride nanoribbons;PHYSICAL REVIEW B;86;19;195433;10.1103/PhysRevB.86.195433;NOV 29 2012;2012;The electronic properties of boron nitride nanoribbons (BNNRs) doped;with a line of carbon atoms are investigated using density functional;calculations. By replacing a line of alternating B and N atoms with;carbons, three different configurations are possible depending on the;type of the atoms which bond to the carbons. We found very different;electronic properties for these configurations: (i) the NCB arrangement;is strongly polarized with a large dipole moment having an unexpected;direction, (ii) the BCB and NCN arrangements are nonpolar with zero;dipole moment, (iii) the doping by a carbon line reduces the band gap;regardless of the local arrangement of the borons and the nitrogens;around the carbon line, and (iv) the polarization and energy gap of the;carbon-doped BNNRs can be tuned by an electric field applied parallel to;the carbon line. Similar effects were found when either an armchair or;zigzag line of carbon was introduced.;Sadeghi, Ali/D-1554-2013;8;0;0;0;8;1098-0121;WOS:000311694200006;;;J;Chi, Hang;Kim, Hyoungchul;Thomas, John C.;Su, Xianli;Stackhouse, Stephen;Kaviany, Massoud;Van der Ven, Anton;Tang, Xinfeng;Uher, Ctirad;Configuring pnicogen rings in skutterudites for low phonon conductivity;PHYSICAL REVIEW B;86;19;195209;10.1103/PhysRevB.86.195209;NOV 29 2012;2012;Dominant heat-carrying modes in skutterudites are associated with;vibrations of the pnicogen rings. Apart from filling the structural;cages with foreign species, disrupting the pnicogen ring structure by;substitutional alloying should be an effective approach to reduce;thermal conductivity. In this paper we explore alloying configurations;of pnicogen rings (Sb rings in the case of CoSb3) that yield;particularly low values of the thermal conductivity. We find that IV-VI;double substitution (replacing two Sb atoms with one atom each from the;column IV and column VI elements to achieve an average charge of two Sb;atoms) is a very effective approach. Our ab initio calculations, in;combination with a cluster expansion, have allowed us to identify stable;alloy configurations on the Sb rings. Subsequent molecular and lattice;dynamics simulations on low energy configurations establish the range of;atomic displacement parameters and values of the thermal conductivity.;Theoretical results are in good agreement with our experimental thermal;conductivity values. Combining both approaches of compensated double;substitution and filling of structural cages should be an effective way;of improving the thermoelectric figure of merit of skutterudites.;Su, Xianli/A-9685-2012; Chi, Hang/F-1537-2011; Thomas, John/A-2764-2009; Kim, Hyoungchul/F-2557-2014;Chi, Hang/0000-0002-1299-1150; Thomas, John/0000-0002-3162-0152; Kim,;Hyoungchul/0000-0003-3109-660X;8;0;0;0;8;1098-0121;WOS:000311694200003;;;J;Fortmann, C.;Niemann, C.;Glenzer, S. H.;Theory of x-ray scattering in high-pressure electrides;PHYSICAL REVIEW B;86;17;174116;10.1103/PhysRevB.86.174116;NOV 29 2012;2012;We report on a theoretical model for the calculation of x-ray scattering;from high-pressure electrides. By treating interstitial electrons as;effective anions forming a sublattice within the crystal, we explicitly;account for Bragg reflections from the sublattice as well as for;scattering interferences between the ion lattice and the anion;sublattice. The additional reflections and interferences lead to;significant modifications of the static structure factor as compared to;the pure lattices. Our results are important for accurate calculations;of material properties in the high-pressure phase and allow for direct;experimental verification of electride phases in matter at ultrahigh;pressures through angle-resolved x-ray scattering.;2;0;0;0;2;1098-0121;WOS:000311693600001;;;J;Guclu, Caner;Campione, Salvatore;Capolino, Filippo;Hyperbolic metamaterial as super absorber for scattered fields generated;at its surface;PHYSICAL REVIEW B;86;20;205130;10.1103/PhysRevB.86.205130;NOV 29 2012;2012;We show that hyperbolic metamaterials (HMs) that exhibit hyperbolic;wave-vector dispersion diagrams possess two important features related;to super absorption: The total power scattered by a nanosphere is (i);greatly enhanced when placed at the HM surface, compared to other;material surfaces, and (ii) almost totally directed into the HM. We show;that these two features are peculiar of HM interfaces, and we support;them using a spectral theory study of transverse-electric and magnetic;waves scattered by a subwavelength nanosphere. We analyze the;nanosphere's scattered power absorbed by various substrate;configurations. We also consider various nanosphere materials.;22;0;0;0;22;1098-0121;WOS:000311694300002;;;J;Hebbache, M.;Entanglement of electron spins and geometric phases in the diamond color;center coupled to the P1 center;PHYSICAL REVIEW B;86;19;195316;10.1103/PhysRevB.86.195316;NOV 29 2012;2012;Impurity spins in semiconductors are potential quantum bits.;Entanglement and topological phases are key resources in quantum;computation. We prove that the coupled electron spins carried by a;diamond nitrogen-vacancy color center (NV-) and a single substitutional;nitrogen impurity (P1 center) are entangled in the immediate vicinity of;the level anticrossing that appears in the Zeeman energy diagram at;about 500 G. We also determine the Aharonov-Anandan, Berry, and marginal;geometric phases that can be accumulated by the state vectors of this;spin system when it is magnetically transported around a closed path. At;the resonance where the gap between two energy levels is minimum, the;geometric phases undergo discontinuities, and the entanglement of the;two electron spins is maximal.;2;0;0;0;2;1098-0121;WOS:000311694200004;;;J;Kerdsongpanya, Sit;Alling, Bjorn;Eklund, Per;Effect of point defects on the electronic density of states of ScN;studied by first-principles calculations and implications for;thermoelectric properties;PHYSICAL REVIEW B;86;19;195140;10.1103/PhysRevB.86.195140;NOV 29 2012;2012;We have investigated the effect of defects and impurities on the;electronic density of states of scandium nitride using first-principles;calculations with the generalized gradient approximation and hybrid;functionals for the exchange correlation energy. Our results show that;Sc and N vacancies can introduce asymmetric peaks in the density of;states close to the Fermi level. We also find that the N vacancy states;are sensitive to total electron concentration of the system due to their;possibility for spin polarization. Substitutional point defects shift;the Fermi level in the electronic band according to their valence but do;not introduce sharp features. The energetics and electronic structure of;defect pairs are also studied. By using hybrid functional calculations,;a correct description of the band gap of scandium nitride is obtained.;Our results envisage ways for improving the thermoelectric figure of;merit of ScN by electronic structure engineering through stoichiometry;tuning and doping.;Eklund, Per/B-7677-2011; Alling, Bjorn/I-3193-2012;Eklund, Per/0000-0003-1785-0864; Alling, Bjorn/0000-0001-5863-5605;8;0;0;0;8;1098-0121;WOS:000311694200001;;;J;Kim, Jiseok;Fischetti, Massimo V.;Aboud, Shela;Structural, electronic, and transport properties of silicane nanoribbons;PHYSICAL REVIEW B;86;20;205323;10.1103/PhysRevB.86.205323;NOV 29 2012;2012;Silicane ribbons do not suffer from aromatic dependence of the band gap;making them a more promising candidate for near-term nanoelectronic;application compared to armchair graphene nanoribbons. The structural,;electronic, and transport properties of free-standing sp(3)-hybridized;armchair- and zigzag-edge silicane nanoribbons have been investigated;using ab initio and nonlocal empirical pseudopotential calculations.;Under ambient conditions, two-dimensional silicane sheets will;spontaneously break into stable one-dimensional ribbons similar to;density functional theory studies of graphene ribbons. The calculated;low-field electron mobility and ballistic conductance show a strong edge;dependence, due to differences in the effective mass and momentum;relaxation rates along the two transport directions. The mobility in;zigzag-edge ribbons is found to be approximately twenty times higher;than in armchair-edge ribbons.;7;0;0;0;7;1098-0121;WOS:000311694300004;;;J;Kim, Kyou-Hyun;Payne, David A.;Zuo, Jian-Min;Symmetry of piezoelectric (1-x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (x=0.31);single crystal at different length scales in the morphotropic phase;boundary region;PHYSICAL REVIEW B;86;18;184113;10.1103/PhysRevB.86.184113;NOV 29 2012;2012;We use probes of three different length scales to examine symmetry of (1;- x)Pb(Mg1/3Nb2/3)O-3-xPbTiO(3) (PMN-xPT) single crystals in the;morphotropic phase boundary (MPB) region at composition x = 0.31;(PMN-31% PT). On the macroscopic scale, x-ray diffraction (XRD) shows a;mixture of strong and weak diffraction peaks of different widths. The;closest match to XRD peak data is made with monoclinic Pm (M-C);symmetry. On the local scale of a few nanometers, convergent beam;electron diffraction (CBED) studies, with a 1.6-nm electron probe,;reveal no obvious symmetry. These CBED experimental patterns can be;approximately matched with simulations based on monoclinic symmetry,;which suggests locally distorted monoclinic structure. A monoclinic Cm;(M-A or M-B)-like symmetry could also be obtained from certain regions;of the crystal by using a larger electron probe size of several tens of;nanometers in diameter. Thus the monoclinic symmetry of single crystal;PMN-31% PT is developed only in parts of the crystal by averaging over;locally distorted structure on the scale of few tens of nanometers. The;macroscopic symmetry observed by XRD is a result of averaging from the;local structure in PMN-31% PT single crystal. The lack of local symmetry;at a few nanometers scale suggests that the polarization switching;results from a change in local displacements, which are not restricted;to specific symmetry planes or directions.;2;0;0;0;2;1098-0121;WOS:000311693900002;;;J;Kossacki, P.;Faugeras, C.;Kuehne, M.;Orlita, M.;Mahmood, A.;Dujardin, E.;Nair, R. R.;Geim, A. K.;Potemski, M.;Circular dichroism of magnetophonon resonance in doped graphene;PHYSICAL REVIEW B;86;20;205431;10.1103/PhysRevB.86.205431;NOV 29 2012;2012;The polarization-resolved Raman-scattering response due to E-2g phonons;in monolayer graphene has been investigated in magnetic fields up to 29;T. The hybridization of the E-2g phonon is only observed with the;fundamental inter-Landau-level excitation (involving the n = 0 Landau;level) and in just one of the two configurations of the circularly;cross-polarized excitation and scattered light. This polarization;anisotropy of the magnetophonon resonance is shown to be inherent to;relatively strongly doped graphene samples with carrier concentrations;typical for graphene deposited on Si/SiO2 substrates.;Dujardin, Erik/A-2748-2010; Raveendran Nair, Rahul/G-5839-2010; Orlita, Milan/H-1130-2014;Dujardin, Erik/0000-0001-7242-9250;;3;0;0;0;3;1098-0121;WOS:000311694300005;;;J;Kostylev, M.;Stashkevich, A. A.;Roussigne, Y.;Grigoryeva, N. A.;Mistonov, A. A.;Menzel, D.;Sapoletova, N. A.;Napolskii, K. S.;Eliseev, A. A.;Lukashin, A. V.;Grigoriev, S. V.;Samarin, S. N.;Microwave properties of Ni-based ferromagnetic inverse opals;PHYSICAL REVIEW B;86;18;184431;10.1103/PhysRevB.86.184431;NOV 29 2012;2012;Investigations of microwave properties of Ni-based inverse ferromagnetic;opal-like film with the [111] axis of the fcc structure along the normal;direction to the film have been carried out in the 2-18 GHz frequency;band. We observed multiple spin wave resonances for the magnetic field;applied perpendicular to the film, i.e., along the [111] axis of this;artificial crystal. For the field applied in the film plane, a broad;band of microwave absorption is observed, which does not contain a fine;structure. The field ranges of the responses observed are quite;different for these two magnetization directions. This suggests a;collective magnetic ground state or shape anisotropy and collective;microwave dynamics for this foam-like material. This result is in;agreement with SQUID measurements of hysteresis loops for the material.;Two different models for this collective behavior are suggested that;satisfactorily explain the major experimental results.;Lukashin, Alexey/F-6746-2013; Mistonov, Alexander/H-2098-2013; Grigoryeva, Natalia/K-2253-2013; Kostylev, Mikhail/H-5214-2014;Mistonov, Alexander/0000-0003-0138-3579; Grigoryeva,;Natalia/0000-0002-9910-6192;;1;0;0;0;1;1098-0121;WOS:000311693900004;;;J;Kvashnin, Y. O.;Khmelevskyi, S.;Kudrnovsky, J.;Yaresko, A. N.;Genovese, L.;Bruno, P.;Noncollinear magnetic ordering in compressed FePd3 ordered alloy: A;first principles study;PHYSICAL REVIEW B;86;17;174429;10.1103/PhysRevB.86.174429;NOV 29 2012;2012;By means of ab initio calculations based on the density functional;theory we investigated the magnetic phase diagram of ordered FePd3 alloy;as a function of external pressure. Considering several magnetic;configurations we concluded that the system under pressure has a;tendency toward noncollinear spin alignment. Analysis of the Heisenberg;exchange parameters J(ij) revealed strong dependence of iron-iron;magnetic couplings on polarization of Pd atoms. To take into account;that effect we built an extended Heisenberg model with higher order;(biquadratic) terms. Minimizing the energy of this Hamiltonian, fully;parametrized using the results of ab initio calculations, we found a;candidate for a ground state of compressed FePd3, which can be seen as;two interpenetrating "triple-Q" phases.;Genovese, Luigi/C-5937-2011; Bruno, Patrick/C-9159-2009; KUDRNOVSKY, Josef/G-5581-2014;Genovese, Luigi/0000-0003-1747-0247; Bruno, Patrick/0000-0002-2574-1943;;KUDRNOVSKY, Josef/0000-0002-9968-6748;1;0;0;0;1;1098-0121;WOS:000311693600004;;;J;Li, Wu;Lindsay, L.;Broido, D. A.;Stewart, Derek A.;Mingo, Natalio;Thermal conductivity of bulk and nanowire Mg2SixSn1-x alloys from first;principles;PHYSICAL REVIEW B;86;17;174307;10.1103/PhysRevB.86.174307;NOV 29 2012;2012;The lattice thermal conductivity (kappa) of the thermoelectric;materials, Mg2Si, Mg2Sn, and their alloys, are calculated for bulk and;nanowires, without adjustable parameters. We find good agreement with;bulk experimental results. For large nanowire diameters, size effects;are stronger for the alloy than for the pure compounds. For example, in;200 nm diameter nanowires kappa is lower than its bulk value by 30%,;20%, and 20% for Mg2Si0.6Sn0.4, Mg2Si, and Mg2Sn, respectively. For;nanowires less than 20 nm thick, the relative decrease surpasses 50%,;and it becomes larger in the pure compounds than in the alloy. At room;temperature, kappa of Mg2SixSn1-x is less sensitive to nanostructuring;size effects than SixGe1-x, but more sensitive than PbTexSe1-x. This;suggests that further improvement of Mg2SixSn1-x as a nontoxic;thermoelectric may be possible.;Lindsay, Lucas/C-9221-2012; Stewart, Derek/B-6115-2008;25;1;0;0;25;1098-0121;WOS:000311693600002;;;J;Niklasson, Anders M. N.;Cawkwell, Marc J.;Fast method for quantum mechanical molecular dynamics;PHYSICAL REVIEW B;86;17;174308;10.1103/PhysRevB.86.174308;NOV 29 2012;2012;As the processing power available for scientific computing grows,;first-principles Born-Oppenheimer molecular dynamics simulations are;becoming increasingly popular for the study of a wide range of problems;in materials science, chemistry, and biology. Nevertheless, the;computational cost of Born-Oppenheimer molecular dynamics still remains;prohibitively large for many potential applications. Here we show how to;avoid a major computational bottleneck: the self-consistent-field;optimization prior to force calculations. The optimization-free quantum;mechanical molecular dynamics method gives trajectories that are almost;indistinguishable from an "exact" microcanonical Born-Oppenheimer;molecular dynamics simulation even when low-prefactor linear scaling;sparse matrix algebra is used. Our findings show that the computational;gap between classical and quantum mechanical molecular dynamics;simulations can be significantly reduced.;4;0;0;0;4;1098-0121;WOS:000311693600003;;;J;Ong, Zhun-Yong;Fischetti, Massimo V.;Theory of interfacial plasmon-phonon scattering in supported graphene;(vol 86, 165422, 2012);PHYSICAL REVIEW B;86;19;199904;10.1103/PhysRevB.86.199904;NOV 29 2012;2012;Ong, Zhun-Yong/B-9486-2013;Ong, Zhun-Yong/0000-0003-2668-6453;6;0;0;0;6;1098-0121;WOS:000311694200007;;;J;Per, Manolo C.;Snook, Ian K.;Russo, Salvy P.;Efficient calculation of unbiased expectation values in diffusion;quantum Monte Carlo;PHYSICAL REVIEW B;86;20;201107;10.1103/PhysRevB.86.201107;NOV 29 2012;2012;Despite the proven utility of quantum Monte Carlo methods in addressing;the quantum many-body problem, many important observables are difficult;to calculate due to the presence of large, and sometimes divergent,;statistical errors. The present state of the art allows the construction;of renormalized estimators which result in finite variances, but which;invariably include some systematic bias. We present a simple method for;calculating unbiased expectation values of local operators in the;diffusion quantum Monte Carlo method which is applicable to both bare;and renormalized estimators, allowing the accurate calculation of;important properties such as forces.;snook, ian/A-3427-2009; Per, Manolo/C-3680-2011;1;0;0;0;1;1098-0121;WOS:000311694300001;;;J;Simonson, J. W.;Smith, G. J.;Post, K.;Pezzoli, M.;Kistner-Morris, J. J.;McNally, D. E.;Hassinger, J. E.;Nelson, C. S.;Kotliar, G.;Basov, D. N.;Aronson, M. C.;Magnetic and structural phase diagram of CaMn2Sb2;PHYSICAL REVIEW B;86;18;184430;10.1103/PhysRevB.86.184430;NOV 29 2012;2012;On the basis of magnetic, transport, and optical measurements performed;on single crystals, we report CaMn2Sb2 to be an antiferromagnetic;insulator that exhibits weak ferromagnetic order above the Neel;temperature. Magnetic susceptibility measurements reveal the magnitude;of the high-temperature Curie-Weiss moment to be only half as large as;the ground-state ordered moment, while electronic-structure calculations;based on crystallographic measurements suggest a crystal-field-induced;spin-state transition does not occur. The antiferromagnetic state is;relatively insensitive to both doping and modest pressures, while the;ferromagnetism can be readily tuned by either. Infrared transmission and;pressure-dependent resistivity measurements suggest proximity to an;electronic delocalization transition. We suggest the ferromagnetic state;may be the signature of magnetic polarons.;1;1;0;0;1;1098-0121;WOS:000311693900003;;;J;Stishov, Sergei M.;Petrova, Alla E.;Sidorov, Vladimir A.;Menzel, Dirk;Self-doping effects in cobalt silicide CoSi: Electrical, magnetic,;elastic, and thermodynamic properties (vol 86, 064433, 2012);PHYSICAL REVIEW B;86;17;179903;10.1103/PhysRevB.86.179903;NOV 29 2012;2012;0;0;0;0;0;1098-0121;WOS:000311693600005;;;J;Thede, M.;Xiao, F.;Baines, Ch.;Landee, C.;Morenzoni, E.;Zheludev, A.;Ordering in weakly coupled random singlet spin chains;PHYSICAL REVIEW B;86;18;180407;10.1103/PhysRevB.86.180407;NOV 29 2012;2012;The influence of bond randomness on long-range magnetic ordering in the;weakly coupled S = 1/2 antiferromagnetic spin chain materials;Cu(py)(2)(Cl1-xBrx)(2) is studied by muon spin rotation and bulk;measurements. Disorder is found to have a strong effect on the ordering;temperature T-N, and an even stronger one on the saturation;magnetization m(0), but considerably more so in the effectively;lower-dimensional Br-rich materials. The observed behavior is attributed;to random singlet ground states of individual spin chains, but remains;in contradiction with chain mean-field theory [Joshi and Yang, Phys.;Rev. B 67, 174403 (2003)] predictions. In this context, we discuss the;possibility of a universal distribution of ordered moments in the weakly;coupled random singlet chains model.;Thede, Matthias/L-2975-2013;4;0;0;0;4;1098-0121;WOS:000311693900001;;;J;Usov, V.;Stoyanov, S.;Coileain, C. O.;Toktarbaiuly, O.;Shvets, I. V.;Antiband instability on vicinal Si(111) under the condition of;diffusion-limited sublimation;PHYSICAL REVIEW B;86;19;195317;10.1103/PhysRevB.86.195317;NOV 29 2012;2012;In this paper, we investigate the antiband instability on vicinal;Si(111) surfaces with different angles of misorientation. It is known;that prolonged direct current-annealing of Si(111) results in the;formation of antibands; i.e., the step bunches with the opposite slope;to the primary bunches. We provide a theoretical description of antiband;formation via the evolution of the atomic steps' shape. We also derive a;criterion for the onset of the antiband instability under the conditions;of sublimation controlled by slow adatom surface diffusion. We examine;this criterion experimentally by studying the initial stage of the;antiband formation at a constant temperature of 1270 degrees C while;systematically varying the applied electromigration field. The;experiment strongly supports the validity of the derived theoretical;criterion and indicates the importance of accounting for the factor of;critical field in the theoretical modeling of step bunching or antiband;instabilities. Deduced from the comparison of theory and experiment, the;Si surface atoms' effective charge cannot exceed double the elementary;charge, set by the lower limit of kinetic characteristic length d(s) =;0.3 nm. Using d(s) = 1.7 - 4.5 nm draws values of the effective charge;in line with the values reported in earlier studies.;Shvets, Igor/J-8710-2013;0;0;0;0;0;1098-0121;WOS:000311694200005;;;J;Weber, Cedric;Mila, Frederic;Anticollinear magnetic order induced by impurities in the frustrated;Heisenberg model of pnictides;PHYSICAL REVIEW B;86;18;184432;10.1103/PhysRevB.86.184432;NOV 29 2012;2012;We present Monte Carlo simulations for a classical antiferromagnetic;Heisenberg model with both nearest (J(1)) and next-nearest (J(2));exchange couplings on the square lattice in the presence of nonmagnetic;impurities. We show that the order-by-disorder entropy selection,;associated with the Ising-like phase transition that appears for;J(2)/J(1) > 1/2 in the pure spin model, is quenched at low temperature;due to the presence of nonmagnetic impurities. Evidence that a new;competing order is stabilized around the impurities and in turn induces;a reentrance phase transition is reported. Implications for local;magnetic measurement of the parent compound of iron pnictides are;briefly discussed.;Weber, Cedric/D-5027-2014;Weber, Cedric/0000-0002-6989-2700;4;0;0;0;4;1098-0121;WOS:000311693900005;;;J;Weston, L.;Cui, X. Y.;Delley, B.;Stampfl, C.;Band offsets and polarization effects in wurtzite ZnO/Mg0.25Zn0.75O;superlattices from first principles;PHYSICAL REVIEW B;86;20;205322;10.1103/PhysRevB.86.205322;NOV 29 2012;2012;Using first-principles calculations, we investigate the band offsets,;built-in electric fields, and band gaps of (0001)-oriented wurtzite;ZnO/Mg0.25Zn0.75O superlattices, including the dependence on;superlattice geometry and strain. Significant built-in electric fields;form inside the quantum-well region that are found to be tunable over;the range 0.24 MV/cm <= E-w <= 0.63 MV/cm, and potentially up to 1MV/cm;by varying the relative width of the well and barrier regions. The;valence band offset at the ZnO/Mg0.25Zn0.75O interface is calculated to;be 0.25-0.26 eV which, in contrast to the "common anion rule," is a;significant portion of the total band offset, and this is in support of;recent experiment. Calculated values for the valence band offset were;found to be insensitive to variations in superlattice geometry and;strain. The band gap of the superlattice is determined by the competing;effects of quantum confinement and the quantum-confined Stark effect,;with the former being more dominant for the systems investigated. These;findings will be useful in the design and optimization of ZnO/MgxZn1-xO;superlattices for electronics and optoelectronics applications.;Delley, Bernard/E-1336-2014;Delley, Bernard/0000-0002-7020-2869;3;0;1;0;4;1098-0121;WOS:000311694300003;;;J;Yin, Z. P.;Haule, K.;Kotliar, G.;Fractional power-law behavior and its origin in iron-chalcogenide and;ruthenate superconductors: Insights from first-principles calculations;PHYSICAL REVIEW B;86;19;195141;10.1103/PhysRevB.86.195141;NOV 29 2012;2012;We perform realistic first-principles calculations of iron chalcogenides;and ruthenate-based materials to identify experimental signatures of;Hund's-coupling-induced correlations in these systems. We find that FeTe;and KxFe2-yAs2 display unusual orbital-dependent fractional power-law;behavior in their quasiparticle self-energy and optical conductivity, a;phenomenon first identified in SrRuO3. Strong incoherence in the;paramagnetic state of these materials results in electronic states;hidden to angle-resolved photoemission spectroscopy which reemerge at;low temperatures. We identify the effective low-energy Hamiltonian;describing these systems and show that these anomalies are not;controlled by the proximity to a quantum critical point but result from;coexistence of fast quantum mechanical orbital fluctuations and slow;spin fluctuations.;Yin, Zhiping/G-3949-2012;Yin, Zhiping/0000-0001-8679-5251;10;0;0;0;10;1098-0121;WOS:000311694200002;;;J;Kumar, A.;Fennie, C. J.;Rabe, K. M.;Spin-lattice coupling and phonon dispersion of CdCr2O4 from first;principles;PHYSICAL REVIEW B;86;18;184429;10.1103/PhysRevB.86.184429;NOV 28 2012;2012;First-principles calculations are used to investigate the effects of;magnetic ordering on the minimum-energy structure and on the full phonon;dispersion relation of CdCr2O4, focusing on the changes through the;coupled magnetic/structural transition which shows relief of the;geometric frustration of the antiferromagnetic ordering on the;pyrochlore lattice. We computed the full phonon dispersion relations for;the ferromagnetic and antiferromagnetic orderings in cubic and;tetragonal structures of CdCr2O4. We extracted the phonon dispersion for;the cubic paramagnetic phase and found that it compares wellwith the;experimental results. The AFM ordering is seen to lower the symmetry and;induce a lattice distortion comparable in magnitude to that observed in;the transition. While the spin-phonon couplings are large for modes;which involve displacement of the Cr atoms, there are no unstable modes;at any point in the Brillouin zone for either of the magnetic orderings;considered, and thus we conclude that the phase transition is driven not;by spin-phonon coupling, but by the atomic forces and stresses induced;by the magnetic order. Finally, by comparison of the phonon frequencies;for structures with different magnetic orderings and structural;distortions, we find that the spin-phonon coupling, rather than the;coupling of the phonons to the structural change, is the dominant factor;in the observed changes of phonon frequencies through the phase;transition.;Kumar, Anil/A-9834-2013;Kumar, Anil/0000-0002-4901-8987;1;0;0;0;1;1098-0121;WOS:000311604700002;;;J;Lin, Shi-Zeng;Bulaevskii, Lev N.;Batista, Cristian D.;Vortex dynamics in ferromagnetic superconductors: Vortex clusters,;domain walls, and enhanced viscosity;PHYSICAL REVIEW B;86;18;180506;10.1103/PhysRevB.86.180506;NOV 28 2012;2012;We demonstrate that there is a long-range vortex-vortex attraction in;ferromagnetic superconductors due to polarization of the magnetic;moments. Vortex clusters are then stabilized in the ground state for low;vortex densities. The motion of vortex clusters driven by the Lorentz;force excites magnons. This regime becomes unstable at a threshold;velocity above which domain walls are generated for slow relaxation of;the magnetic moments and the vortex configuration becomes modulated.;This dynamics of vortices and magnetic moments can be probed by;transport measurements.;Lin, Shi-Zeng/B-2906-2008;Lin, Shi-Zeng/0000-0002-4368-5244;6;0;0;0;6;1098-0121;WOS:000311604700001;;;J;Wong, Chris L. M.;Law, K. T.;Majorana Kramers doublets in dx2-y2-wave superconductors with Rashba;spin-orbit coupling;PHYSICAL REVIEW B;86;18;184516;10.1103/PhysRevB.86.184516;NOV 28 2012;2012;In this work, we show that a quasi-one-dimensional d(x2-y2)-wave;superconductor with Rashba spin-orbit coupling is a DIII class,;time-reversal invariant, topological superconductor (TS), which supports;a Majorana Kramers Doublet (MKD) at each end of the TS. A MKD is a pair;of Majorana end states (MESs) protected by time-reversal symmetry (TRS).;An external magnetic field breaks TRS and drives the system from DIII to;D class in which case a single MES appears at each end of the TS. We;show that a MKD induces resonant Andreev reflection with zero-bias;conductance peak of 4e(2)/h. Experimental realizations of the proposed;model are discussed.;Law, Kam/H-1410-2011;19;1;0;0;19;1098-0121;WOS:000311604700003;;;J;De Luca, M.;Pettinari, G.;Ciatto, G.;Amidani, L.;Filippone, F.;Polimeni, A.;Fonda, E.;Boscherini, F.;Bonapasta, A. Amore;Giubertoni, D.;Knuebel, A.;Lebedev, V.;Capizzi, M.;Identification of four-hydrogen complexes in In-rich InxGa1-xN (x > 0.4);alloys using photoluminescence, x-ray absorption, and density functional;theory;PHYSICAL REVIEW B;86;20;201202;10.1103/PhysRevB.86.201202;NOV 28 2012;2012;Postgrowth hydrogen incorporation in In-rich InxGa1-xN (x > 0.4) alloys;strongly modifies the optical and structural properties of the material:;A large blueshift of the emission and absorption energies is accompanied;by a remarkable broadening of the interatomic-distance distribution, as;probed by synchrotron radiation techniques. Both effects vanish at a;finite In-concentration value (x similar to 0.5). Synergic x-ray;absorption measurements and first-principle calculations unveil two;different defective species forming upon hydrogenation: one due to the;high chemical reactivity of H, the other ascribed to mere lattice;damage. In the former species, four H atoms bind to as many N atoms, all;nearest-neighbors of a same In atom. The stability of this peculiar;complex, which is predicted to behave as a donor, stems from atomic;displacements cooperating to reduce local strain.;Fonda, Emiliano/D-9666-2011; Filippone, Francesco/I-4718-2012; Pettinari, Giorgio/M-8678-2014;Filippone, Francesco/0000-0001-5862-1115; Pettinari,;Giorgio/0000-0003-0187-3770;1;0;0;0;1;1098-0121;WOS:000311605000001;;;J;Grytsyuk, Sergiy;Peskov, Maxim V.;Schwingenschloegl, Udo;First-principles modeling of interfaces between solids with large;lattice mismatch: The prototypical CoO(111)/Ni(111) interface;PHYSICAL REVIEW B;86;17;174115;10.1103/PhysRevB.86.174115;NOV 28 2012;2012;In this work we investigate the CoO(111)/Ni(111) interface by;first-principles calculations, focusing on its structure and stability.;To satisfy the approximate 5:6 ratio of the CoO and Ni lattice;constants, we construct a supercell with 5 x 5 Co (O) and 6 x 6 Ni atoms;per layer in the bulk regions. For the interface Ni layer and the;adjacent Ni layer we consider different configurations and study the;binding energy. We show for an ideal CoO interface terminated by 5 x 5 O;atoms that the structure is more stable if there are 5 x 5 Ni atoms next;to it instead of 6 x 6 as in the bulk. In addition, we observe that a;transition layer with 31 or 33 Ni atoms located between the interface 5;x 5 Ni and bulk 6 x 6 Ni layers (which partially reflects the structures;of both these layers) enhances the stability of the CoO/Ni interface.;The electronic and magnetic modifications induced by the interface;formation are discussed.;3;0;0;0;3;1098-0121;WOS:000311604400001;;;J;Luekermann, D.;Sologub, S.;Pfnuer, H.;Klein, C.;Horn-von Hoegen, M.;Tegenkamp, C.;Scattering at magnetic and nonmagnetic impurities on surfaces with;strong spin-orbit coupling;PHYSICAL REVIEW B;86;19;195432;10.1103/PhysRevB.86.195432;NOV 28 2012;2012;Adsorption-induced reduction of surface-state conductivity in epitaxial;Bi(111) films, a prototype system with large Rashba-induced;surface-state splitting, by adsorbed atoms of Bi, Fe, and Co has been;investigated by macroscopic surface magnetotransport measurements at a;temperature of 10 K. A detailed analysis of magnetotransport, dc;transport, and Hall data reveals that the scattering efficiencies for Co;and Fe are larger by a factor of 2 than that for Bi. While for the;latter charge transfer and change of band filling near the Fermi level;are negligible, we find an increase of hole concentration upon Co and Fe;adsorption. These atoms act as acceptors and immobilize on average about;0.5 electrons per adsorbed atom. Besides the dominant classical;magnetoconductance signal the films show signatures of weak;antilocalization, reflecting the strong spin-orbit coupling in Bi(111);surface states. This behavior can be changed to weak localization by the;adsorption of high concentrations (0.1 monolayers) of magnetic;impurities (Fe, Co), similarly to results found on the topological;insulator Bi2Se3. Our results demonstrate that details of chemical bond;formation for impurities are crucial for local spin moments and;electronic scattering properties.;5;0;0;0;5;1098-0121;WOS:000311604900001;;;J;Molina-Sanchez, A.;Garcia-Cristobal, A.;Bester, G.;Semiempirical pseudopotential approach for nitride-based nanostructures;and ab initio based passivation of free surfaces;PHYSICAL REVIEW B;86;20;205430;10.1103/PhysRevB.86.205430;NOV 28 2012;2012;We present a semiempirical pseudopotential method based on screened;atomic pseudopotentials and derived from ab initio calculations. This;approach is motivated by the demand for pseudopotentials able to address;nanostructures, where ab initio methods are both too costly and;insufficiently accurate at the level of the local density approximation,;while mesoscopic effective-mass approaches are inapplicable due to the;small size of the structures along, at least, one dimension. In this;work, we improve the traditional pseudopotential method by a two-step;process: First, we invert a set of self-consistently determined screened;ab initio potentials in wurtzite GaN for a range of unit-cell volumes,;thus determining spherically symmetric and structurally averaged atomic;potentials. Second, we adjust the potentials to reproduce observed;excitation energies. We find that the adjustment represents a reasonably;small perturbation over the potential, so that the ensuing potential;still reproduces the original wave functions, while the excitation;energies are significantly improved. We furthermore deal with the;passivation of the dangling bonds of free surfaces which is relevant for;the study of nanowires and colloidal nanoparticles. We present a;methodology to derive passivant pseudopotentials from ab initio;calculations. We apply our pseudopotential approach to the exploration;of the confinement effects on the electronic structure of GaN nanowires.;Bester, Gabriel/I-4414-2012;Bester, Gabriel/0000-0003-2304-0817;1;0;0;0;1;1098-0121;WOS:000311605000005;;;J;Patel, Aavishkar A.;Dutta, Amit;Sudden quenching in the Kitaev honeycomb model: Study of defect and heat;generation;PHYSICAL REVIEW B;86;17;174306;10.1103/PhysRevB.86.174306;NOV 28 2012;2012;We study the behavior of the defect and heat densities under sudden;quenching near the quantum critical points in the two-dimensional Kitaev;honeycomb model both in the thermodynamic and nonthermodynamic limits.;We consider quenches starting from a quantum critical point into the;gapped as well as the gapless phases. We choose points on the lines of;anisotropic quantum critical points as well as different points of;intersection of these lines as the initial points from where the;quenching starts. We find that the defect and heat densities display the;expected power-law scalings along with logarithmic corrections to;scaling (or cusp singularities) in certain cases. In the vicinity of;some of the intersection points, the scaling behaviors change,;indicating an effective dimensional reduction; the scaling behavior near;these points depends on the number of critical lines crossed in the;process of quenching. All the analytical predictions are also verified;by numerical integration.;1;0;0;0;1;1098-0121;WOS:000311604400002;;;J;Raith, Martin;Stano, Peter;Fabian, Jaroslav;Theory of spin relaxation in two-electron laterally coupled Si/SiGe;quantum dots;PHYSICAL REVIEW B;86;20;205321;10.1103/PhysRevB.86.205321;NOV 28 2012;2012;Highly accurate numerical results of phonon-induced two-electron spin;relaxation in silicon double quantum dots are presented. The relaxation,;enabled by spin-orbit coupling and the nuclei of Si-29 (natural or;purified abundance), is investigated for experimentally relevant;parameters, the interdot coupling, the magnetic field magnitude and;orientation, and the detuning. We calculate relaxation rates for zero;and finite temperatures (100 mK), concluding that our findings for zero;temperature remain qualitatively valid also for 100 mK. We confirm the;same anisotropic switch of the axis of prolonged spin lifetime with;varying detuning as recently predicted in GaAs. Conditions for possibly;hyperfine-dominated relaxation are much more stringent in Si than in;GaAs. For experimentally relevant regimes, the spin-orbit coupling,;although weak, is the dominant contribution, yielding anisotropic;relaxation rates of at least two orders of magnitude lower than in GaAs.;Raith, Martin/A-3357-2011; Stano, Peter/C-3016-2013; Fabian, Jaroslav/K-1700-2013;Fabian, Jaroslav/0000-0002-3009-4525;6;0;0;0;6;1098-0121;WOS:000311605000004;;;J;Romhanyi, Judit;Penc, Karlo;Multiboson spin-wave theory for Ba2CoGe2O7: A spin-3/2 easy-plane Neel;antiferromagnet with strong single-ion anisotropy;PHYSICAL REVIEW B;86;17;174428;10.1103/PhysRevB.86.174428;NOV 28 2012;2012;We consider the square-lattice antiferromagnetic Heisenberg Hamiltonian;extended with a single-ion axial anisotropy term as a minimal model for;the multiferroic Ba2CoGe2O7. Developing a multiboson spin-wave theory,;we investigate the dispersion of the spin excitations in this spin-3/2;system. As a consequence of a strong single-ion anisotropy, a stretching;(longitudinal) spin mode appears in the spectrum. The inelastic neutron;scattering spectra of Zheludev et al. [Phys. Rev. B 68, 024428 (2003)];are successfully reproduced by the low energy modes in the multiboson;spin-wave theory, and we anticipate the appearance of the spin;stretching modes at approximate to 4 meV that can be identified using;the calculated dynamical spin structure factors. We expect the;appearance of spin stretching modes for any S > 1/2 compound where the;single-ion anisotropy is significant.;Penc, Karlo/A-3092-2011;Penc, Karlo/0000-0002-2197-1370;5;1;0;0;5;1098-0121;WOS:000311604400004;;;J;Sarmadian, N.;Saniz, R.;Lamoen, D.;Partoens, B.;Influence of Al concentration on the optoelectronic properties of;Al-doped MgO;PHYSICAL REVIEW B;86;20;205129;10.1103/PhysRevB.86.205129;NOV 28 2012;2012;We use density functional theory within the local density approximation;to investigate the structural, electronic, and optical properties of;Al-doped MgO. The concentrations considered range from 6% to 56%. In the;latter case, we also compare the optical properties of the amorphous and;crystalline phases. We find that, overall, the electronic properties of;the crystalline phases change qualitatively little with Al;concentration. On the other hand, the changes in the electronic;structure in the amorphous phase are more important, most notably;because of deep impurity levels in the band gap that are absent in the;crystalline phase. This leads to observable effects in, e.g., the;optical absorption edge and in the refractive index. Thus, the latter;can be used to characterize the crystalline to amorphous transition with;Al doping level.;0;0;0;0;0;1098-0121;WOS:000311605000003;;;J;Smadici, S.;Nelson-Cheeseman, B. B.;Bhattacharya, A.;Abbamonte, P.;Interface ferromagnetism in a SrMnO3/LaMnO3 superlattice;PHYSICAL REVIEW B;86;17;174427;10.1103/PhysRevB.86.174427;NOV 28 2012;2012;Resonant soft x-ray absorption measurements at the O K edge on a;SrMnO3/LaMnO3 superlattice show a shoulder at the energy of doped holes,;which corresponds to the main peak of resonant scattering from the;modulation in the doped hole density. Scattering line shape at the Mn;L-3,L-2 edges has a strong variation below the ferromagnetic transition;temperature. This variation has a period equal to half the superlattice;superperiod and follows the development of the ferromagnetic moment,;pointing to a ferromagnetic phase developing at the interfaces. It;occurs at the resonant energies for Mn3+ and Mn4+ valences. A model for;these observations is presented, which includes a double-exchange;two-site orbital and the variation with temperature of the hopping;frequency t(ij) between the two sites.;Bhattacharya, Anand/G-1645-2011;Bhattacharya, Anand/0000-0002-6839-6860;1;0;0;0;1;1098-0121;WOS:000311604400003;;;J;Zanotto, Simone;Degl'Innocenti, Riccardo;Xu, Ji-Hua;Sorba, Lucia;Tredicucci, Alessandro;Biasiol, Giorgio;Ultrafast optical bleaching of intersubband cavity polaritons;PHYSICAL REVIEW B;86;20;201302;10.1103/PhysRevB.86.201302;NOV 28 2012;2012;We report on the transition from the strong to the weak light-matter;coupling regime between an intersubband excitation and a photonic;crystal resonance in a nanostructured semiconductor membrane. Such a;transition is induced by varying the intensity of an ultrafast light;pulse, which is employed for pumping and probing the system eigenmodes.;The phenomenon is interpreted in terms of the saturation of the;intersubband transition due to the large number of photoexcited;electrons in the quantum well, as confirmed by a thorough analysis;performed both in frequency and time domain.;Biasiol, Giorgio/C-5465-2009;Biasiol, Giorgio/0000-0001-7974-5459;5;0;0;0;5;1098-0121;WOS:000311605000002;;;J;Ciric, L.;Sienkiewicz, A.;Gaal, R.;Jacimovic, J.;Vaju, C.;Magrez, A.;Forro, L.;Defects and localization in chemically-derived graphene;PHYSICAL REVIEW B;86;19;195139;10.1103/PhysRevB.86.195139;NOV 27 2012;2012;We have performed electron spin resonance (ESR) measurements on a large;assembly of graphene oxide (GO) and reduced graphene oxide (RGO) flakes.;In GO samples the Curie tail is coming from 1.4 x 10(18) cm(-3) of;localized spins. Although reduction of GO was expected to reestablish;the pristine properties of graphene, no Pauli-like contribution was;detected and only a low concentration of 1.2 x 10(16) cm(-3) spin;carrying defects were measured. Our study, completed by resistivity;measurements, shows that the carrier transport in RGO samples is;dominated by hopping. The incomplete reduction of GO leaves behind a;large number of defects, presumably the majority of which are ESR;silent, causing the Anderson localization of the electronic states.;Slight doping with potassium indicates the appearance of a Pauli;contribution in the spin susceptibility.;Jacimovic, Jacim/C-2674-2013;2;0;0;0;2;1098-0121;WOS:000311537100001;;;J;Dietz, O.;Stoeckmann, H. -J.;Kuhl, U.;Izrailev, F. M.;Makarov, N. M.;Doppler, J.;Libisch, F.;Rotter, S.;Surface scattering and band gaps in rough waveguides and nanowires;PHYSICAL REVIEW B;86;20;201106;10.1103/PhysRevB.86.201106;NOV 27 2012;2012;The boundaries of waveguides and nanowires have drastic influence on;their coherent scattering properties. Designing the boundary profile is;thus a promising approach for transmission and band-gap engineering with;many applications. By performing an experimental study of microwave;transmission through rough waveguides we demonstrate that a recently;proposed surface scattering theory can be employed to predict the;measured transmission properties from the boundary profiles and vice;versa. A new key ingredient of this theory is a scattering mechanism;which depends on the squared gradient of the surface profiles. We;demonstrate the nontrivial effects of this scattering mechanism by;detailed mode-resolved microwave measurements and numerical simulations.;Dietz, Otto/E-9025-2011;4;0;0;0;4;1098-0121;WOS:000311537400001;;;J;Duong, Duc T.;Toney, Michael F.;Salleo, Alberto;
2:498:2 Molecular Weight Dependence of Exciton Diffusion in Poly(3-hexylthiophene)
DOI:10.1002/aenm.201300210 JN:ADVANCED ENERGY MATERIALS PY:2013 TC:10 AU: Masri, Zarifi;Ruseckas, Arvydas;Emelianova, Evguenia V.;Wang, Linjun;Bansal, Ashu K.;Matheson, Andrew;Lemke, Henrik T.;Nielsen, Martin M.;Ha Nguyen;Coulembier, Olivier;Dubois, Philippe;Beljonne, David;Samuel, Ifor D. W.;
2:498:3 2D Excitons as Primary Energy Carriers in Organic Crystals: The Case of Oligoacenes
DOI:10.1103/PhysRevLett.104.206405 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:12 AU: Emelianova, E. V.;Athanasopoulos, S.;Silbey, R. J.;Beljonne, D.;
2:499:1:1 Synthesis, characterization and third-order nonlinear optical studies of copper complexes containing 1,10-phenanthroline-5,6-dione and triphenylphosphine ligands
DOI:10.1016/j.synthmet.2010.12.006 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Rudresha, B. J.;Bhat, B. Ramachandra;Kumar, H. C. Sampath;Kumar, K. I. Shiva;Safakath, K.;Philip, Reji;
2:499:1:2 Synthesis, characterization, and nonlinear optical properties of donor-acceptor conjugated polymers and polymer/Ag nanocomposites
DOI:10.1007/s10853-012-6692-8 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:4 AU: Murali, M. G.;Dalimba, Udayakumar;Sridharan, Kishore;
2:499:1:3 Nonlinear Optical Studies on New Conjugated Poly{2,2(1)-(3,4-dialkoxythiophene-2,5-diyl) bis[5-(2-thienyl)-1,3,4-oxadiazole]}s
DOI:10.1002/app.30926 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:4 AU: Hegde, Pramod Kumar;Adhikari, A. Vasudeva;Manjunatha, M. G.;Sandeep, C. S. Suchand;Philip, Reji;
2:499:2:1 Investigation of third-order nonlinear optical properties of NNDC-doped PMMA thin films by Z-scan technique
DOI:10.1007/s00339-011-6628-1 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2011 TC:3 AU: Chen, Jingwei;Wang, Xinqiang;Ren, Quan;Patil, P. S.;Li, Tingbin;Yang, Hongliang;Zhang, Jingnan;Li, Guochao;Zhu, Luyi;
2:499:2:2 Third-order nonlinear optical properties in [(C4H9)(4)N](2)[Cu(C3S5)(2)]-doped PMMA thin film using Z-scan technique in picosecond pulse
DOI:10.1007/s00339-009-5521-7 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:5 AU: Fan, Heliang;Wang, Xinqiang;Ren, Quan;Li, Tingbin;Zhao, Xian;Sun, Jing;Zhang, Guanghui;Xu, Dong;Sun, Zhihua;Yu, Gang;
2:499:2:3 Third order nonlinear optical studies of 1-(4-chloro phenyl)-3-(4-dimethylarnino phenyl) prop-2-en-1-one
DOI:10.1016/j.jcrysgro.2012.12.169 JN:JOURNAL OF CRYSTAL GROWTH PY:2013 TC:3 AU: Janardhana, K.;Ravindrachary, V.;Kumar, P. C. Rajesh;Yogisha;Ismayil;
2:499:3:1 Crystal structure, Z-scan measurements and theoretical calculations of third-order nonlinear optical properties of tetrachloro(1,10-phenanthroline-N,N ')tin(IV)
DOI:10.1016/j.synthmet.2014.09.025 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Hu, Yali;Zhang, Jianping;Li, Zhen;Li, Tingbin;
2:499:3:2 Influence of metal ions on the structure and spectral properties of TCNQ salts with tris(phenanthroline) cations
DOI:10.1016/j.synthmet.2013.12.011 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Vasylets, G.;Starodub, V. A.;Potocnak, I.;Barszcz, B.;Graja, A.;Metz, H.;
2:500:1 Effect of K0.5Na0.5NbO3 Filling Particles on the Charge Carrier Trap Distribution of Polyimide Films
DOI:10.1002/app.39828 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Lin, Jiaqi;Xie, Zhibin;Yang, Wenlong;Zhang, Panpan;Liu, Ying;Lin, Hui;Li, Xiaokang;
2:500:2 Optical and Thermo Electrical Properties of ZnO Nano Particle Filled Polystyrene
DOI:10.1002/app.32422 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:14 AU: Gaur, Mulayam S.;Singh, Pramod Kumar;Chauhan, Ramvir S.;
2:500:3 Investigation of optical and thermally stimulated properties of SiO2 nanoparticles-filled polycarbonate
DOI:10.1002/app.37004 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Rathore, Bhupendra Singh;Gaur, Mulayam Singh;Singh, Kripa Shanker;
2:500:4 Study of traps in P3HT:PCBM based organic solar cells using stimulated current (FTSC) technique
DOI:10.1016/j.jnoncrysol.2012.01.021 JN:JOURNAL OF NON-CRYSTALLINE SOLIDS PY:2012 TC:6 AU: Yu, Peiqing;Migan-Dubois, Anne;Alvarez, Jose;Darga, Arouna;Vissac, Virginie;Mencaraglia, Denis;Zhou, Yunfei;Krueger, Michael;
2:500:5 Electric modulus and polarization studies on piezoelectric polyimides
DOI:10.1002/app.34702 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:5 AU: Gonzalo, Beatriz;Luis Vilas, Jose;San Sebastian, Maria;Breczewski, Tomasz;Angel Perez-Jubindo, Miguel;Rosario de la Fuente, Maria;Rodriguez, Matilde;Manuel Leon, Luis;
2:500:6 Study of trap structure of thermally polarized polyimide
DOI:10.1002/app.35679 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:1 AU: Gaur, M. S.;Ramlal;Tiwari, R. K.;
2:501:1 Temperature dependent optical properties of Mn doped (Pb, Sr)TiO3 ferroelectric films in absorption region: Electron-phonon interaction
DOI:10.1063/1.3516157 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:9 AU: Yang, J.;Gao, Y. Q.;Wu, J.;Huang, Z. M.;Meng, X. J.;Shen, M. R.;Sun, J. L.;Chu, J. H.;
2:501:2 Optical study of the effect of the impurity content on the ferroelectric properties of Er3+ doped SBN glass-ceramic samples
DOI:10.1063/1.3651476 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Haro-Gonzalez, P.;Martin, L. L.;Perez-Rodriguez, C.;Martin, I. R.;Mujica, A.;
2:501:3 Tunable optical and nano-scale electrical properties of WO3 and Ag-WO3 nanocomposite thin films
DOI:10.1007/s10853-011-5269-2 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:4 AU: Gyoergy, E.;Perez del Pino, A.;
2:501:4 Optical features of A(2)BX(4) ferroic nanocomposites with the incommensurate phase
DOI:10.1016/j.matlet.2012.09.116 JN:MATERIALS LETTERS PY:2013 TC:2 AU: Lakshminarayana, G.;Plucinski, K. J.;
2:501:5 Analysis of the optical properties of Er3+-doped strontium barium niobate nanocrystals using time-resolved laser spectroscopy
DOI:10.1007/s00339-010-5716-y JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2010 TC:1 AU: Kowalska, D.;Haro-Gonzalez, P.;Martin, I. R.;Caceres, J. M.;
2:501:6 Temperature dependence of the optical properties of Ba0.75Sr0.25TiO3 thin films
DOI:10.1016/j.tsf.2013.11.147 JN:THIN SOLID FILMS PY:2014 TC:0 AU: Zelezny, V.;Chvostova, D.;Pajasova, L.;Jelinek, M.;Kocourek, T.;Danis, S.;Valvoda, V.;
2:502:1 Correlation of energy band alignment and turn-on voltage in organic light emitting diodes
DOI:10.1063/1.3282682 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Wu, I-Wen;Chen, Yu-Hung;Wang, Po-Sheng;Wang, Chao-Gong;Hsu, Shu-Han;Wu, Chih-I;
2:502:2 The investigation of the diffusion length of cathode materials in organic light emitting devices through impedance characteristics
DOI:10.1063/1.3700805 JN:APPLIED PHYSICS LETTERS PY:2012 TC:4 AU: Wu, I-Wen;Chuang, Chia-Lin;Wang, Po-Sheng;Tseng, Wei-Hsuan;Wu, Chih-I;
2:502:3 Role of n-dopant based electron injection layer in n-doped organic light-emitting diodes and its simple alternative
DOI:10.1063/1.3674960 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Park, Young Wook;Choi, Jin Hwan;Park, Tae Hyun;Song, Eun Ho;Kim, Hakkoo;Lee, Hyun Jun;Shin, Se Joong;Ju, Byeong-Kwon;Song, Won Jun;
2:502:4 Photoelectron spectroscopy investigation of thin metal films employed as top contacts in transparent organic solar cells
DOI:10.1016/j.tsf.2010.10.051 JN:THIN SOLID FILMS PY:2011 TC:6 AU: Olthof, S.;Meiss, J.;Luessem, B.;Riede, M. K.;Leo, K.;
2:503:1 Aryl substituted 9-(2,2-diphenylvinyl)carbazoles as efficient materials for hole transporting layers of OLEDs
DOI:10.1016/j.synthmet.2011.09.032 JN:SYNTHETIC METALS PY:2011 TC:4 AU: Griniene, R.;Grazulevicius, J. V.;Tseng, K. Y.;Wang, W. B.;Jou, J. H.;Grigalevicius, S.;
2:503:2 Syntheses and characterization of 6,6 '-diaryl-9,9 '-dialkyl[3,3 ']bicarbazoles as materials for electroluminescent devices
DOI:10.1016/j.optmat.2013.05.022 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Rasymaite, D.;Griniene, R.;Grazulevicius, J. V.;Liu, L.;Zhang, B.;Xie, Z.;Grigalevicius, S.;
2:503:3 3-Aryl substituted 9-alkylcarbazoles as tailored building blocks for hole transporting materials of OLEDs
DOI:10.1016/j.synthmet.2012.04.033 JN:SYNTHETIC METALS PY:2012 TC:6 AU: Krucaite, G.;Griniene, R.;Mazetyte, D.;Puckyte, G.;Grazulevicius, J. V.;Hsieh, Y. C.;Chen, Y. L.;Jou, J. H.;Grigalevicius, S.;
2:503:4 Twin derivatives containing two 9-alkylcarbazol-3-yl fragments as new electro-active materials for organic light-emitting diodes
DOI:10.1016/j.optmat.2013.10.003 JN:OPTICAL MATERIALS PY:2013 TC:0 AU: Krucaite, G.;Griniene, R.;Tomkeviciene, A.;Grazulevicius, J. V.;Liu, L.;Zhang, B.;Xie, Z.;Grigalevicius, S.;
2:503:5 Twin derivatives of 3-arylcarbazoles as efficient hole transporting amorphous materials
DOI:10.1016/j.optmat.2012.10.031 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Griniene, R.;Krucaite, G.;Grazulevicius, J. V.;Liu, L.;Xie, Z. Y.;Zhang, B.;Grigalevicius, S.;
2:503:6 Synthesis and optoelectronic properties of thieno[2,3-b]thiophene based bis 1,3,4-oxadiazole derivatives as blue fluorescent material for use in organic light emitting diodes
DOI:10.1016/j.optmat.2014.07.015 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: Deshapande, Narahari;Belavagi, Ningaraddi S.;Panchamukhi, Shridhar I.;Rabinal, Mohammed Hussain;Khazi, Imtiyaz Ahmed M.;
2:504:1 Centimeter-Sized Dried Foam Films of Graphene: Preparation, Mechanical and Electronic Properties
DOI:10.1002/adma.201203222 JN:ADVANCED MATERIALS PY:2012 TC:16 AU: Chen, Wufeng;Yan, Lifeng;
2:504:2 Thermal and Mechanical Properties of Dried Foam Films and Their Incorporation of Water-Soluble Compounds
DOI:10.1021/la100523b JN:LANGMUIR PY:2010 TC:3 AU: Jin, Jian;Bu, Weifeng;Ichinose, Izumi;
2:504:3 Newton black films as wetting systems
DOI:10.1103/PhysRevB.85.085402 JN:PHYSICAL REVIEW B PY:2012 TC:2 AU: Tarazona, Pedro;Martinez, Hector;Chacon, Enrique;Bresme, Fernando;
2:505:1 Microwave annealing of polymer solar cells with various transparent anode materials
DOI:10.1063/1.3491213 JN:APPLIED PHYSICS LETTERS PY:2010 TC:11 AU: Fluegge, H.;Schmidt, H.;Riedl, T.;Schmale, S.;Rabe, T.;Fahlbusch, J.;Danilov, M.;Spieker, H.;Schoebel, J.;Kowalsky, W.;
2:505:2 Effects of Annealing on the Mechanical Properties of Pentacene and Tris(8-hydroxyquinoline) Aluminum Films
DOI:10.1080/15421406.2014.935916 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Kanari, Moriyasu;Kunimoto, Makoto;Ihara, Ikuo;Wakamatsu, Takashi;
2:505:3 A study of the effects of drying and sintering on the performance of organic photovoltaic devices
DOI:10.1016/j.solmat.2014.02.030 JN:SOLAR ENERGY MATERIALS AND SOLAR CELLS PY:2014 TC:0 AU: Yeom, Joong Hyun;Kim, Manho;Rhee, Sehun;Yu, Jae-Woong;
2:505:4 Critical bending radius and electrical behaviors of organic field effect transistors under elastoplastic bending strain
DOI:10.1016/j.tsf.2009.08.047 JN:THIN SOLID FILMS PY:2010 TC:5 AU: Kanari, Moriyasu;Kunimoto, Makoto;Wakamatsu, Takashi;Ihara, Ikuo;
2:506:1 Looking Back: Recap of 2014 at Chemistry of Materials
DOI:10.1021/cm504393f JN:CHEMISTRY OF MATERIALS PY:2014 TC:0 AU: Buriak, Jillian M.;
2:506:2 Nanomaterials Pioneers: Nikoobakht and El-Sayed First of a Series Highlighting Members of the 1k Club of Chemistry of Materials
DOI:10.1021/cm502841d JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Toro, Carlos;Buriak, Jillian M.;
2:506:3 Father of Mesoporous Materials: Galen D. Stucky
DOI:10.1021/cm503557g JN:CHEMISTRY OF MATERIALS PY:2014 TC:3 AU: Toro, Carlos;Buriak, Jillian M.;
2:506:4 Organic Photovoltaics: An Early Innovator
DOI:10.1021/cm503182r JN:CHEMISTRY OF MATERIALS PY:2014 TC:2 AU: Toro, Carlos;Buriak, Jillian M.;
2:506:5 Template Synthesis Approach to Nanomaterials: Charles Martin
DOI:10.1021/cm5030662 JN:CHEMISTRY OF MATERIALS PY:2014 TC:1 AU: Toro, Carlos;Buriak, Jillian M.;
2:507:1 Interplay of Processing, Morphological Order, and Charge-Carrier Mobility in Polythiophene Thin Films Deposited by Different Methods: Comparison of Spin-Cast, Drop-Cast, and Inkjet-Printed Films
DOI:10.1021/la1013494 JN:LANGMUIR PY:2010 TC:21 AU: Wong, Loke-Yuen;Png, Rui-Qi;Silva, F. B. Shanjeera;Chua, Lay-Lay;Repaka, D. V. Maheswar;Shi-Chen;Gao, Xing-Yu;Ke, Lin;Chua, Soo-Jin;Wee, Andrew T. S.;Ho, Peter K. H.;
2:507:2 Determination of the interface delta-hole density in a blue-emitting organic semiconductor diode by electromodulated absorption spectroscopy
DOI:10.1063/1.3467469 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Zhou, Mi;Png, Rui-Qi;Sivaramakrishnan, Sankaran;Chia, Perq-Jon;Yong, Chaw-Keong;Chua, Lay-Lay;Ho, Peter K. H.;
2:507:3 Polarization effects on energy-level alignment at the interfaces of polymer organic semiconductor films
DOI:10.1063/1.4734502 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Zhao, Li-Hong;Png, Rui-Qi;Chiam, Cavan C. H.;Guo, Han;Zhuo, Jing-Mei;Chua, Lay-Lay;Wee, Andrew T. S.;Ho, Peter K. H.;
2:507:4 Effective work functions for the evaporated metal/organic semiconductor contacts from in-situ diode flatband potential measurements
DOI:10.1063/1.4728121 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Zhou, Mi;Png, Rui-Qi;Khong, Siong-Hee;Sivaramakrishnan, Sankaran;Zhao, Li-Hong;Chua, Lay-Lay;Friend, Richard H.;Ho, Peter K. H.;
2:508:1 Charge carriers and excitons transport in an organic solar cell-theory and simulation
DOI:10.1007/s13391-012-2021-2 JN:ELECTRONIC MATERIALS LETTERS PY:2012 TC:3 AU: Shahini, Ali;Abbasian, Karim;
2:508:2 PEDOT:PSS-free organic photovoltaic cells using tungsten oxides as buffer layer on anodes
DOI:10.1007/s13391-013-0003-7 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:11 AU: Oh, Il Soo;Kim, Gyu Min;Han, Seong Hun;Oh, Se Young;
2:508:3 Dependence of light-emitting and photovoltaic properties of dual-function organic diodes on carrier-transporting layers
DOI:10.1007/s13391-013-3182-3 JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:2 AU: Lee, Ho-Nyeon;Choi, Mun Soo;
2:508:4 Design optimization of a sublimation purifier via computer simulation
DOI:10.1007/s13391-013-3187-y JN:ELECTRONIC MATERIALS LETTERS PY:2013 TC:0 AU: Kim, Minseok;Jun, Sunghoon;Kim, Sukhan;Lee, Moonyong;Lee, Eung Ki;
2:509:1 Enhanced photoefficiency in positive-tone direct patterning of metal complexes for forming patterned indium tin oxide films
DOI:10.1016/j.tsf.2012.05.008 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Cordonier, Christopher E. J.;Nakamura, Akimasa;Shimada, Kazuhiko;Fujishima, Akira;
2:509:2 Photoacid Generating Ligands for Development of Positive-Tone Directly Photopatternable Metal Complexes
DOI:10.1021/la104259f JN:LANGMUIR PY:2011 TC:8 AU: Cordonier, Christopher E. J.;Nakamura, Akimasa;Shimada, Kazuhiko;Fujishima, Akira;
2:509:3 A solution process for preparation of low resistance layered indium tin oxide films
DOI:10.1016/j.tsf.2013.03.007 JN:THIN SOLID FILMS PY:2013 TC:2 AU: Cordonier, Christopher E. J.;Nakamura, Akimasa;Yoshioka, Daisuke;Shimada, Kazuhiko;Fujishima, Akira;
2:509:4 Metallic Film Formation Using Direct Micropatterning with Photoreactive Metal Complexes
DOI:10.1021/la302437t JN:LANGMUIR PY:2012 TC:4 AU: Cordonier, Christopher E. J.;Nakamura, Akimasa;Shimada, Kazuhiko;Fujishima, Akira;
2:510:1 Room-temperature near infrared emission and green up-conversion in PbMoO4:Er3+ crystals
DOI:10.1016/j.optmat.2010.02.028 JN:OPTICAL MATERIALS PY:2010 TC:4 AU: Aghamalyan, N. R.;Demirkhanyan, G. G.;Hovsepyan, R. K.;Kostanyan, R. B.;Zargaryan, D. G.;
2:510:2 Upconversion for enlarging solar spectrum response in near-stoichiometric and congruent Er:LiNbO3 crystals
DOI:10.1016/j.optmat.2013.12.041 JN:OPTICAL MATERIALS PY:2014 TC:0 AU: Qian, Yannan;Wang, Biao;Wang, Rui;Gao, Senpei;Niu, Yingying;
2:510:3 Study of RE-impurity effects on exciton luminescence of PWO4 single crystals grown by Czochralski method
DOI:10.1016/j.optmat.2013.05.019 JN:OPTICAL MATERIALS PY:2013 TC:6 AU: Chukova, O.;Nedilko, S.;
2:510:4 Luminescence spectroscopy and electronic structure of the PbMoO4 and Pb2MoO5 single crystals
DOI:10.1016/j.optmat.2014.03.019 JN:OPTICAL MATERIALS PY:2014 TC:5 AU: Nedilko, S.;Chornii, V.;Hizhnyi, Yu.;Trubitsyn, M.;Volnyanskaya, I.;
2:510:5 Effect of annealing on luminescence properties of the undoped and rare earth doped lead tungstate crystals
DOI:10.1016/j.optmat.2012.04.013 JN:OPTICAL MATERIALS PY:2012 TC:4 AU: Chukova, O.;Nedilko, S.;Scherbatskyi, V.;
2:510:6 Spatial distribution of green UC emission in PbMoO4:Er3+ crystals: Effect of relative movements of PL excitation and detection positions
DOI:10.1016/j.optmat.2013.05.016 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Aghamalyan, Natella R.;Demirkhanyan, Gagik G.;Hovsepyan, Ruben K.;Kostanyan, Radik B.;Zargaryan, David G.;
2:511:1 Non-doped red-green-blue electroluminescent devices based on fluorenyl and phenanthryl phenylamino derivatives
DOI:10.1016/j.tsf.2014.04.097 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Zhang, Wenguan;He, Zhiqun;Wang, Yongsheng;Zhao, Shengmin;
2:511:2 Efficient electrophosphorescence based on 2-(9,9-diethylfluoren-2-yl)-5-trifluoromethylpyridine iridium complexes
DOI:10.1016/j.synthmet.2009.11.004 JN:SYNTHETIC METALS PY:2010 TC:11 AU: Zhang, Wenguan;Wang, Yongsheng;He, Zhiqun;Mu, Linping;Zou, Ye;Liang, Chunjun;Zhao, Shengmin;
2:511:3 Multifunctional electroluminescent material based on dimesitylboron and alpha-naphthylamino fluorene bridge
DOI:10.1016/j.synthmet.2011.08.042 JN:SYNTHETIC METALS PY:2011 TC:8 AU: Zhang, Wenguan;He, Zhiqun;Wang, Yongsheng;Zhao, Shengmin;
2:511:4 Non-doped red or blue electroluminescent materials based on fluorenyl-triarylamines with fumaronitrile or fluorene bridge
DOI:10.1016/j.tsf.2011.12.032 JN:THIN SOLID FILMS PY:2012 TC:4 AU: Zhang, Wenguan;He, Zhiqun;Wang, Yongsheng;Pang, Hui;Zhao, Shengmin;
2:512:1 Synthesis of Well-Defined Head-to-Tail-Type Oligothiophenes by Regioselective Deprotonation of 3-Substituted Thiophenes and Nickel-Catalyzed Cross-Coupling Reaction
DOI:10.1021/ja205953g JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:41 AU: Tanaka, Shota;Tamba, Shunsuke;Tanaka, Daiki;Sugie, Atsushi;Mori, Atsunori;
2:512:2 Chain-Growth Polymerization of 2-Chlorothiophenes Promoted by Lewis Acids
DOI:10.1021/ja308498h JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:9 AU: Bonillo, Baltasar;Swager, Timothy M.;
2:512:3 Murahashi Coupling Polymerization: Nickel(II)-N-Heterocyclic Carbene Complex-Catalyzed Polycondensation of Organolithium Species of (Hetero)arenes
DOI:10.1021/ja406374t JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:9 AU: Fuji, Kanta;Tamba, Shunsuke;Shono, Keisuke;Sugie, Atsushi;Mori, Atsunori;
2:512:4 Transition-Metal-Free Controlled Polymerization of 2-Perfluoroaryl-5-trimethylsilylthiophenes
DOI:10.1021/ja505282z JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:1 AU: Sanji, Takanobu;Iyoda, Tomokazu;
2:512:5 Tuning of electrochromic properties by copolymerization of monoalkoxythiophenes and dialkoxythiophenes
DOI:10.1002/app.35296 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Tu, Shijian;Wang, Yuechuan;Lan, Jianwu;Zheng, Qingkang;Wei, Jian;Chen, Sheng;
2:513:1 Synthesis and properties of a triphenylene-butadiynylene macrocycle
DOI:10.1039/c0jm02150d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:12 AU: Wettach, Henning;Hoeger, Sigurd;Chaudhuri, Debangshu;Lupton, John. M.;Liu, Feng;Lupton, Elizabeth M.;Tretiak, Sergei;Wang, Guojie;Li, Min;De Feyter, Steven;Fischer, Steffen;Foerster, Stephan;
2:513:2 Deep blue organic light-emitting diodes based on triphenylenes
DOI:10.1016/j.synthmet.2010.01.003 JN:SYNTHETIC METALS PY:2010 TC:22 AU: Wettach, Henning;Jester, Stefan S.;Colsmann, Alexander;Lemmer, Uli;Rehmann, Nina;Meerholz, Klaus;Hoeger, Sigurd;
2:513:3 Effect of Solvent on Surface Wettability of Electrospun Polyphosphazene Nanofibers
DOI:10.1002/app.30481 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:14 AU: Lin, Yi-Jun;Cai, Qing;Li, Qi-Fang;Xue, Li-Wei;Jin, Ri-Guang;Yang, Xiao-Ping;
2:513:4 Synthesis and characterization of new electroluminescent poly(p-phenylene) derivative
DOI:10.1016/j.synthmet.2011.03.031 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Chemli, Mejed;Said, Ayoub Haj;Jaballah, Nejmeddine;Fave, Jean-Louis;Majdoub, Mustapha;
2:513:5 Blue emitting amino-DPQ with PS and PMMA phosphors for organic light emitting diode
DOI:10.1016/j.synthmet.2010.12.016 JN:SYNTHETIC METALS PY:2011 TC:3 AU: Raut, S. B.;Dhoble, S. J.;Atram, R. G.;
2:514:1 Effect of charge-transfer complex on the energy level alignment between graphene and organic molecules
DOI:10.1063/1.4709428 JN:APPLIED PHYSICS LETTERS PY:2012 TC:1 AU: Bae, Giyeol;Jung, Hyun;Park, Noejung;Park, Jinwoo;Hong, Suklyun;Park, Wanjun;
2:514:2 Fine-Tuning the Electrostatic Properties of an Alkali-Linked Organic Adlayer on a Metal Substrate
DOI:10.1021/nn403274s JN:ACS NANO PY:2013 TC:1 AU: Floris, Andrea;Comisso, Alessio;De Vita, Alessandro;
2:514:3 Tuning the electron injection barrier between Co and C-60 using Alq(3) buffer layer
DOI:10.1063/1.3514553 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:5 AU: Wang, Yu-Zhan;Qi, Dong-Chen;Chen, Shi;Mao, Hong-Ying;Wee, Andrew T. S.;Gao, Xing-Yu;
2:515:1 Effects of molarity and solvents on the optical properties of the solutions of tris[4-(5-dicyanomethylidenemethyl-2-thienyl)phenyl]amine (TDCV-TPA) and structural properties of its film
DOI:10.1016/j.optmat.2013.10.005 JN:OPTICAL MATERIALS PY:2013 TC:5 AU: Gunduz, Bayram;
2:515:2 Electrical conduction and photovoltaic effects of TPA-derivative solar cells
DOI:10.1016/j.tsf.2011.01.163 JN:THIN SOLID FILMS PY:2011 TC:7 AU: Sulaiman, Khaulah;Fakir, Muhamad Saipul;
2:515:3 Effect of the Preparation Procedure on the Morphology of Thin TiO2 Films and Their Device Performance in Small-Molecule Bilayer Hybrid Solar Cells
DOI:10.1021/am301604x JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:6 AU: Unger, Eva L.;Spadavecchia, Francesca;Nonomura, Kazuteru;Palmgren, Pal;Cappelletti, Giuseppe;Hagfeldtt, Anders;Johansson, Erik M. J.;Boschloo, Gerrit;
2:515:4 Synthesis and properties of a new [60] fullerene-donor system containing dicyanovinyl groups
DOI:10.1016/j.matlet.2010.07.032 JN:MATERIALS LETTERS PY:2010 TC:4 AU: Zhang, Min;Wu, Zhanghua;Wang, Quan;Song, Qijun;Ding, Yuqiang;
2:515:5 Schiff base polymer based on triphenylamine moieties in the main chain. Characterization and studies in solar cells
DOI:10.1016/j.tsf.2014.04.071 JN:THIN SOLID FILMS PY:2014 TC:3 AU: Sanchez, C. O.;Bernede, J. C.;Cattin, L.;Makha, M.;Gatica, N.;
2:516:1 Relativistic effects in a phosphorescent Ir(III) complex
DOI:10.1103/PhysRevB.83.041105 JN:PHYSICAL REVIEW B PY:2011 TC:19 AU: Smith, A. R. G.;Riley, M. J.;Lo, S. -C.;Burn, P. L.;Gentle, I. R.;Powell, B. J.;
2:516:2 The effect of CN-substitution on the electronic and photophysical properties of bis(carbene) Ir(III) complexes containing 2-(1H-pyrazol-5-yl)pyridinato ancillary ligand: A theoretical perspective
DOI:10.1016/j.synthmet.2014.05.007 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Liu, Yuqi;Sun, Xiaobo;Wang, Ying;Wu, Zhijian;
2:516:3 DFT/TDDFT investigation on the electronic structures and photophysical properties of phosphorescent Ir(III) complexes with conjugated/non-conjugated carbene ligands
DOI:10.1039/c3tc30206g JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:8 AU: Liu, Yuqi;Sun, Xiaobo;Gahungu, Godefroid;Qu, Xiaochun;Wang, Ying;Wu, Zhijian;
2:516:4 Models of organometallic complexes for optoelectronic applications
DOI:10.1039/c0jm01786h JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:16 AU: Jacko, A. C.;McKenzie, Ross H.;Powell, B. J.;
2:517:1 The Relation Between Molecular Packing or Morphology and Chemical Structure or Processing Conditions: the Effect on Electronic Properties
DOI:10.1002/adfm.201303571 JN:ADVANCED FUNCTIONAL MATERIALS PY:2014 TC:3 AU: Kumar, Pramod;Shivananda, Kammasandra Nanajunda;Zajaczkowski, Wojciech;Pisula, Wojciech;Eichen, Yoav;Tessler, Nir;
2:517:2 Harnessing "Click"-Type Chemistry for the Preparation of Novel Electronic Materials
DOI:10.1002/adfm.201001893 JN:ADVANCED FUNCTIONAL MATERIALS PY:2011 TC:7 AU: Firstenberg, Michal;Shivananda, Kammasandra Nanjunda;Cohen, Irit;Solomeshch, Olga;Medvedev, Vladislav;Tessler, Nir;Eichen, Yoav;
2:517:3 Sensing of Alkylating Agents Using Organic Field-Effect Transistors
DOI:10.1002/adfm.200901598 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:12 AU: Gannot, Yair;Hertzog-Ronen, Carmit;Tessler, Nir;Eichen, Yoav;
2:517:4 Sequence-Independent Synthesis of pi-conjugated Arylenevinylene Oligomers using Bifunctional Thiophene Monomers
DOI:10.1002/adfm.201101897 JN:ADVANCED FUNCTIONAL MATERIALS PY:2012 TC:4 AU: Shivananda, Kammasandra Nanjunda;Cohen, Irit;Borzin, Elena;Gerchikov, Yulia;Firstenberg, Michal;Solomeshch, Olga;Tessler, Nir;Eichen, Yoav;
2:518:1 Enhancement of optical gain and amplified spontaneous emission due to waveguide geometry in the conjugated polymer poly[2-methoxy-5-(2 '-ethylhexyloxy)-p-phenylene vinylene]
DOI:10.1063/1.4793422 JN:APPLIED PHYSICS LETTERS PY:2013 TC:4 AU: Lampert, Zach E.;Papanikolas, John M.;Reynolds, C. Lewis, Jr.;
2:518:2 Ultracompact Silicon/Polymer Laser with an Absorption-Insensitive Nanophotonic Resonator
DOI:10.1021/nl102149y JN:NANO LETTERS PY:2010 TC:12 AU: Stoeferle, Thilo;Moll, Nikolaj;Wahlbrink, Thorsten;Bolten, Jens;Mollenhauer, Thomas;Scherf, Ullrich;Mahrt, Rainer F.;
2:518:3 Improvement of amplified spontaneous emission performance of conjugated polymer waveguides with a low loss cladding
DOI:10.1063/1.4758927 JN:APPLIED PHYSICS LETTERS PY:2012 TC:5 AU: Zhang, Bo;Hou, Yanbing;Lou, Zhidong;Teng, Feng;Liu, Xiaojun;Meng, Lingchuan;Shen, Jingling;Wang, Yongsheng;
2:518:4 Morphology and chain aggregation dependence of optical gain in thermally annealed films of the conjugated polymer poly[2-methoxy-5-(2 '-ethylhexyloxy)-p-phenylene vinylene]
DOI:10.1063/1.4811532 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:7 AU: Lampert, Zach E.;Lappi, Simon E.;Papanikolas, John M.;Reynolds, C. Lewis, Jr.;Aboelfotoh, M. Osama;
2:518:5 Electric field-modulated amplified spontaneous emission in waveguides based on poly [2-methoxy-5-(2 '-ethylhexyloxy)-1, 4-phenylene vinylene]
DOI:10.1063/1.3358117 JN:APPLIED PHYSICS LETTERS PY:2010 TC:7 AU: Zhang, Bo;Hou, Yanbing;Teng, Feng;Lou, Zhidong;Liu, Xiaojun;Wang, Yongsheng;
2:519:1 Enhanced optical limiting effects in a double-decker bis(phthalocyaninato) rare earth complex using radially polarized beams
DOI:10.1063/1.4901007 JN:APPLIED PHYSICS LETTERS PY:2014 TC:1 AU: Wu, Jia-Lu;Gu, Bing;Sheng, Ning;Liu, Dahui;Cui, Yiping;
2:519:2 Entangling Different Degrees of Freedom by Quadrature Squeezing Cylindrically Polarized Modes
DOI:10.1103/PhysRevLett.106.060502 JN:PHYSICAL REVIEW LETTERS PY:2011 TC:24 AU: Gabriel, C.;Aiello, A.;Zhong, W.;Euser, T. G.;Joly, N. Y.;Banzer, P.;Foertsch, M.;Elser, D.;Andersen, U. L.;Marquardt, Ch.;Russell, P. St. J.;Leuchs, G.;
2:519:3 Remote Preparation of Single-Photon "Hybrid'' Entangled and Vector-Polarization States
DOI:10.1103/PhysRevLett.105.030407 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:47 AU: Barreiro, Julio T.;Wei, Tzu-Chieh;Kwiat, Paul G.;
2:519:4 Generation of cylindrically polarized vector vortex beams with digital micromirror device
DOI:10.1063/1.4901574 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:4 AU: Gong, Lei;Ren, Yuxuan;Liu, Weiwei;Wang, Meng;Zhong, Mincheng;Wang, Ziqiang;Li, Yinmei;
2:520:1 Photophysical and electroluminescent properties of a Series of Monochromatic red-emitting europium-complexed nonconjugated copolymers based on diphenylphosphine oxide modified polyvinylcarbazole
DOI:10.1016/j.polymer.2010.12.016 JN:POLYMER PY:2011 TC:21 AU: Xu, Hui;Zhu, Rui;Zhao, Ping;Xie, Ling-Hai;Huang, Wei;
2:520:2 Novel near-infrared luminescent linear copolymer based on tris(8-hydroxyquinoline)erbium
DOI:10.1016/j.synthmet.2012.01.009 JN:SYNTHETIC METALS PY:2012 TC:7 AU: Luo, Jianxin;Zhang, Chunyan;Yang, Chaolong;Lu, Mangeng;
2:520:3 Novel polymeric light-emitting devices based on bipolar copolymers containing quinoline aluminum moieties and N-vinylcarbazole segments
DOI:10.1016/j.synthmet.2011.05.029 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Luo, Jian-xin;Yang, Chao-long;Zhou, De-wen;Liang, Li-yan;Lu, Man-geng;
2:520:4 Synthesis and photoluminescence properties of novel copolymers containing salenAlQ-complex moieties and N-vinylcarbazole segments
DOI:10.1016/j.synthmet.2013.10.014 JN:SYNTHETIC METALS PY:2013 TC:0 AU: Luo, Jianxin;Zhang, Chunyan;Tang, Xinde;Wang, Wenge;Hu, Hanxiang;Hu, Bonian;
2:520:5 Erbium (Er3+) containing perfluorosulfonic polymer film with high photoluminescence quantum yield
DOI:10.1016/j.matlet.2010.04.030 JN:MATERIALS LETTERS PY:2010 TC:2 AU: Song, Li-Mei;Zhen, Zhen;Liu, Xin-Hou;
2:520:6 Photophysical properties of a fluorene-bipyridine copolymer and its complexes with europium
DOI:10.1016/j.synthmet.2011.11.005 JN:SYNTHETIC METALS PY:2012 TC:10 AU: Turchetti, D. A.;Rodrigues, P. C.;Berlim, L. S.;Zanlorenzi, C.;Faria, G. C.;Atvars, T. D. Z.;Schreiner, W. H.;Akcelrud, L. C.;
2:521:1 Electronic structure and optical properties of some anthocyanins extracted from grapes
DOI:10.1016/j.optmat.2012.03.020 JN:OPTICAL MATERIALS PY:2012 TC:8 AU: Iosub, Ion;Kajzar, Francois;Makowska-Janusik, Malgorzata;Meghea, Aurelia;Tane, Alexandrina;Rau, Ileana;
2:521:2 Encapsulation of fluorescence vegetable extracts within a templated sol-gel matrix
DOI:10.1016/j.optmat.2009.09.001 JN:OPTICAL MATERIALS PY:2010 TC:6 AU: Lacatusu, Ioana;Badea, Nicoleta;Nita, Rodica;Murariu, Alina;Miculescu, Florin;Iosub, Ion;Meghea, Aurelia;
2:521:3 Fluorescence, spectroscopic and NLO properties of green tea extract in deoxyribonucleic acid
DOI:10.1016/j.optmat.2013.04.016 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Manea, Ana-Maria;Rau, Ileana;Kajzar, Francois;Meghea, Aurelia;
2:521:4 Silica Polymeric Networks Templated with D-Fructose - as Host Matrices for Natural Extracts Immobilization
DOI:10.1080/15421401003726774 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:0 AU: Lacatusu, Ioana;Badea, Nicoleta;Bojin, Dionezie;Iosub, Ion;Meghea, Aurelia;
2:521:5 Spectro-Electrochemical Properties ofPelargonidin-3-O-Glucoside
DOI:10.1080/15421406.2014.968077 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Iosub, Ion;Kajzar, Francois;Meghea, Aurelia;Mircea, Maria-Luiza;Geana, Irina;Rau, Ileana;
2:521:6 A method for determination of real and imaginary parts of third-order NLO susceptibility in solid solutions
DOI:10.1016/j.optmat.2012.12.027 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Manea, Ana-Maria;Kajzar, Francois;Rau, Ileana;
2:522:1 Low-temperature thermal conductivity of bulk and film-like rubrene single crystals
DOI:10.1103/PhysRevB.83.113305 JN:PHYSICAL REVIEW B PY:2011 TC:5 AU: Okada, Y.;Uno, M.;Nakazawa, Y.;Sasai, K.;Matsukawa, K.;Yoshimura, M.;Kitaoka, Y.;Mori, Y.;Takeya, J.;
2:522:2 Thermal diffusivities of functionalized pentacene semiconductors
DOI:10.1063/1.4894094 JN:APPLIED PHYSICS LETTERS PY:2014 TC:0 AU: Zhang, H.;Yao, Y.;Payne, Marcia M.;Anthony, J. E.;Brill, J. W.;
2:522:3 Interlayer thermal conductivity of rubrene measured by ac-calorimetry
DOI:10.1063/1.4816468 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:1 AU: Zhang, H.;Brill, J. W.;
2:523:1 Probing the Cooperative Nature of the Conductive Components in Polystyrene/Poly(3,4-ethylenedioxythiophene): Poly(styrene sulfonate)-Single-Walled Carbon Nanotube Composites
DOI:10.1021/nn901643h JN:ACS NANO PY:2010 TC:23 AU: Hermant, Marie-Claire;van der Schoot, Paul;Klumperman, Bert;Koning, Cor E.;
2:523:2 Preparation and characterization of poly(3,4-ethylenedioxythiophene)-poly(styrene sulfonate) composite thin films highly loaded with platinum nanoparticles
DOI:10.1016/j.matchemphys.2011.02.031 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:5 AU: Chang, Chao-Ching;Jiang, Ming-Tai;Chang, Chen-Liang;Lin, Cheng-Lan;
2:524:1 Resonance Light Scattering in Dye-Aggregates Forming in Dewetting Droplets
DOI:10.1021/nn5040839 JN:ACS NANO PY:2014 TC:1 AU: Tisserant, Jean-Nicolas;Broennimann, Rolf;Hany, Roland;Jenatsch, Sandra;Nueesch, Frank A.;Mezzenga, Raffaele;Bona, Gian-Luca;Heier, Jakob;
2:524:2 Fast Assembly of Cyanine Dyes into Aggregates onto [6,6]-Phenyl C-61-Butyric Acid Methyl Ester Surfaces from Organic Solvents
DOI:10.1021/la903313k JN:LANGMUIR PY:2010 TC:6 AU: Heier, Jakob;Steiger, Rolf;Nueesch, Frank;Hany, Roland;
2:524:3 Dewetting-driven hierarchical self-assembly of small semiconducting molecules
DOI:10.1039/c2sm25288k JN:SOFT MATTER PY:2012 TC:3 AU: Tisserant, Jean-Nicolas;Hany, Roland;Partel, Stefan;Bona, Gian-Luca;Mezzenga, Raffaele;Heier, Jakob;
2:524:4 Three dimensional analysis of self-structuring organic thin films using time-of-flight secondary ion mass spectrometry
DOI:10.1016/j.tsf.2011.04.018 JN:THIN SOLID FILMS PY:2011 TC:4 AU: Mayerhofer, Karl E.;Heier, Jakob;Maniglio, Ylenia;Keller, Beat Andreas;
2:525:1 Study on the Size-Dependent Oxidation Reaction Kinetics of Nanosized Zinc Sulfide
DOI:10.1155/2014/856489 JN:JOURNAL OF NANOMATERIALS PY:2014 TC:0 AU: Fu, Qing-Shan;Xue, Yong-Qiang;Cui, Zi-Xiang;Wang, Ming-Fang;
2:525:2 Properties of hybrid organic-inorganic systems: Au nanoparticles embedded into an organic CuPc matrix
DOI:10.1063/1.3488809 JN:APPLIED PHYSICS LETTERS PY:2010 TC:4 AU: Aristov, V. Yu.;Molodtsova, O. V.;Laubschat, C.;Zhilin, V. M.;Aristova, I. M.;Kveder, V. V.;Knupfer, M.;
2:525:3 Morphology and properties of a hybrid organic-inorganic system: Al nanoparticles embedded into CuPc thin film
DOI:10.1063/1.4874161 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Molodtsova, O. V.;Aristova, I. M.;Babenkov, S. V.;Vilkov, O. V.;Aristov, V. Yu.;
2:525:4 Effect of Particle Size on Activation Energy for Thermal Decomposition of Nano-CaCO3
DOI:10.1166/jctn.2013.2735 JN:JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE PY:2013 TC:2 AU: Cui, Zixiang;Xue, Yongqiang;Xiao, Libai;Wang, Tingting;
2:525:5 Application of Non-Arrhenius Equations in Interpreting Calcium Carbonate Decomposition Kinetics: Revisited
DOI:10.1111/j.1551-2916.2009.03421.x JN:JOURNAL OF THE AMERICAN CERAMIC SOCIETY PY:2010 TC:6 AU: Chen, Haixiang;Liu, Naian;
2:526:1 Influence of Annulene Ratio on the Electrochemical and Spectroscopic Properties of Methano[10]Annulene-Thiophene Random Copolymers
DOI:10.1021/am200409b JN:ACS APPLIED MATERIALS & INTERFACES PY:2011 TC:3 AU: Elbaz, Giselle A.;Repka, Lindsay M.;Tovar, John D.;
2:526:2 Improving electrochromic properties via copolymerization
DOI:10.1088/0964-1726/19/6/065005 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:8 AU: Taskin, Asli Tuba;Balan, Abidin;Udum, Yasemin Arslan;Toppare, Levent;
2:526:3 Fred Wudl. Discovering new science through making new molecules
DOI:10.1039/c0jm90123g JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:1 AU: Bendikov, Michael;Martin, Nazario;Perepichka, Dmitrii F.;Prato, Maurizio;
2:526:4 Synthesis and optical properties of fused aromatic thienopyrazine based pi-conjugated polymers
DOI:10.1088/0964-1726/20/7/075013 JN:SMART MATERIALS & STRUCTURES PY:2011 TC:1 AU: Kolay, Merve;Tarkuc, Simge;Udum, Yasemin Arslan;Toppare, Levent;
2:526:5 Utilization of novel bithiazole based conducting polymers in electrochromic applications
DOI:10.1088/0964-1726/21/2/025019 JN:SMART MATERIALS & STRUCTURES PY:2012 TC:4 AU: Camurlu, Pinar;Gultekin, Cemil;
2:527:1 Influence of absorbed moisture on desizing of poly(vinyl alcohol) on cotton fabrics during atmospheric pressure plasma jet treatment
DOI:10.1016/j.apsusc.2010.01.091 JN:APPLIED SURFACE SCIENCE PY:2010 TC:22 AU: Peng, Shujing;Liu, Xiulan;Sun, Jie;Gao, Zhiqiang;Yao, Lan;Qiu, Yiping;
2:527:2 The effect of plasma pre-treatment on NaHCO3 desizing of blended sizes on cotton fabrics
DOI:10.1016/j.apsusc.2012.01.124 JN:APPLIED SURFACE SCIENCE PY:2012 TC:6 AU: Li, Xuming;Qiu, Yiping;
2:527:3 Influence of He/O-2 atmospheric pressure plasma jet treatment on subsequent wet desizing of polyacrylate on PET fabrics
DOI:10.1016/j.apsusc.2011.10.009 JN:APPLIED SURFACE SCIENCE PY:2012 TC:6 AU: Li, Xuming;Lin, Jun;Qiu, Yiping;
2:527:4 Helium/oxygen atmospheric pressure plasma jet treatment for hydrophilicity improvement of grey cotton knitted fabric
DOI:10.1016/j.apsusc.2011.03.064 JN:APPLIED SURFACE SCIENCE PY:2011 TC:9 AU: Tian, Liqiang;Nie, Huali;Chatterton, Nicholas P.;Branford-White, Christopher J.;Qiu, Yiping;Zhu, Limin;
2:527:5 The application of He/O-2 atmospheric pressure plasma jet and ultrasound in desizing of blended size on cotton fabrics
DOI:10.1016/j.apsusc.2012.04.152 JN:APPLIED SURFACE SCIENCE PY:2012 TC:10 AU: Li, Xuming;Qiu, Yiping;
2:527:6 Surface chemical characterization of PM10 samples by XPS
DOI:10.1016/j.apsusc.2014.03.178 JN:APPLIED SURFACE SCIENCE PY:2014 TC:4 AU: Atzei, Davide;Fantauzzi, Marzia;Rossi, Antonella;Fermo, Paola;Piazzalunga, Andrea;Valli, Gianluigi;Vecchi, Roberta;
2:528:1 Photonic sintering of thin film prepared by dodecylamine capped CuInxGa1 (-) Se-x(2) nanoparticles for printed photovoltaics
DOI:10.1016/j.tsf.2014.06.036 JN:THIN SOLID FILMS PY:2014 TC:2 AU: Singh, Manjeet;Jiu, Jinting;Sugahara, Tohru;Suganuma, Katsuaki;
2:528:2 Correlating SAXS analysis with LSPR behavior: poly(vinyl alcohol)-stabilized Ag nanoparticles
DOI:10.1007/s11051-011-0388-x JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:6 AU: Singh, Manjeet;Sinha, I.;Singh, A. K.;Mandal, R. K.;
2:528:3 Formation of fractal aggregates during green synthesis of silver nanoparticles
DOI:10.1007/s11051-010-0001-8 JN:JOURNAL OF NANOPARTICLE RESEARCH PY:2011 TC:10 AU: Singh, Manjeet;Sinha, I.;Singh, A. K.;Mandal, R. K.;
2:529:1 Dynamic characterization of photo-alignment of azo-dye-doped polymer using phase modulated polarimetry
DOI:10.1016/j.optmat.2012.09.026 JN:OPTICAL MATERIALS PY:2013 TC:1 AU: Chuang, Chun-I;Lin, Shivan-Huei;Chao, Yu-Faye;
2:529:2 Pulsed laser induced birefringence switching in a biopolymer matrix containing azo-dye molecules
DOI:10.1016/j.optmat.2011.02.034 JN:OPTICAL MATERIALS PY:2011 TC:7 AU: Mysliwiec, Jaroslaw;Ziemienczuk, Marta;Miniewicz, Andrzej;
2:529:3 Molecular Scale Conductance Photoswitching in Engineered Bacteriorhodopsin
DOI:10.1021/nl203965w JN:NANO LETTERS PY:2012 TC:8 AU: Berthoumieu, Olivia;Patil, Amol V.;Xi, Wang;Aslimovska, Lubica;Davis, Jason J.;Watts, Anthony;
2:529:4 Light-Controlled Spin Filtering in Bacteriorhodopsin
DOI:10.1021/nl503961p JN:NANO LETTERS PY:2015 TC:2 AU: Einati, Hila;Mishra, Debabrata;Friedman, Noga;Sheves, Mordechai;Naaman, Ron;
2:530:1 Novel poly-bridged-naphthalene with blue-light-emitting property via electropolymerization
DOI:10.1002/app.34846 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:1 AU: Zhu, Guang;Xu, Jingkun;Yue, Ruirui;Lu, Baoyang;Hou, Jian;
2:530:2 Electrodeposition of Free-Standing Poly(o-dihydroxybenzene-co-3-methylthiophene) Films with Tunable Fluorescence Properties
DOI:10.1002/app.31381 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:3 AU: Liu, Congcong;Xu, Jingkun;Fan, Changli;Lu, Baoyang;Dong, Bin;Liu, Guodong;
2:530:3 Novel redox-active polycarbazole-functionalized polycatechol network films produced by controlled electropolymerization
DOI:10.1002/app.36670 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Huang, Yao;Lu, Baoyang;Xu, Jingkun;Zhu, Guang;Chen, Shuai;Yue, Ruirui;
2:530:4 Poly(catechol) electroactive film and its electrochemical properties
DOI:10.1016/j.synthmet.2013.09.008 JN:SYNTHETIC METALS PY:2013 TC:1 AU: Marczewska, B.;Przegalinski, M.;
2:530:5 Electrochemical Polymerization of p-Terphenyl in Mixed Electrolyte of Boron Trifluoride Diethyl Etherate and CH2Cl2
DOI:10.1002/app.30927 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:3 AU: Zhou, Weigiang;Xu, Jingkun;Du, Yukou;Yang, Ping;
2:530:6 Direct Low-Potential Electropolymerization of 9,10-Dihydrophenanthrene in Boron Trifluoride Diethyl Etherate
DOI:10.1002/app.31078 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:6 AU: Nie, Guangming;Zhou, Liangjie;Zhang, Yan;Xu, Jingkun;
2:531:1 Synthesis, experimental and theoretical characterization, and field-effect transistor properties of a new class of dibenzothiophene derivatives: From linear to cyclic architectures
DOI:10.1039/c1jm13962b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:19 AU: Qiao, Yali;Wei, Zhongming;Risko, Chad;Li, Hong;Bredas, Jean-Luc;Xu, Wei;Zhu, Daoben;
2:531:2 Synthesis and photovoltaic application of donor-acceptor type copolymers containing 9-cyanomethylenefluorene derivatives with chemically tunable electronic properties
DOI:10.1016/j.synthmet.2011.04.025 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Sato, Shigeyoshi;Hashimoto, Kazuhito;Tajima, Keisuke;
2:531:3 New cyclic oligothiophenes and their co-oligomers derivatives of molecular engineering interest
DOI:10.1016/j.synthmet.2014.04.025 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Benmensour, Mohamed Ali;Djennane-Bousmaha, Sema;Boucekkine, Abdou;
2:532:1 Liquid Crystals Nanocomposites for Photovoltaic Applications: Structural Properties
DOI:10.1080/15421406.2014.917495 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:1 AU: Martinez-Miranda, L. J.;Taylor, Jefferson W.;Kurihara, Lynn K.;
2:532:2 Liquid crystal-ZnO nanoparticle photovoltaics: Role of nanoparticles in ordering the liquid crystal
DOI:10.1063/1.3511736 JN:APPLIED PHYSICS LETTERS PY:2010 TC:5 AU: Martinez-Miranda, L. J.;Traister, Kaitlin M.;Melendez-Rodriguez, Iriselies;Salamanca-Riba, Lourdes;
2:532:3 ZnO nanorod-smectic liquid crystal composites: Role of ZnO particle size, shape, and concentration on liquid crystal order and current-voltage properties
DOI:10.1063/1.4874266 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:2 AU: Branch, J.;Thompson, R.;Taylor, J. W.;Salamanca-Riba, L.;Martinez-Miranda, L. J.;
2:533:1 ZnO:Al cathode for highly efficient, semitransparent 4% organic solar cells utilizing TiOx and aluminum interlayers
DOI:10.1063/1.3685718 JN:APPLIED PHYSICS LETTERS PY:2012 TC:13 AU: Bauer, Andreas;Wahl, Tina;Hanisch, Jonas;Ahlswede, Erik;
2:533:2 Angle-specific transparent conducting electrodes with metallic gratings
DOI:10.1063/1.4886381 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:0 AU: Rivolta, N. X. A.;Maes, B.;
2:533:3 Comparative studies on damages to organic layer during the deposition of ITO films by various sputtering methods
DOI:10.1016/j.apsusc.2013.08.065 JN:APPLIED SURFACE SCIENCE PY:2013 TC:3 AU: Lei, Hao;Wang, Meihan;Hoshi, Yoichi;Uchida, Takayuki;Kobayashi, Shinichi;Sawada, Yutaka;
2:533:4 A study of deposition of ITO films on organic layer using facing target sputtering in Ar and Kr gases
DOI:10.1016/j.tsf.2009.08.059 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Lei, Hao;Ichikawa, Keisuke;Hoshi, Yoichi;Wang, Meihan;Uchida, Takayuki;Sawada, Yutaka;
2:534:1 Bipolar Polymer Semiconductor Blends of C-60-End-Capped Poly(4-diphenylaminostyrene) and Poly(4-diphenylaminostyrene): One-Pot Synthesis and Charge-Transport Properties
DOI:10.1002/app.33864 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:5 AU: Natori, Itaru;Natori, Shizue;Sekikawa, Hiroyuki;Takahashi, Tomoyuki;Sato, Hisaya;
2:534:2 Poly(4-diphenylaminostyrene) with a well-defined polymer chain structure: Controllable optical and electrical properties
DOI:10.1016/j.polymer.2010.01.054 JN:POLYMER PY:2010 TC:12 AU: Natori, Itaru;Natori, Shizue;Sekikawa, Hiroyuki;Takahashi, Tomoyuki;Ogino, Kenji;Tsuchiya, Kousuke;Sato, Hisaya;
2:534:3 Synthesis and Characterization of Poly(4-diphenylaminostyrene)-Poly(9-vinylanthracene) Binary Block Copolymer
DOI:10.1002/app.32365 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:5 AU: Natori, Itaru;Natori, Shizue;Sekikawa, Hiroyuki;Takahashi, Tomoyuki;Sato, Hisaya;
2:534:4 Thin film of a porphyrin-end-functionalized poly(cyclohexane)/fullerene-end-functionalized poly(4-diphenylaminostyrene) blend: Control of microphase separation in a light-harvesting system for polymer solar cells
DOI:10.1002/app.38647 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:2 AU: Natori, Itaru;Natori, Shizue;Kanasashi, Anna;Tsuchiya, Kosuke;Ogino, Kenji;
2:535:1 Direct Detection of the Ultrafast Response of Charges and Molecules in the Photoinduced Neutral-to-Ionic Transition of the Organic Tetrathiafulvalene-p-Chloranil Solid
DOI:10.1103/PhysRevLett.105.258302 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:17 AU: Uemura, H.;Okamoto, H.;
2:535:2 Excitation-Photon-Energy Selectivity of Photoconversions in Halogen-Bridged Pd-Chain Compounds: Mott Insulator to Metal or Charge-Density-Wave State
DOI:10.1103/PhysRevLett.113.096403 JN:PHYSICAL REVIEW LETTERS PY:2014 TC:0 AU: Matsuzaki, H.;Iwata, M.;Miyamoto, T.;Terashige, T.;Iwano, K.;Takaishi, S.;Takamura, M.;Kumagai, S.;Yamashita, M.;Takahashi, R.;Wakabayashi, Y.;Okamoto, H.;
2:535:3 Incoherence induced by phonon excitations in domain-growth dynamics: Role of the domain center-of-gravity motion
DOI:10.1103/PhysRevB.84.235139 JN:PHYSICAL REVIEW B PY:2011 TC:1 AU: Iwano, K.;
2:536:1 High efficiency all phosphorescent white light-emitting diodes based on conjugated polymer host
DOI:10.1016/j.synthmet.2011.08.018 JN:SYNTHETIC METALS PY:2011 TC:2 AU: Niu, Qiaoli;Peng, Junbiao;Zhang, Yong;Zhang, Yong;Liang, Bo;
2:536:2 Polyethyleneoxide/sodium dodecyl sulfate as hole-blocking/electron-transporting layer for high-performance blue polymer light-emitting diode with oxygen- and moisture-stable aluminum cathode
DOI:10.1063/1.3452329 JN:APPLIED PHYSICS LETTERS PY:2010 TC:3 AU: Wu, Jiun-Shian;Lu, Hsin-Hung;Hung, Wei-Chun;Lin, Guan-Hong;Chen, Show-An;
2:536:3 Effect of methanol treatment on performance of phosphorescent dye doped polymer light-emitting diodes
DOI:10.1016/j.synthmet.2010.08.022 JN:SYNTHETIC METALS PY:2010 TC:3 AU: Niu, Qiaoli;Wang, Xin;Zhou, Jianli;Wang, Yongli;Zhang, Yong;
2:536:4 Efficient multilayer red fluorescent polymer light-emitting diodes by host and guest blend system
DOI:10.1016/j.synthmet.2010.01.037 JN:SYNTHETIC METALS PY:2010 TC:1 AU: Syu, Wun-Shing;Lin, Sheng-Chia;Tseng, Shin-Rong;Chen, Chun-Yu;Liu, Chang-Yao;Chao, Yu-Chiang;Meng, Hsin-Fei;Horng, Sheng-Fu;
2:537:1 Sensing Amyloid-beta Aggregation Using Luminescent Dipyridophenazine Ruthenium(II) Complexes
DOI:10.1021/ja204656r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:29 AU: Cook, Nathan P.;Torres, Veronica;Jain, Disha;Marti, Angel A.;
2:537:2 Detection of alpha-Synuclein Amyloidogenic Aggregates in Vitro and in Cells using Light-Switching Dipyridophenazine Ruthenium(II) Complexes
DOI:10.1021/ja3100287 JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:12 AU: Cook, Nathan P.;Kilpatrick, Kiri;Segatori, Laura;Marti, Angel A.;
2:537:3 Unraveling the Photoluminescence Response of Light-Switching Ruthenium(II) Complexes Bound to Amyloid-beta
DOI:10.1021/ja404850u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:7 AU: Cook, Nathan P.;Ozbil, Mehmet;Katsampes, Christina;Prabhakar, Rajeev;Marti, Angel A.;
2:537:4 In Situ Monitoring Alzheimer's Disease ss-Amyloid Aggregation and Screening of A ss Inhibitors Using a Perylene Probe
DOI:10.1002/smll.201201543 JN:SMALL PY:2013 TC:8 AU: Li, Meng;Zhao, Chuanqi;Yang, Xinjian;Ren, Jinsong;Xu, Can;Qu, Xiaogang;
2:538:1 Photon-induced intramolecular charge transfer with the influence of D/A group and mode: optical physical properties and bio-imaging
DOI:10.1039/c3tc31506a JN:JOURNAL OF MATERIALS CHEMISTRY C PY:2013 TC:4 AU: Yu, Zhipeng;Zheng, Zheng;Yang, Mingdi;Wang, Lianke;Tian, Yupeng;Wu, Jieying;Zhou, Hongping;Xu, Hongmei;Wu, Zongquan;
2:538:2 Novel triphenylamine-cored two-photon absorbing dyes for labeling of biomolecules
DOI:10.1016/j.matchemphys.2011.08.008 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2011 TC:9 AU: Xiao, Haibo;Mei, Chong;Wang, Yaochuan;Li, Hui;Qian, Shixiong;Yin, Hongyao;Xu, Zhisong;
2:538:3 Synthesis, characterization, and NLO properties of novel chromophores based on dipicolinate
DOI:10.1016/j.synthmet.2010.04.007 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Xiao, Haibo;Wang, Lei;Tao, Xiaoming;Chen, Minjuan;
2:539:1 New rare-earth quinolinate complexes for organic light-emitting devices
DOI:10.1016/j.tsf.2012.09.085 JN:THIN SOLID FILMS PY:2013 TC:3 AU: Camargo, H.;Paolini, T. B.;Niyama, E.;Brito, H. F.;Cremona, M.;
2:539:2 Preparation of Stable Luminescent Poly(methyl methacrylate)-Europium Complex Nanospheres and Application in the Detection of Hydrogen Peroxide with the Biocatalytic Growth of Gold Nanoparticles
DOI:10.1002/app.38223 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:4 AU: Li, Zhanjun;Zhang, Hongwu;Shen, Jiangshan;
2:539:3 Preparation and photoluminescence properties of functionalized silica materials incorporating europium complexes
DOI:10.1016/j.optmat.2011.03.013 JN:OPTICAL MATERIALS PY:2011 TC:8 AU: Lourenco, A. V. S.;Kodaira, C. A.;Souza, E. R.;Felinto, M. C. F. C.;Malta, O. L.;Brito, H. F.;
2:539:4 Synthesis, Characterization, and Fluorescence Properties of Lanthanide Complexes with the Copolymers of 2-Butenedioic Acid (z)-Mono-Ethyl Ester and Styrene
DOI:10.1002/app.34436 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:2 AU: Hou, Li-Ping;Su, Yi-Bing;Yang, Ying;Gao, Ya-Ping;
2:540:1 Tuning interchain and intrachain interactions in polyfluorene copolymers
DOI:10.1103/PhysRevB.84.205311 JN:PHYSICAL REVIEW B PY:2011 TC:7 AU: Huang, Ya-Shih;Gierschner, Johannes;Schmidtke, Johanna P.;Friend, Richard H.;Beljonne, David;
2:540:2 Polarized pressure dependence of the anisotropic dielectric functions of highly oriented poly(p-phenylene vinylene)
DOI:10.1063/1.3330171 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:4 AU: Morandi, V.;Galli, M.;Marabelli, F.;Comoretto, D.;
2:540:3 Pressure-Induced Delocalization of Photoexcited States in a Semiconducting Polymer
DOI:10.1103/PhysRevLett.105.195501 JN:PHYSICAL REVIEW LETTERS PY:2010 TC:8 AU: Albert-Seifried, Sebastian;Hodgkiss, Justin M.;Laquai, Frederic;Bronstein, Hugo A.;Williams, Charlotte K.;Friend, Richard H.;
2:541:1 Highly efficient solution-processed white organic light-emitting diodes based on novel copolymer single layer
DOI:10.1016/j.synthmet.2011.08.010 JN:SYNTHETIC METALS PY:2012 TC:8 AU: Coya, Carmen;Luis Alvarez, Angel;Ramos, Mar;Gomez, Rafael;Seoane, Carlos;Luis Segura, Jose;
2:541:2 Synthesis of Highly Fluorescent and Soluble 1,2,4-Linking Hyperbranched Poly(arylenevinylene) Featuring Intramolecular Energy Funneling
DOI:10.1002/adfm.201000267 JN:ADVANCED FUNCTIONAL MATERIALS PY:2010 TC:5 AU: Xie, Zengqi;Yoon, Seong-Jun;Park, Soo Young;
2:541:3 Influence of the 1,2,4-linking hyperbranched poly(arylenevinylene) structure on organic light emitting diode performance as compared to conventional 1,3,5-linking one
DOI:10.1063/1.3585781 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Coya, C.;Alvarez, A. L.;Yoon, W. S.;Park, S. Y.;
2:541:4 Solution-processed white organic light-emitting diode based on a single-emitting small molecule
DOI:10.1016/j.synthmet.2010.07.017 JN:SYNTHETIC METALS PY:2010 TC:7 AU: Liu, Leijing;Chen, Feipeng;Xu, Bin;Dong, Yujie;Zhao, Zujin;Tian, Wenjing;Ping, Lu;
2:542:1 Effects of photocrosslinking on photorefractive properties in polymer-liquid crystal composites
DOI:10.1007/s00339-013-7983-x JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2014 TC:1 AU: Ono, Hiroshi;Hasebe, Ryoya;Sasaki, Tomoyuki;Noda, Kohei;Kawatsuki, Nobuhiro;
2:542:2 Real-time dynamic hologram in photorefractive ferroelectric liquid crystal with two-beam coupling gain coefficient of over 800 cm(-1) and response time of 8 ms
DOI:10.1063/1.4792735 JN:APPLIED PHYSICS LETTERS PY:2013 TC:5 AU: Sasaki, Takeo;Ikegami, Masashi;Abe, Tatsuya;Miyazaki, Daisuke;Kajikawa, Satoshi;Naka, Yumiko;
2:542:3 Photorefractive effect of photoconductive ferroelectric liquid crystalline mixtures composed of photoconductive chiral compounds and liquid crystal
DOI:10.1039/c1jm10405e JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Sasaki, Takeo;Miyazaki, Daisuke;Akaike, Komei;Ikegami, Masashi;Naka, Yumiko;
2:542:4 Optically induced light modulation in an hybrid nanocomposite system of inorganic CdSe/CdS nanorods and nematic liquid crystals
DOI:10.1016/j.optmat.2010.02.022 JN:OPTICAL MATERIALS PY:2010 TC:9 AU: Petti, Lucia;Rippa, Massimo;Fiore, Angela;Manna, Liberato;Mormile, Pasquale;
2:543:1 Coaxial carbon nanotube-polythiophene core-shell nanowire for efficient hole transport in heterojunction photovoltaic device
DOI:10.1063/1.3645587 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Chen, Yixuan;Gao, He;Luo, Yi;
2:543:2 Three-dimensional nano-networked P3MT/PCBM solar cells
DOI:10.1088/0957-4484/22/28/285203 JN:NANOTECHNOLOGY PY:2011 TC:4 AU: Gao, He;Chen, Yixuan;Luo, Yi;
2:543:3 Coaxial carbon nanotube-polythiophene core-shell nanowire for efficient hole transport in heterojunction photovoltaic device (vol 99, 143309, 2011)
DOI:10.1063/1.3679436 JN:APPLIED PHYSICS LETTERS PY:2012 TC:0 AU: Chen, Yixuan;Gao, He;Luo, Yi;
2:544:1 Device model for electronic processes at organic/organic interfaces
DOI:10.1063/1.4709210 JN:JOURNAL OF APPLIED PHYSICS PY:2012 TC:6 AU: Liu, Feilong;Ruden, P. Paul;Campbell, Ian. H.;Smith, Darryl L.;
2:544:2 Exciplex current mechanism for ambipolar bilayer organic light emitting diodes
DOI:10.1063/1.3640232 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Liu, Feilong;Ruden, P. Paul;Campbell, Ian H.;Smith, Darryl L.;
2:544:3 Electrostatic capacitance in single and double layer organic diodes
DOI:10.1063/1.4734379 JN:APPLIED PHYSICS LETTERS PY:2012 TC:3 AU: Liu, Feilong;Ruden, P. Paul;Campbell, Ian. H.;Smith, Darryl L.;
2:545:1 Structural Responses of DNA-DDAB Films to Varying Hydration and Temperature
DOI:10.1021/ja909514j JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2010 TC:12 AU: Neumann, Thorsten;Gajria, Surekha;Bouxsein, Nathan F.;Jaeger, Luc;Tirrell, Matthew;
2:545:2 The Role of Water H-Bond Imbalances in B-DNA Substate Transitions and Peptide Recognition Revealed by Time-Resolved FTIR Spectroscopy
DOI:10.1021/ja108863v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2011 TC:7 AU: Khesbak, Hassan;Saychuk, Olesya;Tsushima, Satoru;Fahmy, Karim;
2:545:3 The Role of Phospholipid Headgroup Composition and Trehalose in the Desiccation Tolerance of Caenorhabditis elegans
DOI:10.1021/la502654j JN:LANGMUIR PY:2014 TC:3 AU: Abusharkh, Sawsan E.;Erkut, Cihan;Oertel, Jana;Kurzchalia, Teymuras V.;Fahmy, Karim;
2:545:4 Water Replacement Hypothesis in Atomic Details: Effect of Trehalose on the Structure of Single Dehydrated POPC Bilayers
DOI:10.1021/la100891x JN:LANGMUIR PY:2010 TC:14 AU: Golovina, E. A.;Golovin, A.;Hoekstra, F. A.;Faller, R.;
2:546:1 One-Step Access to Luminescent Pentaaryldiazaboroles via C-C Double Bond Formation from Imidoylstannanes
DOI:10.1021/ja305806r JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:6 AU: Tian, Dawei;Jiang, Jiang;Hu, Hongfan;Zhang, Jianying;Cui, Chunming;
2:546:2 Diazaboroles with quinone units: hydrogen bonding network and n-type FETs involving a three-coordinate boron atom
DOI:10.1039/c1jm12650d JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:4 AU: Nishida, Jun-ichi;Fujita, Tomohiro;Fujisaki, Yoshihide;Tokito, Shizuo;Yamashita, Yoshiro;
2:546:3 Organic field-effect transistors based on novel organic semiconductors containing diazaboroles
DOI:10.1039/c1jm00002k JN:JOURNAL OF MATERIALS CHEMISTRY PY:2011 TC:11 AU: Kojima, Takahiro;Kumaki, Daisuke;Nishida, Jun-ichi;Tokito, Shizuo;Yamashita, Yoshiro;
2:547:1 Interfacial polymerization of carbazole: Morphology controlled synthesis
DOI:10.1016/j.synthmet.2009.11.014 JN:SYNTHETIC METALS PY:2010 TC:17 AU: Gupta, Bhavana;Prakash, Rajiv;
2:547:2 Calcium ion-sensor based on polyindole-camphorsulfonic acid composite
DOI:10.1002/app.36348 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:3 AU: Pandey, Prem C.;Chauhan, Dheeraj S.;Prakash, Rajiv;
2:547:3 Interfacial Polymerization of Poly(2,5-dimethoxyaniline) and Its Enhanced Capacitive Performances
DOI:10.1002/app.40666 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2014 TC:0 AU: Xiong, Shanxin;Shi, Yujing;Chen, Shi;Li, Jie;Wang, Xiaoqin;Chu, Jia;Gong, Ming;Wu, Bohua;
2:547:4 Electrolyte effects on various properties of polycarbazole
DOI:10.1016/j.tsf.2010.08.034 JN:THIN SOLID FILMS PY:2010 TC:10 AU: Gupta, Bhavana;Singh, Arun Kumar;Prakash, Rajiv;
2:548:1 Red Fluorescent 4-(Dicyanomethylene)-2-(1-pentylbicyclo[2,2,2]oct-4-yl)-6-(1,1,2,2,7,7-h examethyljulolidyl-9-enyl)-4H-pyran (DCHMJPB) for Organic Light-Emitting Diodes (OLEDs)
DOI:10.1080/15421406.2012.703810 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Kwon, Sung Min;Lee, Kum Hee;Kim, Young Kwan;Yoon, Seung Soo;
2:548:2 Ultra Simple Fluorescent White Organic Light-Emitting Diodes Using Fluorescent Green-Yellow Emitter and Blue Host
DOI:10.1080/15421401003609756 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:6 AU: Seo, Ji Hoon;Park, Jung Sun;Kim, Jun Ho;Lee, Kum Hee;Kim, Jung Yeon;Yoon, Seung Soo;Kim, Young Kwan;
2:548:3 Synthesis of Donor-Aromatic-Donor Type pi-conjugated Materials and their Application to Red Fluorescent Organic Light-Emitting Diodes
DOI:10.1080/15421406.2012.689155 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:0 AU: Na, Eun Jae;Lee, Kum Hee;Kim, Young Kwan;Yoon, Seung Soo;
2:548:4 An Efficient Red Organic Light-Emitting Diode Using DCJTB Type Emitters Based on Silicone-Containing Julolidine Derivatives
DOI:10.1080/15421406.2011.599776 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Lee, Kum Hee;Oh, Su Hyun;Park, Min Hye;Kim, Young Kwan;Yoon, Seung Soo;
2:549:1 Metal-Metal Quadruple Bonds Supported by 5-Ethynylthiophene-2-carboxylato Ligands: Preparation, Molecular and Electronic Structures, Photoexcited State Dynamics, and Application as Molecular Synthons
DOI:10.1021/ja400508u JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2013 TC:8 AU: Brown-Xu, Samantha E.;Chisholm, Malcolm H.;Durr, Christopher B.;Spilker, Thomas F.;
2:549:2 Electronic Structure and Excited-State Dynamics of the Molecular Triads: trans-M-2((TPB)-P-i)(2)[O2CC6H5-eta(6)-Cr(CO)(3)](2), Where M = Mo or W, and (TPB)-P-i=2,4,6-triisopropylbenzoate
DOI:10.1021/ja310651y JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2012 TC:5 AU: Brown-Xu, Samantha E.;Chisholm, Malcolm H.;Durr, Christopher B.;Gustafson, Terry L.;Naseri, Vesal;Spilker, Thomas F.;
2:549:3 Electronic Structure and Excited-State Dynamics of the Molecular Triads: trans-M-2((TPB)-P-i)(2)[O2CC6H5-eta(6)-Cr(CO)(3)](2), Where M = Mo or W, and (TPB)-P-i = 2,4,6-triisopropylbenzoate (vol 134, pg 20820, 2012)
DOI:10.1021/ja505627v JN:JOURNAL OF THE AMERICAN CHEMICAL SOCIETY PY:2014 TC:0 AU: Brown-Xu, Samantha E.;Chisholm, Malcolm H.;Durr, Christopher B.;Gustafson, Terry L.;Naseri, Vesal;Spilker, Thomas F.;
2:550:1 Heat capacity and phonon dispersion in polyselenophene in relation to the spectra of oligoselenophenes
DOI:10.1016/j.synthmet.2011.12.012 JN:SYNTHETIC METALS PY:2012 TC:2 AU: Gupta, Archana;Choudhary, Neetu;Agarwal, Parag;Tandon, Poonam;Gupta, V. D.;
2:550:2 Vibrational Dynamics of Gamma Form of Nylon 6 (gamma NY6)
DOI:10.1002/app.31717 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:5 AU: Shukla, Sandeep Kumar;Kumar, Naresh;Tandon, Poonam;Gupta, Vishwambhar Dayal;
2:550:3 Vibrational Dynamics and Heat Capacity of Polychloroprene
DOI:10.1002/app.33488 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:2 AU: Gupta, Archana;Agarwal, Parag;Choudhary, Neetu;Tandon, Poonam;Gupta, V. D.;
2:550:4 Phonon dispersion and specific heat in trans 1,4, poly (2,3-dimethylbutadiene)
DOI:10.1007/s10853-011-5250-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2011 TC:1 AU: Gupta, Archana;Bee, Saba;Agarwal, Parag;Tandon, Poonam;Gupta, Vishwambhar Dayal;
2:551:1 Optical density as a probe of carbon nanotubes dispersion in polymers
DOI:10.1002/app.39333 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2013 TC:4 AU: Combessis, Anthony;Mazel, Christelle;Maugin, Melek;Flandin, Lionel;
2:551:2 Synthesis and characterization of fullerene based systems for photovoltaic applications: Evidence for percolation threshold
DOI:10.1016/j.polymer.2011.10.042 JN:POLYMER PY:2011 TC:9 AU: Nourdine, Ali;Perrin, Lara;de Bettignies, Remi;Guillerez, Stephane;Flandin, Lionel;Alberola, Nicole;
2:551:3 A Thorough Study on the Relationships Between Dispersion Quality and Viscoelastic Properties in Carbon Black Filled SBR Compounds
DOI:10.1002/app.33793 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2011 TC:3 AU: Leblanc, Jean L.;Putman, Matthew;Pianhanuruk, Ekkawit;
2:552:1 The influence of an alkenyl terminal group on the mesomorphic behaviour and electro-optic properties of fluorinated terphenyl liquid crystals
DOI:10.1039/b914260f JN:JOURNAL OF MATERIALS CHEMISTRY PY:2010 TC:14 AU: Gasowska, Julita S.;Cowling, Stephen J.;Cockett, Martin C. R.;Hird, Michael;Lewis, Robert A.;Raynes, E. Peter;Goodby, John W.;
2:552:2 On the Nature of Molecular Associations, Static Permittivity and Dielectric Relaxation in a Uniaxial Nematic Liquid Crystal
DOI:10.1080/15421406.2012.686369 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:5 AU: Sinha, D.;Goswami, D.;Mandal, P. K.;Szczucinski, L.;Dabrowski, R.;
2:552:3 An all atom computer simulation study of the liquid crystalline phase behaviour of alkenic fluoroterphenyls
DOI:10.1039/c1sm06178j JN:SOFT MATTER PY:2011 TC:3 AU: Yan, Fangyong;Earl, David J.;
2:552:4 Influence of Molecular Core Structure and Chain Length on the Physical Properties of Nematogenic Fluorobenzene Derivatives
DOI:10.1080/15421406.2010.504617 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2010 TC:6 AU: Haldar, S.;Barman, S.;Mandal, P. K.;Haase, W.;Dabrowski, R.;
2:553:1 Excellent retention characteristics of nanocomposite gate insulator consisting of fullerene-containing polystyrene
DOI:10.1063/1.4812840 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Nakajima, Anri;Fujii, Daiki;Uchino, Masatoshi;
2:553:2 Charge redistribution in a charge storage layer containing C-60 molecules and organic polymers for long electron retention
DOI:10.1063/1.4767132 JN:APPLIED PHYSICS LETTERS PY:2012 TC:2 AU: Nakajima, Anri;Uchino, Masatoshi;
2:553:3 Excellent retention characteristics of nanocomposite gate insulator consisting of fullerene-containing polystyrene (vol 103, 013302, 2013)
DOI:10.1063/1.4817530 JN:APPLIED PHYSICS LETTERS PY:2013 TC:0 AU: Nakajima, Anri;Fujii, Daiki;Uchino, Masatoshi;
2:554:1 Comparison of the carrier mobility, unipolar conduction, and light emitting characteristics of phosphorescent host-dopant system
DOI:10.1016/j.synthmet.2012.11.008 JN:SYNTHETIC METALS PY:2012 TC:3 AU: Baek, Heume-Il;Lee, Changhee;Chin, Byung Doo;
2:554:2 Controlled host mixture and doping profile for ideal electrophosphorescent devices
DOI:10.1016/j.synthmet.2013.12.010 JN:SYNTHETIC METALS PY:2014 TC:0 AU: Chin, Byung Doo;Choi, Yuri;Lee, Changhee;
2:554:3 Energy transfer dynamics in organic light emitting diode emission layers doped with triplet emitters
DOI:10.1063/1.3631784 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Pandey, Lesley;Van der Auweraer, Mark;
2:555:1 A butterfly-like yellow luminescent Ir(III) complex and its application in highly efficient polymer light-emitting devices
DOI:10.1039/c2jm34992b JN:JOURNAL OF MATERIALS CHEMISTRY PY:2012 TC:5 AU: Fu, Lei;Pan, Mei;Li, Yan-Hu;Wu, Hong-Bin;Wang, Hai-Ping;Yan, Cheng;Li, Kang;Wei, Shi-Chao;Wang, Zi;Su, Cheng-Yong;
2:555:2 A New Yellow Emissive Fluorescent Material for Highly Efficient Organic Light-Emitting Diodes
DOI:10.1080/15421406.2011.563651 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:2 AU: Park, Na Rae;Ryu, Gweon Young;Moon, Se Jin;Seo, Ji Hoon;Kim, Young Kwan;Shin, Dong Myung;
2:555:3 Energy Transfer Efficiency Control from the Blue Emitting Aromatics to the Yellow Fluorescent Intramolecular Charge Transfer Type Dye for Electroluminescence
DOI:10.1080/15421406.2013.808149 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2013 TC:0 AU: Lee, Sung Nam;Lee, Seok Jae;Kim, Young Kwan;Shin, Dong Myung;
2:556:1 Balancing the white emission of OLEDs by a tandem structure with an effective charge generation layer
DOI:10.1016/j.synthmet.2013.03.013 JN:SYNTHETIC METALS PY:2013 TC:3 AU: Xiao, Jing;
2:556:2 Theoretical study on polyaniline gas sensors: Examinations of response mechanism for alcohol
DOI:10.1016/j.synthmet.2012.03.015 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Liu, Sha-Sha;Bian, Li-Jun;Luan, Feng;Sun, Meng-Tao;Liu, Xiao-Xia;
2:556:3 Theoretical study of organic molecules containing N or S atoms as receptors for Hg(II) fluorescent sensors
DOI:10.1016/j.synthmet.2011.11.003 JN:SYNTHETIC METALS PY:2012 TC:9 AU: Yan, Ming-Kuan;Zheng, Chao;Yin, Jun;An, Zhong-Fu;Chen, Run-Feng;Feng, Xiao-Miao;Song, Juan;Fan, Qu-Li;Huang, Wei;
2:557:1 Experimental assessment of nonergodicity in tetracene single crystals
DOI:10.1103/PhysRevB.86.024107 JN:PHYSICAL REVIEW B PY:2012 TC:1 AU: Parravicini, G. B.;Campione, M.;Marabelli, F.;Moret, M.;Sassella, A.;
2:557:2 Probing phase transitions and stability of organic semiconductor single crystals by dielectric investigation
DOI:10.1063/1.3531574 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:4 AU: Sassella, A.;Braga, D.;Campione, M.;Ciabattoni, T.;Moret, M.;Parravicini, J.;Parravicini, G. B.;
2:557:3 Thermal evolution of tetramethylammonium tetrafluoborate and perchlorate investigated through dielectric and IR spectroscopy
DOI:10.1016/j.matchemphys.2014.04.018 JN:MATERIALS CHEMISTRY AND PHYSICS PY:2014 TC:0 AU: Parravicini, G. B.;Marabelli, F.;Floris, F.;Pasquali, V.;Parravicini, J.;Ferloni, P.;
2:558:1 Synthesis and Photovoltaic Properties of Polythiophene Derivatives with Side Chains Containing C-60 End Group
DOI:10.1002/app.30863 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:2 AU: He, Youjun;Hou, Jianhui;Tan, Zhan'ao;Li, Yongfang;
2:558:2 Synthesis of a soluble polythiophene copolymer with thiophene-vinylene conjugated side chain and its applications in photovoltaic devices
DOI:10.1002/app.35078 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2012 TC:5 AU: Qu, Bo;Jiang, Zhongliang;Chen, Zhijian;Xiao, Lixin;Tian, Di;Gao, Chao;Wei, Wei;Gong, Qihuang;
2:558:3 Synthesis of New Conjugated Polymers as Hole Injection Layer and Performance of OLED Devices
DOI:10.1080/15421406.2011.600145 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2011 TC:1 AU: Yoo, Tae Wook;Park, Chul;Nguyen Thi Mai;Kim, Dong Uk;Park, Lee Soon;
2:559:1 Mechanochemical synthesis of granulated LTA zeolite from metakaolin
DOI:10.1007/s10853-012-6421-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2012 TC:9 AU: Prokof'ev, V. Yu;Gordina, N. E.;Zhidkova, A. B.;Efremov, A. M.;
2:559:2 Synthesis of type A zeolite from mechanoactivated metakaolin mixtures
DOI:10.1007/s10853-013-7425-3 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:2 AU: Prokof'ev, V. Yu;Gordina, N. E.;Efremov, A. M.;
2:559:3 Rapid synthesis of pure DD3R zeolite using ball-milled Sigma-1 seeds under static conditions
DOI:10.1007/s10853-013-7428-0 JN:JOURNAL OF MATERIALS SCIENCE PY:2013 TC:4 AU: Zheng, Fangyuan;Jing, Wenheng;Gu, Xuehong;Xu, Nanping;Dong, Junhang;
2:560:1 Rolling dielectric elastomer actuator with bulged cylindrical shape
DOI:10.1088/0964-1726/19/12/127001 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:2 AU: Potz, Marco;Artusi, Matteo;Soleimani, Maryam;Menon, Carlo;Cocuzza, Silvio;Debei, Stefano;
2:560:2 Preliminary investigation of a balloon-shape actuator based on electroactive elastomers
DOI:10.1088/0964-1726/19/4/047001 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:11 AU: Soleimani, Maryam;Menon, Carlo;
2:560:3 Bending fluidic actuator for smart structures
DOI:10.1088/0964-1726/20/3/035012 JN:SMART MATERIALS & STRUCTURES PY:2011 TC:2 AU: Chang, Benjamin Che-Ming;Berring, John;Venkataram, Manu;Menon, Carlo;Parameswaran, M.;
2:561:1 Electric field effects on bipolaron transport in heterocyclic conjugated polymers with application to polythiophene
DOI:10.1016/j.optmat.2010.03.028 JN:OPTICAL MATERIALS PY:2010 TC:2 AU: Li, Yaping;Lagowski, Jolanta B.;
2:561:2 Charge carrier mobility in conjugated organic polymers - Case studies using multi-step computational approach
DOI:10.1016/j.polymer.2011.08.011 JN:POLYMER PY:2011 TC:5 AU: Li, Yaping;Lagowski, Jolanta B.;
2:561:3 Novel conducting polymer current limiting devices for low cost surge protection applications
DOI:10.1063/1.4899246 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Jabarullah, Noor H.;Verrelli, Emanuele;Mauldin, Clayton;Navarro, Luis A.;Golden, Josh;Madianos, Leonidas;Tsoukalas, Dimitris;Kemp, Neil T.;
2:562:1 High-density pattern transfer via roll-to-roll ultraviolet nanoimprint lithography using replica mold
DOI:10.1116/1.4758922 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2012 TC:4 AU: Taniguchi, Jun;Yoshikawa, Hiroshi;Tazaki, Go;Zento, Toshiyuki;
2:562:2 Fabrication of antireflection structure film by roll-to-roll ultraviolet nanoimprint lithography
DOI:10.1116/1.4901877 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:2 AU: Moro, Masatoshi;Taniguchi, Jun;Hiwasa, Shin;
2:562:3 Assessment of release properties in UV nanoimprint lithography using high-aspect-ratio nanoscale molds
DOI:10.1116/1.3503896 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:4 AU: Takahashi, Junki;Taniguchi, Jun;Kamiya, Yasuhiro;
2:563:1 Fabrication of seamless three-dimensional roll mold using direct electron-beam writing on rotating cylindrical substrate
DOI:10.1116/1.3511474 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:1 AU: Taniguchi, Jun;Tsuji, Shintaro;Aratani, Masao;
2:563:2 Large-diameter roll mold fabrication method using a small-diameter quartz roll mold and UV nanoimprint lithography
DOI:10.1116/1.3657524 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2011 TC:3 AU: Taniguchi, Jun;Unno, Noriyuki;Maruyama, Hiroki;
2:563:3 Fabrication of spin-polarized electron emitter with single << 110 >>-oriented magnetite whisker
DOI:10.1116/1.3356901 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2010 TC:2 AU: Okada, Morihiro;Neo, Youichiro;Mimura, Hidenori;Nagai, Shigekazu;Hata, Koichi;
2:564:1 Top-emitting organic light-emitting device with high efficiency and low voltage using a silver-silver microcavity
DOI:10.1016/j.tsf.2009.11.063 JN:THIN SOLID FILMS PY:2010 TC:9 AU: Zhang, Xiao-Wen;Li, Jun;Zhang, Liang;Jiang, Xue-Yin;Haq, Khizar-ul;Zhu, Wen-Qing;Zhang, Zhi-Lin;
2:564:2 Efficient fluorescence from 9,10-bis(m-tolylphenylamino)anthracene doped into a blue matrix in Si-based top-emitting organic light-emitting diode
DOI:10.1016/j.tsf.2011.04.126 JN:THIN SOLID FILMS PY:2011 TC:1 AU: Zhang, Xiao-Wen;Jiang, Xue-Yin;Zhu, Wen-Qing;Zhang, Zhi-Lin;Liu, Xin-Yu;Wang, Hua;Xu, Hua-Rui;
2:564:3 Improved performance of Si-based top-emitting organic light-emitting device using MoOx buffer layer
DOI:10.1016/j.synthmet.2010.01.023 JN:SYNTHETIC METALS PY:2010 TC:4 AU: Zhang, Xiao-Wen;Li, Jun;Zhang, Liang;Lin, Hua-Ping;Jiang, Xue-Yin;Zhu, Wen-Qing;Zhang, Zhi-Lin;
2:565:1 Tuning open-circuit voltage in organic solar cells by magnesium modified Alq(3)
DOI:10.1063/1.3653259 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Chou, Chi-Ta;Lin, Chien-Hung;Wu, Meng-Hsiu;Cheng, Tzu-Wei;Lee, Jiun-Haw;Liu, Chin-Hsin J.;Tai, Yian;Chattopadhyay, Surojit;Wang, Juen-Kai;Chen, Kuei-Hsien;Chen, Li-Chyong;
2:565:2 A statistical nanomechanism of biomolecular patterning actuated by surface potential
DOI:10.1063/1.3533982 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:3 AU: Lin, Chih-Ting;Lin, Chih-Hao;
2:566:1 Nanocomposite of Polyaniline with the photoadduct of potassium hexacyanoferrate and pyridine ligand: Structural, electrical, mechanical and thermal study
DOI:10.1016/j.synthmet.2013.07.010 JN:SYNTHETIC METALS PY:2013 TC:6 AU: Rather, Mohammad Sideeq;Majid, Kowsar;Wanchoo, Ravinder Kumar;Singla, Madan Lal;
2:566:2 Nanocomposite of polypyrrole with the nanophotoadduct of sodium pentacyanonitrosylferrate(II) dihydrate and EDTA: A potential candidate for capacitor and a sensor for HF radio wave detection
DOI:10.1016/j.synthmet.2014.09.015 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Najar, Mohd. Hanief;Majid, Kowsar;
2:567:1 Characterization of indigo-doped poly(3-hexylthiophene):[6,6]-phenyl C61-butyric acid methyl ester bulk heterojunction solar cells
DOI:10.1016/j.tsf.2012.10.083 JN:THIN SOLID FILMS PY:2013 TC:1 AU: Lu, Yang-Ming;Wong, Jing-Syun;Hsu, Lien-Chung;
2:567:2 Improvements in barrier performance of perfluorinated polymer films through suppression of instability during film formation
DOI:10.1016/j.tsf.2009.11.084 JN:THIN SOLID FILMS PY:2010 TC:3 AU: Granstrom, Jimmy;Roy, Anshuman;Rowell, Griffin;Moon, Ji Sun;Jerkunica, Evan;Heeger, Alan J.;
2:568:1 Level statistics for quantum k-core percolation
DOI:10.1103/PhysRevB.86.064206 JN:PHYSICAL REVIEW B PY:2012 TC:0 AU: Cao, L.;Schwarz, J. M.;
2:568:2 Quantum k-core conduction on the Bethe lattice
DOI:10.1103/PhysRevB.82.104211 JN:PHYSICAL REVIEW B PY:2010 TC:2 AU: Cao, L.;Schwarz, J. M.;
2:569:1 Charge-transfer excitons in strongly coupled organic semiconductors
DOI:10.1103/PhysRevB.81.041201 JN:PHYSICAL REVIEW B PY:2010 TC:3 AU: Glowe, Jean-Francois;Perrin, Mathieu;Beljonne, David;Hayes, Sophia C.;Gardebien, Fabrice;Silva, Carlos;
2:569:2 Persistent polarization memory in sexithiophene nanostructures
DOI:10.1103/PhysRevB.83.041201 JN:PHYSICAL REVIEW B PY:2011 TC:0 AU: Gosselin, Benoit;Cardin, Vincent;Favron, Alexandre;De Jonghe, Jelissa;Dion-Bertrand, Laura-Isabelle;Silva, Carlos;Leonelli, Richard;
2:570:1 Effect of light scattering on the transmission spectra of organic nanocrystals
DOI:10.1063/1.3623434 JN:APPLIED PHYSICS LETTERS PY:2011 TC:2 AU: Ishino, Heisuke;Nair, Selvakumar V.;Nakagawa, Kazuya;Kobayashi, Takayoshi;Tokunaga, Eiji;
2:570:2 Absorption and emission spectra of molecular excitons in single perylene nanocrystals
DOI:10.1103/PhysRevB.84.041303 JN:PHYSICAL REVIEW B PY:2011 TC:4 AU: Ishino, Heisuke;Iwai, Shigeto;Iwamoto, Shunji;Okumura, Tsuneo;Nishimoto, Tomokazu;Nair, Selvakumar V.;Kobayashi, Takayoshi;Tokunaga, Eiji;
2:571:1 Multi-component nanocomposite for all-optical switching applications
DOI:10.1063/1.3646376 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Zhang, Yingbo;Hu, Xiaoyong;Yang, Hong;Gong, Qihuang;
2:571:2 Spatially resolved energy dispersive x-ray spectroscopic method for in-situ evaluation of mechanical properties during the growth of a C - Pt composite nanowire
DOI:10.1063/1.4879617 JN:AIP ADVANCES PY:2014 TC:0 AU: Banerjee, Amit;Banerjee, S. S.;
2:572:1 A Spider-Web-Like Highly Expandable Sensor Network for Multifunctional Materials
DOI:10.1002/adma.201000661 JN:ADVANCED MATERIALS PY:2010 TC:14 AU: Lanzara, Giulia;Salowitz, Nathan;Guo, Zhiqiang;Chang, Fu-Kuo;
2:572:2 Design of micro-scale highly expandable networks of polymer-based substrates for macro-scale applications
DOI:10.1088/0964-1726/19/4/045013 JN:SMART MATERIALS & STRUCTURES PY:2010 TC:12 AU: Lanzara, G.;Feng, J.;Chang, F-K;
2:573:1 Phenomenological Interpretation of Impedance/Capacitance Measurements on Organic Electronic Devices Under Illumination
DOI:10.1080/15421406.2013.872344 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Santos, L. F.;Pereira, C. J.;
2:573:2 Efficiency of extrinsic and intrinsic charge-carrier photogeneration processes obtained from the steady-state photocurrent action spectra of poly(p-phenylene vinylene) derivatives
DOI:10.1007/s00339-012-6925-3 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2012 TC:2 AU: Cazati, T.;Santos, L. F.;Reis, F. T.;Faria, R. M.;
2:574:1 Effect of the oligothiophene chain length on the performance of organic photovoltaic cells
DOI:10.1007/s00339-012-7046-8 JN:APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING PY:2013 TC:1 AU: Bedis, Hanene;Kouki, Faycal;Bouchriha, Habib;
2:574:2 The effect of chain length on the dielectric and optical properties of oligothiophenes
DOI:10.1016/j.synthmet.2011.05.020 JN:SYNTHETIC METALS PY:2011 TC:5 AU: Sears, W. M.;MacKinnon, C. D.;Kraft, T. M.;
2:575:1 Thermal roll-to-roll imprinted nanogratings on plastic film
DOI:10.1116/1.4897132 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2014 TC:0 AU: Unno, Noriyuki;Makela, Tapio;Taniguchi, Jun;
2:575:2 Nanograting transfer for light extraction in organic light-emitting devices
DOI:10.1063/1.3572336 JN:APPLIED PHYSICS LETTERS PY:2011 TC:4 AU: Wang, Ziyao;Hauss, Julian;Vannahme, Christoph;Bog, Uwe;Klinkhammer, Soenke;Zhao, Dong;Gerken, Martina;Mappes, Timo;Lemmer, Uli;
2:576:1 Charging process of polyurethane based composites under electronic irradiation: Effects of cellulose fiber content
DOI:10.1063/1.4822180 JN:APPLIED PHYSICS LETTERS PY:2013 TC:1 AU: Hadjadj, Aomar;Jbara, Omar;Tara, Ahmed;Gilliot, Mickael;Dellis, Jean-Luc;
2:576:2 Analysis of electrical charging and discharging kinetics of different glasses under electron irradiation in a scanning electron microscope
DOI:10.1063/1.3499692 JN:JOURNAL OF APPLIED PHYSICS PY:2010 TC:6 AU: Fakhfakh, S.;Jbara, O.;Rondot, S.;Hadjadj, A.;Patat, J. M.;Fakhfakh, Z.;
2:577:1 Diffusion of Ag into Organic Semiconducting Materials: A Combined Analytical Study Using Transmission Electron Microscopy and X-ray Reflectivity
DOI:10.1021/am301504j JN:ACS APPLIED MATERIALS & INTERFACES PY:2012 TC:7 AU: Fladischer, Stefanie;Neuhold, Alfred;Kraker, Elke;Haber, Thomas;Lamprecht, Bernhard;Salzmann, Ingo;Resel, Roland;Grogger, Werner;
2:577:2 Structure and morphology of an organic/inorganic multilayer stack: An x-ray reflectivity study
DOI:10.1063/1.3667171 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:2 AU: Neuhold, Alfred;Fladischer, Stefanie;Mitsche, Stefan;Flesch, Heinz-Georg;Moser, Armin;Novak, Jiri;Smilgies, Detlef M.;Kraker, Elke;Lamprecht, Bernhard;Haase, Anja;Grogger, Werner;Resel, Roland;
2:578:1 Improved electron injection of OLEDs with a thin PBD layer at Alq(3)/Cs2CO3 interface
DOI:10.1016/j.apsusc.2010.12.092 JN:APPLIED SURFACE SCIENCE PY:2011 TC:6 AU: Lian, Jiarong;Liu, Yawei;Niu, Fangfang;Zeng, Pengju;
2:578:2 Effectiveness of tris-(8-Hydroxyquinoline)-aluminum doped with cesium-derivatives in organic light-emitting diodes
DOI:10.1016/j.tsf.2010.01.007 JN:THIN SOLID FILMS PY:2010 TC:7 AU: Chen, Mei-Hsin;Lu, Yin-Jui;Wu, Chung-Chih;Wu, Chih-I;
2:579:1 Size distributions of chemically synthesized Ag nanocrystals
DOI:10.1063/1.3609077 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:1 AU: Thogersen, Annett;Bonsak, Jack;Fosli, Cari Huseby;Muntingh, Georg;
2:579:2 Solar induced growth of silver nanocrystals
DOI:10.1063/1.4795121 JN:JOURNAL OF APPLIED PHYSICS PY:2013 TC:0 AU: Thogersen, Annett;Muntingh, Georg;
2:580:1 Tailoring the composition of lead zirconate titanate by atomic layer deposition
DOI:10.1116/1.4775789 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2013 TC:1 AU: Choi, Ju H.;Zhang, Feng;Perng, Ya-Chuan;Chang, Jane P.;
2:580:2 Atomic layer deposition of Pb(Zr,Ti)O-x on 4H-SiC for metal-ferroelectric-insulator-semiconductor diodes
DOI:10.1063/1.3596574 JN:JOURNAL OF APPLIED PHYSICS PY:2011 TC:5 AU: Zhang, Feng;Perng, Ya-Chuan;Choi, Ju H.;Wu, Tao;Chung, Tien-Kan;Carman, Gregory P.;Locke, Christopher;Thomas, Sylvia;Saddow, Stephen E.;Chang, Jane P.;
2:581:1 A tunable hemispherical platform for non-stretching curved flexible electronics and optoelectronics
DOI:10.1063/1.4891460 JN:JOURNAL OF APPLIED PHYSICS PY:2014 TC:1 AU: Zhuang, Jinda;Ju, Y. Sungtaek;
2:581:2 Capillary instability on an elastic helix
DOI:10.1039/c3sm52629a JN:SOFT MATTER PY:2014 TC:2 AU: Jung, Sunghwan;Clanet, Christophe;Bush, John W. M.;
2:582:1 Unexpected new phase detected in FT30 type reverse osmosis membranes using scanning transmission X-ray microscopy
DOI:10.1016/j.polymer.2011.07.001 JN:POLYMER PY:2011 TC:7 AU: Mitchell, Gary E.;Mickols, Bill;Hernandez-Cruz, Daniel;Hitchcock, Adam;
2:582:2 New Sets of Solubility Parameters of Linear and Crosslinked Aromatic Polyamides
DOI:10.1002/app.31398 JN:JOURNAL OF APPLIED POLYMER SCIENCE PY:2010 TC:1 AU: Fiori, Stefano;Monticelli, Orietta;Alzari, Valeria;Mariani, Alberto;
2:583:1 Electron-injecting properties of Rb2CO3-doped Alq(3) thin films in organic light-emitting diodes
DOI:10.1116/1.4798302 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A PY:2013 TC:0 AU: Park, Jin Woo;Lim, Jong Tae;Oh, Jong Sik;Kim, Sung Hee;Phuong Pham Viet;Jhon, Myung S.;Yeom, Geun Young;
2:583:2 Light-emitting characteristics of organic light-emitting diodes with the MoOx-doped NPB and C-60/LiF layer
DOI:10.1016/j.tsf.2009.12.108 JN:THIN SOLID FILMS PY:2010 TC:4 AU: Kwon, Jae Wook;Lim, Jong Tae;Yeom, Geun Young;
2:584:1 Systematic combination of X-ray reflectometry and spectroscopic ellipsometry: A powerful technique for reliable in-fab metrology
DOI:10.1016/j.tsf.2010.12.075 JN:THIN SOLID FILMS PY:2011 TC:9 AU: Nolot, E.;Andre, A.;
2:584:2 Optical properties of TaTe2O7 thin films as absorber materials for extreme ultraviolet lithography binary masks
DOI:10.1116/1.4766879 JN:JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B PY:2012 TC:1 AU: Kang, Hee Young;Peranantham, Pazhanisami;Hwangbo, Chang Kwon;Seo, Hwan-Seok;Kim, Seong-Su;Lee, Jang Hoon;
2:585:1 On the Mechanism of Crystalline Polymorph Selection by Polymer Heteronuclei
DOI:10.1021/la200689a JN:LANGMUIR PY:2011 TC:22 AU: Lopez-Mejias, Vilmali;Knight, Jennifer L.;Brooks, Charles L., III;Matzger, Adam J.;
2:585:2 Peering at a Buried Polymer-Crystal Interface: Probing Heterogeneous Nucleation by Sum Frequency Generation Vibrational Spectroscopy
DOI:10.1021/la105067x JN:LANGMUIR PY:2011 TC:8 AU: McClelland, Arthur A.;Lopez-Mejias, Vilmali;Matzger, Adam J.;Chen, Zhan;
2:586:1 Template-free electrochemical preparation of dendritic copper nanowire and its capacitor properties
DOI:10.1016/j.matlet.2012.05.014 JN:MATERIALS LETTERS PY:2012 TC:2 AU: Asano, Yosuke;Nakaoka, Kei;Murashiro, Katsuyuki;Komatsu, Toshiki;Hoshino, Katsuyoshi;
2:586:2 Patterned procedure for template-synthesis and microstructural characterization of copper nanowires
DOI:10.1016/j.matchar.2009.12.021 JN:MATERIALS CHARACTERIZATION PY:2010 TC:3 AU: Song, Guojun;Li, Xiaoru;Wang, Yiqian;Peng, Zhi;Yu, Yongming;Li, Peidong;
2:587:1 An OLED Using Cellulose Paper as a Flexible Substrate
DOI:10.1080/15421406.2012.689153 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2012 TC:4 AU: Min, Sang-Hong;Kim, Chang Kyo;Lee, Ho-Nyeon;Moon, Dae-Gyu;
2:587:2 Flexible Organic Light-Emitting Diodes with Amorphous ITO Anodes on Transparent Cellulose Substrates
DOI:10.1080/15421406.2014.944337 JN:MOLECULAR CRYSTALS AND LIQUID CRYSTALS PY:2014 TC:0 AU: Min, Sang-Hong;Park, Dae-Seon;Kim, Chang Kyo;
2:588:1 Fabrication and characterization of tetracyanoquinodimethane/phthalocyanine solar cells
DOI:10.1016/j.mseb.2012.03.052 JN:MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE PY:2012 TC:6 AU: Suzuki, Atsushi;Ohtsuki, Takahiro;Oku, Takeo;Akiyama, Tsuyoshi;
2:588:2 Self-assembled multilayer films containing 1,8,15,22-tetrakis (8-quinolineoxy-5-sulfonic acid)-phthalocyanine copper: Preparation, and third order nonlinear optical properties
DOI:10.1016/j.optmat.2013.11.016 JN:OPTICAL MATERIALS PY:2014 TC:1 AU: He, Chunying;Fan, Jingze;Li, Zhongguo;Gao, Yachen;Chen, Zhimin;Song, Yinglin;Wu, Yiqun;Wang, Bin;
2:589:1 High color rendering white organic light-emitting diodes fabricated using a broad-bandwidth red phosphorescent emitter for lighting applications
DOI:10.1016/j.synthmet.2012.11.025 JN:SYNTHETIC METALS PY:2012 TC:4 AU: Xu, Fei;Lim, Jong Min;Kim, Hee Un;Mi, Dongbo;Lee, Jun Yeob;Joo, Chul Woong;Cho, Nam Sung;Lee, Jeong-Ik;Hwang, Do-Hoon;
2:589:2 Blue electroluminescence from polyhedral oligomeric silsesquioxane containing spirobifluorene trimers
DOI:10.1016/j.synthmet.2013.11.021 JN:SYNTHETIC METALS PY:2014 TC:1 AU: Park, Moo-Jin;Eom, Jae-Hoon;Kim, Hee Un;Kim, Ji-Hoon;Kim, Jun-Yeop;Lee, Changhee;Hwang, Do-Hoon;